CN210141810U - Direct-drive gun locking mechanism - Google Patents

Abstract

The utility model provides a directly drive lock big gun mechanism, belongs to lock big gun mechanism technical field, solves the technical problem that lock big gun mechanism independence is poor, bulky, the load characteristic is poor, the location precision is poor, and the solution is: the device comprises a shell assembly, a control and detection module, a motor driving module, an electrical interface, a hollow motor, a hollow transmission mechanism, an opening and closing lock mechanism, a linear sensor and a manual device, wherein the shell assembly is arranged on the shell assembly; the shell assembly comprises a main body, an auxiliary main body, a mounting bracket, a main body side cover, an auxiliary main body upper cover and a rear cover; the hollow motor comprises a hollow stator core, a stator coil outgoing line, a hollow rotor core, a large tile magnet, a magnet fastening ring, a small tile magnet and a magnetic sensor plate; the hollow transmission mechanism comprises an inner gear ring, a planet wheel shaft, a planet wheel support, a hollow cover plate and a hollow screw rod. The utility model discloses the integration design adopts electric braking and mechanical speed reduction dual-brake, has improved reliability, maintainability of single part.

Description

Direct-drive gun locking mechanism

Technical Field

The utility model belongs to the technical field of lock big gun mechanism, concretely relates to directly drive lock big gun mechanism.

Background

The gun locking mechanism is an important component of an automatic loading system of an armored vehicle and is used for controlling, detecting and feeding back gun working conditions in a bullet and medicine loading process.

The existing gun locking mechanism exists in a combined form of a system execution device and a sensing device from the perspective of the whole system, has no independence, controls the action process by a system control box, and provides high-power drive by the control box, so that the burden of the control box is increased, the concentration of the control box on the core control function is weakened, the risk of failure is increased, and the reliability of the whole system is reduced; from the structure of the device, a split fastening secondary speed reduction parallel shaft transmission structure is adopted, and movement, transmission and detection parts of the device are fastened by screws and are in gear engagement connection, so that the device is large in size, complex in mechanism, inconvenient to debug, low in efficiency and poor in reliability; from the core execution part, the adopted common direct current motor has poor load characteristics and poor braking performance, so that the overall positioning accuracy of the locking mechanism is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the deficiencies in the prior art, the utility model aims to provide a lock big gun mechanism is directly driven to solve current lock big gun mechanism and lack independence, bulky, installation and debugging complicacy, the load characteristic is poor, the poor problem of location precision, further promote the holistic reliability of part monomer and system and maintainability.

The utility model discloses a following technical scheme realizes.

A direct-drive gun locking mechanism comprises a shell assembly, a control and detection module, a motor drive module, an electrical interface, a hollow motor, a hollow transmission mechanism, an opening and closing lock mechanism, a first linear sensor, a second linear sensor and a manual device, wherein the shell assembly is arranged on the shell assembly;

the shell assembly comprises a main body, an auxiliary main body, a mounting bracket, a main body side cover, an auxiliary main body upper cover and a rear cover; the main body and the auxiliary body are both in a cuboid shape, a threaded hole for fixedly connecting with the auxiliary body is formed in the end face of the head end of the main body, a threaded hole for fixedly connecting with a rear cover is formed in the end face of the tail end of the main body, and the rear cover is fixedly mounted at the rear end of the main body through a second fastening screw; the auxiliary main body is arranged at the head end of the main body, the axis direction of the main body is collinear with the axis direction of the auxiliary main body, circular stepped holes are formed in the axis directions of the main body and the auxiliary main body, rectangular grooves are formed in the front surfaces and the upper surfaces of the main body and the auxiliary main body respectively, rectangular through holes are formed in the rectangular grooves formed in the front surfaces and the upper surfaces of the auxiliary main body, and a first guide rail and a second guide rail are mounted in the rectangular through holes respectively; the four corners of the front surface and the upper surface of the main body are respectively provided with a threaded hole for mounting the main body side cover, the main body side cover is respectively fixedly mounted on the front surface and the upper surface of the main body through a fastening screw, the four corners of the front surface of the auxiliary main body are respectively provided with a threaded hole for mounting the auxiliary main body side cover, the auxiliary main body side cover is fixedly mounted on the front surface of the auxiliary main body through a seventeenth fastening screw, the four corners of the upper surface of the auxiliary main body are respectively provided with a threaded hole for mounting the auxiliary main body upper cover, and the auxiliary main body upper cover is fixedly mounted on the upper surface of the auxiliary main body; the mounting bracket comprises a guide sleeve, a dustproof felt ring and a twentieth fastening screw, the mounting bracket is fixedly mounted at the head end of the auxiliary main body through the twentieth fastening screw, the dustproof felt ring is mounted in the guide sleeve, and the guide sleeve is pressed into the mounting bracket;

