RU2762581C1 - Separation system - Google Patents

Abstract

FIELD: cosmonautics.SUBSTANCE: invention relates to the field of space equipment and can be used for separating power structures of spacecrafts. The separation system for power structures of spacecrafts comprises power units installed along the circumference of the separated structures. The power units are tightened with a bandage secured by two diametrically located pyro units. The pyro units are located diametrically opposite from each other without rigid attachment to the structure. Between the power units, protection is installed on the separated part of the structure, in the form of a closed-loop lattice casing, secured whereon with threads and an adhesive material, e.g., with polyamide threads and tapes with an adhesive layer, is a polymer material.EFFECT: reliability is increased.3 cl, 4 dwg

Description

The invention relates to space technology and can be used to separate the power structures of spacecraft.

The separation system contains power nodes in the form of two power elements, covering the frames of the separated structures with the provision of the direction of the load vector through the neutral axes of the frames of the separated structures, a bandage in the form of a rope made of wires twisted together, pyro nodes, separation pushers and protection.

From the existing state of the art, a device for protecting a pneumohydraulic connection of abutting objects and a method for monitoring it for leaks (application RU No. 2515699 C2 dated 11.07.2012) is known, in which the device for protecting abutting objects contains a casing that is installed on the abutting object and ensures the tightness of the pneumohydraulic connection of abutting objects with the ability to control its tightness.

The disadvantages of this design are that the design has a high level of complexity to ensure tightness and high labor intensity of assembly.

From the existing prior art, the closest to the claimed solution (prototype) is a separation system (application RU No. 2577157 C2 dated 04/29/2013), which contains power nodes, a bandage, which is a rope made of twisted wires, pyro nodes, pushers. The power units are made in the form of two power elements covering the frames of the separated structures with the provision of the direction of the load vector through the neutral axes of the frames of the separated structures. In this case, the number of load-bearing units for the same configuration of frames of separated structures varies depending on the load and load-bearing structure of the structure. The pyro nodes are installed in the band diametrically opposite without rigid attachment to the structure, and the bandage does not have a rigid connection with the power nodes.

The disadvantages of this design is the possibility of the bandage engaging on the elements of the separated structures after the release of the actuating elements of the power units, as well as engagement during the assembly process.

For the claimed device, the main essential features common to the prototype were revealed: a system for dividing the power structures of spacecraft, containing power nodes installed around the circumference of the structures to be divided, a bandage, which is a rope made of twisted wires, pyro-nodes located diametrically opposite from each other without rigid attachment to the structure, compartment pushers.

The technical problem to be solved by the claimed invention is to increase reliability by eliminating the engagement of the band on the elements of the separable structures after the release of the actuating elements of the power units, as well as engagement during assembly.

The posed technical problem of the present invention is solved by the fact that a system for dividing the power structures of spacecraft, containing power units installed around the circumference of the divided structures, the number of which for the same configuration of the divided structures varies depending on the mass and structure of the structure. Power nodes are tightened with a bandage, which is secured by two diametrically located pyro nodes. The bandage is a rope made of wires twisted together, and the bandage is tensioned by tightening elements. Pyro nodes are located diametrically opposite from each other without rigid attachment to the structure . The separation system differs from the prototype in that in order to exclude the engagement of the shroud for the configuration of the separable structure when triggered, as well as from the engagement during the assembly process, a protection is installed between the power units on the divided part of the structure, in the form of a metal or polymer lattice casing of a closed circuit, on which the polymer material is fixed by means of threads and an adhesive material, for example, using polyamide threads and tapes with an adhesive layer. The casing is a prefabricated structure, the parts of which are fixed to each other, for example, by bolting in the area of the casing grooves.

FIG. 1 shows the location of the protection on a split structure.

FIG. 2 shows the location of the options for the split structure.

FIG. 3 shows the complete casing.

FIG. 4 shows the fastening of the casing assembly to each other.

The separation system contains power units 1 installed around the circumference of the divided structures 7, 8. The power units 1 are made in the form of two power elements, covering the frames of the separated structures 7, 8 ensuring the direction of the load vector through the neutral axes of the frames. The number of power nodes 1 for the same configuration of separable structures varies depending on the load, for example, on the mass of the payload and the load-bearing structure of the structure (for example, separable elements). Power nodes 1 are tightened by bandage 2, which is secured by two diametrically located pyro nodes 3. Bandage 2 is a rope made of wires twisted together and the tension of bandage 2 is performed by tightening elements 4. Pyro nodes 3 are located diametrically opposite from each other without rigid attachment to the structure.

In order to exclude, when triggered, the engagement of the band 2 for the configuration of the separable structure 8, as well as the engagement during the assembly process, between the power units 1 on the separable part of the structure 7, protection 5 is installed in the form of a metal casing 9. The casing 9 is a prefabricated structure consisting of a metal lattice casing 10 of a closed circuit. The number of casings 9 varies depending on the number of power units 1, the mass and design of the separation system, given, for example, by the technical assignment. In this case, the assembled casings 9 are fixed to each other, for example, by a bolt connection 15 in the area of the grooves 14

A polymeric material 11 is attached to the lattice casings 10 by means of threads and an adhesive material, for example, polyamide threads 12 and tapes with an adhesive layer 13. In this case, the casings 10 can be made, for example, of a polymeric material.

The separation system works as follows.

After launching into the calculated orbit, an electrical signal is given to trigger pyro-nodes 3. The bandage 2 is opened, increasing the diameter and releasing the actuating elements of the power units 1. As a result, the power units 1 are triggered and the separable structures 7, 8 are released. Under the action of the pushers 6, the separable structure 8 is separated from the separable structure 7. At the same time, the protection 5 prevents the bandage 2 from engaging in the elements of the separable structure 8. The closed polymer material 11 is attached to the casing 9 using polyamide threads 12 and tapes with an adhesive layer 13.

The technical result is to increase reliability, eliminating the engagement of the band for the elements of the separated structures after the release of the actuating elements of the power units, as well as engagement during the assembly process. The installed protection has passed flight tests.

Claims (3)

1. A system for dividing the power structures of spacecraft, containing power units installed along the circumference of the structures to be divided, a bandage, which is a rope made of twisted wires, pyro knots located diametrically opposite from each other without rigid attachment to the structure, compartment pushers, which differ the fact that between the power units on the separable structure there is a protection consisting of a closed-loop lattice casing made of metal or of a polymer material, on which the polymer material is fixed by means of threads and an adhesive material. 2. The separation system according to claim 1, characterized in that the polymer material is fixed to the casing by means of polyamide threads and tapes with an adhesive layer. 3. Separation system according to PP. 1 and 2, characterized in that the casing is made in the form of a prefabricated structure, the parts of which are fixed to each other.

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