WO2019226073A1 - Connecting/disconnecting mechanism for devices and modules - Google Patents

Abstract

Field of use: weapons, rocket design and mechanical engineering. The essence of the invention lies in the creation of a connecting/disconnecting mechanism for devices, which comprises a mechanism for coaxially connecting different devices during assembly and coaxially disconnecting same during flight, or for coaxially connecting a device to another device of a different type during assembly and coaxially detaching same, said connecting/disconnecting mechanism comprising a gas generator and a gas distribution mechanism. The technical result of the present invention is the creation and implementation of a connecting/disconnecting mechanism for the rapid coaxial connection and in-flight disconnection of devices and also for the rapid coaxial connection and detachment of a detachable device of one type and purpose from a main device of a different type and purpose, and can be used, in particular, in the construction of aerial bombs, gliding munitions, rockets, ammunition for grenade launchers, ammunition for artillery and recoilless guns and fire extinguishing devices which function and strike according to conventional and new principles, and the construction of other devices. The positive effects are easy connection and coaxial disconnection of devices, low manufacturing complexity, a relatively simple design, and a low weight.

Description

 "The connecting and disconnecting mechanism of devices, modules."

The invention relates to the field of mechanical engineering, namely to connecting and disconnecting mechanisms, and can be used for coaxially connecting devices, modules and subsequent separation of devices, modules, structures (hereinafter, “devices” will always be meant and this word will be included all possible devices, modules, designs) - in rocketry, in ammunition, in fire extinguishing means, other areas of the national economy.

 Currently, due to the high security of armored targets (the use of built-in dynamic defense, for example, the fourth generation of Malachite, capable of counteracting and destroying the most modern NATO anti-caliber shells, including the integration of systems of the Afghanistan’s active defense system with electrodynamic armoring with a proactive system detonation, as well as firing metal plates or throwing a massive armor cover of the dynamic protection of armored combat vehicles of the Armata family from the signal arrester inductance, while the received current from the coil

the inductance serves as a team for shooting off the damaging elements, as well as active armor protection systems, for example, the Russian “Afganit”, the Israeli “Trophy”), in this connection ammunition is required that can overcome

multilevel systems of active and passive defense of armored targets, and capable of causing maximum damage to targets equipped with various types of active, passive, dynamic and combined defense.

 Therefore, a new multiple principle is needed to defeat armored targets, with the separation of warheads into devices, and defeat armored targets sequentially, with the required predetermined time interval, with the necessary circular probable defeat by each device of the armored target, and the present invention is intended for this.

Currently, due to the fact that all the Armed Forces of the World, all military groups, gangs, and terrorist groups have very well learned to defend themselves and hide from all modern weapons systems, they are using increasingly sophisticated methods and techniques for these purposes, which makes everything weapons systems in many cases are poorly effective, and in many cases they are simply useless and are marked by huge losses of financial resources, with almost no visible results.

 Therefore, new types of high-precision warheads based on new principles of destruction are needed, and the present invention is intended to develop and manufacture new types of warheads having new principles of destruction.

 The invention relates to the field of connecting and disconnecting mechanisms and is intended for quick, coaxial connection and coaxial separation in flight, devices, in particular, modules of shells, grenade launchers, air bombs, planning munitions, missile modules characterized by the presence of coaxial, along the longitudinal axis, quickly shared in flight of sequentially arranged devices of various types and purposes, and can be used, in particular, in devices of missiles, air bombs, shots for grenade launchers, shot ov for

automated anti-tank mines, rounds for artillery and

recoilless guns having both conventional and new principles of destruction, for example double, triple and more multiple destruction of necessary objects with the necessary circular probable deviation, high-precision cluster munitions, having both conventional and new principles of destruction and other devices.

 The invention relates to the field of connecting and disconnecting mechanisms and is intended for quick, coaxial connection and separation from the main device, detachable devices characterized by the presence of coaxial, along the longitudinal axis, quickly or very quickly detachable sequentially

located devices of various types and purposes, and can be used in devices, in particular in automated means of double, triple and more multiple defeat of armored vehicles, anti-tank mines of long-range destruction of double, triple and more multiple defeats of armored vehicles, fire fighting mines of double, triple, multiple effects to a fire object, having both conventional and new fire extinguishing principles, and can be used in other devices.

Disconnectable devices, in the sense of the present invention, include all disconnectable devices and a detachable device from another device using a disconnect mechanism. The invention relates to the field of connecting and disconnecting mechanisms and can be used in ammunition devices, rocket and space technology, fire extinguishing means and can be used in other areas of the national economy, where instantaneous or quick coaxial separation or separation of devices and modules is necessary.

 The known separation mechanism of armor-piercing projectile (UK application N 2141809 from 03.01.85, IPC 3 F 42 B 8/00). [one].

 The warhead of an armor-piercing projectile contains at least two separate cumulative charges located one after another and not having a constant connection between each other. Pyrotechnic charge of the separation mechanism with its

igniter is located in the cavity between the cumulative charges and

intended for breeding the latter without changing the direction of their movement towards the target. Due to the discrepancy, the cumulative charges act on the target with a certain time interval one after another. [one].

 The closest in technical essence is an armor-piercing projectile - French patent N 2545923, F42B 12/10, published on 11.16.84, including two cumulative charges interconnected by shear pins, which are separated at a certain distance from the target by an explosion of a special separating charge, for example powder. Separating charge changes the speed of cumulative charges. The first charge is slightly accelerated, and the next is slightly

slows down so that the hit on the target occurs at intervals. Each of the two cumulative charges must have its own ignition system with

appropriate detonator. To obtain satisfactory results on breaking through the target, it is necessary that the separation time be accurately determined depending on the distance of the shot, for example, the separation time can

determined by regulating the detonation of the separating charge by

electronic fuse slow motion. [2].

The disadvantage of an armor-piercing projectile is that the cumulative charges are separated using a special separating charge, and at the beginning of the separation, the main gas flow is ejected from either side of the shell around the perimeter of the projectile through an unevenly formed gap and the gas pressure sharply increases in this place on the shells of the separated cumulative charges, which leads to a large lateral perturbation of the cumulative charges and which is able to fulfill mechanical work - to shift the axis of the shared cumulative charges during separation relative to the central axis of the projectile’s flight before separating the cumulative charges with uncontrolled torque, which leads to uncontrolled arbitrary rotation of the cumulative charges across the flight axis - clockwise and counterclockwise, that is, with the opposite direction of the uncontrolled arbitrary rotation of cumulative charges across the axis of flight without changing the direction of their movement towards the target, that is, cumulative charges will ut fly upside down, which makes it absolutely impossible to combat the problem shaped charges.

 Thus, the armor-piercing projectile separation device does not provide separation of the cumulative charges relative to each other in the longitudinal axial direction, that is, the task of coaxially separating the cumulative charges along the longitudinal axis of the flight and during the subsequent expansion of the cumulative charges in free flight, which are necessary to fulfill the set combat mission - the continuation of the flight of each device along one axial trajectory along the flight axis with the necessary circular probable deviation due to Nick large uncontrolled lateral perturbations in the separation of the two hollow charges.

 The specified armor-piercing projectile is the combination of essential features the closest mechanism of the same purpose to the declared

invention. Therefore, it is adopted as a prototype of the claimed invention.

 The above facts are confirmed by the lack of application of the above patents in the design of anti-tank ammunition [1] and [2].

 The technical problem to be solved by the claimed invention is directed, is to perform a connecting and disconnecting mechanism with

directional translational movement forward, backward in the axial direction of the cylinder and the stepped sleeve of the device so that the connection and

separation of devices is carried out strictly in the longitudinal direction of the axial line of the cylinder and the stepped sleeve and, in the continuation of separation, is performed in the longitudinal direction of the axial line of the cylinder and the stepped sleeve with a predetermined circular probable deviation of the device (1) from the axial line of the piston with the rod of the device (3). The technical problem to which the claimed invention is directed is the development of a simple to manufacture, reliable and easy-to-use connecting and disconnecting mechanism of various modifications for connecting and disconnecting devices in flight along the longitudinal axis of the flight with a gas distribution mechanism, to perform the necessary tasks reliable coaxial connection, reliable operation when exposed

operational loads - transport, launch, flight, connecting and dividing, that is, the creation of a simple and reliable mechanism for the coaxial connection of two devices, the creation of a simple and reliable mechanism for fixing the devices together in a connected state and release when the gas generator is initialized, the creation of the coaxial mechanism, along the longitudinal axis

separation of devices in flight to two independent devices, with minimal lateral disturbances close to zero, allowing further flight of the separated devices, along almost the same path with the minimum possible circular deviation from the path to the separation of devices, with different flight speeds of the devices.

 The technical problem to which the claimed invention is directed is the development of a simple to manufacture, reliable and easy-to-use connecting and disconnecting mechanism of various modifications for connecting and separating devices from stationary devices with a gas mechanism

distribution, to perform the necessary tasks and consists in reliable coaxial connection, reliable operation when exposed to operational loads - transport, connecting and separation, that is, the creation of a simple and reliable mechanism for the coaxial connection of two devices, the creation of a simple and reliable mechanism for fixing the devices together in a connected state and fixation during initialization of the gas generator, creation of a coaxial mechanism, along the longitudinal axis, of separation of one device from another device Twa, with minimal side disturbances - close to zero, allowing to make further flight separative device, in almost the same trajectory with minimal probable circular deviation from the path to the device compartment.

The technical problem to be solved by the claimed invention is directed is the development and manufacture of a docking / undocking mechanism, with the aim of coaxial connection during assembly and coaxial separation in flight of devices of various modifications.

 The technical problem to which the claimed invention is directed is the development and manufacture of a docking / undocking mechanism, with the aim of coaxially connecting the assembly and coaxially separating the device, of various modifications from another device.

 The technical problem to which the claimed invention is directed is the development and manufacture of a connecting and disconnecting mechanism comprising two devices interconnected by means of a connecting and disconnecting mechanism of various modifications with a gas distribution mechanism and comprising a gas generator with an actuating initiation mechanism and a control unit or control mechanism trigger actuator, and gas distribution mechanism.

 The technical problem to which the claimed invention is directed is the implementation of a gas distribution mechanism - a control mechanism, direction, distribution, balancing of gas flows with the aim of a controlled and controlled discharge of critical gas pressure from the combustion chamber of the cylinder through the gas distribution mechanism beyond the shared devices in order to fully or partially prevent the mechanical work of the expiration of the critical gas pressure from being performed - mechanically act on stroystva during disconnection device and completely or partially after the final

separation of devices, while the release of critical gas pressure capable of performing mechanical work through the gas distribution mechanism is performed in whole or in part during separation of the devices in the axial longitudinal direction - between the moment of the start of the release of critical gas pressure through the elements of the gas distribution mechanism and the second piston position - the moment of final separation of the working surfaces of the devices is along the axis of separation, while the gas distribution mechanism bstvuet lateral disturbances by itself to balance, the entire amount of all side disturbances is close to zero.

In this case, the release of critical gas pressure of an explosive nature from the cylinder is evenly distributed by the gas distribution mechanism along the perimeter of the disconnected devices and is evenly dumped in all directions from of disconnectable devices in order to prevent displacement of the axis of flight of the disconnectable devices during disconnection of devices, which is especially important and preferable for the implementation of this invention, while in the necessary embodiments, a certain displacement of the axis of separation of the axis of separation of the connected devices relative to the flight axis will be acceptable, but it must be done necessary task, work.

 The technical result provided by the claimed invention is the creation of a connecting and disconnecting mechanism of various modifications for coaxially connecting devices and coaxially disconnecting devices or coaxially separating one device from another along a longitudinal central axis

connecting and disconnecting mechanism.

 The technical result provided by the claimed invention is the relative simplicity of the design of the connecting and disconnecting mechanism, the reduction of shock load during separation of devices, the rapid separation of the device or separation of devices and the creation of an impulse for traction (acceleration) and the creation of additional traction.

 The technical result provided by the claimed invention is the efficiency of use, the compactness of the mechanism with its simplicity

manufacturing, convenience and simplicity of connecting devices together along the longitudinal axis of devices, fixing devices together in a connected state and unlocking devices before disconnecting or separating one device from another, the accuracy of separation along the longitudinal axis of devices in flight or separating the device from another device, and is provided by the gas distribution mechanism, which balances all lateral disturbances that occur during initialization of the gas generator and separation of devices or department If the device is connected to another device, that is, to balance itself, the whole sum of all lateral disturbances approaches zero.

 The essence of the invention lies in the fact that the connecting and disconnecting mechanism includes a device (1) with a cylinder (gas cylinder) and a device (3) with a piston (gas piston), contains a gas generator and a gas

distribution mechanism.

1. In this case, the device (1) comprises a cylinder with a stepped sleeve. At the same time, on the inner surface of the cylinder and the stepped sleeve, sequentially, from the cylinder bottom in the axial longitudinal direction of the cylinder and the stepped sleeve, the working section of the cylinder sleeve, the end face of the cylinder sleeve, the first working portion of the stepped sleeve, the end of the stepped sleeve are made.

 In this case, the working section of the cylinder sleeve receives the piston of the device (3) and forms a mating surface, the first working section of the stepped sleeve takes the first working section of the rod of the device (3) and forms a mating surface, while the piston interacts with the working sleeve of the cylinder, the rod interacts with the first working section of the stepped sleeve with the possibility of directional translational movement forward, backward in the axial direction of the working sleeve of the cylinder and the first working section of the stepped sleeve between the first piston position, in which the volume of the cylinder cavity bounded by the piston and the cylinder is minimal, and the second piston position - at the time of the final separation of the working surfaces of the device (1) with the working surfaces of the device (3), while the first piston position is limited by the stop between the contact surface of the device (1) and the thrust surface of the device (3), while the device (1) is made with gas elements

a distribution mechanism in the form of openings and / or grooves and / or air compartments for the purpose of controlling, directing, distributing, balancing gas flows with the aim of controlled and regulated discharge of critical gas pressure from the cylinder cavity of the cylinder to the elements of the device (1) and device (3) and beyond the limits of disconnected devices with the aim, in whole or in part, to prevent the mechanical work of the expiration of the critical gas pressure from being carried out - to mechanically, in whole or in part, act on the device (1) and in (3) during the separation of the devices, and fully or partially act on the device (1) and the device (3) after the final separation of the device (1) and the device (3), while the critical pressure of the gas capable of performing mechanical work is released through the gas distribution mechanism is fully or partially performed during the longitudinal movement of the working surfaces of the piston and the rod of the device (3) relative to the working surfaces of the working sleeve of the cylinder and the stepped sleeve of the device (1) in the longitudinal axial direction lenii (4) - between the beginning of discharge of the critical pressure of the gas through the elements of the gas distribution mechanism and the second piston position - at the time of the final separation of the working surfaces of the device (1) with the device (3).

 Moreover, in accordance with the invention, the connection and disconnection of devices is carried out simultaneously, at least at two points of pairing - at two working sections of the device with a cylinder and a stepped sleeve, which are interfaced and interact with at least two working sections of the device with a piston and rod, at the same time - the beginning of the connection and the final separation of the working surfaces of one device with the working surfaces of another device is carried out at least at two radial levels of the working areas constructions.

 Such a constructive solution of the invention provides the final separation of the devices simultaneously, at least at two levels of the working sections of the devices along the longitudinal axis of the cylinder and the stepped sleeve having different diameters, having cylindrical or / and non-circular working sections of the connection - disconnecting the devices along the longitudinal axial direction of the connecting-disconnecting mechanism and provides connection and

separation of modules along the longitudinal axial direction of devices without distortions and jamming between devices.

 Such a constructive solution of the invention provides the final separation of the devices in the longitudinal direction and the continuation of the flight of each device in the longitudinal direction along the axis of separation with the required predetermined circular probable deviation.

 In this case, the separation of devices is carried out in a straight flight, or with minimal lateral maneuvers, that is, without strong maneuvers and lateral displacements when divided into devices, thus, connected devices must go before separation in a straight flight or with a small permissible lateral displacement; or starting from the stop (for example, from the ground, equipment, vehicles), that is, without sharp maneuvers and lateral displacements when divided into devices, so flying connected devices must go before separation into a straight flight or with a small permissible lateral displacement with the goal of solving the problem of coaxial separation of devices.

Wherein: - the cylinder bottom is preferably made with a gas generator and an initialization actuator;

 - in the required predetermined execution case, the cylinder cavity is filled with the active substance of the gas generator with the actuator for initializing the active substance of the gas generator, while the cylinder cavity of the cylinder is filled with the active substance of the gas generator, for example, gunpowder, when assembling the devices under the necessary conditions, since accurate a hinge of a gas-generating substance and the necessary safety precautions;

 - in the required predetermined execution case, the housing of the device (1) contains a central jet engine, while the jet fuel of the jet engine performs the function of a gas generator containing, for example, gunpowder, pyroxylin, while the jet nozzle of the jet engine is made on the cylinder bottom and enters the cylinder cavity of the gas cylinder and is in functional constructive unity with the central jet engine, while the developed shock force from the initialization of the gas generator in the reactive Engine device for releasable substantially lower compared to

using a gas generator in the cylinder cavity of the cylinder;

 - in the required predetermined execution case, the jet nozzle of the central jet engine is made with a thrust plug of a predetermined profile, fixed in the necessary manner in the jet nozzle of the central jet engine from the bottom of the cylinder, while when the gas generator is initialized in the jet engine, the throttle plug of the specified profile

ejected from the jet engine nozzle; in this embodiment, the plug does not allow ignition of the gas generator in the jet engine when

initialization of the gas generator in the cylinder cavity of the cylinder;

- the device (1) contains a control unit or mechanism for initializing the mechanism of initialization of the mechanism and / or mechanisms and / and initializers of the gas generator and / or gas generators, while containing the necessary transmitting executive circuit or actuating chains for initializing the necessary mechanisms and gas generators, devices are disconnected in a programmable or controlled or other desired set mode, with certain necessary parameters; - in the required predetermined execution case, the inner surface of the working sleeve of the cylinder is made with holes or / and grooves of a given profile of the gas distribution mechanism;

 - in the required predetermined execution case, the working surface of the cylinder liner of the device (1) is made polygonal or non-circular (polygonal cutting of the cylinder liner, in essence, means the cylinder liner that does not have clearly defined fields and grooves in the cylinder liner, transitions between them smoothed out or any other type of cutting), which allows the use of a piston or piston with a lead sealing sleeve and pressed into the working sleeve of the cylinder, while on the working surface of the piston or

the sealing sleeve passes polygonal cutting, due to this, the devices are fixed among themselves, and the separation of the devices can occur both along the axis and with the necessary rotation (rotation) of the device in accordance with the cutting of the working sleeve (sleeve) of the cylinder. The friction forces in the threaded working sleeve of the cylinder are significantly greater than in the smooth working sleeve of the cylinder, however, the passage of the piston through the grooves allows it to rotate around the longitudinal axis of symmetry and stabilize the flight of the device after separation from the device (1) or vice versa

- allows you to give the rotation of the device (1) with a cylinder around the longitudinal axis of symmetry and stabilize the flight of the device (1) after separation with the device (3), or rotational movement is imparted to the device (1) and device (3). Since the piston leaves the working sleeve of the cylinder in a very short period of time, in the process of expansion of the powder gases before it leaves, no significant heat transfer to the environment takes place. The movement of the piston inside the sleeve is studied in detail by internal ballistics;

- in the required predetermined execution case, between the first working section of the step sleeve and the end face of the step sleeve of the device (1), the first step of the step sleeve with the expansion of the inner diameter of the step sleeve relative to the first working section of the step sleeve is made and the second working section is made in continuation of the first step of the step sleeve step sleeve to the end of the step sleeve of the device (1), that is, an additional working section of the step sleeve is required, which is necessary under certain conditions fulfillment for certain operating conditions; - in the required predetermined execution case, the cylinder bottom element is made with an internal conical or rounded, or predetermined profile surface of the device (1), while in the particular case, emphasis is placed on the specified surface of the piston bottom in the necessary case of execution with the variety of the cylinder bottom element;

 - in the required predetermined execution case, the end face of the working sleeve of the cylinder or / and the first step of the stepped sleeve and / or the end face of the stepped sleeve and / or the cylinder bottom element is made with the working function of abutting against a certain stop surface of the device (3), that is, the device is executed with a persistent surface with a variety of execution;

 - in the required predetermined execution case, the end face of the working sleeve of the cylinder and / or the first step of the step sleeve and / or the end face of the step sleeve is made in the form of a transition step with a variety of designs;

 - in the required predetermined execution case, the end face of the working sleeve of the cylinder and / or the first step of the step sleeve and / or the end face of the step sleeve is made in the form of a flat or conical, or rounded, or a given profile

the surface of the device (1), that is, is made with a given embodiment;