the hollow motor comprises a hollow stator core, a stator coil, at least 3 stator coil outgoing lines, a hollow rotor core, a large tile magnet, a magnet fastening ring, a small tile magnet, a first bearing, a second bearing, a magnetic sensor plate, a first fastening screw, a second fastening screw and a third fastening screw; the hollow stator core comprises a plurality of core laminations which are stacked in sequence, external teeth are processed at the head end of the hollow rotor core, a head end bearing mounting table is arranged on the hollow rotor core inside the external teeth, the tail end of the hollow rotor core is processed into an inner square shape, a tail end bearing mounting table is arranged inside the tail end of the hollow rotor core, a through hole with the diameter of D is arranged in the center of the hollow rotor core along the axis direction, a fixing hole is processed on the outer circular surface of the hollow stator core, a plurality of winding grooves are processed on the inner circular surface and the outer circular surface of the hollow stator core, and large and small magnet mounting grooves are processed on the outer side surface of the hollow stator core; the stator coil is wound on the hollow stator core, the outgoing line of the stator coil is led out from the same side to form a hollow stator, the hollow stator is fixedly installed in the main body through a first fastening screw, the large tile magnet and the small tile magnet are correspondingly installed in the large magnet installation groove and the small magnet installation groove of the hollow rotor core, and the first bearing and the second bearing are correspondingly installed on the head end bearing installation table and the tail end bearing installation table of the hollow rotor core; the magnet fastening ring is sleeved on the large tile magnet to form a hollow rotor, the hollow rotor penetrates through the hollow stator, a first bearing and a second bearing are respectively arranged at two ends of the hollow rotor, and the first bearing, the second bearing, the hollow rotor and the hollow stator are arranged in an inner cavity of the main body; the magnetic sensor plate is sleeved outside the small tile magnet and fixedly arranged in the main body through a third fastening screw to form the hollow motor;

the hollow transmission mechanism comprises an inner gear ring, a planet wheel shaft, a third bearing, a planet wheel bracket, a fourth bearing, a fifth bearing, a hollow cover plate, a hollow screw rod and a fourth fastening screw; the inner gear ring is sleeved on the hollow motor, the inner gear ring is fixedly installed on the inner side wall of the main body through a fourth fastening screw, the third bearing is embedded into the planetary gear and is fixedly connected to the planetary gear support through a planetary gear shaft, the fourth bearing and the fifth bearing are respectively sleeved at two ends of the planetary gear support to form a planetary gear train, the planetary gear train is rotated into the inner gear ring, the planetary gear is simultaneously engaged with the inner gear ring and the outer teeth at the head end of the hollow rotor core to form a planetary transmission system, and the hollow cover plate is fixedly installed in the inner cavity of the main body through a nineteenth fastening screw to axially position the; the planet wheel support is arranged as a stepped shaft, a through hole with the diameter d is machined in the center of the planet wheel support, an internal thread with the pitch L is machined on the wall of the hole, mounting holes are machined on one axial side, at least three planet wheels are arranged, at least one planet wheel shaft is arranged, and an inner gear ring is machined with an inner tooth and a fixing hole; the hollow screw rod is arranged as a stepped shaft, and threads with a thread pitch of L are processed on the outer surface of the hollow screw rod;

the locking and unlocking mechanism comprises a locking and unlocking pull rod, a first stop spring, a spring fixing frame, a second stop spring, a fixed connection screw, a power spring, a hollow push sleeve, a locking pin, a fifth fastening screw, a sixth fastening screw and a seventh fastening screw; the first stop spring is fixedly arranged on the hollow cover plate through a spring fixing frame and a fifth fastening screw, and the hollow lead screw penetrates through the spring fixing frame and is screwed into the planet wheel support and the hollow rotor core to form a hollow transmission mechanism; the locking device comprises a locking pin, a locking lock pull rod, a second locking spring, a hollow push sleeve, a power spring, a third fastening screw, a fourth fastening screw, a fifth fastening screw, a sixth fastening screw, a; the locking and unlocking pull rod penetrates through the hollow motor, the hollow screw rod and the hollow push sleeve to be in threaded connection with the locking pin; the head end of the locking pin is provided with a fastening hole, and the locking pin is fixedly connected with the hollow screw rod through a fixedly connected screw to form an opening and closing lock mechanism;

the control and detection module comprises a CPU, a first connector, a second connector, a third connector, a fourth connector and an eighth fastening screw, the first linear sensor comprises a first connecting sliding rod and a tenth fastening screw, and the second linear sensor comprises a second connecting sliding rod and an eleventh fastening screw; the first connecting sliding rod penetrates through the second guide rail and is vertically installed on the hollow screw rod, the first linear sensor is sleeved on the first connecting sliding rod, and the first linear sensor is fixedly installed on the auxiliary main body through a tenth fastening screw; the second connecting sliding rod penetrates through the first guide rail and is vertically installed on the hollow push sleeve, the second linear sensor is sleeved on the second connecting sliding rod, and the second linear sensor is fixedly installed on the auxiliary main body through an eleventh fastening screw;

