RU2706670C1 - Device for rapid sealing of a breakdown hole in a spacecraft body - Google Patents

Abstract

FIELD: astronautics.

SUBSTANCE: invention relates to space engineering, particularly, to repair of spacecraft. Device for rapid sealing of a breakdown hole in a body of a space object comprises a sealing element and a reservoir. Reservoir is made in the form of double-sided umbrella. One working inner side of the umbrella is made of strong propylene, and the second working outer side is made of thin sheet titanium. Sides of the umbrella are located on different sides from the shell of the spacecraft. Container comprises handle with retainer to open umbrella, part of handle located between two working sides of umbrella is equipped with nozzles. Handle is equipped with an inlet valve, to which a compressed air cylinder is connected. Handle passes through the puncheon hole. Reservoir is filled with a sealing element.

EFFECT: enabling the application scope expansion.

1 cl, 1 dwg

Description

The invention relates to a device for determining on board a spacecraft the coordinates of the breakdown site by high-speed micrometeoride or technogenic particles and sealing the breakdown hole.

A known device for determining the coordinates of the breakdown location of the pressurized shell of a manned spacecraft with cosmic particles and a method for determining the coordinates of the breakdown location, patent RU No. 2387966, 16.10.2008 [1], which contains six acoustic sensors located in the pressurized space object, with four sensors located in pairs near pressurized walls, and the line segments connecting each of the mentioned pair of sensors are crossed, and the sensors themselves inside these pairs are spaced from each other to the maximum possible distance . The remaining two pressure sensors are each located near the opposite walls of the pressurized space object at the smallest distance from the center of the pressurized chamber.

The disadvantages of the technical solution include the lack of accuracy in determining the coordinates of the breakdown location, as well as the need to use additional technical means to eliminate leaks in the containment of the space object, requiring preparatory operations and the time for their implementation to close the hole at the breakdown location.

The known method and device (copyright certificate SU No. 1823479 - [2]), according to which the sealing composition is prepared in advance, is injected under pressure into the place of damage and is held in air until cured at a temperature of 20 ÷ 120 ° C. The disadvantages of this technical solution are the need to use special equipment with high pressure, which is unacceptable on board a space object, the ability to seal only with direct visual contact of personnel with a breakout hole, and also the high toxicity of the materials used.

A known method of sealing defects in the shells of space objects and a device for its implementation (patent RU No. 2131386, 12/30/1997 [3]), providing for the formation of snap in the defect zone, filling this zone with sealant through the filling hole in the snap. The device comprises a cover with a seal, a clamp in the form of a beam with a central adjusting screw, the cover is equipped with a handle and has a longitudinal groove, and a longitudinal groove is made in the beam, perpendicular to the groove of the cover. The adjusting screw is passed through a floating nut installed in the groove of the beam, the ends of the beam are passed through two racks with collets mounted on the protruding structural elements of the FFP, and tightened by nuts. At the same time, holes for filling the sealant are made in the cover. The device also contains a spring clip, a central hole is made in the clip and it is equipped with a handle with a hole for filling the sealant, the axis of which coincides with the axis of the clip hole.

Also known analogous methods and devices can be referred to analogs, for example: RU No. 2457157 C1, July 27, 2012 [4], RU No. 2479470 C2, 04/20/2013 [5], RU No. 2348515 C2, 03/20/2009 [6] , JP No. 2001002000 A, 08/14/2000 [7], EP No. 2517960 A2, 10/31/2012 [8], US No. 3666133 A, 05/30/1972 [9], US No. 5152482 A, 10/06/1992 [10], FR No. 2812271 A1, 02/01/2002 [11], CN No. 101850852 A, 10/06/2000 [12], WO No. 2009150081 A1, 12/17/2009 [13], RU No. 2293688 C1, 02/20/2007 [14].

The main disadvantages of the analogues ([1-14]) are the need for a visual definition of the hole in the shell, the inability to quickly seal due to the need to seal the hole on the outside of the space object in a vacuum.

There is also a technical solution, the essence of which lies in the fact that the device for determining the coordinates of the breakdown location of the pressurized shell of a manned space object with cosmic particles and the method for determining the coordinates of the breakdown location find the approximate coordinates of the breakdown location. Then, a device for determining the coordinates of the breakdown location and sealing the containment of the manned space object is placed near the expected breakdown location, acoustic sensors located on its outer surface are connected to the recorder and this device is moved along the pressure compartment wall. With a sharp decrease in the magnitude of the signals from the acoustic sensors that occurs when the sealing block is located directly above the breakdown location, the cover is shifted with the aid of a holder. In this case, the sealing element under the action of a rarefaction wave caused by the outflow of air from the pressurized compartment, leaves the pencil case and is attracted to the wall of the pressurized shell, blocking the breakdown hole. When signals from acoustic sensors are completely stopped, the sealing unit is separated from the wall of the containment (RU No. 2568514 C1, 11/20/2015 [15]), and the device for determining the coordinates of the breakdown location and sealing of the containment of the manned space object contains a sealing element made of an elastic material of a porous structure, made in the form of a plate coated with liquid sealant. The sealing element is placed in a pencil case, which is equipped with a retractable lid. Two acoustic sensors and a magnet are fixed on the fixed surface of the pencil case, while the sealing element is placed in a plastic bag that protects the sealant from premature hardening. A metal foil with magnetic properties is fixed on the surface of the bag facing the fixed cover of the pencil case, the other side of the bag is glued to the retractable cover, with acoustic sensors placed above the pencil case and a magnet mounted between the acoustic sensors. The pencil case and its retractable cover are equipped with holders. Also, the invention consists in the implementation of the sealing element in the form of a plate or a set of plates of polyurethane foam, coated with a layer of silicone sealant.