 - in the required predetermined execution case, the working surface of the working sleeve of the cylinder and / or the first working section of the stepped sleeve and / or the second working section of the stepped sleeve is made with round or / and non-circular section - the “non-circular” section in the sense of the present invention includes all sections, not having the shape of a circle, therefore, ellipses, polygonal, spline, gear types, hereinafter the so-called "non-circular section" will always be used as a working term;

 - in the required predetermined execution case, the end of the step sleeve is preferably made in the form of a flat or conical, or rounded, or predetermined profile surface of the device (1) wherein the end of the step sleeve is made with a round or / and non-circular section;

- in the required predetermined execution case, in the places of transitions from the working sleeve of the cylinder to the end of the working sleeve of the cylinder and / or from the first working section of the step sleeve to the groove of the specified profile and / or from the first working section of the step sleeve to the first step of the step sleeve and / or the second working section of the stepped sleeve to the groove of a given profile or / and from the second working of the section of the stepped sleeve to the end of the stepped sleeve of the device and / or from the end of the sleeve to the working surface of the sleeve and / or from the end of the sleeve to the seating socket of the sleeve, the necessary type of bevel is predominantly made, for example, a rounded, conical, radius, predetermined bevel in order to facilitate connection and separation of devices, while the chamfer is made with a round or / and non-circular section;

 - in the required predetermined execution case, at the points of transitions from the first working section of the step sleeve to the end of the cylinder sleeve or / and from the second working section of the step sleeve to the first step of the step sleeve

preferably made of a given fillet profile;

 - in the required predetermined execution case, at the points of transitions from the first working section of the step sleeve to the end of the cylinder sleeve or / and from the second working section of the step sleeve to the first step of the step sleeve

preferably, a predetermined groove profile is made in order to facilitate the processing of work surfaces with a working tool;

 - in the required predetermined case of execution, from the end face of the cylinder bushing of the device, at the required predetermined distance from the end face of the cylinder bushing, in the first working section of the step sleeve, a cone or smooth, predetermined profile is made, the step sleeve transitions to a smaller diameter of the working section of the step sleeve and the first working section of the step sleeve with a smaller diameter is made between the end face of the piston sleeve and the conical transition of the first working section of the step sleeve In order to fit a certain predetermined portion of the first portion of the working rod in the first working step portion of the sleeve with the necessary tightness with a view to fixing the device (1) with a device (3) with each other when connecting and fixing the gas generator races at initialization;

- in the required predetermined execution case, from the side of the first step of the step sleeve of the device (3), at the required predetermined distance from the step of the step sleeve in the second working section of the step sleeve, a conical or smooth, predetermined profile transition to a smaller diameter of the working section of the step sleeve is made and continuation of the cone section, the working section of the step sleeve with a smaller diameter is made, located between the first step of the step sleeve and the cone transition of the second working section step sleeve, in order to fit a certain predetermined section of the second working portion of the rod into the second working section of the step sleeve with the necessary interference to fix in order to fix the device (1) with the device (3) with each other during connection and release during initialization of the gas generator;

 - in the required predetermined execution case, on the middle or predetermined part of the first working portion of the stepped sleeve or between the end face of the cylinder sleeve and the first working portion of the stepped sleeve of the device (1), an element of the gas distribution mechanism is made - an air compartment in the form of a groove of round or non-circular section of a given profile with a diameter that is larger than the diameter of the first working portion of the stepped sleeve;

 - in the required predetermined case, on the middle or predetermined part of the second working section of the step sleeve or between the first step of the step sleeve and the second working section of the step sleeve of the device (1), an element of the gas distribution mechanism is made - an air compartment in the form of a groove of round or non-circular section of a given profile with a diameter that is larger than the diameter of the second working portion of the stepped sleeve;

 - in the required predetermined case of execution, the device (1) is mainly made with holes - elements of a gas distribution mechanism;

 - in the required predetermined case of execution, the device (1) is mainly made with grooves - elements of a gas distribution mechanism;

 - in the required predetermined execution case, the first working portion of the stepped sleeve and / or the second working portion of the stepped sleeve is made on the inner working surface of the sleeve, which is an integral part

a stepped sleeve of the device, while the sleeve is a separate part of the stepped sleeve and is in functional-structural unity with the stepped sleeve of the device (1) and is fixedly mounted in the landing socket of the stepped sleeve in the required predetermined way and implements the device for general functional purpose, with external and internal the surface of the working sleeve is made with a round or / and non-circular section;

 - in the required predetermined case of execution, the working sleeve of the stepped sleeve, which is an integral part of the stepped sleeve of the device

mainly made with elements of a gas distribution mechanism with holes and / or grooves, while being fixedly mounted sleeve, longitudinal grooves and longitudinal holes in the sleeves are optimally suited for controlled and controlled discharge of excess gas pressure from the cylinder cavity of the cylinder and make it possible to simplify and cheapen the manufacture of the connecting-disconnecting mechanism;

 - in the required predetermined execution case, the working sleeve has a conventional sleeve device or any other necessary type of sleeve for linear or linear radial movement, or anti-friction sleeve, or ball sleeve for longitudinal or longitudinal radial sliding, or linear bearing;

 - in the required predetermined execution case, the working stroke of the piston working section in the cylinder working sleeve is equal to the working stroke of the first rod working section in the first working section of the stepped sleeve, wherein

the final disconnection of the device (1) with the device (3) is carried out simultaneously on two paired working sections of the disconnected devices - between the working sleeve of the cylinder and the working section of the piston or the sealing part of the piston, and between the first working section of the stepped sleeve and the first working section of the rod, final disconnection of devices;

 - in the required predetermined execution case, the working stroke of the piston working section in the cylinder working sleeve is equal to the working stroke of the second rod working section (in the second working section of the step sleeve, while the final disconnection of the device (1) with the device (3) is performed simultaneously on two paired the working sections of the devices to be disconnected - between the working sleeve of the cylinder and the working section of the piston or the sealing part of the piston, and between the second working section of the stepped sleeve and the second working section ka, with a final separation is carried out devices;

- in the required predetermined execution case, the working stroke of the first working section of the rod in the first working section of the step sleeve is equal to the working stroke of the second working section of the rod in the second working section of the step sleeve, while the final disconnection of the device (1) with the device (3) is performed simultaneously on two paired working sections of disconnected devices - between the first working section of the stepped sleeve and the first working section of the rod, and between the second working section of the stepped sleeve and the second the working section of the rod, while the final disconnection of the devices;

 - in the required predetermined execution case, the working stroke of the piston working section in the cylinder working sleeve is equal to the working stroke of the first rod working section in the first step sleeve and equal to the working stroke of the second rod working section in the second working section of the step sleeve, while the device is finally disconnected (1) with device (3)

is carried out simultaneously on three paired working sections of disconnected devices - between the working sleeve of the cylinder and the working surface of the piston or the sealing part of the piston, between the first working section of the stepped sleeve and the first working section of the rod, and between the second working section of the stepped sleeve and the second guide working section of the rod, this completes the final disconnection of devices;

 - in the required predetermined execution case, the piston stroke in the cylinder working sleeve in the axial longitudinal direction is less than the first stroke of the rod in the first step of the step sleeve and less than the second stroke of the rod in the second step of the step bush, , after the piston leaves the end of the cylinder bushing, the critical pressure of the gas is released from the cylinder through the gas

the distribution mechanism, while the critical pressure of the gas capable of performing mechanical work is released through the gas distribution mechanism during the separation of the devices in the axial longitudinal direction - between the moment the piston ends the intersection of the end face of the cylinder bushing and the second piston position - at the time of the final separation of the workers

device surfaces;

 - the desired predetermined working surfaces of the device (1) are preferably made with the desired predetermined coating — with anti-friction lubricant and / or anti-friction coating in order to facilitate separation of the devices;

- if necessary, the case of the device (1) contains a jet engine, for example an annular one, equipped with at least two jet nozzles or contains at least two jet engines with jet nozzles, while the jet nozzles are made at the end of the step sleeve or the end of the device housing ( 1) and are in functional constructive unity with jet engines or a jet engine, while jet fuel of a jet engine performs the function of a gas generator containing, for example, gunpowder, pyroxylin, and contains an actuator for initialization of a gas generator with initialization of operation from an actuator for initialization or a delay line for initialization, while the jet engine or jet engines do the work of additional acceleration of separation of devices and the continuation of the flight of the device with acceleration after separation, which is necessary in certain operating conditions;

 - in the required predetermined case, jet engines

preferably made with radial balancing gas

distribution channels and / or an annular balancing gas distribution channel between jet engines and are in

functional and constructive unity with jet engines;

 - in the required predetermined execution case, the jet engine equipped with at least two jet nozzles is preferably made with radial balancing gas distribution channels and / or an annular balancing gas distribution channel, made between the radial balancing gas distribution channels and is in functional constructive unity with the jet engine ;

 - in the required predetermined execution case, on the device (1) the elements of the circumferential rotation prevention mechanism are made, which, in the required predetermined application cases, due to the design feature, performs the functions of directing the longitudinal direction of separation of the devices;

 - in the required predetermined execution case, on the device (1) the elements of the locking mechanism are made — the devices are locked — a seat under the sleeve with a magnet and a spring clip in which it is fixed,

in the proper way, the sleeve with the magnet and the spring clip are firmly fixed, while a bullet is inserted into the sleeve, which is pressed against the magnet due to

magnet attractive force;

- in the required predetermined execution case, on the device (1) the elements of the rigid connection mechanism are made - a separation unit with the initiation of disconnecting the device connection using the device separation mechanism; - in the required predetermined execution case, the device (1) is fixed to the device (3) preferably with glue, rubber rings and any other necessary fixing elements with the devices disconnected during initialization of the gas generator, that is, in particular, in the necessary places of the mating surfaces of the devices glue is applied and the devices are assembled, when the glue is cured, the devices are fixed to each other and only when the gas generator is triggered does the adhesive bond break or break um separation devices;

 - in the required specified case of execution, in accordance with the technical conditions, the cylinder and / or step sleeve or / and gas elements

the distribution mechanism and / or the elements of the locking mechanism - the locking and / or the elements of the mechanism for preventing circumferential rotation and / or the jet engines and / or the jet engine and / or all the details, elements and mechanisms of the device (1) are mainly made coaxially with the longitudinal axial line of the device;

 - in the required predetermined execution case, the stepped sleeve of the device (1) is made in the form of a separate structural member of the device, which is an integral part of the housing of the device, is fixedly mounted in the seat socket of the housing of the device in the required predetermined manner, while the external and / or internal surface of the working sleeve is made with a round and / or non-circular section;

 - in the required predetermined execution case, the working sleeve of the device’s cylinder (1) is made as a separate structural element of the device and is an integral part of the stepped sleeve of the device (1) or / and the cylinder, and / or the device’s body and is fixedly fixed in the mounting socket of the device’s body as necessary in a predetermined way, while the outer and / or inner surface of the working sleeve of the cylinder is made with a round and / or non-circular section;

 - in the required predetermined execution case, the cylinder bottom housing of the device (1) is made in the form of a separate structural element of the device and is an integral part of the working sleeve of the cylinder of the device (1) and / or

a stepped sleeve and / or the device case, while the working sleeve of the cylinder is fixedly mounted in the stepped sleeve and / or cylinder and / or in the device body in the required predetermined manner; - in the required predetermined execution case, the cylinder with the working sleeve of the cylinder and the stepped sleeve of the device (1) is made as a separate structural member of the device and is an integral part of the housing of the device, while the cylinder bottom is fixedly mounted on the working sleeve of the cylinder and / or on the stepped sleeve or / and in the device casing in the required predetermined manner, wherein the outer and / or inner surface of the cylinder with the working sleeve of the cylinder and the stepped sleeve is made with a round or / and non-circular section;

 - in the required predetermined execution case, the cylinder with the working sleeve of the cylinder of the device (1) is made in the form of a separate structural element of the device and is an integral part of the body of the device, while the cylinder with the working sleeve of the cylinder and the stepped sleeve is fixedly fixed in the device body in the necessary specified way the outer and / or inner surface of the cylinder with the working sleeve of the cylinder is made with a round and / or non-circular section;

 - in the required predetermined execution case, the working surface of the working sleeve of the cylinder and / or the first working section of the stepped sleeve and / or the second working section of the stepped sleeve is mainly made with a high class of surface cleanliness and is made to facilitate the connection and disconnection of devices;

 - in the required predetermined execution case, the working surface of the working sleeve of the cylinder and / or the first working section of the stepped sleeve and / or the second working section of the stepped sleeve is polished in order to facilitate connection and disconnection of the devices;

 - in the required predetermined execution case, the jet engine assembly is made in the form of a separate structural member of the device (1) and is fixedly mounted in the device body and is in functional-structural unity with the device and is made to facilitate the manufacture of the device;

- in the required predetermined execution case, the jet nozzles are made direct-directed along the longitudinal axis or / and are made with inclined nozzles and / or with oblique nozzles with the required predetermined type of deviation of the direction of the jet of outgoing gas from the jet engine nozzle relative to the central axis of the device; - if necessary, in accordance with the technical specifications, the jet nozzles of the jet engines or the jet engine are made with at least one radial arrangement with respect to the central axis of the device, thus the jet nozzles are located at least at one radial distance from the longitudinal device axis

 - if necessary, the control unit or control mechanism comprises a transmitting circuit or / and a connecting mechanism

the transmission chain between the device (1) and the device (3) to the specified

actuators and / or a gas generator initializer or gas generator initializers.

 2. In this case, the device (3) contains a piston with a rod (piston rod).

 Moreover, on the lateral surface of the piston working portion and the lateral surface of the rod in the axial longitudinal direction from the piston bottom

successively performed - the piston working section, the first step of the rod with an increase in the rod diameter relative to the piston working section, the first rod working section, the rod shoulder or the adjacent area of the device.

 In this case, the working section of the cylinder sleeve receives the piston of the device (3) and forms a mating surface, the first working section of the stepped sleeve takes the first working section of the rod of the device (3) and forms the mating surface, while the piston interacts with the working sleeve of the cylinder, the rod interacts with the first working section of the stepped sleeve with the possibility of directional translational movement forward, backward in the axial direction of the working sleeve of the cylinder and the first working section of the stepped sleeve between the first piston position, in which the volume of the cylinder cavity bounded by the piston and cylinder is minimal, and the second piston position - at the time of the final separation of the working surfaces of the device (1) with the working surfaces of the device (3), while the first piston position is limited by the stop between the contact surface of the device (1) and the thrust surface of the device (3), while the device (3) is made with gas elements

a distribution mechanism in the form of openings and / or grooves and / or air compartments for the purpose of controlling, directing, distributing, balancing gas flows with the aim of controlled and regulated discharge of critical gas pressure from the cylinder cavity of the cylinder to the elements of the device (1) and device (3) and per the limits of the devices to be disconnected in order to completely or partially prevent mechanical work of the expiration of the critical gas pressure — to act mechanically on the device (1) and device (3) when the devices are disconnected and after the device (1) and device (3) are finally disconnected, critical pressure of a gas capable of performing mechanical work through the gas distribution mechanism is performed in whole or in part during the longitudinal movement of the working surfaces of the piston and rod VA (3) relative to the working surfaces of the working sleeve of the cylinder and the stepped sleeve of the device (1) in the longitudinal axial direction - between the moment of the start of the release of critical gas pressure through the elements of the gas distribution mechanism and the second piston position - at the time of the final separation of the working surfaces of the device (1) with device (3).

 Wherein:

 - the piston bottom is preferably made with a gas generator and

initialization actuator;

 - in the required predetermined execution case, the housing of the device (3) contains a central jet engine, while the jet fuel of the jet engine performs the function of a gas generator containing, for example, gunpowder, pyroxylin, while the jet nozzle of the jet engine is made on the piston bottom and enters the cylinder cavity of the gas cylinder and is in

functional and constructive unity with the central jet engine. Moreover, the developed shock force from the initialization of the gas generator in the jet engine to the separable devices is significantly lower compared to

using a gas generator in the cylinder cavity of the cylinder;

 - in the required predetermined execution case, the jet nozzle of the central jet engine is made with a thrust plug of a predetermined profile fixed in the reactive nozzle of the central jet engine from the piston bottom side in the necessary manner, while when the gas generator is initialized in the jet engine, the throttle plug of the specified profile

ejected from the jet engine nozzle; in this embodiment, the plug does not allow ignition of the gas generator in the jet engine when

initialization of the gas generator in the cylinder cavity of the cylinder; - the device (3) contains a control unit or mechanism for initializing the mechanism for initiating the mechanism and / or mechanisms and / or initializers of the gas generator or gas generators, while it contains the necessary transmitting executive circuit or actuating chains for initializing the necessary mechanisms and gas generators, while disconnecting the devices It is carried out in a programmable or controlled or other necessary preset mode, with certain necessary parameters;

 - in the required predetermined execution case, the piston rod

preferably made in the form of a monolithic element of the device and acts as a gas piston;

 - in the required predetermined execution case, the rod is made with a rigid connection with the piston in the required predetermined manner;

 - in the required specified case, the stock is made in the form

monolithic rod or hollow rod, or combined rod, consisting of sections of monolithic and hollow sections of the rod of the required specified design;

 - in the required predetermined case of execution, between the first working portion of the rod and the shoulder of the rod or the adjacent region of the device, device (3) is made - the second ledge of the rod with an increase in the diameter of the rod relative to the first working portion of the rod and during the second ledge of the step sleeve made the second working section rod to the shoulder of the rod or the adjacent region of the device (3), that is, an additional working section of the stepped sleeve is made, which is necessary under certain conditions of execution for certain conditions of ex plutations;

 - in the required predetermined case of execution, the piston bottom element is made with a convex conical or rounded, or given profile surface of the device (3)), while in the particular case, emphasis is placed on the specified surface of the cylinder bottom in the necessary case of execution with the variety of execution of the piston bottom element;

- in the required predetermined execution case, the first ledge of the rod and / or the second ledge of the rod and / or the shoulder of the rod and / or the element of the piston bottom is made with the working function of an abutment against a certain abutting surface of the device (1) that is, the device is made with an abutting surface with a variety fulfillment; - in the required predetermined case of execution, the first ledge of the rod or / and the second ledge of the rod, if necessary, made in the form of a transition ledge with a variety of execution;

 - in the required predetermined execution case, the first stem ledge and / or the second ledge of the stem and / or the shoulder of the rod is made in the form of a flat or conical, or rounded, or given profile surface of the device (3) and is made with a round or / and non-circular section;

 - in the required predetermined execution case, the lateral surfaces of the piston working section and / or the first rod working section and / or the second rod working section of the device (3) are made with a round and / or non-circular section;

 - in the required predetermined execution case, the rod shoulder is made in the form of a flat or conical, or rounded, or predetermined profile surface of the device (3), while the rod shoulder is made with a round or / and non-circular section;

 - in the required predetermined case of execution, in the places of transitions from the piston bottom to the working section of the piston and / or from the working section of the piston to the groove of the specified profile and / or from the first step of the rod to the first working section of the rod and / or from the first working section of the rod to the groove of a predetermined profile and / or from the second step of the rod to the second working portion of the rod or / and from the second working portion of the rod to the groove of the specified profile is mainly made

the necessary type of chamfer, for example, a rounded, conical, radial, predetermined profile chamfer to facilitate the connection and disconnection of devices, while the chamfer is made with a round or / and non-circular section;

 - in the required predetermined case of execution, in the places of transitions from the piston working section to the first rod shoulder and / or from the first rod working section to the second rod shoulder and / or from the second rod working section to the rod shoulder or / and from the first rod working section to the shoulder flange is preferably made of a given fillet profile;

- in the required predetermined case of execution, in the places of transitions from the piston working section to the first rod step and / or from the first rod working section to the second rod step and / or from the second rod working section to the rod shoulder or / and from the first rod working section to the stem shoulder is preferably made a predetermined groove profile in order to facilitate the processing of work surfaces with a working tool;

 - in the required predetermined case of execution, from the side of the first ledge of the rod, at the required predetermined distance from the first ledge of the rod - on the piston working section, a conical or smooth, predetermined profile is made, the transition to a larger diameter of the piston working section is made and the piston working section is made in the continuation of the conical section a larger diameter, located between the first step of the rod and the conical transition of the piston working section, in order to fit a larger diameter of the piston working section into a specific section of the cylinder working sleeve and with the necessary tightness with a view to fixing the device (1) with a device (3) with each other when connecting and fixing the gas generator races at initialization;

 - in the required predetermined case of execution, from the side of the second ledge of the rod or the shoulder of the rod or the adjacent region of the device (3), at the required specified distance from the second ledge of the rod or shoulder of the rod or the adjacent region of the device - on the first working section of the rod is made conical or smooth, specified profile, the transition to a larger diameter of the first working section of the rod and in the continuation of the conical section made the first working section of the rod with a large diameter located between the second ledge and the conical transition of the first th working section of the rod, in order to fit a larger diameter of the first working section of the rod into a certain section of the first working section of the stepped sleeve with the necessary interference to fix the device (1) with the device (3) with each other during connection and release during initialization of the gas generator;

