RU2110124C1 - Device for mating and separating connector members between pieced of equipment being disconnected in the course of operation - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: device is provided with hollow cylindrical sleeve telescopically embracing moving-part shroud of connector and flange mounted on cylindrical sleeve between two annular beads on its external surface spring-loaded to the latter; spring is located on connector side relative to flange which is fixed to case of piece of equipment. Moving-part shroud of connector is made in the form of stepped cylinder with smaller-diameter step facing connector and has cylindrical tube to pass cable on butt end of larger step coaxially to connector. Inner surface of mentioned hollow cylindrical sleeve contacting cylindrical surface of larger step of shroud has annular shoulder and annular stop with annular drilling inbetween that is joined with seat to receive pyrotechnical pressure source. EFFECT: facilitated mating and disconnecting connector members. 3 cl, 3 dwg

Description

 The invention relates to electrical connectors, namely tear-off electrical connectors with a pyrotechnic undocking drive.

 A device for docking and undocking electrical connectors [1], adopted for the prototype, containing an electrical connector made of two parts, one of which, a fixed part, such as a plug, is rigidly fixed to the body of the detachable part of the product, such as an orbiting spacecraft, separated in flight from the launch vehicle, and another, movable part, such as a socket, is soldered to the free end of a cable mounted on the product’s body, such as a launch vehicle, docked with a plug and fixed in ostykovannom state shear screws.

 A housing made with a sealed annular channel connected to chambers in which pyrotechnic pressure sources are installed and with cavities in which pushers interacting with the housing of the detachable part of the product are fixedly mounted on the outlet. On command, pyrotechnic pressure sources are triggered, the combustion products of which act on the pushers, which abut the body of the detachable part of the product, break the connection between the plug and the socket, destroying the shear screws.

 The disadvantage of the prototype is that the device according to [1] cannot be undocked in the event of a failure of the pyrotechnic pressure source, and therefore, to increase the reliability of the undocking of the connector, the pyrotechnic pressure source is dubbed, and this leads to a significant increase in pressure in the annular channel of the housing during normal operation of the igniter, which entails an increase in the mass of the device, and disturbances acting on the detachable part of the product at the time of disconnecting the connector, an increase in the rate of rejection of the moving part Part of a connector, such as an outlet. In addition, this device has another drawback: after undocking the connector, its movable part, for example, a socket, with the housing installed on it, remains on the freely hanging end of the cable. And if there are any external forces (overload during movement of the product, gravity, etc.), their unexpected movement is possible, which will lead to unwanted shocks.

 An object of the invention is to improve the operational characteristics of the device by providing undocking of the connector in case of failure of the pyrotechnic pressure source by the course of the separated parts of the product and eliminating shock loads after undocking of the connector.

 The stated technical problem is achieved by the fact that in the known device for docking and undocking electrical connectors, a hollow cylindrical sleeve is introduced that telescopes around the housing of the movable part of the connector, and a flange mounted on the cylindrical sleeve between two ring collars made on its outer surface, spring loaded relative to it located relative to the flange on the side of the connector, and rigidly connected with the body of the product. In this case, the housing of the movable part of the connector is made in the form of a stepped cylinder, facing a smaller diameter step towards the connector with a cylindrical pipe passage for cable passage, made at the end of the larger stage coaxially to the connector, on the inner surface of the hollow sleeve in contact with the cylindrical surface of the larger stage of the housing, ledge interacting with the cylindrical surface of the lower stage of the housing, an annular stop covering the cylindrical surface of the pipe and made capable of interacting with the end face of a larger stage of the housing, and between them an annular groove associated with a socket for a pyrotechnic pressure source, the socket is located in a tide made on the outer surface of the sleeve, the annular channel is formed by the groove of the sleeve, the end of the ring ledge, the cylindrical surface of the lower stage of the housing the movable part of the connector and the annular end of its larger step, while the fixation unit of the movable part of the connector relatively stationary in the axial direction is made in the form Dinner split ring freely embedded in an annular groove formed in an annular sleeve stop, and in contact with an annular groove formed on the outer surface of the pipe.

 An additional problem solved by the invention is to increase the reliability of fixing the movable part of the connector, such as a socket, after undocking the connector is achieved by the fact that on the outer surface of the pipe between the end of the large step of the housing of the movable part of the connector and the annular groove interacting with the spring ring of the fixation unit, an additional annular a groove with the possibility of interaction with the spring ring during the interaction of the end face of a large stage of the housing with the annular emphasis of the sleeve.

