RU2775187C1 - Docking unit of the device with an unmanned aerial vehicle - Google Patents

Abstract

FIELD: aviation.

SUBSTANCE: invention relates to the field of aviation and rocket technology, mainly to devices for communicating a rocket with an information block. The docking unit of the device with the unmanned aerial vehicle includes an external storage medium equipped with a housing with a memory unit and a plug electrical connector, and a switching hatch containing a housing with a cavity placed in the volume of the aircraft and fixed on its surface to form the entrance window of the cavity. An electrical connector for docking with a plug-in electrical connector of the information carrier is installed on the rear wall of the housing. The cover of the entrance window is rigidly connected with the hinge mounted on the axis of rotation, the swivel connected to the hatch body. In this case, the cover is made of two symmetrical parts, each of which is provided with a loop installed on the axis of rotation of a separate hinge joint, the axes of which are parallel and placed in the body cavity near its walls and are located symmetrically relative to the axis of the electrical connector. The cover in the open and closed positions interacts with the hatch body through its end surfaces. The hatch body is made with the possibility of turning the parts of the cover on their axes into its cavity, due to the stop of the front part of the information carrier on the surface of the cover. Lid parts in the closed position are installed at the level of the inlet window with their rear end surfaces resting against the wall of the hatch body by means of a compression device.

EFFECT: quick docking of the plug of the electrical connector of the data carrier and the electrical connector of the switching hatch without a special tool and reducing the probability of failures when loading information.

5 cl, 7 dwg

Description

The invention relates to the field of aviation and rocket technology, mainly to devices for communicating a rocket with an information block.

Known hatch switching aircraft patent RU 2 247 920 C1, made with the possibility of opening and closing. The hatch contains a body and an electrical connector for docking with the information carrier, placed in a lowering on the surface of the aircraft, a cover rigidly connected to it by one end of the lever, hinged at the other end on the surface of the aircraft in front of the hatch through a hinged connection with the axis of rotation, the inner surface of the cover in its in the closed position interacts with the supporting surface of the edges of the hatch.

The common essential features of the prototype, coinciding with the essential features of the proposed device, are the following: a docking unit for the device with an unmanned aerial vehicle, including an external storage medium, equipped with a housing with a memory unit and a plug electrical connector, a switching hatch containing a housing with a cavity placed in the volume of the aircraft and fixed on its surface to form an entrance window of the cavity, an electrical connector for docking with a plug-in electrical connector of the information carrier installed on the rear wall of the housing, an input window cover rigidly connected to a hinge installed on the axis of rotation, a swivel joint connected to the hatch body.

The disadvantage of the prototype is that, when the storage medium is docked, the lid transfers a lateral force to the body of the storage medium, which contributes to the distortion of the electrical connector and the electrical connector of the switching hatch, reduces the reliability of the electrical circuit connection and increases the likelihood of failures when loading information, while opening the lid requires a key or its pickup device.

The proposed device solves the problem: quick docking of the electrical connector of the information carrier and the electrical connector of the switching hatch without a special tool and reduces the likelihood of failures when loading information.

To achieve the above technical result, the docking unit of the device with an unmanned aerial vehicle includes an external storage medium equipped with a housing with a memory unit and a plug electrical connector, a switching hatch containing a housing with a cavity placed in the volume of the aircraft and fixed on its surface with the formation of an input window cavity, an electrical connector for docking with a plug-in electrical connector of the information carrier installed on the rear wall of the housing, an entrance window cover rigidly connected to a hinge installed on the axis of rotation, a swivel joint connected to the hatch body, the cover is made of two symmetrical parts, each of which is equipped with a hinge installed on the axis of rotation of a separate swivel joint, the axes of which are parallel and located in the body cavity near its walls and located symmetrically with respect to the axis of the electrical connector, the cover in the open and closed positions interacts with the hatch body through its end surfaces , the hatch body is made with the possibility of turning the parts of the cover on their axes into its cavity, thanks to the stop of the front part of the information carrier on the surface of the cover, the parts of the cover in the closed position are installed at the level of the entrance window, with their rear end surfaces resting against the wall of the hatch body by means of a device pressed .

Distinctive features of the proposed device are:

- in the end surfaces of the cover parts, a groove is made in which an annular profile sealing material is placed;

- the preload device is made in the form of two twisted torsion springs installed, respectively, on the axes of rotation of the parts of the cover;

- the preload device is made in the form of two leaf torsion springs installed, respectively, on the rotation axes of the cover parts;

- in the front part of the body of the external data carrier there are side rollers mounted on axles with the possibility of rotation when the plug electrical connector is docked with the electrical connector of the commutation hatch.

Due to the presence of distinctive features in combination with the known ones, a quick docking of the information carrier and the electrical connector is ensured, as well as a reliable fixed electrical contact of the connection.

The invention can find application in the field of aviation and rocket technology, mainly to devices for communicating a rocket with an information block.

The technical solution is illustrated by the design of the docking unit with an unmanned aerial vehicle shown in the drawings, Fig. 1…7.

In FIG. 1 shows a longitudinal section of the hatch with twisted torsion springs mounted on the pivot axes of the cover parts.

In FIG. 2, a longitudinal section of the hatch is shown with twisted torsion springs installed on the rotation axes of the cover parts in the open position of the cover, a docked information carrier and side rollers placed on it.