- in the required predetermined case of execution, from the side of the stem flange or the adjacent region of the device (3), at the required predetermined distance from the stem flange or the adjacent region of the device (3) - a cone or smooth transition of the larger profile is made on the second working portion of the rod the diameter of the second working portion of the rod and in the continuation of the conical section a second working section of the rod with a large diameter is made, located between the shoulder of the rod or the adjacent region of the device (3) and the conical transition of the second working the first rod portion in order to fit the larger diameter portion of the second operating rod in a certain portion of the second working section stepped bushing with the necessary tightness with a view to fixing the device (1) with a device (3) with each other when connecting and fixing the gas generator races at initialization; - in the required predetermined case of execution, from the piston bottom side, at the required predetermined distance from the piston bottom on the piston working section, a conical or smooth, predetermined profile transition is made to a smaller diameter of the piston working section located between the piston bottom and the conical transition of the piston working section, in order to fit the piston working section into the cylinder working sleeve with the necessary interference to fix the device (1) with the device (3) with each other during connection and release during initialization of the gas generator but;

 - in the required predetermined execution case, an element of a gas distribution mechanism is made in the middle or predetermined part of the piston working section or between the piston working section and the first step of the rod — an air compartment in the form of a groove of round or non-circular section of a given profile with a diameter that is smaller than the diameter of the piston working section ;

 - in the required predetermined case of execution, an element of a gas distribution mechanism is made in the middle or predetermined part of the first working portion of the stem or between the first working portion of the stem and the second shoulder of the stem or the shoulder of the stem or the adjacent portion of the device (3) - an air compartment in the form of a round or non-circular groove sections of a given profile with a diameter that is less than the diameter of the first working portion of the rod;

 - in the required predetermined case of execution, on the middle or predetermined part of the second working portion of the stem or between the second working portion of the stem and the shoulder of the stem or the adjacent portion of the device (3), an element of the gas distribution mechanism is made - an air compartment in the form of a groove of round or non-circular section of a given profile with a diameter that is less than the diameter of the second working portion of the rod;

 - in the required predetermined execution case, the device (3) is mainly made with holes - elements of a gas distribution mechanism;

 - in the required predetermined execution case, the device (3) is mainly made with grooves - elements of a gas distribution mechanism;

- in the required predetermined execution case, the first working portion of the rod or / and the second working portion of the rod is made on the outer surface of the working sleeve, which is an integral part of the rod of the device (3), while the working sleeve is a separate part of the rod and is in functional constructive unity with the rod of the device (3) and is fixedly mounted in the rod seat socket in the required predetermined manner and carries out

the implementation of the device for general functional purpose, while the external working and internal surface of the working sleeve is made with a round and / or non-circular section;

 - in the required predetermined case of execution, the working sleeve of the stepped sleeve, which is an integral part of the stepped sleeve of the device

predominantly made with elements of a gas distribution mechanism with holes or / and grooves, while being fixedly mounted by the sleeve, the longitudinal grooves and longitudinal holes in the sleeves are optimally suited for controlled and controlled discharge of excess gas pressure from the cylinder cavity of the cylinder and make it possible to simplify and reduce the cost of manufacturing disconnecting mechanism;

 - in the required predetermined execution case, the working sleeve has a conventional sleeve device or any other necessary type of sleeve for linear or linear radial movement, or anti-friction sleeve, or ball sleeve for longitudinal or longitudinal radial sliding, or linear bearing;

 - in the required predetermined execution case, the piston of the device (3) is made with an external cup, which is made with all the specified external surfaces of the piston with the piston working section and the piston bottom and performs all the necessary specified functions of the piston, and which is made as a separate element of the piston of the device ( 3) and is an integral part of the piston of the device, while the glass is in functional-structural unity with the piston of the device (3) and the glass is fixedly mounted on the piston of the device (3) with the required predetermined method ohm, while the outer piston cup is made of high strength material.

 - in the required predetermined execution case, the working stroke of the piston working section in the cylinder working sleeve is equal to the working stroke of the first rod working section in the first working section of the stepped sleeve, wherein

the final disconnection of the device (1) with the device (3) is made

simultaneously on two mating working sections of disconnected devices - between the working sleeve of the cylinder and the working section of the piston or the sealing part of the piston, and between the first working section of the stepped sleeve and the first the working section of the rod, while the final disconnection of the devices;

 - in the required predetermined execution case, the working stroke of the piston working section in the cylinder working sleeve is equal to the working stroke of the second rod working section (in the second working section of the step sleeve, and the final disconnection of the device (1) with the device (3) is performed simultaneously on two paired the working sections of the disconnected devices - between the working sleeve of the cylinder and the working section of the piston or the sealing part of the piston, and between the second working section of the stepped sleeve and the second working section ka, with a final separation is carried out devices;

 - in the required predetermined execution case, the working stroke of the first working section of the rod in the first working section of the step sleeve is equal to the working stroke of the second working section of the rod in the second working section of the step sleeve, while the final disconnection of the device (1) with the device (3) is performed simultaneously on two paired working sections of disconnected devices - between the first working section of the stepped sleeve and the first working section of the rod, and between the second working section of the stepped sleeve and the second the right part of the stem, with the final disconnection of the devices;

 - in the required predetermined execution case, the working stroke of the piston working section in the cylinder working sleeve is equal to the working stroke of the first rod working section in the first step sleeve and equal to the working stroke of the second rod working section in the second working section of the step sleeve, while the device is finally disconnected (1) with the device (3) is performed simultaneously on three paired working sections of the devices to be disconnected - between the working sleeve of the cylinder and the working surface of the piston or seal yayuschey piston part, between a first operating portion of the sleeve and the stepped portion of the first working shaft, and between the second working step the sleeve portion and the second guide rod operating portion, with a final separation is performed devices;

- in the required specified case of execution, the piston stroke in the working sleeve of the cylinder in the axial longitudinal direction, in the case of execution with three a stepped sleeve, less than the working stroke of the first working portion of the rod in the first working portion of the stepped sleeve and less than the working stroke of the second working portion of the rod in the second working portion of the stepped sleeve; moreover, after the piston leaves the end of the cylinder sleeve, the critical gas pressure is released through the cylinder gas distribution mechanism, while the release of critical gas pressure capable of performing mechanical work through the gas distribution mechanism occurs during disconnection devices in the longitudinal axial direction - between the beginning of intersection piston end of the cylinder sleeve and a second piston position - at the moment of final release devices working surfaces;

 - the desired predetermined working surfaces of the device (3) are preferably made with the desired predetermined coating - with anti-friction lubricant and / or anti-friction coating in order to facilitate the connection and disconnection of the devices;

 - if necessary, the case of the device (3) contains a jet engine, for example an annular one, equipped with at least two jet nozzles or contains at least two jet engines with jet nozzles, while the jet nozzles are made on the shoulder of the rod or the end face of the device (3 ) and are in functional constructive unity with jet engines or a jet engine, while jet fuel of a jet engine performs the function of a gas generator containing, for example gunpowder, pyroxylin, and contains an actuator for initialization of a gas generator with initialization of work from an actuator for initialization or a delay line for initialization, while a jet engine or jet engines perform the work of additional acceleration of separation of devices and continued flight of the device with acceleration after separation, which is necessary under certain conditions operation;

 - in the required predetermined case, jet engines

preferably made with radial balancing gas

distribution channels and / or an annular balancing gas distribution channel between jet engines and are in

functional and constructive unity with jet engines; - in the required predetermined execution case, a jet engine equipped with at least two jet nozzles is made with radial balancing gas distribution channels and / or an annular balancing gas distribution channel, made between radial balancing gas distribution channels and is in functional constructive unity with the jet engine;

 - in the required predetermined execution case, on the device (3) the elements of the mechanism for preventing the circumferential rotation are made, which, in the required predetermined application cases, due to the design feature, serves as the guide longitudinal direction of separation of the devices;

 - in the required predetermined execution case, on the device (3), an element of the locking mechanism is made - the devices are unlocked - a hook for the spring clip is used to hold the devices in a connected form, with a mechanism for disconnecting the locking devices between each other when starting, launching a rocket, firing a projectile and launching with acceleration of devices;

 - in the required predetermined execution case, on the device (3) the elements of the rigid connection mechanism are made - a separation unit with the initiation of disconnecting the device connection using the device separation mechanism;

 - in the required predetermined execution case, the device (3) is fixed to the device (1) preferably with glue, rubber rings and any other necessary fixing elements with the devices disconnected during initialization of the gas generator, that is, in particular, in the necessary places of the mating surfaces of the devices glue is applied and the devices are assembled, when the glue hardens, the devices are fixed to each other and only when the gas generator is triggered does the adhesive bond break or break and um separation devices;

 - in the required predetermined case, the piston and / or the rod and / or elements of the gas distribution mechanism and / or elements of the locking mechanism - release and / or elements of the mechanism for preventing circumferential rotation and / or jet engines and / or jet engine and / or all details, elements and mechanisms of the device (3) are mainly made coaxially

longitudinal centerline of the device; - in the required predetermined execution case, the rod of the device (3) is made with an external sleeve, which is made with the working or working sections of the rod, all specified external surfaces of the rod and performs all the specified functions of the rod, and which is made as a separate element of the rod of the device (3) and is an integral part of the device rod, while the sleeve is in functional structural unity with the device rod (3) and the sleeve is fixedly mounted on the device rod in the required predetermined manner, while the external and

the inner surface of the outer sleeve is made with a round or / and non-circular section;

 - in the required predetermined execution case, the surface of the piston working section and / or the first rod working section and / or the second rod working section and / or the working section of the working sleeve is made with a high class of surface cleanliness in order to facilitate connection and disconnection of devices;

 - in the required predetermined case of execution, the surface of the piston working section and / or the first rod working section and / or the second rod working section and / or the working section of the working sleeve is polished and made to

facilitating the connection and disconnection of devices;

 - in the required predetermined execution case, the jet engine assembly is made in the form of a separate structural member of the device (3) and is fixedly mounted in the device housing (3) in the required predetermined manner and is in functional-structural unity with the device and is designed to

facilitate the manufacture of the device;

 - in the required predetermined execution case, the jet nozzles are made in accordance with the technical conditions — direct-flow along the longitudinal axis or / and are made with inclined nozzles and / or with oblique nozzles with

the required predetermined type of deviation of the direction of the jet of flowing gas from the jet engine nozzle relative to the central axis of the device;

 - in the required predetermined execution case, the jet nozzles of the jet engines or engine are made with at least one radial

the location in relation to the Central axis of the device, thus, the jet nozzles are located at least one radius distance from the Central axis of the device; - if necessary, the control unit or control mechanism comprises a transmitting circuit or / and a connecting mechanism

 the transmission chain between the device (3) and the device (1) to the specified

 actuators and / or a gas generator initializer or gas generator initializers.

 3. At the same time, the gas generator is made in the form of the required predetermined type of embodiment:

 - if necessary, a gas generator with

the initialization actuator is made on the bottom of the cylinder;

 - if necessary, a gas generator with

the initialization actuator is made on the piston bottom;

 - in the required predetermined case of execution, the active substance of the gas generator fills in whole or in part the cylinder cavity of the gas cylinder and contains an initialization actuator;

 - in the required predetermined case, the gas generator is contained in the central jet engine, while the gas generator serves as the jet fuel of the jet engine, while it contains the active substance, for example gunpowder, pyroxylin, and an actuator for initializing the gas generator, while the jet has a jet the nozzle of the central jet engine, while the jet nozzle goes into

the cylinder cavity of the gas cylinder and is in functional-structural unity with the central jet engine;

The gas generator is designed for rapid gas formation and the chemical energy stored in it passes into the internal energy of the chaotic motion of the molecules of the powder gases, which leads to a sharp increase in gas pressure in the cylinder cavity of the cylinder, creating a working pressure in the cylinder cavity of the cylinder. Powder gases with a temperature of about 3000 degrees Celsius formed during the combustion of the active substance of a gas generator exert pressure on the cylinder cavity of the cylinder and the piston bottom, giving acceleration to the piston. This acceleration is not constant in time, it changes due to changes in the gas pressure force on the piston bottom and the friction force on the walls of the sleeve (sleeve) of the cylinder. Up to the moment the piston bottom intersects, the sealing part of the piston - the end face of the cylinder bushing or holes and / or grooves of the gas distribution mechanism the system "piston - cylinder working sleeve - powder gases" is closed, that is, the laws of conservation of momentum, energy and angular momentum are applicable to it, which makes it easier to calculate the ballistics of separation of devices.

 Moreover, the implementation of the required predetermined design of the working volume of the cylinder cavity of the cylinder allows to obtain a sufficiently high power (push force) for separating devices or separating the device from another device when initiating a gas generator, and on the other hand, instantaneous shock loads when initiating a gas generator should be minimal, since a sharp force impact (explosive type) can lead to the destruction of some elements of the devices. Therefore, in this invention, it is possible to use both a conventional gas generator and a gas generator located in a jet engine exiting by the jet nozzle into the cylinder cavity of the cylinder, but in necessary cases it is desirable to use a gas generator (pyrotechnic devices) of a milder action with desired properties.

 4. In this case, the gas distribution mechanism is made with holes and / or grooves and / or air compartments, which are made on the device (1) and / or device (3) for the purpose of control, direction, distribution,

 balancing gas flows with the aim of controlled and controlled discharge of critical gas pressure from the cylinder cavity of the cylinder to the elements of the device (1) and device (3) and beyond the disconnected devices in order to fully or partially prevent

 the mechanical work of the expiration of the critical gas pressure - to act mechanically on the device (1) and the device (3) when the devices are disconnected and after the final separation of the device (1) and the device (3), while the critical pressure of the gas capable of performing mechanical work is released through the gas the distribution mechanism is performed in whole or in part during the longitudinal movement of the working surfaces of the piston and the rod of the device (3) relative to the working surfaces of the working sleeve of the cylinder and the stepped sleeve construction (1) in longitudinal axial

the direction - between the moment of the start of the release of critical gas pressure through the elements of the gas distribution mechanism and the second piston position - at the time of the final separation of the working surfaces of the device (1) with the device (3). The gas distribution mechanism allows you to evenly distribute between the devices the gas flows from the gas generator and to carry out a uniform gas emission along the perimeter of the shared devices outside the devices and allows you to balance all lateral disturbances and contributes to

when the gas generator is triggered, balance the lateral disturbances themselves, while the entire sum of all the lateral disturbances approaches zero.

 In addition, dispersible and balanced powder gases, when passing through air compartments, holes and grooves, are able to perform

mechanical work to set nearby objects in motion, namely, when powder gases expire through side holes of a certain shape, work is performed, for example, a muzzle brake like an artillery gun acting on a device (1), or vice versa it accelerates the device (1) when separating , which must be taken into account in the calculations, the critical gas pressure additionally acts on the piston, on the rod and the device body (3), on the stem bushings, on the end face of the device rod (3), on the cylinder of the device (1), which leads to them to further accelerate the separation, but with a significant and sharp decrease in the acceleration of separation.

 5. At the same time, the separation of ballistic devices is also affected by the separation of all the mating elements of the connecting and disconnecting mechanism of the devices and the resulting stresses, disturbances, friction forces and the operation of the gas distribution mechanism, and, in particular, in the case of flight, the flight speed of the disconnected devices, that is, the kinetic energy of the devices, the effect of the incoming air flow on the device, which has a significant effect on the front device, the effect of air turbulence on the disconnect e device, and other factors affecting device, which complicates the calculations ballistic separation device and requires the development of optimal aerodynamic devices releasable.

All disturbances, loads arising from the separation of devices between the piston and the cylinder and the elements of the connecting-disconnecting mechanism and until the final separation of the devices proceed during longitudinal movement along the guides formed by the piston with the rod of the device (3) and the cylinder with a stepped sleeve of the device (1) that have sliding surfaces and / or rolling, which are mating elements of the connecting and disconnecting mechanism of the devices. At the same time, during the final disconnection of the devices, in particular, the rule must be fulfilled that the outgoing gases must not have energy in order to perform mechanical work - act on the piston with the shaft and the cylinder with the stepped sleeve and shift the axes of the separated devices, i.e., not can affect the longitudinal separation of devices and the occurrence of lateral disturbances sufficient to displace the axes of the devices relative to each other after separation of devices, from this all calculations based on otovleniya connecting and disconnecting mechanism, taking into account all factors of influence on the device.

 6. In the required predetermined execution cases, the rule may be violated in which the outgoing gases must not have energy in order to perform mechanical work - act on the piston with the shaft and move the axes after separation of the devices, but the necessary task should be performed - for example , separation of the thermobaric charge from the fire-fighting munition, in this case, a large separation energy is required and the ideal coaxial flight of the separated munition is not required, since the thermobaric munition rises in height - n and a height of several meters, and a slight displacement of the axis of the detachable device during separation does not affect the task, while the ammunition is undermined to create a strong detonation wave to bring down the flame and simultaneously burn oxygen, while immediately after separation of the ammunition with the thermobaric warhead, the lower fire-fighting ammunition, for example, with fire-fighting powder, a double effect is obtained on the fire source - a powerful detonation wave at the required distance from the earth's surface and firefighting agents scattered near the surface of the earth at a great distance from the blasting place under these conditions the powder fire receives additional energy for better spraying and exposure to the locus of the fire and not fire occurs from the thermobaric warhead detonation.

7. In this case, the only major drawback of the connecting-disconnecting mechanism is the increased length of the connected devices in the connected state, but is compensated by the ease of assembly and accomplishing a task that is almost impossible to accomplish in another way.

 The specified technical result is achieved by the fact that the implementation of the devices makes it easy and quick to assemble the devices using the connecting and disconnecting mechanism into a single structure at the place of use (for example, at the battlefield, in a tank tower) with the selection of the optimal configuration of a rocket, shell or grenade. The only prerequisite is that each configuration requires its own ballistic flight calculations, that is, software for each assembly of devices, blocks.

 The specified technical result is achieved by the fact that the implementation of the devices makes it easy and quick to assemble devices, blocks into a single structure in the factory, for example, bombs, missiles, shells, in particular, when installing a rocket or grenade launcher in a transport and launch container for further use.

 Such constructive solutions of the connecting and disconnecting mechanism provide quick coaxial connection and quick and clear coaxial separation along the central axis of the connecting and disconnecting mechanism in all applications and use with minimal lateral disturbances.

 The present invention is illustrated by examples of performance - Figures that are not unique, but clearly demonstrate cases of specific application of the specified set of essential features

connecting and disconnecting mechanism.

 Due to the very large number of variants of the connecting and disconnecting mechanism, the Figures show only a part of the variants of execution, while a large number of individual devices are made,

longitudinal section of devices, elements of devices that show

design and principle of operation of the connecting and disconnecting mechanism and options for a specific implementation of the connecting and disconnecting mechanism, both in the connected and in the disconnected state.

 The design and principle of operation of the connecting and disconnecting mechanism are explained using Figures -

The Figure 1 shows a longitudinal section of the first variant of the device (1). As an example of execution, Figure 1 can be connected with elements of the connecting and disconnecting mechanism of the device (3) - the fourteenth, fifteenth, sixteenth, seventeenth, eighteenth, nineteenth variants of the devices (3).

 Figure 2 shows a longitudinal section of a second variant of the device (1) of Figure 1.

 As an example of execution, Figure 2 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the first, second, seventh, eighth device variants (3).

 Figure 3 shows a third embodiment of the device (1).

 As an example of execution, Figure 3 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the first, second, seventh, eighth variants of devices (3).

 The Figure 4 shows a longitudinal section of a third variant of the device (1).

As an example of execution, Figure 4 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the first, second, seventh, eighth device variants (3).

 Figure 5 shows a fourth embodiment of the device (1).

 As an example of execution, Figure 4 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the third, fourth versions of the devices (3).

 Figure 6 shows a longitudinal section of a fourth variant of the device

(one).

 As an example of execution, Figure 6 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the third, fourth versions of the devices (3).

 The Figure 7 shows a longitudinal section of a fifth embodiment of the device (1).

As an example of execution, Figure 7 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the first, fourth, sixth versions of the devices (3).

Figure 8 shows a fifth embodiment of the device (1). As an example of execution, Figure 8 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the first, fourth, sixth versions of the devices (3)

 The Figure 9 shows the sixth embodiment of the device (1).

 As an example of execution, Figure 9 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the fifth embodiment of the device (3).

 The Figure 10 shows a longitudinal section of a sixth embodiment of the device (1).

As an example of execution, Figure 10 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the fifth embodiment of the device (3).

 The Figure 11 shows the seventh embodiment of the device (1).

 As an example of execution, Figure 11 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the first, fourth, sixth versions of the devices (3).