the motor driving module comprises a high-power driving device, a fifth connector, a sixth connector, a seventh connector and a ninth fastening screw;

the manual device comprises a manual block, a mounting piece, a sixth bearing, a clamp spring, a cover plate, a twelfth fastening screw and a thirteenth fastening screw, and the electrical interface comprises a mounting frame, a first aviation socket, a second aviation socket, a fourteenth fastening screw and a fifteenth fastening screw; the sixth bearing is fixedly arranged on the mounting part through a snap spring, the cover plate is fixedly arranged on the mounting part through a twelfth fastening screw, the manual block is pressed into the sixth bearing to form a manual device, the manual device is inserted into a square hole at the tail end of the hollow rotor core and is fixedly arranged at the tail part of the main body through a thirteenth fastening screw, the control and detection module and the motor drive module are respectively arranged in a rectangular mounting groove at the front of the main body through an eighth fastening screw and a ninth fastening screw, the first aviation socket and the second aviation socket are fixedly arranged on the mounting frame through a fourteenth fastening screw to form an electrical interface, the electrical interface is fixedly arranged on the main body through a fifteenth fastening screw, and the first aviation socket and the second aviation socket are respectively connected with the control and detection module and the motor drive module through a first connector and a fifth connector, the first linear sensor and the second linear sensor are connected with the control and detection module through a third connector and a fourth connector respectively, the control and detection module is connected with the motor driving module through a second connector and a fifth connector, and the stator coil outgoing line is connected with the motor driving module through a seventh connector.

Furthermore, the CPU of the control and detection module is provided with a curing software.

And further, adjusting the number of teeth of the planet wheel according to the actual use working condition.

Further, the overall dimension, the axial through hole and the internal thread pitch of the planet wheel support are adjusted according to actual use working conditions.

And further, adjusting the diameter of the axial through hole in the hollow rotor core, the number of the outer teeth at the head end, the shape of the square hole in the tail end and the shape and the size of the magnet mounting groove and the head and tail bearing mounting platforms according to actual use conditions.

Further, the first stop spring and the second stop spring are replaced by wave-shaped elastic cushions.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses an integrated design is an independent product, has not only improved reliability, maintainability of single part, has alleviateed the burden of system control case moreover greatly, makes it needn't carry out process control and power drive again, and then has improved entire system's reliability, maintainability.

2. The utility model discloses a ingenious cavity formula brushless DC motor and coaxial drive mechanism integrated configuration design have greatly reduced the length of product, wide, high size, and the product volume of design can reduce to 48% of former product volume.

3. The utility model discloses an electric braking and mechanical speed reduction double-brake no matter no load, load operating mode, can both the rapid braking, accurate location has greatly improved the reliability of mechanism.

4. The utility model discloses can set for locking round pin or drive mechanism's motion stroke according to the in-service use demand for single debugging, system are set simpler, convenient.

5. The utility model discloses possess overload protection and overcurrent protection function, further promoted the free reliability of mechanism.

6. The utility model discloses possess fault detection and alarming function, can carry out real time monitoring and malfunction alerting to product core component, greatly promoted the maintainability of product.

7. The utility model has the advantages of the utility model discloses the design has manual device, can the motion of manual regulation locking pin, is convenient for debug, maintain.

8. The utility model discloses the design has unique novel sensor, has avoided traditional mechanical switch's unreliability.

9. The utility model discloses structurally adopted the modularized design and consolidated design technique, can bear impact, the vibrations that the combat vehicle driving and shooting in-process produced, simultaneously, convenient maintenance dismantles, has further improved maintainability.

10. The utility model discloses the installation is simple, only needs 4M 4 mounting screws and carrier fastening.

Drawings

FIG. 1 is a schematic view of the partial sectional structure of the front view of the present invention;

FIG. 2 is a schematic view of the structure of the present invention;

fig. 3 is the main view structure diagram of the utility model with the installation bracket omitted.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1 to 3, the direct-drive gun locking mechanism comprises a housing assembly 1, a control and detection module 5, a motor drive module 6, an electrical interface 10, a hollow motor 2, a hollow transmission mechanism 3, an opening and closing lock mechanism 4, a first linear sensor 7, a second linear sensor 8 and a manual device 9;

