RU2780897C1 - Spacecraft payload module case - Google Patents

Abstract

FIELD: space technology.

SUBSTANCE: invention relates to space technology, represents a body of a payload module (PM) of a spacecraft and can be used to create a modular type SC for various purposes. The case of the PM spacecraft is installed on the central part of the spacecraft. The case consists of a horizontal base panel, which has attachment points with the central part of the spacecraft, two vertical support panels, which have attachment points with the central part of the spacecraft and the base panel, and two instrument panels, having attachment points with the base and base panels. On the base panel, a conical or cylindrical load-bearing structure is rigidly fixed, which is covered by a horizontal base panel of the second tier with a central hole. Rigidity panels are installed along the load-bearing structure, rigidly connecting it to the base panel of the second tier.

EFFECT: providing thermal decoupling of honeycomb panels made of materials with different CTE, due to the absence of attachment points between the base panel of the second tier with the instrument panels of the spacecraft PN body.

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Description

The invention relates to space technology and can be used to create space vehicles (SC) of a modular type for various purposes.

Known payload module housing (MPN), installed on the central part of the spacecraft, made in the form of a cylindrical structure, presented in the description of the patent RU No. located parallel to the XOY plane, and two base panels connected by orthogonal panels forming a closed structure in the form of a polyhedron. The base panels are at different levels, located parallel to the YOZ plane, one of them is connected to the instrument panels, and the second to the support and instrument panels and has attachment points with the central part of the spacecraft.

Known housing MPN SC, presented in the method of assembling the SC, disclosed in the description of patent RU No. 2658262, taken as a prototype, consisting of a base panel located in the YOZ plane, which has attachment points with the central part of the SC, two support panels located in the XOZ plane , which have attachment points with the central part of the spacecraft and the base panel, and two dashboards that have attachment points with support and base panels.

The disadvantages of the analogue and the prototype is that the base and instrument panels are rigidly interconnected, and in cases where these panels are made of materials with different coefficients of thermal expansion (CTE), temperature deformations can occur in near-Earth orbit, leading to angular values exceeding the allowable values. to movements of mounting sites for devices and hanging antennas, and as a result, to an unacceptable change in their positioning, as a result of which the efficiency of the spacecraft operation is reduced.

For the claimed device, the following main common essential features with the prototype have been identified:

- housing MPN KA, consists of a base panel, two support and instrument panels;

- the base panel has attachment points with the central part of the spacecraft;

- support panels, have attachment points with the central part of the spacecraft and the base panel;

- dashboards having attachment points with support panels and a base panel.

The task to be solved by the claimed invention is the creation of a housing of the MPN KA that provides thermal decoupling of honeycomb panels from each other.

The problem is solved due to the fact that the body of the MPN spacecraft, installed on the central part of the spacecraft, consisting of a base panel located parallel to the YOZ plane, which has attachment points with the central part of the spacecraft, two support panels located in the XOZ plane, which have attachment points with the central part of the spacecraft and the base panel, and two dashboards having attachment points with support and base panels, carry out thus, on the base panel coaxially with the central part of the spacecraft, a conical load-bearing structure is rigidly installed, which is covered by the base panel of the second tier with a central hole located parallel to the YOZ plane, stiffening panels are installed along the conical load-bearing structure, rigidly connecting it to the base panel of the second tier, with In this case, the conical load-bearing structure can be replaced by a cylindrical load-bearing structure.

The technical result of the invention is to provide thermal decoupling between the dashboards and the base panel, due to the introduction of the base panel of the second tier, which does not have attachment points with dashboards. At the same time, high-precision instruments and hanging antennas are installed on the base panel of the second tier.

The essence of the technical solution of the claimed invention is illustrated by 2 figures, which show:

- fig. 1 – the central part of the spacecraft with the MPN body;

- fig. 2 – installation diagram of the MPN housing;

- fig. 3 – housing MPN with a cylindrical power section.

In FIG. 1 shows the central part 1 of the spacecraft (shown schematically), with the MPN body 2 installed. FIG. 2 shows the mounting scheme of the MPN housing, consisting of a base panel 3 located parallel to the YOZ plane, which has attachment points with the central part 1 KA, two support panels 4, 5 located in the XOZ plane, which have attachment points with the central part 1 KA and base panel 3, and two dashboards 6, 7, having attachment points with support 4, 5 and base 3 panels.

On the base panel 3, coaxially with the central part 1 of the spacecraft, a conical load-bearing structure 8 is rigidly mounted, which is covered by the base panel of the second tier 9 with a central hole located parallel to the YOZ plane. Along the conical load-bearing structure 8, stiffening panels 10 are installed, rigidly connecting it to the base panel of the second tier 9. Temperature decoupling of the MPN 2 body is provided due to the absence of attachment points between the base panel of the second tier 9 with instrument panels 6, 7, made of materials with different CTE .

In FIG. 3 shows the central part 1 of the spacecraft with the MPN body 2 on which the cylindrical load-bearing structure 11 is installed, which is installed on the MPN body 2 similarly to the conical load-bearing structure 8.

Thus, the housing of the MPN SC, containing a conical or cylindrical load-bearing structure coaxial with the central part of the spacecraft, which is covered by the base panel of the second tier with a central hole located parallel to the YOZ plane, and rigidity panels are installed along the conical or cylindrical load-bearing structure, rigidly connecting it to the base The panel of the second tier allows to solve the task of the invention - the creation of the body of the MPN KA providing thermal decoupling of honeycomb panels from each other, made of materials with different CTE.

Claims (2)

1. The body of the payload module (MPM) of the spacecraft (SC), installed on the central part of the spacecraft, consisting of a base panel located parallel to the YOZ plane, which has attachment points with the central part of the spacecraft, two support panels located in the XOZ plane, which have attachment points with the central part of the spacecraft and the base panel, and two instrument panels having attachment points with support and base panels, characterized in that a conical load-bearing structure is rigidly installed on the base panel coaxially with the central part of the spacecraft, which is covered by the base panel of the second tier with the central hole, located parallel to the plane YOZ, along the conical load-bearing structure, stiffening panels are installed, rigidly connecting it to the base panel of the second tier. 2. Housing MPN KA according to claim 1, characterized in that the load-bearing structure can be cylindrical.

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