 The Figure 12 shows a longitudinal section of a seventh embodiment of the device (1).

As an example of execution, Figure 12 can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the first, fourth, sixth versions of the devices (3).

 Figure 13 shows the first embodiment of the device (3) and the piston sealing ring.

 As an example of execution, Figure 13 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the second, third, fourth, fifth, device variants (1).

 The Figure 14 shows a longitudinal section of a second variant of the device (3).

As an example of execution, Figure 14 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the second, third, fourth, fifth, device variants (1).

 Figure 15 shows a third embodiment of the device (3).

As an example of execution, Figure 15 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the fourth version of the device (1). The Figure 16 shows a longitudinal section of a fourth variant of the device

(3).

 As an example of execution, Figure 16 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the fourth, fifth, seventh versions of the devices (1).

 Figure 17 shows a fourth embodiment of the device (3).

 As an example of execution, Figure 17 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - fourth, fifth, variants of devices (1).

 Figure 18 shows a fifth embodiment of the device (3).

 As an example of execution, Figure 18 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the sixth embodiment of the device (1).

 The Figure 19 shows the sixth embodiment of the device (3).

 As an example of execution, Figure 19 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the fifth, seventh versions of the devices (1).

 The Figure 20 shows the seventh embodiment of the device (3).

 As an example of execution, Figure 20 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the second, third variants of the devices (1).

 The Figure 21 shows a longitudinal section of a seventh embodiment of the device (3).

As an example of execution, Figure 21 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the second, third variants of the devices (1).

 The Figure 22 shows the eighth embodiment of the device (3).

 As an example of execution, Figure 22 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the second, third variants of the devices (1).

 The Figure 23 shows a longitudinal section of an eighth embodiment of the device (3).

As an example of execution, Figure 23 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the second, third variants of the devices (1). The Figure 24 shows the ninth embodiment of the device (3)

 As an example of execution, Figure 24 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the tenth embodiment of the device (1).

 The Figure 25 shows a longitudinal section of a ninth embodiment of the device (3).

As an example of execution, Figure 25 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the tenth embodiment of the device (1).

 Figure 26 shows the tenth embodiment of the device (3).

 As an example of execution, Figure 26 can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the second, third, fourth, fifth, device variants (1).

 Figure 27 shows four options for the bushings.

 The Figure 28 shows the element of the device is a spring clip (46) with a locking boss (47) of the locking mechanism - the locking device (1) in two projections.

 The Figure 29 shows an element of the device - a bullet (48) of the locking mechanism - release for the extraction of the spring clip.

 The Figure 30 shows the elements of the device - a spring clip (46) of the locking mechanism - the release of the device; a bullet (48) for pressing the spring clip (46) of the locking mechanism — the device is released; a sleeve (44) with a magnet (45) of the locking mechanism of the locking device.

 Figure 31 shows the connecting and disconnecting mechanism in the connected position - Figure 10 connected to Figure 18, wherein Figure 10 is shown in longitudinal section of the sixth embodiment of the device (1), Figure 18 is shown in the fifth embodiment of the device (3).

 The Figure 32 shows the connecting and disconnecting mechanism in the process of starting the connection or the final disconnection of the element of the device (1) with the device (3) consisting of 2 devices - Figure 10 and Figure 18, while

Figure 10 depicted in the form of a longitudinal section of the sixth embodiment of the device (1), Figure 18 depicted in the form of the fifth embodiment of the device (3). The Figure 33 shows the kinetic projectile in a disconnected form in the longitudinal direction, made of Figure 9 and the tail of the kinetic projectile with Figure 18.

 Figure 33 shows an example embodiment of the invention.

 The Figure 34 shows the kinetic projectile in a connected form, which depicts Figure 18 with the tail of the kinetic projectile in the connected state with Figure 9.

 Figure 34 shows an example embodiment of the invention.

 Figure 35 shows the connecting and disconnecting mechanism in the connected position - Figure 7 connected to Figure 19, wherein Figure 7 is depicted as a longitudinal section of a fifth embodiment of the device (1), Figure 18 is depicted as a sixth embodiment of the device (3).

 The Figure 36 shows the connecting and disconnecting mechanism in the process of starting the connection or the final disconnection of the element of the device (1) with the device (3) consisting of 2 devices - Figure 7 and Figure 19, wherein Figure 7 is shown in longitudinal section of the fifth embodiment of the device (1 ), Figure 19 depicted in the form of a sixth embodiment of the device (3).

 Figure 37 shows a disconnecting and disconnecting mechanism in a disconnected form in the form of disconnected devices (1) and (3) and consisting of two devices - Figure 19 in the form of a device (3) and connected Figures - Figures 8 and Fig. 19, which are a monolithic assembly two oppositely directed devices (3) and (1) in the form of a monolithically connected Figure 8 with Figure 19.

 Figure 37 shows an example embodiment of the invention.

 The Figure 38 shows the anti-tank warhead of the rocket, the grenades in the connected position - in the form of a connected device (3) in the form of - Figure 19, with a device (1) in the form of Figure 8, containing a monolithic assembly of two devices (3) and (1) connected into a monolithic device in the form of a monolithically connected Figure 8 with Figure 19.

 Figure 38 shows an example embodiment of the invention.

The Figure 39 depicts two connecting and disconnecting mechanism in a disconnected position in the form of disconnected devices and consisting of three devices - Figure 19; connected Figures - Figures 8 to 19; Figures 11. Figure 39 shows an example embodiment of the invention.

 Figure 40 shows an anti-tank warhead of a rocket, grenades in a connected position - in the form of a connected device (3) in the form of - Figure 19, with a device (1) in the form of Figure 8, containing a monolithic assembly of two devices (3) and (1) connected into a monolithic device in the form of a monolithically connected Figure 8 with Figure 19, and which are also coaxially connected to Figure 11.

 Figure 40 shows an example embodiment of the invention.

 The Figure 41 shows the connecting - disconnecting mechanism in the connected position - in the form of a longitudinal section of the eighth embodiment of the device (1) with a device element (3) - a longitudinal section of the seventh embodiment of the device (3) - Figure 21.

 The Figure 42 shows the connecting - disconnecting mechanism in the process of starting connection or final disconnection of the longitudinal section of the ninth embodiment of the device (1) with the element of the device (3) of the longitudinal section of the eighth embodiment of the device (3) - Figure 23.

 Figure 43 shows the connecting and disconnecting mechanism in the connected position - Figure 6 connected to Figure 15, wherein Figure 6 is depicted as a longitudinal section of the fourth embodiment of the device (1), Figure 15 is depicted as a third embodiment of the device (3).

 The Figure 44 shows the connecting and disconnecting mechanism in the process of starting connection or final disconnection of the longitudinal section of the third embodiment of the device (1) with the element of the device (3) of the longitudinal section of the eleventh embodiment of the device (3).

 Figure 45 shows a disconnecting and disconnecting mechanism in a disconnected form in the form of disconnected devices (1) and (3) and consisting of two devices - the tenth version of the device (1) and Figure 24.

 As an example of execution, the tenth embodiment of the device (1) can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the fourth, ninth versions of the devices (3).

Figure 46 shows a disconnecting and disconnecting mechanism in a disconnected form in the form of disconnected devices (1) and (3) and consisting of two devices - with an element of a device (1) of a longitudinal section of the third embodiment of the device (1) and the twelfth embodiment of the device (3). The Figure 47 shows two elements of the connecting and disconnecting mechanism of the devices (1) and (3) in the form of an image of the first variant of the middle device (module) of the munition in two opposite projections, containing elements of the connecting and disconnecting mechanism in the form of the twelfth variant of the device (3) with one side and the eighth embodiment of the device (1) on the other hand.

 Figure 47 shows an example embodiment of the invention.

 The Figure 48 shows two elements of the connecting and disconnecting mechanism of the devices (1) and (3) in the form of an image of a second variant of the middle device (module) of separable ammunition in two opposite projections containing elements of the connecting and disconnecting mechanism in the form of the thirteenth variant of the device (3) with one side and the first embodiment of the device (1) on the other hand.

 Figure 48 shows an example embodiment of the invention.

 The Figure 49 shows a longitudinal section of the device - Figure 48, which shows the elements of the connecting and disconnecting mechanism - in the form of a longitudinal section of the device (1), and in the form of a longitudinal section of the device (3).

 The Figure 50 shows a longitudinal section of the device - Figure 47, which shows the elements of the connecting and disconnecting mechanism in the form of a longitudinal section of the device (1), and in the form of a longitudinal section of the device (3).

 The Figure 51 shows 4 devices with elements of the connecting and disconnecting mechanism of the devices (1) and (3) in the form of disconnected coaxially disconnected devices - device (1) containing the adjacent region in the form of a warhead from the tail of the grenade, rockets - in the form of the first device options (1); Figures 49; Figures 48; warhead of multiple munitions.

 Figure 51 shows an example embodiment of the invention.

 The Figure 52 shows 5 devices with elements of the connecting and disconnecting mechanism of the devices (1) and (3) in the connected position, consisting of five devices containing - the back of the munition in the form of a device - Figure 47; three devices - Figures 50; head part

separable ammunition in the form of a device with a longitudinal section of the device, and also in Figure 52 shows additional elements of the devices used for the manufacture of separable ammunition depicted in Figure 52 in the form - twelfth embodiment of the device (3); a longitudinal section of a twelfth embodiment of the device (3); longitudinal section of the eighth embodiment of the device (1).

 Figure 52 shows an example embodiment of the invention in the form of a section of part of the ammunition.

 The Figure 53 shows the disconnecting and disconnecting mechanism in a disengaged form in the form of disconnected devices and consisting of two devices - the eleventh embodiment of the device (1), which is shown as the head of a separable munition, and the fourth version of the device (3) - Figure 17, which is shown in the form of a tail cluster of ammunition.

 Figure 53 shows an example embodiment of the invention.

 In Figure 54, the cluster munition in the connected position is in the form of a connected device (3) in the form of Figure 17 with the eleventh embodiment of the device (1).

 Figure 54 shows an example embodiment of the invention.

 The Figure 55 shows the elements of the connecting and disconnecting mechanism of the devices (1) and (3) in a disconnected position in the form of a fire mine in the form of Figure 21 - in the form of a detachable element of a longitudinal section, for example, a fire mine with a thermobaric warhead and resistant

a fire mine containing the eighth embodiment of the device (1).

 Figure 55 shows an example embodiment of the invention.

 Figure 56 shows the connecting and disconnecting mechanism of the device (3) in the form of a detachable element of Figure 55, which depicts Figure 20 in the form of an element of a detachable device for fire-fighting munitions.

 Figure 56 shows an example embodiment of the invention.

 The Figure 57 shows the connecting and disconnecting mechanism in a disconnected form in the form of devices (1) and (3) disconnected in the longitudinal direction and consisting of two devices - the twelfth embodiment of the device (1) and

fourteenth version of the device (3).

As an example, the twelfth embodiment of the device (1) can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the fifteenth variant of the device (3). As an example of execution, the fourteenth variant of the device (3) can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the first, thirteenth, fourteenth version of the device (1).

 The Figure 58 shows the disconnecting and disconnecting mechanism in a disconnected form in the form of devices (1) and (3) disconnected in the longitudinal direction and consisting of two devices - the thirteenth embodiment of the device (1) and

the fifteenth version of the device (3).

 As an example of execution, the thirteenth variant of the device (1) can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the fourteenth variant of the device (3).

 As an example of execution, the fifteenth variant of the device (3) can be connected to the elements of the connecting and disconnecting mechanism of the device (1) - the first, twelfth, fourteenth variant of the device (1).

 The Figure 59 shows the connecting and disconnecting mechanism in the process of starting the connection or the final disconnection of the element of the device (1) with the device (3) consisting of 2 devices - the twelfth version of the device (1) and the sixteenth version of the device (3).

 The Figure 60 shows the connecting and disconnecting mechanism in the connected position, consisting of 2 devices - the twelfth version of the device (1) and the seventeenth version of the device (3).

 The Figure 61 shows a disconnecting and disconnecting mechanism in a disconnected form in the form of devices (1) and (3) disconnected in the longitudinal direction and consisting of two devices — the fourteenth embodiment of the device (1) and the eighteenth version of the device (3).

 The Figure 62 shows the connecting and disconnecting mechanism in the connected position, consisting of 2 devices - the fourteenth version of the device (1) and the nineteenth version of the device (3).

 The Figure 63 shows a longitudinal section of the fifteenth option

devices (1).

 The Figure 64 shows the fifteenth embodiment of the device (1).

As an example of execution, the fifteenth variant of the device (1) can be connected to the elements of the connecting and disconnecting mechanism of the device (3) - the nineteenth variant of the device (3). The Figure 65 shows the connecting - disconnecting mechanism in the connected position of the device (1) with the device (3) - Figure 63 connected to the nineteenth version of the device (3).

 Wherein -

The Figure 1 shows a longitudinal section of the first variant of the device (1), which shows the elements of the connecting and disconnecting mechanism - cylinder (6); step sleeve (7); the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); end face of the step sleeve (13); chamfer (30); grooves (28).

 The Figure 2 shows a longitudinal section of the first embodiment of the device (1), which shows the elements of the connecting and disconnecting mechanism - cylinder (6); step sleeve (7); the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); the first step of the stepped sleeve (11); the second working section of the stepped sleeve (12); end face of the step sleeve (13); chamfer (30); grooves (28).

 Figure 3 shows a third variant of the device (1), which shows the elements of the connecting and disconnecting mechanism - the second working section of the stepped sleeve (12); end face of the step sleeve (13); chamfer (30); grooves (28).

 The Figure 4 shows a longitudinal section of a third variant of the device (1), which shows the elements of the connecting and disconnecting mechanism - a gas generator (2); the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); the first step of the stepped sleeve (11); the second working section of the stepped sleeve (12); end face of the step sleeve (13); chamfer (30); grooves (28); a central jet engine (37), a gas generator initialization retarder (36) located between the gas generator (5) in the jet engine (24) and the gas generator (5) fixed in the recess of the cylinder bottom (55).

 Figure 5 shows the fourth embodiment of the device (1), on which

elements of the connecting-disconnecting mechanism are shown - the second working section of the stepped sleeve (12); end face of the step sleeve (13); chamfer (30); holes (27); grooves (28); air compartments (26), prevention mechanism elements

circumferential rotation (36); spring clip (46); jet engine nozzle (42). The Figure 6 shows a longitudinal section of the fourth variant of the device (1), which shows the elements of the connecting and disconnecting mechanism - the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); end face of the step sleeve (13); chamfer;

holes (27); grooves (28); the first step of the stepped sleeve (11); the second working section of the stepped sleeve (12); groove of a given profile (25); air compartments

(26); elements of the mechanism for preventing circumferential rotation (36); spring clip (46); jet engine nozzle (42); jet engine (39); ring channel of jet engines (40); control unit (38); gas generator (2).

 The Figure 7 shows a longitudinal section of a fifth embodiment of the device (1), which shows the elements of the connecting and disconnecting mechanism - the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); end face of the step sleeve (13); chamfer (30); holes

(27); grooves (28); the first step of the stepped sleeve (11); the second working section of the stepped sleeve (12); air compartments (26); groove of a given profile (25); spring clip (46); gas generator (2).

 Figure 8 shows the fifth embodiment of the device (1), which shows the elements of the connecting and disconnecting mechanism - holes (27); spring clip (46); end face of the step sleeve (13).

 The Figure 9 shows the sixth embodiment of the device (1), which shows the elements of the connecting and disconnecting mechanism - holes (27); the second working section of the stepped sleeve (12); grooves (28); groove (25); end face of the step sleeve (13).

 The Figure 10 shows a longitudinal section of a sixth embodiment of the device (1), which shows the elements of the connecting and disconnecting mechanism - the cylinder bottom element (5) in the form of a conical thrust surface (31); the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); end face of the step sleeve (13); holes (27); grooves

(28); the first step of the stepped sleeve (11); the second working section of the stepped sleeve (12); air compartments (26).

 The Figure 11 shows the seventh embodiment of the device (1), on which

elements of the connecting-disconnecting mechanism are shown — holes (27); the nozzle of the scattering mechanism of dipole reflectors (51); smoke screen nozzle (52); electronic warfare unit (50); end face of the step sleeve (13).

 The Figure 12 shows a longitudinal section of a seventh embodiment of the device (1), which shows the elements of the connecting-disconnecting mechanism - the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); end face of the step sleeve (13); grooves (28); the first step of the stepped sleeve (11); the second working section of the stepped sleeve (12); groove (25); air compartments (26); spring clip (46); nozzle

jet engine (42); jet engine (39); electronic warfare unit (50); gas generator (2).

 The Figure 13 shows the first embodiment of the device (3), which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15); the piston sealing part (17); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22);

the adjacent area (24) of the device (3).

 The Figure 13 shows the sealing part of the piston (17) in the form of a stepped piston ring, which allows you to increase the working stroke of the piston (14) in the working sleeve of the cylinder (8) by installing the piston ring in the stepped socket on the piston, while the end face of the stepped piston sealing ring

It is manufactured and installed at approximately the level of the cylinder bottom or even slightly higher and will increase the piston stroke in the cylinder bushing by at least two to three millimeters. An increase in the piston stroke in the working sleeve of the cylinder will provide additional energy and increase speed

disconnecting devices, which is very effective in this invention, taking into account

limited piston stroke (14) in the working sleeve of the cylinder.

The Figure 14 shows a longitudinal section of the second variant of the device (3), which shows the elements of the connecting and disconnecting mechanism - the jet engine nozzle (42); central jet engine (37); control unit (38); piston bottom (16); piston working section (15); the piston sealing part (17); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); the shoulder of the rod (23) of the device (3). The Figure 15 shows the third variant of the device (3), which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15); the piston sealing part (17); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22);

stem collar (23); Circumferential rotation prevention mechanism element (36);

a locking element in the form of a hook (49) of the device (3).

 The Figure 16 shows a longitudinal section of the fourth variant of the device (3), which shows the elements of the connecting-disconnecting mechanism - the working section of the piston (15); the piston sealing part (17); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); stem collar (23); locking element in the form of a hook (49); central jet engine (37); gas generator (2); an additional initialization mechanism or an initialization retarder for a jet engine (41); devices (3).

 The Figure 17 shows the fourth version of the device (3), which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15); the piston sealing part (17); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); stem collar (23); locking element in the form of a hook (49); gas generator or thrust plug of a given profile for a jet engine (43); devices (3).

 Figure 18 shows a fifth embodiment of the device (3), which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15); the piston sealing part (17); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22);

stem collar (23); the piston bottom (16) in the form of a conical thrust surface (32);

devices (3).

 The Figure 19 shows the sixth embodiment of the device (3), which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15); the piston sealing part (17); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22);

stem collar (23); work area with a larger or smaller diameter (54);

locking element in the form of a hook (49); devices (3). The Figure 20 shows the seventh embodiment of the device (3), which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15); grooves (28); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); stem collar (23); groove of a given profile (25); air compartments (26); jet engine nozzle (42).

 The Figure 21 shows a longitudinal section of a seventh embodiment of the device (3), which shows the elements of the connecting-disconnecting mechanism - the working section of the piston (15); grooves (28); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); stem collar (23); groove of a given profile (25); air compartments (26);

jet engine nozzle (42); jet engine (39); jet engine radial channel (40); control unit (38); gas generator (2).

 The Figure 22 shows the eighth embodiment of the device (3), on which

elements of the connecting-disconnecting mechanism are shown — the working section of the piston (15); the piston sealing part (17); holes (27); grooves (28); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); stem collar (23); groove of a given profile (25); air compartments (26); gas generator (2).

 The Figure 23 shows a longitudinal section of the eighth embodiment of the device (3), which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15); the piston sealing part (17); holes (27); grooves (28); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); stem collar (23); groove of a given profile (25); air compartments (26); gas generator (2).

 The Figure 24 shows the ninth embodiment of the device (3), on which

elements of the connecting-disconnecting mechanism are shown — the working section of the piston (15); the piston sealing part (17); bushings (29); holes (27); grooves (28); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); stem collar (23); groove of a given profile (25); air compartments (26).

The Figure 25 shows a longitudinal section of a ninth embodiment of the device (3), which shows the elements of the connecting and disconnecting mechanism - piston working section (15); the piston sealing part (17); bushings (29); holes (27); grooves (28); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); stem collar (23); groove of a given profile (25); air compartments (26).

 The Figure 26 shows the tenth embodiment of the device (3), on which

depicted are oppositely directed elements of two connecting and disconnecting mechanisms — the working section of the piston (15); the piston sealing part (17); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the second ledge of the rod (21); the second working portion of the rod (22); stem collar (23).

 The Figure 27 shows four options for the bushings, which depict the holes (27); grooves (28).