the shell assembly 1 comprises a main body 11, a secondary main body 12, a mounting bracket 13, a main body side cover 14, a secondary main body side cover 15, a secondary main body upper cover 16 and a rear cover 17; the main body 11 and the auxiliary body 12 are both in a cuboid shape, a threaded hole for fixedly connecting with the auxiliary body 12 is formed in the end face of the head end of the main body 11, a threaded hole for fixedly connecting with the rear cover 17 is formed in the end face of the tail end of the main body 11, and the rear cover 17 is fixedly mounted at the rear end of the main body 11 through a second fastening screw 28; the auxiliary main body 12 is arranged at the head end of the main body 11, the axial direction of the main body 11 is collinear with the axial direction of the auxiliary main body 12, circular stepped holes are formed in the axial directions of the main body 11 and the auxiliary main body 12, rectangular grooves are formed in the front surfaces and the upper surfaces of the main body 11 and the auxiliary main body 12 respectively, rectangular through holes are formed in the rectangular grooves formed in the front surface and the upper surface of the auxiliary main body 12, and a first guide rail 74 and a second guide rail 75 are mounted in the rectangular through holes respectively; the front and four corners of the upper surface of the main body 11 are respectively provided with a threaded hole for mounting the main body side cover 14, the main body side cover 14 is respectively fixedly mounted on the front and the upper surface of the main body 11 by a fastening screw 1883, the four corners of the front of the auxiliary main body 12 are respectively provided with a threaded hole for mounting the auxiliary main body side cover 15, the auxiliary main body side cover 15 is fixedly mounted on the front of the auxiliary main body 12 by a seventeenth fastening screw 82, the four corners of the upper surface of the auxiliary main body 12 are respectively provided with a threaded hole for mounting the auxiliary main body upper cover 16, and the auxiliary main body upper cover 16 is fixedly mounted on the upper surface of the auxiliary main body 12 by a sixteenth fastening; the mounting bracket 13 comprises a guide sleeve 76, a dustproof felt ring 77 and a twentieth fastening screw 78, the mounting bracket 13 is fixedly mounted at the head end of the auxiliary main body 12 through the twentieth fastening screw 78, the dustproof felt ring 77 is mounted in the guide sleeve 76, and the guide sleeve 76 is pressed into the mounting bracket 13;

the hollow motor 2 comprises a hollow stator core 18, a stator coil 19, at least 3 stator coil outgoing lines 20, a hollow rotor core 21, a large tile magnet 22, a magnet fastening ring 23, a small tile magnet 24, a first bearing 84, a second bearing 25, a magnetic sensor plate 26, a first fastening screw 27, a second fastening screw 28 and a third fastening screw 29; the hollow stator core 18 comprises a plurality of core laminations which are stacked in sequence, external teeth are processed at the head end of the hollow rotor core 21, a head end bearing mounting table is arranged on the hollow rotor core 21 at the inner side of the external teeth, the tail end of the hollow rotor core 21 is processed into an inner square, a tail end bearing mounting table is arranged at the inner side of the tail end of the hollow rotor core 21, a through hole with the diameter of D is arranged at the center of the hollow rotor core 21 along the axis direction, a fixing hole is processed on the outer circular surface of the hollow stator core 18, a plurality of winding grooves are processed on the inner circular surface and the outer circular surface of the hollow stator core 18, and large and small magnet mounting grooves are processed on the outer side surface of the hollow; the stator coil 19 is wound on the hollow stator core 18, the stator coil leading-out wire 20 is led out from the same side to form a hollow stator, the hollow stator is fixedly installed in the main body 11 through a first fastening screw 27, the large tile magnet 22 and the small tile magnet 24 are correspondingly installed in the large magnet installation groove and the small magnet installation groove of the hollow rotor core 21, and the first bearing 84 and the second bearing 25 are correspondingly installed on the head end bearing installation table and the tail end bearing installation table of the hollow rotor core 21; the magnet fastening ring 23 is sleeved on the large tile magnet 22 to form a hollow rotor, the hollow rotor penetrates through the hollow stator, the first bearing 84 and the second bearing 25 are respectively installed at the two ends of the hollow rotor, and the first bearing 84, the second bearing 25, the hollow rotor and the hollow stator are installed in the inner cavity of the main body 11; the magnetic sensor plate 26 is sleeved outside the small tile magnet 24, and the magnetic sensor plate 26 is fixedly installed in the main body 11 through a third fastening screw 29 to form the hollow motor 2;

the hollow transmission mechanism 3 comprises an inner gear ring 30, a planet wheel 31, a planet wheel shaft 32, a third bearing 33, a planet wheel bracket 34, a fourth bearing 35, a fifth bearing 36, a hollow cover plate 37, a hollow screw rod 38 and a fourth fastening screw 39; the inner gear ring 30 is sleeved on the hollow motor 2, the inner gear ring 30 is fixedly mounted on the inner side wall of the main body 11 through a fourth fastening screw 39, the third bearing 33 is embedded in the planet wheel 31 and is fixedly connected to the planet wheel support 34 through a planet wheel shaft 32, the fourth bearing 35 and the fifth bearing 36 are respectively sleeved at two ends of the planet wheel support 34 to form a planetary gear train, the planetary gear train is rotated into the inner gear ring 30, the planet wheel 31 is simultaneously engaged with the inner gear ring 30 and the outer teeth at the head end of the hollow rotor core 21 to form a planetary transmission system, and the hollow cover plate 37 is fixedly mounted in the inner cavity of the main body 11 through a nineteenth fastening screw 85 to axially position the planetary transmission; the planet wheel support 34 is arranged as a stepped shaft, a through hole with the diameter d is processed in the center of the planet wheel support 34, an internal thread with the pitch L is processed on the hole wall, mounting holes are processed on one axial side, at least three planet wheels 31 are provided, at least 3 planet wheel shafts 32 are provided, and internal teeth and fixing holes are processed in the inner gear ring 30; the hollow screw rod 38 is arranged as a stepped shaft, and a thread with a thread pitch L is processed on the outer surface of the hollow screw rod 38;

