RU2729148C1 - Spacecraft payload module - Google Patents

Abstract

FIELD: astronautics.

SUBSTANCE: invention relates to space engineering, particularly, to spacecraft payload modules (SC PLM). SC PLM is installed on the spacecraft central part. It consists of two support panel structures, which serve for their fixation on central part of SC and for arrangement of two instrument panels and two base panels connected by orthogonal panels. Part of orthogonal panels form a closed structure with a base in the form of a polyhedron. Another part of orthogonal panels is rigidly attached to outer edges of closed structure. Above elements are located within the limits of the base panel perimeter.

EFFECT: higher rigidity of structure.

1 cl, 2 dwg

Description

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

As a prototype, the spacecraft payload module (MPN) according to the patent RU No. 2658262 was chosen, which consists of two supporting panel structures on which two instrument panels are located, located parallel to the XOY plane, and two base panels, interconnected by orthogonal panels and located on at different heights parallel to the YOZ plane, one of them is connected to the dashboards, and the other is connected to supporting panel structures and dashboards and has the ability to rigidly attach to the central part of the spacecraft.

The disadvantage of the prototype is that when carrying out assembly and assembly work with MPN associated with intrashop movement using crane equipment, rigging loads may occur, leading to permanent deformations of the base panels, which is undesirable when installing precision instruments on them.

The problem to be solved by the claimed invention is to increase the rigidity of the base panels for installing precision instruments on them.

The task is solved due to the fact that the spacecraft MPN, installed on the central part of the spacecraft, is made in the form of a cylindrical structure, which consists of two supporting panel structures that serve to fix it on the central part of the spacecraft and to accommodate two instrument panels located parallel to the plane XOY, and two base panels connected by orthogonal panels and located at different heights parallel to the YOZ plane, one of them is connected to the dashboards, and the other is connected to the supporting panel structures and dashboards and has the possibility of rigid attachment to the central part of the spacecraft, as follows: that some of the orthogonal panels form a closed structure with a base in the form of a polyhedron, and some are rigidly attached to the outer edges of the closed structure and are located within the perimeter of the base panel.

The technical result of the spacecraft MPN is to increase the rigidity of the structure due to the fact that the base and orthogonal panels in the form of a closed structure form a rigid box, which makes it possible to reduce residual deformations during rigging. In addition, the area of the orthogonal panels increases, on which additional devices and equipment for the spacecraft payload can be installed.

The essence of the technical solution of the claimed invention is illustrated by two figures, which depict:

- in Fig. 1 - design of the spacecraft MPN;

- in Fig. 2 is a diagram of fixing the rigging equipment to the MPN.

FIG. 1 shows the central part of the spacecraft 1, on which two supporting panel structures 2, 3 are installed. On the central part of the spacecraft, along the upper belt of the supporting panel structures, a structure is installed, consisting of the lower base panel 4, located parallel to the YOZ plane, and orthogonal panels 5, part of which form a closed structure with a base in the form of a polyhedron, for example, in the form of a honeycomb, and some of them are rigidly attached to the outer edges of the closed structure and are located within the perimeter of the base panel. In this case, the lower base panel 4 is rigidly connected to the central part of the spacecraft 1, supporting panel structures 2, 3 and orthogonal panels 5.

The resulting structure is rigidly connected to two dashboards 6, 7 located parallel to the XOY plane, and the upper base panel 8, located parallel to the YOZ plane, is rigidly connected to the orthogonal panels 5.

FIG. 2 shows a diagram of fixing the rigging equipment to the MPN. The rods 9 of the rigging equipment are fixed, for example, to the lower base panel in the XOY plane.

Thus, the MPN of the spacecraft consisting of two supporting panel structures, which serve to fix it on the central part of the spacecraft and to accommodate two instrument panels, and the two base panels are connected by orthogonal panels, so that some of the orthogonal panels form a closed structure with a base in the form of a polyhedron, and some are rigidly attached to the outer edges of the closed structure and are located within the perimeter of the base panel, one of them is connected to the dashboards, and the other is connected to the supporting panel structures and dashboards, which allows solving the task of the invention to increase the rigidity of the base panels serving for the installation of precision instruments, and additional orthogonal panels can be used to install additional instruments and equipment for the spacecraft payload.

Claims (1)

The payload module of the spacecraft, mounted on the central part of the spacecraft, made in the form of a cylindrical structure, which consists of two support panel structures, which serve to be fixed on the central part of the spacecraft and to accommodate two instrument panels located parallel to the XOY plane, and two base panels, connected by orthogonal panels and located at different heights parallel to the YOZ plane, one of them is connected to the dashboards, and the other is connected to the supporting panel structures and dashboards and has the possibility of rigid attachment to the central part of the spacecraft, characterized in that some of the orthogonal panels form a closed structure with a polyhedron base, and some are rigidly attached to the outer edges of the closed structure and are located within the perimeter of the base panel.

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