 The Figure 28 shows a device element - a spring clip (46) with a locking boss (47)) in the form of a bullet clip for fixing a bullet, the locking mechanism - the release of the device (1) in two projections.

 The Figure 29 shows an element of the device - a bullet (48) of the locking mechanism - release for the extraction of the spring clip.

 The Figure 30 shows the elements of the device - a spring clip (46) of the locking mechanism - the release of the device; a bullet (48) for pressing the spring clip (46) of the locking mechanism — the device is released; a sleeve (44) with a magnet (45) of the locking mechanism of the locking device.

 The Figure 31 shows the connecting and disconnecting mechanism in the connected position, while the volume of the cylinder cavity is minimal (53), while the piston bottom (16) is made with a stop in the cylinder bottom element (5) and is made with a thrust surface (31) of the device (1 ) and with the thrust surface (32) of the device (3).

 The Figure 32 shows the connecting and disconnecting mechanism in the process of starting the connection or the final disconnection of the element of the device (1) with the device (3) in the longitudinal axial direction (4), while depicted in the second piston position at the time of the final separation of the workers

surfaces (35) of the device (1) with the working surfaces of the device (3), while the Figure shows the piston bottom (16); thrust surface (31) of the device (1); thrust surface (32) of the device (3). The Figure 33 shows a kinetic projectile in a disconnected form in the longitudinal axial direction (4), depicted in the form of a device (1) and a device (3).

 The Figure 34 shows the kinetic projectile in a connected form,

depicted as a device (1) and a device (3).

 The Figure 35 shows the connecting and disconnecting mechanism in the connected position, while the volume of the cylinder cavity is minimal (53), while the end face of the stepped sleeve (13) is made with emphasis in the shoulder of the rod (23) and is made with a thrust surface (31) of the device (1 ) and with a thrust surface (32) of the device (3), an interference fit is shown (34), the surface with

anti-friction coating (33); and also shows a working section with a large diameter (54).

 The Figure 36 shows the connecting and disconnecting mechanism in the process of starting the connection or the final disconnection of the element of the device (1) with the device (3) in the longitudinal axial direction (4), while depicted in the second piston position - at the time of the final separation of the workers

surfaces (35) of the device (1) with the working surfaces of the device (3), while Figure 36 shows the thrust surface (31) of the device (1) in the form of the end face of the stepped sleeve (13), the thrust surface (32) of the device (3) in the form of a rod shoulder (23), and also shows a working section with a large diameter (54).

 The Figure 37 shows the connecting and disconnecting mechanism in a disconnected state in the axial longitudinal direction (4) - in a disconnected form in the form of disconnected devices (1) and (3) and consisting of two devices - device 3 and connected device 1 with device 3.

 The Figure 38 shows the connecting and disconnecting mechanism in the connected position - device (3), device (1) with device (3).

The Figure 39 shows the connecting and disconnecting mechanism in the process of starting connection or final disconnection in the longitudinal axial direction (4) - in the disconnected position in the form of disconnected devices and consisting of three devices - device 3, connected device 1 with device 3, device 1. The Figure 40 shows the connecting and disconnecting mechanism in the connected position - device (3), device (1) with device (3), device

ABOUT)·

 The Figure 41 shows the connecting and disconnecting mechanism in the connected position, while the volume of the cylinder cavity is minimal (53), while the end face of the stepped sleeve (13) is made with emphasis in the shoulder of the rod (23) and is made with a thrust surface (31) of the device (1 ) and with the thrust surface (32) of the device (3).

 The Figure 42 shows the connecting and disconnecting mechanism in the process of starting connection or final disconnection of the device (1) with the device (3) in the longitudinal axial direction (4), while depicted in the second piston position at the time of the final separation of the workers

surfaces (35) of the device (1) with the working surfaces of the device (3), while the Figure 42 shows the thrust surface (31) of the device (1) in the form of the end face of the working sleeve of the cylinder (9), the thrust surface (32) of the device (3) ) in the form of the first step of the rod (19).

 The Figure 43 shows the connecting and disconnecting mechanism in the connected position, while the volume of the cylinder cavity is minimal (53), while the end face of the stepped sleeve (13) is made with emphasis in the shoulder of the rod (23) and is made with a stop surface (31) of the device (1 ) and with the thrust surface (32) of the device (3).

 The Figure 44 shows the connecting and disconnecting mechanism in the process of starting connection or final disconnection of the device (1) with the device (3) in the axial longitudinal direction (4), while depicted in the second piston position at the time of the final separation of the workers

surfaces (35) of the device (1) with the working surfaces of the device (3), while the Figure 42 shows the thrust surface (31) of the device (1) in the form of the end face of the working sleeve of the cylinder (9), the thrust surface (32) of the device (3) ) in the form of a first step of the rod (19), and also shows a gas generator (2) on the piston bottom (16) and a stop plug (43) on the cylinder bottom (5).

The Figure 45 shows the disconnecting mechanism in a disengaged form in the form of disconnected devices (1) and (3) in the longitudinal axial direction (4). The Figure 46 shows the disconnecting and disconnecting mechanism in a disconnected form in the form of disconnected devices (1) and (3) in the longitudinal axial direction (4).

 The Figure 47 shows two elements of the connecting and disconnecting mechanism of the devices (1) and (3) in two opposite projections, containing elements of the connecting and disconnecting mechanism in the form of a device (3) on one side and a device (1) on the other side.

 The Figure 48 depicts two elements of the connecting and disconnecting mechanism of devices (1) and (3) in two opposite projections, containing elements of the connecting and disconnecting mechanism in the form of a device (3) on one side and a device (1) on the other side.

 The Figure 49 shows a longitudinal section of the device - Figure 48, which shows the elements of the connecting and disconnecting mechanism - in the form of a longitudinal section of the device (1), and in the form of a longitudinal section of the device (3).

 The Figure 50 shows a longitudinal section of the device - Figure 47, which shows the elements of the connecting and disconnecting mechanism in the form of a longitudinal section of the device (1), and in the form of a longitudinal section of the device (3).

 The Figure 51 shows 4 devices with elements of the connecting and disconnecting mechanism of the devices (1) and (3) in the form of disconnected devices (1) and (3) in the longitudinal axial direction (4).

 The Figure 52 shows 5 devices with elements of the connecting-disconnecting mechanism of the devices (1) and (3) in the connected position.

 The Figure 53 shows the connecting and disconnecting mechanism in a disconnected state in the longitudinal axial direction (4) - in a disconnected form in the form of disconnected devices (1) and (3), while the figure 53 shows the correction nozzles of the pulse correction motor.

 The Figure 54 shows the connecting and disconnecting mechanism of the devices (1) and (3) in the connected position, while the Figure 54 shows

corrective nozzles of a pulse motor correction.

The Figure 55 shows the elements of the connecting and disconnecting mechanism of the devices (1) and (3) - in a disconnected form in the form of disconnected devices (1) and (3) in the longitudinal axial direction (4) in the form of a fire mine containing an element of the connecting and disconnecting device (3) for example detachable module of a fire mine with a thermobaric warhead, the device (3) is depicted as a stubborn fire mine containing a connecting and disconnecting mechanism in the form of a device (1).

 The Figure 56 shows the connecting and disconnecting mechanism of the device

(3).

 The Figure 57 shows the connecting and disconnecting mechanism in a disconnected form in the form of disconnected devices (1) and (3) in the longitudinal axial direction (4) and consisting of two devices - a device (1) - on which

Elements of the connecting-disconnecting mechanism are shown - a gas generator (2); the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); air compartment (26); the first working section of the stepped sleeve (10); end face of the step sleeve (13); chamfer (30); holes (27); grooves (28), device (3) - which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); the adjacent area (24) of the device (3).

 The Figure 58 shows the disconnecting mechanism in a disconnected form in the form of disconnected devices (1) and (3) in the longitudinal axial direction (4) and consisting of two devices - device (1) - on which

elements of the connecting-disconnecting mechanism are shown — the working section of the cylinder bushing (8); end face of the working sleeve of the cylinder (9); air compartment (26);

the first working section of the stepped sleeve (10); end face of the step sleeve (13); chamfer (30); holes (27); grooves (28), device (3) - which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15); chamfer (30); grooves (28); the first ledge of the rod (19); the first working portion of the rod (20);

the adjacent area (24) of the device (3).

 The Figure 59 shows the connecting and disconnecting mechanism in the process of starting the connection or the final disconnection of the device (1) with the device (3) in the longitudinal axial direction (4), while depicted in the second piston position at the time of the final separation of the workers

surfaces (35) of the device (1) with the working surfaces of the device (3), while Figure 59 shows - the device (1) - which shows the elements of the connecting and disconnecting mechanism - a gas generator (2); the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); first work area step bushings (10); end face of the step sleeve (13); chamfer (30); holes (27); grooves (28), device (3) - which shows the elements of the connecting-disconnecting mechanism - the working section of the piston (15); air compartment (26); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); elements of the mechanism for preventing circumferential rotation (36); the adjacent area (24) of the device (3).

 The Figure 60 shows the connecting - disconnecting mechanism in the connected position, while the volume of the cylinder cavity is minimal (53), while the end face of the working sleeve of the cylinder (9) is made with emphasis in the first ledge of the rod (19); and is made with a thrust surface (31) of the device (1) and with a thrust surface (32) of the device (3), while Figure 60 shows the device (1) - which shows the elements of the connecting and disconnecting mechanism - a gas generator (2) ; the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); end face of the step sleeve (13); chamfer (30); holes (27); grooves (28), device (3) - which shows the elements of the connecting and disconnecting mechanism - the working section of the piston (15);

air compartment (26); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); elements of the mechanism for preventing circumferential rotation (36); the shoulder of the rod (23) of the device (3).

 Figure 61 shows a disconnecting and disconnecting mechanism in the form of disconnected in the longitudinal direction of the devices (1) and (3), while Figure 61 shows - device (1) - which shows the elements of the connecting and disconnecting mechanism - the working section of the sleeve cylinder (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); end face of the step sleeve (13); chamfer (30); grooves (28); device (3) - which shows the elements of the connecting-disconnecting mechanism - the working section of the piston (15); air compartment (26); chamfer (30); the first ledge of the rod (19);

the first working portion of the rod (20); grooves (28); elements of the mechanism for preventing circumferential rotation (36); the shoulder of the rod (23) of the device (3).

The Figure 62 shows the connecting - disconnecting mechanism in the connected position, while the volume of the cylinder cavity is minimal (53), while the end face of the stepped sleeve (13); made with emphasis in the shoulder of the rod (23) and is made with a thrust surface (31) of the device (1) and with a thrust surface (32) device (3), wherein Figure 60 shows — device (1) —which depicts elements of a connecting-disconnecting mechanism — a working portion of a cylinder bushing (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); end face of the step sleeve (13); chamfer (30); grooves (28);

device (3) - which shows the elements of the connecting-disconnecting mechanism - the working section of the piston (15); air compartment (26); chamfer (30); the first ledge of the rod (19); the first working portion of the rod (20); grooves (28); elements of the mechanism for preventing circumferential rotation (36); the shoulder of the rod (23) of the device (3).

 The Figure 63 shows a longitudinal section of the fifteenth embodiment of the device (1), which shows the elements of the connecting and disconnecting mechanism - the cylinder bottom element (5) in the form of a conical abutment surface (31); jet engine nozzle (42); the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); holes (27); grooves (28); the end face of the stepped sleeve (13) in the form of a conical thrust surface (31).

 The Figure 64 shows the fifteenth version of the device (1), which shows the elements of the connecting and disconnecting mechanism - holes (27); grooves (28); end face of the step sleeve (13).

 The Figure 65 shows the connecting and disconnecting mechanism in the connected position, while the volume of the cylinder cavity is minimal (53), while the end face of the stepped sleeve (13) is made with emphasis in the shoulder of the rod (23) and is made with a thrust surface (31) of the device (1 ) and with a thrust surface (32) of the device (3), while the cylinder bottom (5) is made with a stop in the piston bottom (16) and is made with a thrust surface (31) of the device (1) and with a thrust surface (32) of the device ( 3).

 It should be emphasized here that all Figures serve only to illustrate the description of the invention and should not be scientifically technically correct in any way.

 List of Keys

 1 device with a cylinder

 2 gas generator

 3 piston device

 4 longitudinal axial direction of devices or connections - disconnections

devices cylinder bottom - cylinder bottom of the device (1)

cylinder - gas cylinder device (1)

stepped sleeve of the device (1)

cylinder working sleeve - guiding working sleeve (sleeve) of the device cylinder (1)

end face of the working sleeve of the cylinder of the device (1)

the first working section of the stepped sleeve - the first guide working section of the stepped sleeve of the device (1)

first step of the stepped sleeve of the device (1)

the second working section of the stepped sleeve - the second guide working section of the stepped sleeve of the device (1)

end face of the step sleeve of the device (1)

device piston (3)

piston working section - guiding piston working section of the device

(3)

device piston bottom (3)

piston sealing part of device (3)

rod - piston rod of the device (3)

first ledge of the device stem (3)

the first working portion of the rod is the first guiding working portion of the rod of the device (3)

second ledge of the rod of the device (3)

the second working portion of the rod - the second guide working portion of the rod of the device (3)

device stem shoulder (3)

adjoining area of the device (3)

groove - groove of a given profile in order to create an air compartment (26)

air compartment - air compartment of the gas distribution mechanism, openings - openings of the gas distribution mechanism

grooves - grooves of the gas distribution mechanism

bushings - bushings of longitudinal or longitudinal - radial sliding chamfer thrust surface of the device (1)

thrust surface of the device (3)

work surface with anti-friction lubricant and / or

anti-friction coating

the place where the devices (1) and (3) are mated using the shaft-to-sleeve mating system, by means of a fit with a defined interference

places for simultaneous connection or disconnection of the working surfaces of devices

Circumferential rotation prevention mechanism element

central jet engine

control unit or control mechanism for the initialization mechanism of the gas generator or gas generators, gas generator of jet or jet engines and / or other specified actuators

jet engines with nozzles or a jet engine with multiple jet nozzles

radial and / or annular balancing gas distribution channel of jet engines or jet engine

an additional initialization mechanism or an initialization retarder for a jet engine

jet engine nozzle

thrust plug of a given profile for a jet engine

sleeve - element of the locking mechanism - release

magnet - an element of the fixation mechanism - release

spring lock - element of the locking mechanism - ras fixation

fixing boss of the spring clip - an element of the locking mechanism of the locking bullet - locking mechanism of the fixing races

retainer bullet - element of the locking mechanism - ras fixation

locking element in the form of a hook - device (3) - element of the locking mechanism - release

radio electronic warfare unit for creating radar interference the mechanism of scattering of dipole reflectors to create passive interference is depicted as a nozzle 52 nozzle ejection of a curtain of smoke from a generator of a curtain of smoke

 53 cylinder cavity with minimum volume

 54 work area with a larger or smaller diameter

 The phrase - "or / and" - the use of one or the other element or both elements, signs and other properties, and parameters.

 The implementation of the invention.

 In the initial position, the device (1) and the device (3) are in

disconnected state.

 The connecting and disconnecting mechanism when connecting devices operates as follows.

 1) Connection option - to connect the piston (14) with the rod (18), they are inserted along the longitudinal direction of the cylinder (4) into the working sleeve of the cylinder (8) and the stepped sleeve (13) of the device (1) all the way into the necessary stop surface (31) ) devices. To accomplish this, the piston working portion (15) and the first working portion of the rod (20) in the longitudinal direction of the cylinder are combined with the working portion of the cylinder sleeve and the first working portion of the stepped sleeve (10), and two places of simultaneous connection (35) of the device are formed ( 1) with the device (3) (shown in the Figure - 59), while the rod (18) with the piston (14) in the longitudinal axial direction is introduced into the working sleeve of the cylinder (8) and the first working section of the stepped sleeve (10) device (1 ) until it stops in the required predetermined surface (31).

 The connection of devices is provided by the working sections of the device (1) and device (3).

 In this case, the connection occurs using a sliding landing until it stops.

In particular, a fit with a certain interference is applied.

 Device connections are shown in Figures - 60; 62; 65.

2) Connection option - to connect the piston (14) with the rod (18), they are inserted along the longitudinal direction of the cylinder (4) into the cylinder working sleeve (8) and the stepped sleeve (13) of the device (1) all the way into the necessary contact surface (31) ) devices. To do this, the piston working section (15), the first rod working section (20) and the second rod working section (22) in the longitudinal direction of the cylinder are combined with the working section of the cylinder bushing, the first working section of the stepped bushing (10) and the second working section of the stepped sleeve (12), in this case, three places of simultaneous connection (35) of the device (1) with the device (3) are formed, while the rod (18) with the piston (14) in the axial longitudinal direction is introduced into the working sleeve of the cylinder (8) , the first working section of the stepped sleeve (10) and the second working section of the stepped sleeve (12) device (1) until it stops

 required target surface (31). The connection of devices is provided by the working surfaces of the device (1) and device (3).

 In this case, the connection is made using a sliding fit until it stops.) The connection option is to connect the piston (14) with the rod (18), are introduced along the longitudinal direction of the cylinder (4) into the working sleeve of the cylinder (8) and the stepped sleeve (13) of the device ( 1) until it stops in the necessary abutment surface (31) of the device. To accomplish this, the first working portion of the rod (20) and the second working portion of the rod (22) in the longitudinal direction of the cylinder are combined with the first working portion of the stepped sleeve (10), the second working portion of the stepped sleeve (10), and two places of simultaneous connection are formed (35) devices (1) with device (3)

 (shown in the Figures - 32; 36; 42; 44), while the rod (18) with the piston (14) in the axial longitudinal direction is introduced into the cylinder working sleeve (8), the first working section of the stepped sleeve (10) and the second working section step sleeve (12) of the device (1) until it stops in the required predetermined surface (31). The connection of devices is provided by the working sections of the device (1) and device (3).

 In this case, the connection occurs using a sliding landing until it stops.

In particular, a fit with a certain interference is applied.

 Device connections are shown in Figures - 31; 34; 35; 38; 40; 41; 43; 52; 54.) Connection option - for connecting the piston (14) with the rod (18), they are inserted along the longitudinal direction of the cylinder (4) into the working sleeve of the cylinder (8) and the step sleeve (13) of the device (1) all the way into the necessary stop surface ( 31) devices. To accomplish this, the piston working section (15) and the second rod working section (22) in the longitudinal direction of the cylinder are combined with the working section of the cylinder sleeve (8), the second working section of the stepped sleeve (10), and two places are formed

simultaneous connection (35) of the device (1) with the device (3), while the rod (18) with the piston (14) in the axial longitudinal direction is inserted into the cylinder working sleeve (8), the first working section of the stepped sleeve (10) and the second working section of the stepped sleeve (12) of the device (1) all the way into

 required target surface (31). The connection of devices is provided by the working sections of the device (1) and device (3).

 In this case, the connection occurs using a sliding landing until it stops. In particular, a fit with a certain interference is applied.

 In this case, in the specified cases, the device (1) with the device (3) - have a connection with a certain interference fit (34), according to the shaft-sleeve system, in order to fix the device (1) with the device (6) with each other during assembly and release when initialization of the gas generator (2).

 Under such conditions of tight fit, the piston (14) with the rod (18) of the device (3) is inserted, using a sliding fit, into the working part of the cylinder bushing (8) and the working part of the stepped bushing (7) of the device (1) until it stops into the element of the seat socket, on which the connection with an interference fit should take place and after that with a certain effort the device (3) is tightened to the final stop in the device (1), while the interference fit takes place under ideal conditions, since the landing takes place in longitudinal direction of the cylinder and step w LCI device (1).

 Connection devices with interference fit is shown in Figure - 35.

 In particular, the connection option of the device (1) with the device (3) - the devices are connected using the locking mechanism - unlocking devices, to hold the devices in a connected form, with a mechanism for disabling the locking of devices between themselves when starting, launching a rocket, firing a projectile and launching with acceleration devices.

When connecting using the locking mechanism - the locking devices, the piston (14) with the rod (18) of the device (3) is inserted, using a sliding fit, into the working sleeve of the cylinder (8) and the stepped sleeve (7) of the device (1) until it stops, at the same time, the condition is fulfilled - the spring clips (46) are longitudinally aligned with the locking element - the hook (49) of the device (3), when the spring clips (46) are inserted - the clamps abut against the hook surface (49) and are bent due to the conical surface of the mating surfaces , and with further longitudinal move into the hook (49) of the fixing element of the device (3), while the device (1) with the device (3) are rigidly fixed to each other.

 In particular, the piston 14 of the device (3) is fitted with a certain interference fit into the working sleeve of the cylinder (8) by means of a fit with a certain interference fit, in order to fix the piston (14) in the working sleeve of the cylinder (8) of the device (1) with each other during assembly and fixing during initialization of the gas generator, which dramatically reduces the cost of manufacturing the elements of the connecting - disconnecting mechanism, allows you to fix the devices together during assembly, holding the devices together for all types of loads except separation, that is, fixing at abatirovaniya gas generator (2).