the locking and unlocking mechanism 4 comprises a locking and unlocking pull rod 40, a first stop spring 41, a spring fixing frame 42, a second stop spring 43, a fixed connection screw 44, a power spring 45, a hollow push sleeve 46, a locking pin 47, a fifth fastening screw 48, a sixth fastening screw 49 and a seventh fastening screw 50; the first stop spring 41 is fixedly mounted on the hollow cover plate 37 through a spring fixing frame 42 and a fifth fastening screw 48, and the hollow lead screw 38 is screwed into the planet wheel support 34 and the hollow rotor core 21 through the spring fixing frame 42 to form a hollow transmission mechanism 3; the second stop spring 43 is fixedly installed in the auxiliary body 12 through a sixth fastening screw 49, the hollow push sleeve 46 is press-fitted on the second stop spring 43, the power spring 45 is installed in the hollow push sleeve 46, the auxiliary body 12 is fixedly installed on the main body 11 through a seventh fastening screw 50, the locking pin 47 is provided with a threaded hole along the axial direction, the open-close lock pull rod 40 is a T-shaped shaft, the head end of the open-close lock pull rod 40 is provided with a threaded hole along the axial direction of the open-close lock pull rod 40, the tail end of the open-close lock pull rod 40 is processed into a T shape, and the open-close lock pull rod 40 passes through the hollow motor 2, the hollow lead screw 38 and the hollow push sleeve 46 to be in threaded connection with the locking pin 47; the head end of the locking pin 47 is provided with a fastening hole, and the locking pin 47 is fixedly connected with the hollow screw rod 38 through a fixed connection screw 44 to form an opening and closing lock mechanism 4;

the control and detection module 5 comprises a CPU and a first connector 51, a second connector 52, a third connector 79, a fourth connector 80 and an eighth fastening screw 53, the first linear sensor 7 comprises a first connecting slide bar 58 and a tenth fastening screw 59, the second linear sensor 8 comprises a second connecting slide bar 60 and an eleventh fastening screw 61; the first connecting slide bar 58 passes through the second guide rail 75 to be vertically installed on the hollow screw rod 38, the first linear sensor 7 is sleeved on the first connecting slide bar 58, and the first linear sensor 7 is fixedly installed on the auxiliary main body 12 through a tenth fastening screw 59; the second connecting sliding rod 60 is vertically installed on the hollow push sleeve 46 through the first guide rail 74, the second linear sensor 8 is sleeved on the second connecting sliding rod 60, and the second linear sensor 8 is fixedly installed on the auxiliary main body 12 through an eleventh fastening screw 61;

the motor driving module 6 comprises a high-power driving device, a fifth connector 54, a sixth connector 55, a seventh connector 56 and a ninth fastening screw 57;

the manual device 9 comprises a manual block 62, a mounting part 63, a sixth bearing 64, a clamp spring 65, a cover plate 66, a twelfth fastening screw 67 and a thirteenth fastening screw 68, and the electrical interface 10 comprises a mounting frame 69, a first aviation socket 70, a second aviation socket 71, a fourteenth fastening screw 72 and a fifteenth fastening screw 73; the sixth bearing 64 is fixedly mounted on the mounting member 63 through a clamp spring 65, the cover plate 66 is fixedly mounted on the mounting member 63 through a twelfth fastening screw 67, the manual block 62 is pressed into the sixth bearing 64 to form a manual device 9, the manual device 9 is inserted into a square hole at the tail end of the hollow rotor core 21 and is fixedly mounted at the tail part of the main body 11 through a thirteenth fastening screw 68, the control and detection module 5 and the motor drive module 6 are respectively mounted in a rectangular mounting groove at the front surface of the main body 11 through an eighth fastening screw 53 and a ninth fastening screw 57, the first aviation socket 70 and the second aviation socket 71 are fixedly mounted on the mounting frame 69 through a fourteenth fastening screw 72 to form an electrical interface 10, the electrical interface 10 is fixedly mounted on the main body 11 through a fifteenth fastening screw 73, and the first aviation socket 70 and the second aviation socket 71 are respectively fixed through a first connector 51 and a second connector 51, Fifth connector 54 is connected with control and detection module 5, motor drive module 6, first linear sensor 7, second linear sensor 8 are connected with control and detection module 5 through third connector 79, fourth connector 80 respectively, control and detection module 5 is connected with motor drive module 6 through second connector 52, fifth connector 54, stator solenoid lead-out wire 20 is connected with motor drive module 6 through seventh connector 56.