In FIG. 3 is a section A-A of FIG. 1 illustrating the construction with a coiled torsion spring placed on the axis of rotation of the cover parts.

In FIG. 4 is a B-B section of FIG. 1, explaining the design of the hatch with a coiled torsion spring installed in the closed position of the cover.

In FIG. 5 is a section B-B of FIG. 2, explaining the design of the hatch with a coiled torsion spring installed in the open position of the cover and a docked information carrier.

In FIG. 6 shows a longitudinal section of the hatch with flat springs installed on the rotation axes of the cover parts, in the closed position of the cover.

In FIG. 7 shows a longitudinal section of the hatch with flat springs mounted on the rotation axes of the cover parts, in the closed position of the cover, docked information carrier and side rollers placed on the external information carrier.

The docking unit of the device with an unmanned aerial vehicle includes an external storage medium 1, equipped with a housing with a memory unit 2 and a plug-in electrical connector for docking 3, a switching hatch 4 containing a preload device 5, a housing 6 and an electrical connector for docking 7, placed in a recess 8 on the surface of the aircraft 9, the electrical docking connector 7 is fixed with screws 10 on the body 6, the cover 11, made of two symmetrical parts 12, fixed by means of hinged joints 13 in the lowering 8 of the body 6 through the axis 14 of rotation, along the perimeters of the two symmetrical parts 12 of the cover 11 in their end surfaces is placed an annular profile sealing material 15, the position of the axes 14 of rotation of the swivel joints 13 are made taking into account the opening and closing of two symmetrical parts 12 of the cover 11 to ensure a tight position repeating the contour of the surface of the aircraft 9, the centers of the radius surfaces 16 at the ends of the two symmetrical parts 12 of the cover 11 P pass through the centers of the respective swivel joints 13 (Fig. 1, 2, 3, 4, 5, 6, 7,). The preload device 5 can be made in the form of two twisted torsion springs 17 mounted on the axes 14 of rotation with stops on the cover 11 and housing 6 (Fig. 1, 2, 3, 4). The preload device 5 can be made in the form of two leaf torsion springs 18 mounted on the axes 14 of rotation with stops on the cover 11 and housing 6 (Fig. 6, 7).

Docking unit of the device with an unmanned aerial vehicle: The electrical connection of the external storage medium 1 and the electrical connector of the docking 7 occurs by transferring a force perpendicular to the surface of the aircraft 9 through the side rollers 19 from the external storage medium 1 to two symmetrical parts 12 of the cover 11, rotating them around their own hinged connections 13 by pressing the pressing device 5 until the cover 11 is fully opened, the external storage medium 1 moves deep into the lowering 8 of the housing 6 of the docking electrical connector 7 and, due to the uniform transfer of force from the pressing device 5 to the cover 11, is centered and pressed by the cover 11, docks with the docking electrical connector 7, ensuring reliable fixed electrical connection, disconnection of the electrical connection occurs by moving the external storage medium 1 from the docking electrical connector 7 until it is completely removed by contacting the side rollers 19 with two symmetrical parts 12 of the cover 11 p moving the preload device 5 to the closed position, and due to the transfer of force from the preload device 5 to the cover 11 rotates two symmetrical parts 12 around its own hinged joints 13 until it stops the corresponding supporting surfaces 20 of the cover 11 on the corresponding side walls 21 of the reduction 8 of the body 6 providing a fixed sealed repeating aircraft surface contour 9 state.

Claims (5)

1. Docking unit of the device with an unmanned aerial vehicle, including an external storage medium, equipped with a housing with a memory unit and a plug electrical connector, and a switching hatch containing a housing with a cavity placed in the volume of the aircraft and fixed on its surface with the formation of the entrance window of the cavity, electrical connector docking with a plug-in electrical connector of the information carrier, installed on the rear wall of the housing, the cover of the entrance window, rigidly connected to the hinge installed on the axis of rotation of the swivel connected to the hatch body, characterized in that the cover is made of two symmetrical parts, each of which is equipped with a hinge mounted on the axis of rotation of a separate swivel joint, the axes of which are parallel and located in the body cavity near its walls and are located symmetrically with respect to the axis of the electrical connector, the cover in the open and closed positions interacts with the hatch body through its end surfaces, the hatch body is made with the possibility of turning parts of the cover on their axes into its cavity due to the stop of the front part of the information carrier on the surface of the cover, the parts of the cover in the closed position are installed at the level of the entrance window with their rear end surfaces resting against the wall of the hatch body by means of a preload device. 2. Docking unit of the device according to claim 1, characterized in that a groove is made in the end surfaces of the cover parts, in which an annular profile sealing material is placed. 3. Node docking device according to any one of paragraphs. 1 or 2, characterized in that the preload device is made in the form of two twisted torsion springs installed respectively on the rotation axes of the cover parts. 4. Node docking device according to any one of paragraphs. 1 or 2, characterized in that the preload device is made in the form of two leaf torsion springs mounted respectively on the rotation axes of the cover parts. 5. Node docking device according to any one of paragraphs. 1 or 2, characterized in that in the front part of the housing of the external storage medium there are side rollers mounted on axles with the possibility of rotation when docking the plug electrical connector with the electrical connector of the commutation hatch.

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