 Another additional problem solved by the invention is to simplify the assembly of the device while reducing the response force of the fixing unit, achieved by the fact that the annular stop on the inner surface of the sleeve is made in the form of coaxially mounted washers, rings and threaded plugs, while the washer is rigidly fixed on the inner surface sleeves by means of a threaded plug made in the form of a hollow sleeve with a thread on the outer surface and an annular collar on the inside, the ring is freely inserted between the washer and the annular collar screw plug and contact with the cylindrical surface of the pipe and on the inner surface of the ring an annular groove for fixing the snap ring assembly.

 In FIG. 1 shows a device in a docked state; in FIG. 2 is a view along arrow A in FIG. one; in FIG. 3 - device after undocking of the electrical connector.

 A device for docking and undocking electrical connectors between parts of products that are shared during operation contains an electrical connector made of two parts - a fixed part 1, rigidly fixed to the body of the detachable part 2, and a movable part 3, docked with the fixed part 1 and installed in a cylindrical body 4. A hollow cylindrical sleeve 5 is mounted on the housing 4, telescopically covering the housing 4. On the outer surface of the sleeve 5, annular collars 6 are made, between which is installed a flange 7, rigidly fixed, for example, by screws 8 to the body of the product 9. Between the flange 7 and the annular collar 6, located relative to the flange 7 on the side of the connector, a spring 10 is placed. The housing 4 of the movable part 3 of the connector is made in the form of a stepped cylinder facing a lower stage diameter towards the connector. At the end of the greater stage of the casing 4, a cylindrical pipe 11 is made coaxially with the connector for cable passage 12. On the inner surface of the hollow sleeve 5 in contact with the cylindrical surface of the larger stage of the casing 4, an annular ledge 13 is formed, interacting with the cylindrical surface of the lower stage of the casing 4, an annular stop, covering the pipe 11 and made in the form of coaxially mounted washers 14, rings 15, threaded plugs 16, while the washer 14 is rigidly fixed to the inner surface of the sleeve 5 by means of a threaded timid 16 formed as a bushing with a threaded outer surface and an annular shoulder 17 on the inside. The ring 15 is freely inserted between the washer 14 and the annular shoulder 17 of the threaded plug 16 and is in contact with the cylindrical surface of the pipe 11. On the inner surface of the ring 15 there is an annular groove 18 in which a spring split ring 19 is installed, interacting with the annular groove 20 made on the surface of the pipe 11. On the inner surface of the sleeve 5 between the annular ledge 13 and the washer 14 of the annular stop there is an annular duct 21 connected to the socket 22 under the pyrotechnic pressure source 23. The socket 22 is located in a tide 24 made on the outer surface of the sleeve 5. The annular groove 21, the end face of the annular ledge 13, the cylindrical surface of the lower stage of the housing 4 and the ring end of the larger stage of the housing 4 form a sealed annular channel 25. On the pipe 11 between the end face of the larger stage of the housing 4 and the washer 14 the annular emphasis of the sleeve 5 made an additional annular groove 26 with the possibility of interaction with the spring ring 19 when the end face of the greater stage of the housing 4 with the washer 14 of the annular emphasis of the sleeve 5. Docking of the movable part 3 the electrical connector with its fixed part 1 is made after the detachable part 2 is docked with the product body 9 as follows: the movable part 3 of the connector is articulated with the fixed part 1, overcoming the force on the pins, then the flange 7 is combined with the seat on the product body 9 and rigidly fixed to it, for example, using screws 8. The movable part 3 of the connector is fixed in the axial direction relative to the fixed part 1 of the connector by means of a fixing unit made in the form of a spring split ring 19, tanovlenii in the annular groove 18, the annular stop of the sleeve 5 and interacting with an annular groove 20 on the nozzle 11. When the flange 7 is located between the annular bushing 5 6 turners randomly depending on a combination of tolerances in the axial dimension of the device elements. Such a free arrangement of the flange 7 relative to the sleeve 5 is performed in order to exclude the loading of the connector when fixing the flange 7 to the product body 9 (when tightening the screws 8). In this case, the spring 10, located relative to the flange 7 from the side of the connector, constantly presses the sleeve 5, and through the fixing unit and the movable part 3 of the connector to its fixed part 1.