Further, the CPU of the control and detection module 5 is installed with a firmware.

Further, the number of teeth of the planet wheel 31 is adjusted according to the actual using condition.

Further, the external dimension, the axial through hole and the internal thread pitch of the planet wheel support 34 are adjusted according to the actual use condition.

Further, the diameter of the axial through hole in the hollow rotor core 21, the number of the outer teeth at the head end, the shape of the square hole in the tail end and the shapes and the sizes of the magnet mounting groove and the head and tail bearing mounting tables are adjusted according to actual use conditions.

Further, the first and second stop springs 41 and 43 are replaced by wave-shaped elastic pads.

The utility model discloses a use and theory of operation:

when the control and detection module 5 receives a gun locking instruction from a system control box, the hollow motor 2 is controlled to rotate clockwise, the hollow rotor core 21 which is also used as a sun gear drives the planet wheel 31 to rotate anticlockwise, the outer gear ring 30 is fixed, so that the planet wheel support 34 can be driven to rotate clockwise, the hollow screw rod 38 which is rotatably connected with the planet wheel support 34 through threads is driven to move axially forwards in a linear mode, the power spring 45 and the hollow push sleeve 46 which are sleeved at the head end of the hollow screw rod 38 push the locking pin 47 to extend forwards for locking, when the gun is in a non-locking position, the locking pin 47 cannot extend under the external force action of a gun locking mechanism, the hollow screw rod 38 extends forwards to compress the power spring 45, once the gun reaches the locking position, the power spring 45 releases instantly, and the block speed pushes the locking pin 47 to extend forwards for locking.

When the control and detection module 5 receives a gun unlocking instruction from the system control box, the hollow motor 2 is controlled to rotate anticlockwise, the hollow rotor core 21 which is also used as a sun gear drives the planet gear 31 to rotate clockwise, and the outer gear ring 30 is fixed, so that the planet gear support 34 can be driven to rotate anticlockwise, further the hollow screw rod 38 which is rotatably connected with the planet gear support 34 through threads is driven to generate axial backward-retracting linear motion, and then the opening-closing lock pull rod 40 is pushed to pull the locking pin 47 to retract backwards so as to unlock.

The whole opening and closing process is characterized in that the first linear sensor 7 and the second linear sensor 8 are used for detecting and monitoring in the whole process, the hollow lead screw 38 drives the first linear sensor 7 to move synchronously, the hollow push sleeve 46 drives the second linear sensor 8 to move synchronously, when the first linear sensor 7 detects that the movement reaches a set stroke, a brake signal is sent to the control and detection module 5 immediately, the hollow motor 2 is controlled to brake, when the second linear sensor 8 detects that the closing pin 47 moves to reach the set stroke, an opening and closing completion signal is immediately output through the control and detection module 5, and an opening and closing task is completed.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. The utility model provides a lock big gun mechanism directly drives, it includes casing assembly (1), control and detection module (5), motor drive module (6) and electric interface (10), its characterized in that: the device also comprises a hollow motor (2), a hollow transmission mechanism (3), an opening and closing lock mechanism (4), a first linear sensor (7), a second linear sensor (8) and a manual device (9);

the shell assembly (1) comprises a main body (11), an auxiliary main body (12), a mounting bracket (13), a main body side cover (14), an auxiliary main body side cover (15), an auxiliary main body upper cover (16) and a rear cover (17); the main body (11) and the auxiliary body (12) are both in a cuboid shape, a threaded hole for being fixedly connected with the auxiliary body (12) is formed in the end face of the head end of the main body (11), a threaded hole for being fixedly connected with the rear cover (17) is formed in the end face of the tail end of the main body (11), and the rear cover (17) is fixedly installed at the rear end of the main body (11) through a second fastening screw (28); the auxiliary main body (12) is arranged at the head end of the main body (11), the axial direction of the main body (11) is collinear with the axial direction of the auxiliary main body (12), circular stepped holes are formed in the axial directions of the main body (11) and the auxiliary main body (12), rectangular grooves are formed in the front surfaces and the upper surfaces of the main body (11) and the auxiliary main body (12) respectively, rectangular through holes are formed in the rectangular grooves formed in the front surfaces and the upper surfaces of the auxiliary main body (12), and a first guide rail (74) and a second guide rail (75) are mounted in the rectangular through holes respectively; the four corners of the front surface and the upper surface of the main body (11) are respectively provided with a threaded hole for mounting the main body side cover (14), the main body side cover (14) is respectively fixedly mounted on the front surface and the upper surface of the main body (11) through fastening screws 18 and 83, the four corners of the front surface of the auxiliary main body (12) are respectively provided with a threaded hole for mounting the auxiliary main body side cover (15), the auxiliary main body side cover (15) is fixedly mounted on the front surface of the auxiliary main body (12) through a seventeenth fastening screw (82), the four corners of the upper surface of the auxiliary main body (12) are respectively provided with a threaded hole for mounting the auxiliary main body upper cover (16), and the auxiliary main body upper cover (16) is fixedly mounted on the upper surface of the auxiliary main body (12) through a sixteenth fastening screw (81; the mounting bracket (13) comprises a guide sleeve (76), a dustproof felt ring (77) and a twentieth fastening screw (78), the mounting bracket (13) is fixedly mounted at the head end of the auxiliary main body (12) through the twentieth fastening screw (78), the dustproof felt ring (77) is mounted in the guide sleeve (76), and the guide sleeve (76) is pressed into the mounting bracket (13);

