RU2729906C1 - Spacecraft assembly method - Google Patents

Abstract

FIELD: astronautics.

SUBSTANCE: invention relates to assembly of spacecrafts (SC) of block-modular type. Payload modules (PLM) (1) and service systems modules (SSM) are assembled separately. After PLM (1) assembly on tooling (2) imitating the SC body, the required devices and equipment are fixed on the assembled structure. Then on inner side of honeycomb panels process corset (3) fixing position of mounting and connecting dimensions PLM (1) is installed, after that, tooling (2) is removed. To PLM (1) SSM is connected (from below) with the standard SC body by aligning their mounting surfaces.

EFFECT: shorter time for performance of manufacturing operation, installation and dismantling of technological corset (3) on PLM with SC, due to installation of this corset on inner side of PLM.

1 cl, 5 dwg

Description

The invention relates to space technology and can be used to create spacecraft (SC) of modular design.

As a prototype, a method of manufacturing a payload module (MPM) for a spacecraft of block-modular design presented in the description of patent RU No. 2659343, consisting of an MPN and a service systems module (MSS), has been chosen. According to this patent, the assembly of the MPN is carried out on technological equipment that simulates the spacecraft body, while a technological corset is installed on the inner side of the MPN, after which the technological equipment is dismantled. All autonomous work with MPN (assembly, development, transportation and others) is carried out in a technological corset, which is dismantled after completion of the installation and installation of the MPN on the spacecraft.

The advantage of this technical solution is the provision of the specified parameters of rigidity and positioning of the MPN seats for mounting and installation on the spacecraft.

The disadvantage of the prototype is the structural complexity of the technological corset, which leads to an increase in the time spent on performing technological operations for the manufacture and installation of the technological corset on the MPN and its dismantling from the spacecraft, which is not justified in the case when there is no need for autonomous work with the MPN outside the assembly shop, for example if it is not necessary to carry out the transportation of MPN over long distances.

For the claimed method, the following main essential features common to the prototype were identified:

- SC consists of MSS and MPN, collected separately from each other;

- MPN assembly is carried out on technological equipment;

- technological equipment is removed after installation and fastening of the technological corset to the MPN;

- after the completion of the installation and assembly of the MPN and MSS, the technological corset is dismantled among themselves.

A technical problem, the solution of which is directed by the claimed invention is to reduce the complexity of work during the assembly of spacecraft.

This problem is solved due to the fact that the assembly of the spacecraft, consisting of the MSS and the MPN, assembled separately from each other, and then interconnected during the final assembly, and the assembly of the MPN is carried out on technological equipment simulating the spacecraft body, which is removed after installation and fastening the technological corset to the MPN, and the latter is dismantled after the end of the installation and assembly of the MPN and MSS between themselves, carried out so that the technological corset is installed on the inner side of the MPN.

The technical result of the method for assembling the spacecraft is to reduce the time for performing technological operations for the manufacture and installation of a technological corset on the MPN and its dismantling from the spacecraft, due to the installation of a technological corset on the inner side of the MPN.

The proposed method is illustrated by 5 figures, which show:

- in Fig. 1 - assembly of MPN on technological equipment;

- in Fig. 2 - assembled MPN on technological equipment and installed technological corset;

- in Fig. 3 - MPN in a technological corset;

- in Fig. 4 - installation of MPN in a technological corset on the MSS;

- in Fig. 5 - assembly of the spacecraft consisting of the MPN and the MSS.

FIG. 1 shows MPN 1, which is a prefabricated U-shaped structure of three-layer honeycomb panels, assembled on technological equipment 2, which has overall and connection dimensions corresponding to the overall connection dimensions of MCC 4.

The spacecraft assembly method is carried out as follows.

MPN 1 and MSS 4 are assembled separately from each other, and MPN 1 is assembled on the tooling 2, which simulates the spacecraft body. After assembling the MPN 1 on the technological equipment 2, devices, equipment, structures and interfaces are installed and fixed on the resulting structure (devices, equipment, structures and interfaces are not conventionally shown in Fig. 1).

After the final assembly of the MPN 1, a technological corset 3 is installed on the inner side of the honeycomb panels, fixing the position of the landing and connecting dimensions of the MPN 1, after which the technological equipment 2 is removed (see Fig. 3). Technological corset 3 provides the specified parameters of rigidity and positioning of the MPN 1 seats during autonomous work within the assembly shop.

Then mechanical assembly of MPN 1 and MCC 4 is carried out between themselves, as shown in FIG. 4, by aligning and mating their seating surfaces.

FIG. 5 shows a spacecraft consisting of an MPN and an MSS, while after the mechanical assembly of two modules together, the technological corset 3 is dismantled from the MPN.

Thus, the placement of the technological corset 3 on the inner side of the MPN 1 makes it possible to achieve a decrease in the labor intensity of work during the assembly of the spacecraft, which leads to a decrease in the time for performing technological operations for the manufacture and installation of the technological corset 3 on the MPN 1 and its dismantling from the spacecraft when there is no need for carrying out autonomous work with MPN 1 outside the assembly shop.

Claims (1)

A method for assembling a spacecraft (SC), consisting of a service systems module (MSS) and a payload module (MPN), including assembling the MSS and MPN separately from each other, connecting them together after assembly, and the MPN is assembled on technological equipment, simulating the spacecraft body, which is removed after installation and fastening of the technological corset to the MPN, and the latter is dismantled after the completion of the assembly of the MPN and MSS between each other, characterized in that the technological corset is installed on the inside of the MPN.

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