 The electrical connector (movable 3 and fixed 1 parts) can be undocked either by moving the detachable part 2, or until the parts of the product that are detached during operation are separated by means of a pyrotechnic pressure source 23. Gas from the pyrotechnic pressure source 23 from socket 22 enters an airtight annular channel 25 and acts on the annular end face of the greater stage of the housing 4. When the pressure force of the gases acting on the annular end of the larger stage of the housing 4 exceeds the force on the fixing unit, the housing 4 with movable part 3 of the electrical connector begins to move in the axial direction, expanding the spring ring 19 by the inclined wall of the annular groove 18. The housing 4 together with the movable part 3 of the electrical connector moves axially relative to the fixed part 1 of the electrical connector until the end face of the larger stage of the housing 4 rests against the washer 14 of the annular stop of the sleeve 5, while the additional groove 26 on the pipe 11 is located under the annular groove 18 of the annular stop of the sleeve 5, the spring ring 19 is compressed and begins to interact Vova with an annular groove 26, fixing the housing 4 with the moving part 3 of the connector relative to the sleeve 5 and the housing 9 into products undocked position.

 Thus, as can be seen from the description of the operation of the device, the technical task is achieved, namely, if there is a reliable fixation of the connector parts relative to each other, they are undocked when the pyrotechnic pressure source does not work by the course of the detachable part of the product, and the movable part of the connector with the cable is fixed after it is undocked relative to the housing products, due to which possible unwanted blows against structural elements of the case are eliminated.

In addition, the set additional technical tasks have been achieved:
the reliability of fixing the parts of the connector after undocking due to the introduction of an additional annular groove on the housing pipe of the moving part of the connector is increased;
assembly of the device is simplified by performing an annular stop on the inner surface of the sleeve in the form of a coaxially mounted washer, ring and screw plug, made in the form of a hollow sleeve with thread on the outer surface and an annular collar on the inside.

Claims (3)

 1. A device for docking and undocking electrical connectors between parts that are separated during operation, comprising an electrical connector made of a fixed part, rigidly fixed to a detachable part of the product, and a movable part docked with it, mounted in a cylindrical body, an axial fixation unit parts of the connector, a pyrotechnic pressure source installed in a socket connected to a sealed annular channel, characterized in that a hollow cylinder is inserted into it a sleeve, telescoping around the housing of the movable part of the connector, and a flange mounted on a hollow cylindrical sleeve between two annular collars made on its outer surface, spring-loaded relative to it by a spring located relative to the flange on the side of the connector, and rigidly connected to the product body, the housing is movable part of the connector is made in the form of a stepped cylinder, facing a smaller diameter step towards the connector, with a cylindrical pipe for cable passage, made m at the end of the greater stage of the housing coaxially with the connector, on the inner surface of the hollow cylindrical sleeve in contact with the cylindrical surface of the greater stage of the housing of the movable part of the connector, there is an annular ledge interacting with the cylindrical surface of the lower stage of the housing, an annular stop covering the cylindrical surface of the pipe and made with the possibility of interaction with the end surface of a larger step of the casing, and between them - an annular groove associated with the nest under the pyrotechnic a pressure source, a socket for a pyrotechnic pressure source is located in the tide made on the outer surface of the hollow cylindrical sleeve, and the sealed annular channel is formed by the indicated annular groove of the sleeve, the end face of the annular ledge, the cylindrical surface of the lower step of the housing of the movable part of the connector and the ring end of its larger stage, wherein the fixing unit in the axial direction of the connector parts is made in the form of a spring split ring freely embedded in the annular groove in performed in the annular emphasis of the sleeve, and in contact with the annular groove made on the outer surface of the pipe.  2. The device according to claim 1, characterized in that in it on the outer surface of the pipe between the end of the larger stage of the housing and the annular groove interacting with the spring split ring of the fixation unit, an additional annular groove is made with the possibility of interaction with the spring split ring of the fixation unit in interaction the end of the greater stage of the housing with an annular emphasis of the sleeve.  3. The device according to claims 1 and 2, characterized in that the annular stop on the inner surface of the hollow cylindrical sleeve is made in the form of coaxially mounted washers, rings and threaded plugs, while the washer is rigidly fixed to the inner surface of the sleeve by means of a threaded plug made in the form of a hollow sleeve with a thread on the outer surface and an annular collar on the inner surface, the ring is freely inserted between the washer and the annular collar of the screw plug and is in contact with the cylindrical surface of the nozzle, and on the inside s surface of the ring an annular groove for fixing the snap ring assembly.

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