the hollow motor (2) comprises a hollow stator core (18), a stator coil (19), at least 3 stator coil outgoing lines (20), a hollow rotor core (21), a large tile magnet (22), a magnet fastening ring (23), a small tile magnet (24), a first bearing (84), a second bearing (25), a magnetic sensor plate (26), a first fastening screw (27), a second fastening screw (28) and a third fastening screw (29); the hollow stator core (18) comprises a plurality of core laminations stacked in sequence, external teeth are processed at the head end of the hollow rotor core (21), a head end bearing mounting table is arranged on the hollow rotor core (21) at the inner side of the external teeth, the tail end of the hollow rotor core (21) is processed into an inner square shape, a tail end bearing mounting table is arranged at the inner side of the tail end of the hollow rotor core (21), a through hole with the diameter of D is formed in the center of the hollow rotor core (21) along the axis direction, a fixing hole is processed on the outer circular surface of the hollow stator core (18), a plurality of winding grooves are processed on the inner circular surface and the outer circular surface of the hollow stator core (18), and large and small magnet mounting grooves are processed on the outer side surface of the hollow stator core (18); the stator coil (19) is wound on the hollow stator core (18), the stator coil leading-out wire (20) is led out from the same side to form the hollow stator, the hollow stator is fixedly installed in the main body (11) through a first fastening screw (27), the large tile magnet (22) and the small tile magnet (24) are correspondingly installed in the large magnet installation groove and the small magnet installation groove of the hollow rotor core (21), and the first bearing (84) and the second bearing (25) are correspondingly installed on the head end bearing installation table and the tail end bearing installation table of the hollow rotor core (21); the magnet fastening ring (23) is sleeved on the large tile magnet (22) to form a hollow rotor, the hollow rotor penetrates through the hollow stator, a first bearing (84) and a second bearing (25) are respectively installed at two ends of the hollow rotor, and the first bearing (84), the second bearing (25), the hollow rotor and the hollow stator are installed in an inner cavity of the main body (11); the magnetic sensor plate (26) is sleeved outside the small tile magnet (24), and the magnetic sensor plate (26) is fixedly installed in the main body (11) through a third fastening screw (29) to form the hollow motor (2);

the hollow transmission mechanism (3) comprises an inner gear ring (30), a planet wheel (31), a planet wheel shaft (32), a third bearing (33), a planet wheel support (34), a fourth bearing (35), a fifth bearing (36), a hollow cover plate (37), a hollow screw rod (38) and a fourth fastening screw (39); the inner gear ring (30) is sleeved on the hollow motor (2), the inner gear ring (30) is fixedly mounted on the inner side wall of the main body (11) through a fourth fastening screw (39), the third bearing (33) is embedded into the planet gear (31) and fixedly connected to the planet gear support (34) through a planet gear shaft (32), the fourth bearing (35) and the fifth bearing (36) are respectively sleeved at two ends of the planet gear support (34) to form a planetary gear train, the planetary gear train rotates into the inner gear ring (30), the planet gear (31) is engaged with the inner gear ring (30) and the outer teeth at the head end of the hollow rotor core (21) to form a planetary transmission system, and the hollow cover plate (37) is fixedly mounted in the inner cavity of the main body (11) through a nineteenth fastening screw (85) to axially position the planetary transmission system; the planet wheel support (34) is arranged to be a stepped shaft, a through hole with the diameter d is machined in the center of the planet wheel support (34), internal threads with the thread pitch L are machined in the hole wall, mounting holes are machined in one axial side, at least three planet wheels (31) are arranged, at least 3 planet wheel shafts (32) are arranged, and internal teeth and fixing holes are machined in the inner gear ring (30); the hollow screw rod (38) is arranged as a stepped shaft, and the outer surface of the hollow screw rod (38) is processed with a thread pitch of L;