The technical result of using the known device [15] for determining the coordinates of the breakdown location and sealing the pressurized shell of a manned space object (FFP) is the simplicity of design, its mobility, increasing the accuracy of determining the breakdown location of the pressurized shell and reducing the time of sealing the breakdown hole.

Moreover, the known device operates as follows.

During high-speed breakdown of an OCR hermetic shell, acoustic sensors record the fronts and times of arrival of an acoustic wave caused by explosive release of energy at the breakdown point. The unit for recording signals from sensors determines the coordinates of the breakdown point with an accuracy at which the calculation error in an uncluttered space is 0.1-0.2 m, and in a cluttered space it is 0.5-0.8 m.

The personnel of the FFP places a pencil case with a sealing element inside it near the supposed breakdown place, connects acoustic sensors to the recorder and begins to move the pencil case inside the pressurized compartment wall. The increase in the value of the signal from the acoustic sensors indicates the approach of the pencil case to the breakout hole. A sharp decrease in the signal value indicates the presence of a pencil case above the hole. At this moment, holding on to the holder of the pencil case, the shift of its cover is made. When this comes off the plastic film that protects the sealing element. The latter, under the action of a rarefaction wave caused by the outflow of air from the pressurized compartment, is attracted to the wall and closes the hole. A complete cessation of signals from additional acoustic sensors indicates a complete sealing of the hole.

The disadvantage of this method and device [15] are the limitations on the application, due to the inability to place a pencil case above the hole in the presence of protruding housing elements or dashboards, i.e. in inaccessible places of the spacecraft.

The objective of the proposed technical solution is to expand the functionality by sealing the breakdown location of the pressurized shell in hard-to-reach spots of the spacecraft.

The problem is solved due to the fact that in the device for operative sealing of the hole in the spacecraft body containing a sealing element located in the tank, the tank is made in the form of two side umbrellas, one working inner side of the umbrella is made of durable propylene, and the second working the outer side is made of thin sheet titanium, the reservoir contains a handle with a latch for opening the umbrella, part of the handle located between the two working sides of the umbrella is equipped with nozzles, the handle equipped with an inlet valve to which a cylinder of compressed air is connected.

A device for operative sealing of a punch hole in a spacecraft body (figure) contains a sealing element 1 located in the reservoir 2. The reservoir 2 is made in the form of two side umbrellas, one working inner side 3 of the umbrella is made of durable propylene, and the second working outer side 4 is made of thin sheet titanium. The reservoir 2 contains a handle 5 with a latch 6 for opening the umbrella. The part of the handle 5 located between the two working sides of the 3.4 umbrella is equipped with nozzles 7. The handle 5 is equipped with an inlet valve 8, to which a balloon 9 with compressed air is connected, the body of the space object 10.

The proposed technical solution is implemented as follows.

If a breakdown is detected, for example, as in the prototype, by means of acoustic sensors, a device for operatively sealing a breakdown hole in the spacecraft body 10 is inserted into the breakdown slot so that the inner working side 3 of the umbrella is located inside the space object and the outer working side 4 of the umbrella located on the outer side of the body of the space object. When you press the handle 5, the working sides 3, 4 are opened, respectively, from the inner and outer sides of the body of the space object and a balloon 9 with compressed air is activated to create excess pressure. In this case, under the influence of excessive pressure, the sealing element 1 will begin to be sprayed, which is a gel-like filler that hardens when the temperature of the medium decreases through the nozzles 7. In this case, the inner and outer sides 3, 4 of the umbrella perform the function of a snap.

In contrast to the known technical solutions, the present invention provides the ability to seal a punch hole in the body of a space object in hard to reach places.

Information sources.

Patent RU No. 2387966, 16.10.2008.

Copyright certificate SU No. 1823479.

Patent RU No. 2131386, 12.30.1997.

Patent RU No. 2457157 C1, July 27, 2012.

Patent RU No. 2479470 C2, 04/20/2013.

Patent RU No. 2348515 C2, 03.20.2009.

JP application No. 2001002000 A, 08/14/2000.

EP patent No. 2517960 A2, 10.31.2012.

US patent No. 3666133 A, 05/30/1972.

US patent No. 5152482 A, 10/06/1992.

Patent FR No. 2812271 A1, 02/01/2002.

CN Patent No. 101850852 A, 10/06/2000.

Application WO No. 2009150081 A1, December 17, 2009.

Patent RU No. 2293688 C1, 02.20.2007.

Patent RU No. 2568514 C1, 11/20/2015.

Claims (1)

A device for operatively sealing a punch hole in the spacecraft body, containing a sealing element located in the tank, characterized in that the tank is made in the form of a two-sided umbrella, one working inner side of the umbrella is made of durable propylene, and the second working outer side is made of thin sheet titanium , the tank contains a handle with a latch for opening the umbrella, a part of the handle located between the two working sides of the umbrella is equipped with nozzles, the handle is equipped with an inlet valve m to which a cylinder of compressed air is connected.

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