 The locking mechanism — the locking of devices is made with the mechanism for disabling the locking of devices between each other at launch, rocket launch, projectile firing and accelerated launch, and consists of a sleeve (44) fixed in the landing seat, made in the device housing (1), fixed on the bottom sleeves with magnet (45) on the sleeve socket side and oblique cut of the sleeve on the side

spring retainer (46) on the other side of the sleeve, fixed in the required place in the mounting location of the device (1), while a sleeve (48) of the clamp release is held in the sleeve, which is held by a magnet (45).

 At the same time, during the launch of a rocket, grenade, projectile, detonator bullet (48) due to the kinetic energy acting on the bullet (48), the bullet detaches from the magnet (45) and moves to the opposite side of the sleeve and squeezes the spring clip (46) from the locking element - the hook (49) of the device () and the bullet is fixed in this position with the fixing boss (47) of the spring clip (46), thus, the devices are released when the rocket, grenade is launched, while further flight occurs without fixing between devices and connections Drinking is carried out and maintained only due to the oncoming air flow to the head unit.

 Elements of the mechanism of fixation - decomposition of devices are shown in Figures - 5; 6; 7; 8; 12; fifteen; sixteen; 17; nineteen; 28; 29; thirty; 35; 36; 37; 39; 43; 53.

In particular, the connection options of the device (1) with the device (3) - the devices are rigidly connected using the mechanism of the separation unit with the initiation of disconnecting the connection of devices using the mechanism of the separation unit of devices from the initialization mechanism. In particular, the connection options of the device (1) with the device (3) - the devices are fixed to each other with glue, rubber rings and any other necessary fixing elements with the devices disconnected when the gas generator is triggered, that is, in particular, in the necessary places of the mating surfaces devices, glue is applied and the devices are assembled, when the glue cures, the devices are fixed to each other and only when the gas generator is triggered does the adhesive bond rupture or break down and Odita disconnection of devices.

 In particular, the connection options of the device (1) with the device (3) - the devices are connected without fixing to each other.

 In particular, a disconnecting mechanism comprises

the connecting mechanism of the necessary transmission chain between devices.

 The connecting and disconnecting mechanism when disconnecting devices works as follows:

 - when a signal is supplied from the actuator of the device (38), in particular, the connection of devices is disconnected using the mechanism of the device separation unit.

 - when a signal is supplied from the actuator of the device (38) to the initializer of the gas generator, the gas generator (2) is initiated.

 During the initialization of the gas generator (2), the explosive rapidly burns, that is, the rapid gas formation and the chemical energy stored in it transforms into the internal energy of the chaotic movement of molecules

powder gases.

 The powder gases formed during the combustion of the gas generator explosive exert pressure on the cylinder cavity of the cylinder (6) and on the piston bottom (16) of the device (3), giving acceleration to the piston (14) and simultaneously giving acceleration to the device (1) in the opposite direction, in particular, creasing and / or breaking of the adhesive connection of devices occurs, any fixing elements are released, and a certain amount of energy is consumed from burning a gas generator.

If one device is set to a stop, all the energy of the gas generator acts on the detachable device (1) or device (3). In this particular case, the working stroke of the working section of the piston (15) in the working sleeve of the cylinder (8) is equal to the working stroke of the first working section of the rod (20) in the first working section of the stepped sleeve (10), while the final disconnection of the device (1) with device (3) is produced simultaneously on two paired working sections of disconnected devices - between the working sleeve of the cylinder (8) and the working section of the piston (15) or the sealing part of the piston (17), and between the first working section of the stepped sleeve (10) and the first working section w an eye (20).

 In this particular case, the working stroke of the working section of the piston (15) in the working sleeve of the cylinder (8) is equal to the working stroke of the second working section of the rod (22) in the second working section of the stepped sleeve (12), and the final disconnection of the device (1) device (3) is produced simultaneously on two paired working sections of disconnected devices - between the working sleeve of the cylinder (8) and the working section of the piston (15) or the sealing part of the piston (17), and between the second working section of the stepped sleeve (12) and the second working sectioncurrent (22).

 In this particular case, the working stroke of the first working section of the rod (20) in the first working section of the step sleeve (10) is equal to the working stroke of the second working section of the rod (22) in the second working section of the step sleeve (12), while the final disconnection of the device ( 1) with the device (3) is made simultaneously on two paired working sections of the disconnected devices - between the first working section of the stepped sleeve (10) and the first working section of the rod (20), and between the second working section of the stepped sleeve (12) and the second the working section of the rod (22).

In this particular case, the working stroke of the piston working section (15) in the cylinder working sleeve (8) is equal to the working stroke of the first rod working section (20) in the first working section of the stepped sleeve (10) and is equal to the working stroke of the second rod working section (22) in the second working section of the stepped sleeve (12), while the final separation of the device (1) with the device (3) is performed simultaneously on three paired working sections of the disconnected devices - between the working sleeve of the cylinder (8) and the working surface of the piston (15) or the withdrawing part of the piston (17), between the first working section step bushings (10) and the first working portion of the rod (20), and between the second working portion of the stepped sleeve (12) and the second guide working portion of the rod (22).

 In this particular case, the stroke of the piston (14) in the working sleeve of the cylinder (8) in the axial longitudinal direction (4) is less than the working stroke of the first working portion of the rod (20) in the first working section of the stepped sleeve (10) and less than the working stroke of the second the working section of the rod (22) in the second working section of the stepped sleeve (12).

 After the piston (14) exits from the slice of the working sleeve of the cylinder (8), the separation of the device (1) with the device (3) continues using the working sections

devices (1) and devices (3) in the longitudinal direction (4) until

simultaneous separation of devices at least two radial steps (35), after which the longitudinal separation of devices continues without touching each other.

 The moment of disconnection (35) of the device (1) with the device (3) - shown in Figures - 32; 36; 42; 44; 59.

 In this, after disconnecting the devices, the device (1) and the device (3) continue to fly in the same direction at different speeds.

 In particular, after the device (1) is disconnected from the device (3), one of the devices, due to the return from the separation, can completely lose kinetic energy and simply fall to the ground or even receive opposite kinetic energy and fly in the opposite direction, in some special cases fulfillment is necessary.

 The variants of disconnected devices (1) and (3) are shown - Figures - 33; 37; 39; 45; 46; 51; 53; 55; 57; 61.

 In particular, the speed of separation of devices can vary in a very wide range - from a few centimeters to tens of meters per second or more.

 Suppose a missile’s flight speed is two hundred and fifty meters per second, and the separation speed is ten meters per second, while, for example, the distance between the devices at the time of the tank’s defeat should be approximately two to three meters.

Thus, the separation distance should be approximately fifty to seventy-five meters from the tank, while this calculation is not scientific, but approximately shows the calculation method, without justifying any formulas and calculation methods. At the same time, the higher the separation speed, the greater the pulse needed for separation, the more durable the elements of the devices to be disconnected should be.

 In this case, it is necessary to take into account the mass of each device, the kinetic energy, the flight speed of the connected devices, that is, the pressure of the incident air flow on the head device at the time of separation and a large number of parameters, for example, the weight of the gas generator and its operating characteristics, piston diameter, stroke piston, cylinder displacement and other necessary parameters and characteristics.

 After disconnecting, each device flies at its own speed and the distance between the devices gradually increases, while the flight paths of each device with a given circular probable deviation from the central axis of flight, to separation, device (1), and device (3) slightly differ.

 To give an additional impulse to separate and increase the flight speed, additional engines (39) or an engine with several jet nozzles (39) or / and a central jet engine (37) are installed on the device, to give additional acceleration to the device and increase the speed of separation or separation of devices from friend.

 Giving the head unit additional acceleration due to

additional radially located engines (39) or an engine with

several jet nozzles (39) and / or a central jet engine (37) is very important for the manufacture of means of protecting shared ammunition and allows you to remove disconnected devices from under the impact of active protection of tanks and anti-aircraft weapons of the enemy.

 In particular, for precise pressure equalization, all jet engines are connected by a gas synchronization channel (40) (ring tube). This design allows the jet engines (39) of the device to operate reliably even if the ignition mode of individual gas generators in the jet engines fails.

 In addition, gases from a gas generator, such as powder gases,

scattered and balanced - in the air compartment (26), when passing through holes (27) and grooves (28) - are able to perform mechanical work to set nearby objects in motion, namely, when powder gases flow through side holes (27) of a certain shape work is done, for example - muzzle brakes like an artillery gun acting on the device, or vice versa, accelerates the device during separation, which must be taken into account when calculating, the critical gas pressure additionally acts on the piston (14), on the rod (18) of the device (3), on the bushings (29) rod, on the shoulder of the rod (23) of the device (3), on the bottom of the cylinder (5) with the device (1), which leads them to further acceleration of separation, but with a significant and sharp decrease in the acceleration of separation.

 The gas distribution mechanism makes it possible to evenly distribute gas flows from the gas generator between the devices and to carry out a uniform gas ejection along the perimeter of the shared devices outside the devices and allows to balance all lateral disturbances along the separation axis and helps to balance the lateral disturbances arising when the gas generator is triggered, while the total sum of all lateral perturbations approaches zero.

 The application of the claimed invention provides a high-precision and fast connection of devices, modules of bombs, missiles, grenades, shells, structures in the manufacture or before use with many options.

 The application of the claimed invention provides high-precision separation of the warheads of bombs, missiles, grenades, shells, structures in flight on separate devices, without the occurrence of shock destructive loads, with minimal lateral disturbances of the devices during separation (close to zero), with

the minimum occurrence of friction, sliding, rolling loads during separation of devices, with the continuation of the flight within the same axis with the minimum possible circular deviation from the flight axis.

 The application of the claimed invention provides the creation of

multifunctional combat bombs, shells, grenades, missiles, structures and

provides destruction of highly protected objects, tanks, armored vehicles with active and passive defense systems and powerful armor protection and high-precision destruction of small area targets and elongated areas of area targets, other necessary tasks.

 The use of the claimed invention provides efficiency

use, high mobility, compact design with its simplicity and ease of assembly and separation of devices in flight or separation of devices from other devices. This goal is achieved due to the fact that the implementation of the connecting and disconnecting mechanism allows you to easily and quickly assemble a single structure from individual devices, blocks and easily transport both individual devices and the structure as a whole.

 The goal is achieved due to the fact that the implementation of the devices allows you to easily and quickly assemble the device into a single design at the place of use (for example, in battle) with the selection of the optimal configuration of a rocket, shell or grenade. The only prerequisite is that each configuration requires its own ballistic flight calculations, that is, software for each assembly of devices, blocks, structures.

 The only minus is the greater length and correspondingly lower flight speed. But a guaranteed defeat neutralizes this minus.

 The goal is achieved due to the fact that the implementation of the devices allows you to easily and quickly assemble the device into a single design in the factory, for example, bombs, missiles, grenade launchers, shots for guns, when installing a rocket or grenade launcher in a transport and launch container for further use .

 In particular, the goal is achieved due to the fact that in preparation for the launch of a rocket, grenade, projectile and other weapons:

 - The category of the hit armored or other target is determined and, depending on this, a warhead is selected to hit the target and the control unit is programmed.

 In particular, connected devices are programmed by a programmable initializer:

 - Contact or non-contact initialization is performed as one

installation, and a lot of installation initializer rocket control unit and other necessary mechanisms and control units of the projectile, grenade, rocket to perform a specific task - the need to defeat a certain

armored target or other target, in particular, using the range finder (automated range finder) determines the exact distance to the target and using an automated control system, ballistics and calculations

block separation initialization time is determined for maximum

the damaging effect of the use of separable combat devices or initialization of separation from a non-contact initializer (fuse) or other necessary initializer is established, but at the same time the combined warhead of the ammunition can be used in the assembled state.

 In particular, a projectile is fired or a rocket or grenade is launched, due to the sharp acceleration of the projectile, rocket, grenade, the locks of the locking mechanism — release (locking devices of assembled devices) are detached from the magnet of the locking mechanism — the devices are locked together, bullets in the channel freely move along the sleeve in the opposite position until it stops in the spring clip, while the spring clip of the device (1) is pressed out and released from the hook of the device (3) and the bullet is fixed by the boss of the spring clip devices (1) in this position, while device (1) continues to fly in a connected state with device (3) without being fixed to each other and are kept in a connected position only due to the oncoming air flow.

 In particular, during initialization from a remote fuse, block separation is initialized through a programmed time interval or when initialization from a non-contact or other necessary initializer, block separation occurs from the command of a much needed installation control unit.

 In particular, it is possible to make a combination of connected devices in the form of a main tail warhead device, for example, cluster munition and headunit - as an example, shown in Figures - 53; 54.

 In particular, a cluster rocket, a bomb, which, upon initialization, detaches the head module, device (1) or device (3) intended for

central target destruction and immediately after the separation of devices, the kick-off or bursting charge of the main module is initialized for

scattering of combat elements, this design eliminates the influence of disturbances arising from the operation of the expelling or explosive charge of the cartridge warhead of the main device of the module and allows you to hit small area targets with high-precision defeat of the center of destruction with high accuracy; this design allows you to use the front device with increased

the power of the warhead, in particular, the front module may contain two detachable devices - the head unit with a volumetric detonating mixture and the second device with a warhead of high-explosive fragmentation - to detonate of a detonating mixture in air, while there must be clear programming on the flight speed so that the second module detonates in a gas volumetric-detonating cloud, as an example, the head module may have a two-module high-explosive fragmentation warhead or high-explosive fragmentation munitions

(it turns out a zone of continuous destruction) and is especially effective for destruction from helicopters and airplanes instead of multi-barrel rocket launchers with Russian S-13 missiles; "C - 8"; Western "Hidra-70"; "CRV7" and so on, since a volley from multi-barrel installations is made by volleys consisting of several missiles simultaneously from two coaxial multi-barrel rocket launchers; the difference in defeat, taking into account the circular probable deviation, is huge, because instead of several rockets it is necessary to use one or two high-precision correctable or guided missiles with a control and guidance unit - one engine, one control and guidance unit, an ideal circular or ellipse destruction system, depending from the angle of destruction - (with a zone of continuous destruction) with an adjustable density of destruction with the required number of warheads, in particular in the form of a hexagonal or octagonal perimeter and central lesion and so on; taking into account the weight of the block of multi-barrel reactive installations - each cartridge block can be replaced by two to four cartridge

high-precision corrected or guided missiles.

 In particular, as an example, it is possible to manufacture rockets with a modular design in the form of connected devices for various purposes - a head unit with an armor destruction unit, a medium device with a volumetric detonating mixture, a tail unit with a high-explosive fragmentation part, while the armored vehicle is first affected, followed by a certain distance undermined

a device with a volumetric detonating mixture and with a certain interval into the aerosol cloud, a device with a high-explosive fragmentation warhead flies in and undermines - it turns out 3 types of interaction on the enemy - it turns out

armor-piercing - high-explosive-fragmentation impact with increased high-explosive

obstruction, that is, in trenches, in protective shelters, since the detonation of the head ammunition occurs with a certain lead - it cannot ignite the volumetric - detonating mixture in a gas cloud.

 As an example, an anti-tank warhead is depicted with two

devices in the Figures - 37; 38. As an example, an anti-tank warhead is depicted with three devices in Figures - 39; 40.

 At the same time, in the design of a grenade launcher shot, as an example, a head unit with an electronic warfare unit - a radio noise generator (50) is used, which also contains chambers for generating a smoke curtain (52) and a chamber for ejecting passive protection dipoles (51) in the form of electronic warfare combat - protection against means of detecting a tank or other equipment, and in particular, may contain small cumulative ammunition to destroy at least one layer of dynamic protection.

 When initializing the separation of devices, the devices are disconnected, and the head device receives an impulse to separate and continues to fly at a higher speed, while the tail device receives an opposite impulse and loses slightly the flight speed.

 This property of increasing speed for the head unit is very important, as it allows the head unit to leave the zone of destruction by combat elements of the active protection of the tank or armored vehicles, although there is a possibility of destruction by means of active protection of the tank.

 This property of speed reduction for a disconnected tail device is very important, since it allows the tail device to leave the affected area by combat elements of active protection of a tank or armored vehicles.

 On the head unit, all electronic warfare tools are immediately turned on, which leads to complete invisibility of those flying behind the front device

- basic anti-tank weapons - the operation of such a device requires a maximum

- from one to several seconds. When disconnecting devices, the rear unit slows down its flight speed a little, since it has many times more kinetic energy than the head unit of the radio electronic warfare.

 Also, to increase the inconspicuity of the middle and the main device, in particular, devices can be coated with absorbing materials made using the Stele technology using radar absorbing materials and coatings.

This design of the head unit when separated from the main unit, consisting of one to four devices, acts as a real warhead and can be affected by active protection means of armored vehicles and undermined. In particular, to increase the speed of separation, the head unit may further comprise a central jet engine (37) and / or side jet engines (39) with jet nozzles (42) or a jet engine (39) with several jet nozzles (42) which will lead to an additional acceleration of the device, which in turn leads to a very positive effect - the means of detecting the tank will not be able to determine the exact speed of the warhead with acceleration during the defeat of its means of active protection of the tank or ammunition armored vehicles and, accordingly, will not be able to accurately issue a command to defeat a warhead to the mechanism of destruction of flying ammunition.

 One main point - when moving with the acceleration of the head unit with electronic warfare means or combat destructive elements using jet engines - the electronics of the tank can give an erroneous command to defeat with a delay, and the protection elements will hit the space between the head units and the tail devices flying sequentially, in such In this case, all devices will hit the target, in which case, in particular, is necessary

additional cumulative or other charge with an initiation mechanism in the head unit.

 To determine the increase in speed of the head unit and give an exact command to shoot the striking device and hit the head unit in up to 100 milliseconds, no active defense device in the World can even with a combat strike core, patented in Russia, since it is designed for a slight change in speed approach of combat devices.

 After the devices are disconnected - with the necessary delay, the gas generator for the separation of the main devices - the middle and tail main ones with combat elements of the defeat is initialized.

 The following flying device as an example, may contain several, radially located, with the necessary angle of deviation from

the central axis, impact nuclei or cumulative charges, or other means of destruction, and in particular, may also contain a central combat core,

a cumulative charge or other means of destruction, with an instant initializer or a mechanism for the necessary deceleration - from the central control unit or initializer located in the protruding piston with the rod of the device (3) or another control unit and execution. In this case, the piston cup can be shot from the piston to improve the initialization of ammunition.

 Such a defeat mechanism with several battle cores allows you to hit several adjacent blocks of dynamic protection, which allows you to clear a large section of the armor on a tank or other armored vehicles from at least one row of blocks of dynamic protection by undermining the blocks of dynamic armor of a tank or other armored vehicles.

 Such a device of the middle device of the warhead allows you to withstand the flying caps of the dynamic protection of the tank “T - fourteen” - “Armata”, since, when hit in the flying cover, the combat nuclei have time to form an attack core, and will pierce the flying cover and at the same time the attack nuclei can hit the next a layer of dynamic armor, but even in the case of a simple detonation of all combat elements of a warhead, it will have a total explosive charge of approximately five hundred grams to three kilograms of explosive - this is complemented It will allow you to throw the lid to the side, but one more ammunition is needed - lateral in the rear of the device, so that when the main ammunition is triggered, the side ammunition in the tail of the device will work, which will lead the tail of the device and the fragments from the flight path of the main ammunition, which has, for example , the front cumulative charge, or other damaging element, in the piston and rod of the device (3) to defeat the remainder of the dynamic armor and the main charge to defeat the main armor of the tank.

Also, as an example, the first, second or third flying anti-tank munition device may contain, for example, a powerful high-explosive warhead or warhead, for example, one to three kilograms of explosive with an impact core, with initialization from a central initializer located in the piston with a rod device, which allows you to make a large hole in the passive element of armor - mounted lattice protection of armored vehicles, for the passage of the tail device with the main combat element to defeat b Roni, allows you to disrupt sandbags or stones and other protective structures, while, to increase the speed of separation, the device may additionally contain a central jet engine (37) and / or side jet engines (39) with nozzles or a jet engine with several jet nozzles. At the same time, the flight speed of the device - the main warhead of the grenade, rocket, projectile is slightly slowed down and loses a certain amount of kinetic energy, which makes the ballistics of the flight steeper, which must be taken into account in the calculations, since it affects the circular probable deviation in the direction of increasing the ellipse of the circular probable deviation.

 In particular, as an example, it is possible to produce a kinetic projectile with a modular design in the form of connected devices (1) and (3) and are shown in Figures - 9; 10; eighteen; 31; 32; 33; 34; 63; 64; 65, while the separation control is programmed using the control of the tank and when disconnected in flight, the warhead is accelerated and the tail is braked.