the locking and unlocking mechanism (4) comprises a locking and unlocking pull rod (40), a first stop spring (41), a spring fixing frame (42), a second stop spring (43), a fixed connection screw (44), a power spring (45), a hollow push sleeve (46), a locking pin (47), a fifth fastening screw (48), a sixth fastening screw (49) and a seventh fastening screw (50); the first stop spring (41) is fixedly arranged on the hollow cover plate (37) through a spring fixing frame (42) and a fifth fastening screw (48), and the hollow screw rod (38) penetrates through the spring fixing frame (42) and is screwed into the planet wheel support (34) and the hollow rotor iron core (21) to form a hollow transmission mechanism (3); the second stop spring (43) is fixedly installed in the auxiliary main body (12) through a sixth fastening screw (49), the hollow push sleeve (46) is pressed on the second stop spring (43), the power spring (45) is installed in the hollow push sleeve (46), the auxiliary main body (12) is fixedly installed on the main body (11) through a seventh fastening screw (50), the locking pin (47) is provided with a threaded hole along the axial direction, the opening and closing lock pull rod (40) is a T-shaped shaft, the head end of the opening and closing lock pull rod (40) is provided with a threaded hole along the axial direction of the opening and closing lock pull rod (40), and the tail end of the opening and closing lock pull rod (40) is processed into a T shape; the opening and closing lock pull rod (40) penetrates through the hollow motor (2), the hollow screw rod (38) and the hollow push sleeve (46) to be in threaded connection with the locking pin (47); the head end of the locking pin (47) is provided with a fastening hole, and the locking pin (47) is fixedly connected with the hollow screw rod (38) through a fixedly connected screw (44) to form an opening and closing lock mechanism (4);

the control and detection module (5) comprises a CPU, a first connector (51), a second connector (52), a third connector (79), a fourth connector (80) and an eighth fastening screw (53), the first linear sensor (7) comprises a first connecting slide rod (58) and a tenth fastening screw (59), and the second linear sensor (8) comprises a second connecting slide rod (60) and an eleventh fastening screw (61); the first connecting sliding rod (58) penetrates through the second guide rail (75) and is vertically installed on the hollow screw rod (38), the first linear sensor (7) is sleeved on the first connecting sliding rod (58), and the first linear sensor (7) is fixedly installed on the auxiliary main body (12) through a tenth fastening screw (59); the second connecting sliding rod (60) passes through the first guide rail (74) and is vertically arranged on the hollow push sleeve (46), the second linear sensor (8) is sleeved on the second connecting sliding rod (60), and the second linear sensor (8) is fixedly arranged on the auxiliary main body (12) through an eleventh fastening screw (61);

the motor driving module (6) comprises a high-power driving device, a fifth connector (54), a sixth connector (55), a seventh connector (56) and a ninth fastening screw (57);

the manual device (9) comprises a manual block (62), a mounting piece (63), a sixth bearing (64), a clamp spring (65), a cover plate (66), a twelfth fastening screw (67) and a thirteenth fastening screw (68), and the electrical interface (10) comprises a mounting frame (69), a first aviation socket (70), a second aviation socket (71), a fourteenth fastening screw (72) and a fifteenth fastening screw (73); the sixth bearing (64) is fixedly mounted on the mounting piece (63) through a clamp spring (65), the cover plate (66) is fixedly mounted on the mounting piece (63) through a twelfth fastening screw (67), the manual block (62) is pressed into the sixth bearing (64) to form a manual device (9), the manual device (9) is inserted into a square hole at the tail end of the hollow rotor core (21) and is fixedly mounted at the tail part of the main body (11) through a thirteenth fastening screw (68), the control and detection module (5) and the motor drive module (6) are respectively mounted in a rectangular mounting groove in the front of the main body (11) through an eighth fastening screw (53) and a ninth fastening screw (57), and the first aviation socket (70) and the second aviation socket (71) are fixedly mounted on a mounting rack (69) through a fourteenth fastening screw (72) to form an electric interface (10), electric interface (10) are through fifteenth fastening screw (73) fixed mounting above main part (11), first aviation socket (70), second aviation socket (71) are connected with control and detection module (5), motor drive module (6) through first connector (51), fifth connector (54) respectively, first linear sensor (7), second linear sensor (8) are connected with control and detection module (5) through third connector (79), fourth connector (80) respectively, control and detection module (5) are connected with motor drive module (6) through second connector (52), fifth connector (54), stator solenoid lead-out wire (20) are connected with motor drive module (6) through seventh connector (56).

2. The direct-drive gun locking mechanism as claimed in claim 1, characterized in that: and the CPU of the control and detection module (5) is provided with curing software.

3. The direct-drive gun locking mechanism as claimed in claim 1, characterized in that: and adjusting the number of teeth of the planet wheel (31) according to the actual use condition.

4. The direct-drive gun locking mechanism as claimed in claim 1, characterized in that: and adjusting the external dimension, the axial through hole and the internal thread pitch of the planetary wheel support (34) according to the actual use condition.

5. The direct-drive gun locking mechanism as claimed in claim 1, characterized in that: according to the adjustment of the practical use working condition, the diameter of the axial through hole in the hollow rotor iron core (21), the number of the outer teeth at the head end, the shape of the square hole in the tail end and the shapes and the sizes of the magnet mounting groove and the head and tail bearing mounting tables are adjusted.

6. The direct-drive gun locking mechanism as claimed in claim 1, characterized in that: the first stop spring (41) and the second stop spring (43) are replaced by wave-shaped elastic cushions.

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