 To identify a sharp increase in the speed of the head unit and give an exact command to shoot the striking device or to direct and fire a combat core and hit the head unit in up to 20 milliseconds, no active defense device in the World can, even with a combat strike core,

patented in Russia, as the active protection systems of armored vehicles

designed for a slight change in the speed of approach of combat devices.

 In this case, the head of the kinetic rocket (12) affects elements

passive protection of a tank or armored vehicles, the main part of a segmented kinetic projectile with a slightly reduced speed performs the combat mission in full, since, in this case, it cannot be hit by active means of protection of the tank, since the flight takes place at the necessary safe distance from the passage of the striking elements active protection of the tank, armored vehicles, while part of the dynamic armor is already destroyed by the head unit in a certain area, but in some cases the main kinetic projectile can hit house

located intact dynamic armor, in which case the tank’s destruction rate is very small.

In this case, in particular, to increase the speed of separation, the head device of the kinetic projectile may additionally contain a central jet engine (37) which will lead to additional acceleration of the head device (1), which in turn leads to a very positive effect - tank detection means will not be able to determine the exact speed of the warhead with acceleration during its defeat by means of active protection of a tank or other armored vehicles and, accordingly, will not be able to accurately issue a command to kill head kinetic warhead into the mechanism of destruction of flying ammunition, and the module of destruction of flying ammunition will fail.

 One main point - when moving with acceleration of the head unit of a kinetic projectile or rocket using a jet engine (37) - the electronics of the active protection of the tank or any other armored vehicles can give an erroneous command to defeat with a delay, and the protection elements will hit the space between the flying devices, in such In case all devices hit the target.

 The distance in flight between successively flying devices - the warheads of a grenade, rocket, projectile should allow a safe approach to

the necessary distance to the tank and the consequent defeat of a certain surface area of the tank or armored vehicles, taking into account all the factors affecting the warhead of the devices.

 When initializing three devices or more from a remote fuse, separation can be carried out simultaneously (one installation initializer) or sequentially or combined (many installation initializer), in particular, an anti-personnel grenade with several blocks, a rocket with several blocks, with the necessary interval between separation (many installation initializer), which allows, in particular, for anti-tank grenades, rockets and shells to initiate separation at the beginning of the head unit in order to accelerate I apparatus using many additional radial propulsion jet nozzle or jet engine with radially arranged multiple jet engines, particularly united annular radial tube, in order to create active and passive device

electronic interference and clouds of smoke, thus, the device acts as a false target, an active, and passive provider of interference for means

electronic warfare, means of active protection of armored vehicles in the cloud of passive protection flies apart ammunition, and which is completely hidden from all means of observation and tracking of the object of destruction (tank, armored vehicles), while the head unit completely hides the devices flying after it due to

generating active interference using the active interference generating unit, a plume of smoke, and passive means of reflection, which allows the devices to separate and sequentially hit the desired point of destruction at the target (targets) with the necessary circular probable deviation, this is only one of the options for an anti-tank warhead divided into blocks (there are many options), which allows the head unit to activate the active protection elements of the armored vehicles and fire a shot with striking combat elements, the next flying device to activate the passive protection elements of the armored vehicles and neutralize destroying the necessary part by initializing the elements of the passive armor of the armored vehicles or the tank to undermine, hit the main device have become elements of passive protection of armored vehicles and penetrate the main armor.

 This is a new class of ammunition that can overcome all known and promising systems for protecting tanks and armored vehicles with all the active and passive protection systems for tanks and armored vehicles. The invention allows the development and manufacture of new types of warheads of munitions with separation

multi-functional warheads on devices with multiple programming systems designed for specific combat missions.

 Flight control or flight coordination with such an anti-tank combat missile, projectile is currently possible only before the separation of the head unit - for example, electronic warfare devices, but it is possible with the development of new control systems or modernization of old control systems.

 In particular, as an example, it is possible to produce a fire munition in the form of a mine, consisting of devices - a lower persistent fire-fighting munition in the form of a munition with fire-fighting powder or liquid or other extinguishing agent; a middle detachable device with a thermobaric warhead and a warhead with fire fighting substance.

This design of the mine allows initiating the separation of the head unit with the middle device, after the separation, the lower persistent fire-fighting munition is initiated to be disconnected with the middle detachable device with the thermobaric warhead, while jet engines (39) and / or the central jet engine (37) allow raising each device with a warhead to the required height, and a device with a thermobaric warhead is undermined to create a strong detonation force lny to churning and simultaneous flame burning oxygen upper munition allows for blasting explosive cloud cover volumetric fire fighting mixture, in this case, immediately after separation of the ammunition with

thermobaric warhead, there is an undermining of the lower fire-fighting ammunition, for example, with fire-fighting powder, a triple effect is obtained on the fire site - a powerful detonation wave at the required distance from

the surface of the earth and the fire-fighting substance scattered near the surface of the earth at a large distance from the place of detonation, and the spread of the fire-fighting substance over the center of the explosion, under such conditions of use, the fire-fighting substance receives additional energy for better atomization and exposure to the fire, and thus does not ignite from undermining thermobaric ammunition.

 As an example, a fire mine ammunition is depicted in Figure 55; 56 as disconnected two devices - the bottom resistant fire-fighting ammunition in the form of ammunition with fire-fighting powder or liquid or other extinguishing agent; element of the head detachable device with a thermobaric warhead with a radial jet engine.

 One of the effects - there is a radial collapse of trees, shrubs, branches are broken and discarded, which allows you to make a clearing in the forest or other necessary places.

 Initialization is desirable during the approach of the fire to

a fire mine, which produces the maximum effect on a fire using a remote initializer or other mechanism, such as a temperature detector.

 In particular, as an example, it is possible to manufacture fire-fighting ammunition in the form of a modular separable grenade launcher shot or rocket with

programmable separation and detonation: - the warhead of a grenade, missiles contains several separable devices with fire fighting units with fire fighting substance and is shown as an example in Figure 51.

 At the same time, in particular, it is possible to use such ammunition with an undermining of the tail device of 5 meters or more from the place of the shot, since the combat charge for detonating the fire-fighting ammunition is very small, and the external elements of the device casings are easily destroyed.

In this case, the separation can be carried out in such a way that the tail unit with fire-fighting ammunition will stop after separation in the air due to the return from the separation and the fire will undermine ammunition (the tail of the ammunition will fall near the place of detonation), and all other warheads will be detonated at a certain distance from the tail of the device with fire-fighting ammunition, which allows the use of such ammunition to create corridors for evacuation of people and other fire works to a distance of 10 meters or more fire depth and in other necessary cases. In this case, the propulsion system should be low-power with a small required range of flight of a grenade or rocket. This fireproof ammunition is capable of hitting a fire in the very center of the fire.

 In particular, as an example, it is possible to make a combination of connected devices in the form of a main tail warhead device, for example, a monolithic high-explosive fragmentation or cluster munition and a head unit with an electronic warfare unit - a radio noise generator (50), which also contains chambers for generating a curtain of smoke ( 52) and chambers for the emission of passive protection dipoles (51) in the form of electronic warfare means - protection against means of detecting enemy air defense or other equipment can also be successfully can be used to protect any missiles, bombs and other means of destruction and allows the main ammunition to carry out its combat mission, while the missile, bomb can be placed with several detachable devices with electronic defense equipment, while it is necessary to install an anti-aircraft missile approach detection unit with an initializer or another necessary control and initialization unit, while the head unit may further comprise a central jet engine (37) and / or side jet engines (39) with jet E nozzles (42) or jet engine with several jet nozzles (42), this active protection munition allows to overcome protective anti-missile missile systems opponent, in many cases - the only solution to solve the combat mission and as an example is shown in Figure - 11; 12; 39; 40.

In particular, as an example, it is possible to manufacture a cluster grenade or rocket for a grenade launcher, artillery gun or recoilless guns - as an example - Figures - 51; 52 - this design of the warhead of a grenade, rocket allows melee to defeat the enemy in inaccessible places - behind the ramparts, between houses on the streets and so on, and excellently replaces the Israeli cluster shell ARAM with five high explosive fragmentation warheads, and many the parameters and exceeds the characteristics of the Israeli shell, since the disks of the APAM shell roll somersaults after separation from the shell.

 The only drawback is that it is impossible to accurately determine the start point of the separation of the grenades, since the starting and / or jet engine of the grenade does not exactly deliver to the separation point a certain distance - either a little further or a little closer, but the design of the warhead allows you to fix this defect in close combat - at a distance of up to five hundred meters.

 This drawback can be corrected by making shots to recoilless guns, or missiles to artillery guns, which allows you to perform the necessary combat mission.

 The above signs of using the claimed invention are only a small part of the examples of application of the claimed invention.

 Flight control or flight coordination with the above modular warheads is currently possible only before the separation of the head unit - for example, electronic warfare devices, but it is possible with the development of new control systems.

 The claimed connecting and disconnecting mechanism allows

to produce a new generation of ammunition containing new multiple destruction systems that have the same and / or multiple multi-type principles of destruction, in particular, containing active and / or passive elements to counteract the enemy’s active defense, allowing the main combat devices, ammunition modules to escape from the active defense strike the enemy and complete the task.

 The claimed connecting and disconnecting mechanism allows

to produce a new generation of ammunition, consisting of two or more devices, modules having fundamentally new multiple destruction systems that can solve all problems with the defeat of any armored vehicles, with any active and passive means of defense.

 The application of the claimed invention provides the creation of

multi-functional bombs, shells, missiles, mines, grenade launchers,

(some have new defeat principles) and provide defeat

highly protected objects, tanks, armored vehicles with active and passive defense systems, and powerful armor protection, provide high-precision defeat for small area targets, provides fire fighting in difficult conditions.

 The application of the claimed invention provides the creation of

multifunctional devices, modules, designs to perform

necessary tasks.

 At the same time, the development of armor protection of armored vehicles, systems of passive and active protection of armored vehicles is outstripped and allows you to create new destruction systems with new principles of destruction of any armored vehicles with any active and passive protection systems.

 The use of the claimed invention allows you to create new types of ammunition with new principles of destruction.

 The application of the claimed invention allows to create new types of fire extinguishing systems with new fire extinguishing principles.

 The application of the claimed invention allows you to create new mechanisms with new necessary properties and actions.

 The declared connecting and disconnecting mechanism is, in fact, a new word in the concept of the development, manufacture and use of a new generation of anti-tank systems, high-precision cluster munitions,

fire ammunition and other designs based on

connecting and disconnecting mechanism and can be implemented in various versions with various devices, modules, designs.

 It should be emphasized that all examples of the use of the invention serve only to illustrate the possibilities of the invention and should not be scientifically technically correct in any way, while the examples show the direction of development and the direction of manufacturing new warheads for weapons,

fire ammunition, structures.

The invention is not limited to the exemplary embodiments described above, which are given as general examples to explain the main idea of the invention. The scope of protection of the invention covers various changes and modifications. In the connecting-disconnecting mechanism, various combinations of features protected as features of the invention in the individual claims may be used. The numerical designations given in the claims, the description and the drawings serve to illustrate the invention and do not limit the scope of protection.

 Literature

 1. Application of Great Britain N 2141809 from 03.01.85, IPC 3 F 42 B 8/00). [one].

 2. French Patent N 2545923, F42B12 / 10, published November 16, 1984. [2].

Claims

"The connecting and disconnecting mechanism of devices, modules." Claim.

1. The connecting and disconnecting mechanism, comprising two devices, containing a block or control mechanism for initialization, for example, electronic fuse, gas generator,

 made in the form of a special separating charge, for example, a powder charge, with an actuating initiation mechanism, the devices being disconnected as a result of the explosion of a special separating charge, characterized in that the device (1) comprises a cylinder (6) with a stepped sleeve (7), a device (3) contains a piston (14) with a rod (18) installed with the possibility of directional translational movement forward, backward in the axial

 the direction of the cylinder (6) and the stepped sleeve (7) of the device (1) between the first piston position, in which the volume of the cylinder cavity bounded by the piston (14) and the cylinder (6) is minimal (53), and the second piston

 position - at the time of the final separation of the working surfaces (35) of the device (1) with the working surfaces of the device (3), while the first piston position is limited by the stop between the abutment surface of the device (1) and the abutment surface of the device (3), while the connecting-disconnecting the mechanism contains a gas distribution mechanism in the form of openings, and / or grooves, and / or air compartments for the purpose of controlling, directing, distributing, balancing gas flows for the purpose of controlled and controlled discharge of cree nical gas pressure of

 the cylinder cavity of the cylinder to the elements of the device (1) and the device (3) and beyond the disconnectable devices in order to completely or partially prevent mechanical work of the expiration of the critical gas pressure - to act mechanically on the device (1) and the device (3) during the separation of the devices , and after the final separation of the device (1) and the device (3), while the release of critical gas pressure, capable of

perform mechanical work through a gas distribution mechanism is performed in whole or in part during the longitudinal movement of the working surfaces of the piston and the rod of the device (3) relative to the working surfaces of the working sleeve of the cylinder and the stepped sleeve of the device (1) in the longitudinal axial direction (4) - between the moment of the start of the reset

 critical pressure of the gas through the elements of the gas distribution mechanism and the second piston position - at the time of the final separation of the working surfaces of the device (1) with the device (3), while on the inner surface of the cylinder (6) and the stepped sleeve (7) of the device (1) in series, from the bottom of the cylinder (5) in the longitudinal axial direction of the cylinder and the stepped sleeve (4) are made - the working section of the cylinder sleeve (8); end face of the working sleeve of the cylinder (9); the first working section of the stepped sleeve (10); the end face of the stepped sleeve (13) of the device (1); at the same time, on the lateral surface of the piston working section (14) and the lateral surface of the rod (18) of the device (3) in the longitudinal axial direction from the piston bottom (16), the piston working section (15); the first step of the rod (19) with an increase in the diameter of the rod relative to the working section of the piston; the first working portion of the rod (20); stem collar (23) or

 the adjacent area (24) of the device (3).

 2. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, the fact that it contains a gas generator (2) with an executive

 the initialization mechanism, while the gas generator is made on the bottom of the cylinder (5).

 3. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, the fact that it contains a gas generator (5) with an executive

 the initialization mechanism, while the gas generator is made on the piston bottom (16).

 4. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, the fact that it contains the active substance of the gas generator, while the active substance of the gas generator fills in whole or in part the cylinder cavity of the cylinder (53) and contains an initialization actuator.

 5. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

in particular, the fact that the housing of the device (1) contains a central jet an engine (37), while the jet fuel of the jet engine performs the function of a gas generator (2) containing, for example, gunpowder, pyroxylin, and contains an actuator for initializing the gas generator, while a jet nozzle (42) of the central jet engine is made on the cylinder bottom, the jet nozzle enters the cylinder cavity of the gas cylinder and is in functional-structural unity with the central jet engine.

 6. The connecting and disconnecting mechanism according to claim 1, characterized in that the housing of the device (3) comprises a central jet engine (37), while the jet fuel of the jet engine functions as a gas generator (2) containing, for example, gunpowder, pyroxylin, and contains the actuator for initializing the gas generator, while on the piston bottom a jet nozzle (42) of the central jet engine is made, while the jet nozzle enters the cylinder cavity of the gas cylinder and is located in functional and constructive unity with the central jet engine.

 7. The connecting and disconnecting mechanism, paragraph 5, according to paragraph 6,

 characterized, in particular, in that the jet nozzle (42) of the central jet engine (37) is made with a persistent plug of a predetermined profile, fixed in the required manner in the jet nozzle of the central jet engine from the bottom of the cylinder, or / and the piston bottom.

8. The connecting and disconnecting mechanism, according to paragraph 1, characterized, in particular, in that the device (1) or / and the device (3) comprises a control unit or mechanism (38) for an actuating mechanism for initializing the mechanism, or / and mechanisms, or / and initializers of the gas generator (2) or gas generators, while containing the necessary transmitting Executive circuit, or Executive circuit for initialization

 necessary mechanisms and gas generators.

9. The connecting-disconnecting mechanism, according to paragraph 1, characterized, in particular, in that the inner surface of the working sleeve of the cylinder (8) of the device (1) is made with holes, or / and grooves of a given profile of the gas distribution mechanism.

10. The connecting and disconnecting mechanism, according to paragraph 1, characterized, in particular, in that the working surface of the cylinder bushing (8) of the device (1) is made with polygonal or non-circular cutting.

 11. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, the fact that the rod (18) with the piston (14) is made in the form of a monolithic element of the device and performs the functions of a gas piston.

 12. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, the fact that the rod (18) is made with a rigid connection with the piston (14) in the required predetermined manner.

 13. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, the fact that the stem (18) is made in the form of a monolithic rod, or a hollow rod, or a combined rod, consisting of sections of a monolithic and hollow rod sections of the required predetermined design.

 14. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, the fact that between the first working section of the step sleeve (10) and the end face of the step sleeve (13) of the device (1), the first step of the step sleeve (11) is made with the expansion of the inner diameter of the step sleeve relative to the first working section of the step sleeve (10), and during the first step of the step sleeve (11), a second working portion of the step sleeve (12) is made up to the end of the step sleeve (13) of the device (1).

15. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, the fact that between the first working portion of the rod (20) and the shoulder of the rod (23), or the adjacent region (24) of the device (3), a second ledge of the rod (21) is made with an increase in the diameter of the rod relative to the first working portion of the rod (20) ) and in the continuation of the second step of the stepped sleeve (21), a second working portion of the rod (22) is made up to the shoulder of the rod (23), or the adjacent area (24) of the device (3).

 16. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, the fact that the cylinder bottom element (5) is made with an internal

 conical, or rounded, or defined profile surface

devices (1).

17. The connecting and disconnecting mechanism, according to paragraph 1, characterized, in particular, in that the element of the piston bottom (16) is made with a convex

 conical, or rounded, or given profile surface of the device (3).

 18. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that the end face of the working sleeve of the cylinder (9), and / or the first step of the stepped sleeve (11), or / and the end face of the stepped sleeve (13), and / or the cylinder bottom element (5), is made with a working function of an emphasis in a certain persistent surface of the device (3).

 19. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that the end face of the working sleeve of the cylinder (9), and / or the first step of the step sleeve (11), and / or the end face of the step sleeve (13), is made in the form of a transition step.

 20. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

 characterized, in particular, in that the first ledge of the rod (19), or / and the second ledge of the rod (21), or / and the shoulder of the rod (23), and / or the element of the piston bottom (16), is made with the working function of the stop in a defined abutment surface (31) of the device (1).

 21. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

 characterized, in particular, in that the first ledge of the rod (19), or / and the second ledge of the rod (21), is made in the form of a transition ledge.

 22. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that the end face of the working sleeve of the cylinder (9), and / or the first step of the step sleeve (11), and / or the end face of the step sleeve (13) is made in the form of a flat or conical, or rounded, or predetermined profile surface devices (1) and are made with a round and / or non-circular section.

 23. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

characterized, in particular, in that the first ledge of the rod (19), or / and the second ledge of the rod (21), and / or the shoulder of the rod (23) is made in the form of a flat or conical, or rounded, or predetermined profile surface of the device (3 ) and are made with a round and / or non-circular section.

24. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14, characterized, in particular, in that the working surface of the working sleeve of the cylinder (8), and / or the first working section of the stepped sleeve (10), and / or the second working section step bushings (12) are made with round or / and non-circular section.

 25. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

 characterized, in particular, in that the lateral surfaces of the piston working section (15), and / or the first rod working section (20), and / or the second rod working section (22) of the device (3) are made with round or / and non-circular section .

 26. The connecting-disconnecting mechanism, according to paragraph 1, characterized, in particular, in that the end of the step sleeve (13) is made in the form of a flat or conical, or rounded, or predetermined profile surface of the device (1), while the end of the step sleeve is made with round and / or non-circular section.

 27. The connecting-disconnecting mechanism, according to paragraph 1, characterized, in particular, in that the shaft shoulder (23) is made in the form of a flat or conical, or rounded, or predetermined profile surface of the device (3), while the shaft shoulder with a round and / or non-circular section.

28. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 14, paragraph 15, characterized, in particular, in that at the transitions from the piston bottom (16) to the working section of the piston (15), and / or from the working section a piston (15) to a groove of a predetermined profile (25), and / or from a first ledge of a rod (19) to a first working portion of a rod (20), or / and from a first working portion of a rod (20) to a groove of a predetermined profile (25), or / and from the second step of the rod (21) to the second working portion of the rod (22), or / and from the second working portion of the rod (22) to the groove of a given profile (25), whether / and from the working sleeve of the cylinder (8) to the end of the sleeve of the cylinder (9), or / and from the first working section of the step sleeve (10) to the groove of a given profile (25), or / and from the first working section of the step sleeve (10) to the first step of the step sleeve (11), and / or from the second working portion of the step sleeve (12) to the groove a predetermined profile (25), and / or from the second working portion of the step sleeve (12) to the end face of the step sleeve (13) of the device (1), and / or from the end face of the sleeve (29) to the working surface of the sleeve (29), and / or from the end of the sleeve (29) to the landing socket of the sleeve (29), the necessary type of chamfer (30) is made, for example, a rounded, conical, radius, predetermined profile chamfer (30), while the chamfer is made with a round or / and non-circular section.

 29. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14, according to

 item 15, characterized, in particular, in that at the transitions from the working section of the piston (15) to the first ledge of the rod (19), and / or from the first working section of the rod (20) to the second ledge of the rod (21), or / and from the second working portion of the rod (22) to the shoulder of the rod (23), and / or from the first working portion of the rod (20) to the shoulder of the rod (23) or / and from the first working section

 step sleeve (10) to the end of the sleeve of the cylinder (9), and / or from the second working section of the step sleeve (12) to the first ledge of the step sleeve (11) a predetermined fillet profile is made.

 30. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14, according to

 item 15, characterized, in particular, in that at the transitions from the working section of the piston (15) to the first ledge of the rod (19), and / or from the first working section of the rod (20) to the second ledge of the rod (21), or / and from the second working portion of the rod (22) to the shoulder of the rod (23), and / or from the first working portion of the rod (20) to the shoulder of the rod (23), and / or from the first working section

 step sleeve (10) to the end of the sleeve of the cylinder (9), and / or from the second working section of the step sleeve (12) to the first ledge of the step sleeve (11) a predetermined groove profile is made.

31. The connecting and disconnecting mechanism, according to paragraph 1, characterized in that, from the side of the first ledge of the rod (19), at the required predetermined distance from the first ledge of the rod - on the working section of the piston (15) is made conical or smooth, specified profile, transition to a larger diameter of the piston working section (15) and, during the conical section, a piston working section (15) of a larger diameter (54) is made, located between the first ledge of the rod (19) and the conical transition of the piston working section, in order to fit a larger working diameter th section of the piston in a predetermined portion of the working sleeve of the cylinder (8) with the necessary interference (34) in order to fix the device (1) with the device (3) with each other when connected.

32. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

 characterized, in particular, in that from the side of the second shoulder of the rod (21), or the shoulder of the rod (23), or the adjacent region (24) of the device (3),

 the required specified distance from the second ledge of the rod, or the shoulder of the rod, or the adjacent area of the device - on the first working section of the rod (20) made a conical or smooth, predetermined profile, the transition to a larger diameter of the first working section of the rod (20) and continued conical section the first working section of the rod (20) with a large diameter (54) located between the second ledge and the conical transition of the first working section of the rod, in order to fit a larger diameter of the first working section of the rod in a given section of the first slave of another portion of the stepped sleeve (10) with the necessary interference (34) in order to fix the device (1) with the device (3) with each other when connected.

 33. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

 characterized, in particular, from the side of the stem flange (23), or the adjacent region (24) of the device (3), at the required predetermined distance from the stem collar, or the adjacent region of the device (3), on the second working portion of the rod (22 ) made conical or smooth, of a given profile, the transition to a larger diameter of the second working portion of the rod (22) and

 continuation of the conical section, the second working section of the rod (22) with a large diameter (54) located between the shoulder of the rod (23), or the adjacent area (24) of the device (3) and the conical transition of the second working section of the rod (22), with the aim larger diameter of the second working section of the rod in a given section of the second working section

 step sleeve (12) with the necessary interference (34) to fix the device (1) with the device (3) with each other when connected.

34. The connecting-disconnecting mechanism, according to paragraph 1, characterized, in particular, in that, on the side of the end of the sleeve of the cylinder (9) of the device (1), at the required predetermined distance from the end of the sleeve of the cylinder, in the first working section of the step sleeve (10 ) made conical or smooth, of a given profile, the transition of the first working section of the stepped sleeve to a smaller the diameter of the first working section of the step sleeve and, in continuation of the conical section, the first working section of the step sleeve (10) with a smaller diameter (54) located between the end face of the piston sleeve (9) and the conical transition of the first working section of the step sleeve (10) is made for landing a predetermined portion of the first working portion of the rod to a specific portion of the first working portion of the stepped sleeve (12) with the necessary interference (34) in order to fix the device (1) with the device (3) with each other when connected.

 35. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that, from the side of the first step of the step sleeve (11) of the device (3), at the required predetermined distance from the step of the step sleeve in the second working section of the step sleeve (12), a conical or smooth transition of the specified profile is made, the transition to a smaller diameter of the working section of the step sleeve and, in the continuation of the conical section, a working section of the step sleeve with a smaller diameter (54) is located between the first step of the step sleeve (11) and the conical transition of the second working section of the step second sleeve (12) to fit predetermined portion of the rod of the second working portion at a certain portion of the second working step the sleeve portion (12) with the required interference fit (34) to the fixing device (1) with a device (3) between them when connected.

 36. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

 in particular, on the piston bottom side (16), at the required predetermined distance from the piston bottom, on the piston working section (15), a conical or smooth, predetermined profile transition to a smaller diameter of the piston working section located between the piston bottom and the conical transition is made the working section of the piston, in order to fit the working section of the piston into the working sleeve of the cylinder (8) with the necessary interference (34) in order to fix the device (1) with the device (3) during assembly and release during initialization of the gas generator (2).

 37. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

in particular, on the middle or predetermined part of the first working portion of the stepped sleeve (10) or between the end face of the cylinder sleeve (9) and the first the working section of the stepped sleeve of the device (1) has an element of the gas distribution mechanism — the air compartment (26) in the form of a groove (25) of circular or non-circular section of a given profile with a diameter that is larger than the diameter of the first working section of the stepped sleeve (10).

 38. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that on the middle or predetermined part of the second working section of the stepped sleeve (12) or between the first step

 of the stepped sleeve (11) and the second working portion of the stepped sleeve of the device (1), an element of the gas distribution mechanism is made - the air compartment (26) in the form of a groove (25) of round or non-circular section of a given profile with a diameter that is larger than the diameter of the second working portion of the stepped sleeve ( 12).

 39. The connecting and disconnecting mechanism, according to paragraph 1, characterized, in particular, in that on the middle or predetermined part of the piston working section (15) or between the piston working section and the first rod step (19), an element of the gas distribution mechanism is made - the air compartment (26) in the form of a groove (25) of a round or non-circular section of a given profile with a diameter that is less than the diameter of the piston working section (15).

 40. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

 characterized, in particular, in the middle or predetermined part of the first working portion of the stem (20), or between the first working portion of the stem and the second ledge of the stem (21), or the shoulder of the stem (23), or the adjacent portion (24) of the device ( 3) an element of the gas distribution mechanism is made - the air compartment (26) in the form of a groove (25) of a round or non-circular section of a given profile with a diameter that is less than the diameter of the first working portion of the rod.

 41. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

characterized, in particular, in that on the middle or predetermined part of the second working portion of the stem (22), or between the second working portion of the stem and the shoulder of the stem (23), or the adjacent portion (24) of the device (3), an element of the gas distribution mechanism is made - the air compartment (26) in the form of a groove (25) of circular or non-circular section of a given profile with a diameter that is less than the diameter of the second working portion of the rod.

42. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 14, paragraph 15, characterized, in particular, in that the device (1) and / or

 the device (3) is made with holes (27) - elements of the gas

 distribution mechanism.

 43. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14, according to

 item 15, characterized, in particular, in that the device (1) or / and the device (3) is made with grooves (28) - elements of a gas distribution mechanism.

44. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that the first working portion of the stepped sleeve (10) or / and the second working portion of the stepped sleeve (12) is made on the inner surface of the working sleeve (29), which is an integral part of the stepped sleeve (7) of the device (1 ), while the working sleeve (29) is a separate part of the stepped sleeve (7) and is in functional-structural unity with the stepped sleeve of the device (1) and is fixedly mounted in the landing socket of the stepped sleeve in the required predetermined manner, while the external and internal The front working surface of the working sleeve is made with round or / and non-circular section.

 45. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

 characterized, in particular, in that the first working portion of the rod (20) or / and the second working portion of the rod (22) is made on the outer surface of the working sleeve (29), which is an integral part of the rod (18) of the device (3), when this working sleeve is a separate part of the rod (18) and is in functional-structural unity with the rod of the device (3) and

 fixedly mounted in the rod seat socket in the required predetermined manner, while the outer working and inner surface of the working sleeve is made with a round or / and non-circular section.

 46. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14, according to

 item 15, characterized, in particular, in that the working sleeve (29) of the device (1) and / or the working sleeve (29) of the device (3) is made with elements of the gas distribution mechanism - holes (27), and / or grooves (28 )

 47. The connecting and disconnecting mechanism, according to paragraph 1, characterized in

in particular the fact that the piston of the device (3) is made with an external glass, which is made with all specified external surfaces of the piston with the piston working area and piston bottom and performs all the necessary specified functions of the piston, and which is made as a separate element of the piston of the device (3) and is an integral part of the piston of the device, while the cup is in a functional structural unity with the piston of the device (3) and the cup is fixedly mounted on the piston of the device (3) in the required predetermined manner.

 48. The connecting and disconnecting mechanism, according to paragraph 1, characterized, in particular, in that the piston (14) of the device (3) is made with a sealing part (17) that prevents the breakthrough of gases, while the sealing part is made with a sliding fit or with guaranteed clearance, or transition fit or specified guaranteed interference fit with the working sleeve of the cylinder (8).

 49. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 14, paragraph 15, paragraph 44, paragraph 45, characterized, in particular, in that the working sleeve (29) has a conventional sleeve device, or any other necessary type bushings of linear or linear-radial movement, or anti-friction sleeve, or ball sleeve of longitudinal or longitudinal-radial sliding, or linear bearing.

 50. The connecting-disconnecting mechanism, according to paragraph 1, characterized, in particular, in that the working stroke of the piston working section (15) in the cylinder working sleeve (8) is equal to the working stroke of the first rod working section (20) in the first working section of the step sleeve (10), while the final disconnection of the device (1) with the device (3) is carried out simultaneously on two paired working sections of the disconnected devices - between the working sleeve of the cylinder (8) and the working section of the piston (15) or the sealing part of the piston (17), and between the first ra side section of the stepped sleeve (10) and the first working section of the rod (20).

51. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 14, paragraph 15, characterized, in particular, in that the stroke of the working section of the piston (15) in the working sleeve of the cylinder (8) is equal to the working stroke of the second working section of the rod (22) in the second working section of the stepped sleeve (12), while the final disconnection of the device (1) with the device (3) is performed simultaneously on two paired working sections of disconnected devices - between the working sleeve of the cylinder (8) and the working section of the piston (15) or the sealing part of the piston (17), and between the second working section of the stepped sleeve (12) and the second working section of the rod (22) .

 52. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14, paragraph 15, characterized, in particular, in that the working stroke of the first working portion of the rod (20) in the first working section of the stepped sleeve (10) is equal to the working stroke of the second working section rod (22) in the second working area

 step sleeve (12), while the final disconnection of the device (1) with the device (3) is carried out simultaneously on two

 paired working sections of the devices to be disconnected - between the first working section of the step sleeve (10) and the first working section of the rod (20), and between the second working section of the step sleeve (12) and the second working section of the rod (22).

 53. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 14 and paragraph 15, characterized, in particular, in that the stroke of the working section of the piston (15) in the working sleeve of the cylinder (8) is equal to the working stroke of the first working section of the rod (20 ) in the first working section of the step sleeve (10) and is equal to the working stroke of the second working section of the rod (22) in the second working section of the step sleeve (12), while the final disconnection of the device (1) with the device (3) is performed simultaneously on three

 mating working sections of the devices to be disconnected - between the working sleeve of the cylinder (8) and the working surface of the piston (15) or the sealing part of the piston (17), between the first working section of the stepped sleeve (10) and the first working section of the rod (20), and between the second working section of the stepped sleeve (12) and the second guide working portion of the rod (22).

54. The connecting and disconnecting mechanism, according to paragraph 52, characterized, in particular, in that the working stroke of the piston (14) in the working sleeve of the cylinder (8) in the axial longitudinal direction (4) is less than the working stroke of the first working portion of the rod (20) in the first working section of the step sleeve (10) and less than the working stroke of the second working section of the rod (22) in the second working section of the step sleeve (12).

55. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 14, paragraph 15, characterized, in particular, in that the required predetermined working surfaces of the device (1), and / or the device (3) are made with the required predetermined coating - with anti-friction lubricant and / or anti-friction coating (33).

 56. The connecting and disconnecting mechanism according to claim 1, characterized in that the housing of the device (1) comprises a jet engine (39), for example an annular one, provided with at least two jet nozzles (42) or contains at least two jet engines (39) with jet nozzles (42), while jet nozzles (42) are made at the end of the stepped sleeve (13) or at the end of the housing of the device (1) and are in functional-structural unity with jet engines (39) or a jet engine (39 ), while jet fuel rea the active engine performs the function of a gas generator containing, for example, gunpowder, pyroxylin, and contains an actuator for initializing the gas generator.

 57. The connecting and disconnecting mechanism according to claim 1, characterized in that the housing of the device (3) comprises a jet engine (39), for example an annular one, equipped with at least two jet nozzles (42) or contains at least two jet engines (39) with jet nozzles (42), while the jet nozzles (42) are made on the shoulder of the rod (23) or the end of the housing of the device (3) and are in functional-constructive unity with jet engines (39) or a jet engine (39) while jet fuel jet tor performs the function of a gas generator containing such powder, pyroxylin, and comprises

 actuator initialization of the gas generator.

 58. The connecting and disconnecting mechanism, according to paragraph 56 and paragraph 57,

characterized, in particular, in that jet engines (39) are made with radial balancing gas distribution channels (40), and / or an annular balancing gas distribution channel (40) between jet engines (39) and are in functional constructive unity with jet engines engines (39).

59. The connecting and disconnecting mechanism, according to paragraph 56 and paragraph 57, characterized, in particular, in that the jet engine equipped with at least two jet nozzles is made with radial

 balancing gas distribution channels (40), and / or an annular balancing gas distribution channel (40), made between radial balancing gas

 distribution channels and is in functional constructive unity with a jet engine (39).

 60. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14, according to paragraph 15, characterized, in particular, in that the connecting and disconnecting mechanism is made with a mechanism for preventing circumferential rotation (36).

 61. The connecting and disconnecting mechanism, according to paragraph 1, characterized, in particular, in that the connecting and disconnecting mechanism is made with a locking mechanism — the locking devices, to hold the devices in a connected form, with a mechanism for disabling the locking of devices between themselves during start-up, start-up rockets firing a projectile and launching accelerated devices.

 62. The connecting and disconnecting mechanism according to paragraph 1, according to paragraph 14, and paragraph 15, characterized, in particular, in that the connecting and disconnecting mechanism is made with a rigid connection - using a separation mechanism with the initiation of disconnecting the connection of devices using the device separation mechanism .

 63. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14, according to

 paragraph 15, characterized, in particular, in that the device (1) with the device (3) is made with fixing to each other with glue, rubber rings and any other necessary locking elements with separation

 devices during initialization of the gas generator.

 64. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

characterized, in particular, in that the cylinder (6), or / and the stepped sleeve (7), or / and the elements of the gas distribution mechanism, or / and the elements of the locking mechanism - release, or / and the mechanism elements prevent rotation, or / and jet engines, and / or a jet engine, and / or all parts, elements and mechanisms of the device (1) are made coaxially with the axial longitudinal direction of the cylinder and the stepped sleeve of the device (1).

 65. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

 characterized, in particular, in that the piston (14), or / and the rod (18), and / or the elements of the gas distribution mechanism, or / and the elements of the locking mechanism - release, or / and the elements of the mechanism for preventing circumferential rotation, or / and jet engines, and / or a jet engine, and / or all parts, elements and mechanisms of the device (3) are made coaxially with the axial longitudinal direction of the piston and the rod of the device (3).

 66. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that the step sleeve (7) of the device (1) is made in the form of a separate structural element of the device, which is an integral part of the device body (1), while the step sleeve is in functional-structural unity with the device case (1) ) and is fixedly mounted in the seat socket of the device

 the required predetermined method, while the outer, and / or inner surface of the stepped sleeve is made with a round and / or non-circular section.

 67. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that the working sleeve of the cylinder (8) is made as a separate structural member of the device (1) and is an integral part of the stepped sleeve (7) of the device (1), and / or the cylinder (6), and / or the housing device (1), while the working sleeve of the cylinder is in

 functional and constructive unity with the stepped sleeve of the device (1), and / or the cylinder, and / or the body of the device (1) and the working sleeve of the cylinder is fixedly mounted in the stepped sleeve, or / and the cylinder, and / or in the body of the device in the required predetermined manner, however, the outer, and / or inner surface of the working sleeve of the cylinder is made with a round and / or non-circular section.

 68. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

characterized, in particular, in that the housing of the cylinder bottom (5) is made in as a separate structural element of the device (1) and is an integral part of the working sleeve of the cylinder (8) of the device (1), and / or the stepped sleeve (7), and / or the body of the device, while the cylinder bottom is in

 functional and constructive unity with the working sleeve of the cylinder, and / or the stepped sleeve of the device (1), and / or the body of the device (1) and the bottom of the cylinder is fixedly mounted on the working sleeve of the cylinder, and / or on the stepped sleeve, and / or in the body of the device necessary set way.

 69. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that the cylinder (6) with the working sleeve of the cylinder and the stepped sleeve (7) is made as a separate structural member of the device (1) and is an integral part of the housing of the device, while the cylinder with the working sleeve of the cylinder and the stepped sleeve is in functional constructive unity with the device body (1), while the cylinder with the working cylinder sleeve and the stepped sleeve is fixedly mounted in the device body in the required predetermined way, while the external and / or internal surface of the cylinder The core with the working sleeve of the cylinder and the stepped sleeve is made with a round or / and non-circular section.

 70. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 14,

 characterized, in particular, in that the cylinder (6) with the working sleeve of the cylinder (8) is made in the form of a separate monolithic structural element of the device (1) and is fixedly mounted in the landing socket of the stepped sleeve, or / and the device body in the required predetermined manner and is located in functional and constructive unity with the stepped sleeve, or / and the housing of the device, while the cylinder sleeve is an integral part of the stepped sleeve (7) of the device (1), while the outer and inner surfaces of the cylinder with the working sleeve of the cylinder in Full with round and / or non-circular cross-section.

 71. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 15,

characterized, in particular, in that the rod of the device (3) is made with an external sleeve, which is made with working or working sections of the rod, all defined external surfaces of the rod and performs all the defined functions of the rod, and which is made as a separate element of the rod of the device (3 ) and is an integral part of the rod of the device, while the sleeve is in functional and constructive unity with the rod of the device (3) and the sleeve is fixedly mounted on the rod of the device in the required predetermined manner, while the outer and inner surface of the outer sleeve is made with a round or / and non-circular section.

 72. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 14, paragraph 15, characterized, in particular, in that the working surface of the working sleeve of the cylinder, and / or the first working section of the stepped sleeve, and / and the second working section of the stepped sleeve, or / and the piston working section, or / and the first rod working section, or / and the second rod working section, and / and the working section of the working sleeve (29) are made with a high class of surface cleanliness.

 73. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 14, paragraph 15, characterized, in particular, in that the surface of the working section of the cylinder sleeve, and / or the first working section of the stepped sleeve, and / and the second working section of the stepped sleeve, or / and the piston working section, or / and the first rod working section, or / and the second rod working section, and / and the working section of the working sleeve (29) - polished.

 74. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 5, according to

 paragraph 6, paragraph 7, paragraph 56, paragraph 57, paragraph 58, paragraph 59, characterized, in particular, in that the jet engine assembly is made as a separate structural member of the device (1), or / and device (3) and is fixedly mounted in the device case (1), or / and the device case (3) in the required predetermined manner and is in functional-structural unity with the device.

 75. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 56, paragraph 57, characterized, in particular, in that the jet nozzle (42) is made in accordance with the technical specifications - direct-flow

 directed along the longitudinal axis, or / and are made with inclined nozzles, or / and with oblique nozzles with the required specified type of deviation

 direction of a jet of flowing gas from a jet engine nozzle

relative to the central axis of the device.

76. The connecting and disconnecting mechanism, according to paragraph 1, paragraph 56, paragraph 57, characterized, in particular, in that the jet nozzles (42) of the jet engines or engine are made with at least one radial arrangement with respect to the central axis (4) of the device, thus, the jet nozzles are located at least one radius distance from the longitudinal axis of the device.

 77. The connecting and disconnecting mechanism, according to paragraph 1, according to paragraph 8,

 characterized, in particular, in that the control unit or control mechanism comprises a transmitting circuit, and / or a connecting mechanism of the transmitting circuit between the device (1) and the device (3) to predetermined actuators or / and the gas generator initializer or gas generator initializers.