RU2771087C1 - Spacecraft payload module assembly method - Google Patents

Abstract

FIELD: space technology.SUBSTANCE: invention relates to space technology and can be used in the creation of spacecraft (SC) block-modular design. The method for assembling the payload module (PM) of the spacecraft consists in the sequential assembly of honeycomb panels on the central part of the spacecraft using threaded connections. In this case, the PM consists of two support panels, two instrument panels, which are installed and fixed on the support panels, and an astroplate panel, which is installed and fixed on the support and instrument panels and on the central part of the spacecraft. The supporting panels are located in the XOZ plane and are intended for installation and fixing on the central part of the spacecraft. Dashboards are located parallel to the XOY plane. The astroplate panel is located in the YOZ plane. Each of the instrument panels is mounted on the support panels by means of two guide studs with a smooth part, located in line along the X axis. The astroplate panel is mounted on each of the dashboards using two mounting bolts with a smooth part, which are located in the same line along the Y axis.EFFECT: quality of assembly of PM SC is improved.2 cl, 12 dwg

Description

The invention relates to space technology and can be used to create block-modular spacecraft (SC) consisting of two modules, a payload module (MPM) and a service systems module (MSS), manufactured separately from each other.

As a prototype, the MPN assembly method (patent RU No. 2647404) was chosen, according to which the MPN assembly consists in the sequential assembly of honeycomb panels on the central part of the spacecraft using threaded connections, while the MPN consists of two support panels located in the XOZ plane and intended for installation and fixing on the central part of the spacecraft two instrument panels located parallel to the XOY plane, which are installed and fixed on the support panels, and an astroplate panel located in the YOZ plane, which is installed and fixed on the support and instrument panels and on the central part of the spacecraft.

The disadvantage of the prototype is that the honeycomb panels are connected to each other using bolts with a threaded part, installed with a gap in the smooth part of the mounting holes. Changing the position of the bolts in the hole after exposure to vibrations of the active flight segment leads to a violation of the alignment of on-board instruments and equipment that are installed on the astroplate and instrument panels.

For the claimed method, the following essential features common with the prototype have been identified: a method for assembling the MPN SC, which consists in the sequential assembly of honeycomb panels on the central part of the SC using threaded connections, while the MPN consists of two support panels located in the XOZ plane and intended for installation and fixing on the central part of the spacecraft, two instrument panels located parallel to the XOY plane, which are installed and fixed on the support panels, and an astroplate panel located in the YOZ plane, which is installed and fixed on the support and instrument panels and on the central part of the spacecraft.

The technical problem to be solved by the claimed invention is the creation of a method for assembling the MPN of the spacecraft, which ensures the stability of the relative position of the honeycomb panels between themselves under the influence of vibrations and thermal effects of the active section of the flight of the spacecraft, which improves the quality of the assembly of the MPN and the stability of the adjustments of on-board instruments and equipment.

This technical problem is solved due to the fact that the method of assembling the MPN spacecraft consists in the sequential assembly of honeycomb panels on the central part of the spacecraft using threaded connections. In this case, the MPN consists of two support panels located in the XOZ plane and intended for installation and fixing on the central part of the spacecraft, two instrument panels located parallel to the XOY plane, which are installed and fixed on the support panels, and an astroplate panel located in the YOZ plane, which is installed and fixed on the support and instrument panels and on the central part of the spacecraft. Each of the instrument panels is mounted by means of two guide studs with a smooth part, installed in the support panels, located in line along the X axis so that one of them forms a gap-free connection with its smooth part in the round hole of the instrument panel and the smooth part of the stud of the support panel, and the second one - in the smooth part of the support panel stud and in the groove of the instrument panel with the possibility of its free movement relative to the support panel along the X axis. Y so that one of them with its smooth part forms a gap-free connection in the round holes of the astroplate and the dashboard, and the second - in the round hole of the dashboard and in the groove of the astroplate with the possibility of free movement of the astroplate relative to the dashboard along the Y axis. panels with support panels and astrop battens with instrument panels, threaded connections are made with gaps in the smooth parts of the mounting holes. It is possible to assemble the MPN when it is produced on the technological simulator of the central part of the spacecraft, after which the MPN is separated from the technological simulator, and then installed and fixed on the central part of the spacecraft.

The technical result of this technical solution is to improve the quality of the MPN assembly and the stability of the adjustments of on-board instruments and equipment by achieving a stable relative position of the MPN honeycomb panels between themselves under the influence of vibrations and thermal effects of the active section of the spacecraft flight.

The essence of the technical solution of the claimed invention is illustrated by 12 figures, which show:

- in Fig. 1 – scheme of installation of support panels on the central part of the spacecraft;

- in Fig. 2 - installation diagram of instrument panels and astroplate panels;

- in Fig. 3 - the location of the guide pin in the hole;

- in Fig. 4 - placement of the guide pin in the hole;

- in Fig. 5 - the location of the guide pin in the groove;

- in Fig. 6 - placement of the guide pin in the groove;

- in Fig. 7 - location of the guide bolt hole;

- in Fig. 8 - placement of the guide bolt in the hole;

- in Fig. 9 - the location of the guide bolt in the groove;

- in Fig. 10 - placement of the guide bolt in the groove;

- in Fig. 11 – MPN assembly on the process simulator;

- in Fig. 12 - scheme of dismantling the MPN from the process simulator and mounting the MPN on the central part of the spacecraft.

In FIG. 1 shows the central part of the spacecraft 1, made in the form of a mesh cylindrical structure, on which support panels 2 and 3 are installed, located in the XOZ plane.

Further on the support panels 2 and 3 install and fix the instrument panels 4 and 5, respectively (see Fig. 2). Each of the dashboards 4 (5) is installed on the support panels 2 (3) using two guide pins 6 (see figure 3) with a smooth part, located on the same line along the X axis. One of the pins 6 with its smooth part forms a gapless connection in the round hole 7 of the dashboard 4 (5) and the smooth part 8 of the threaded hole 9 of the support panel 2 (3) (see Fig. 3 and 4). The second pin 6 is in the smooth part 8 of the threaded hole 9 of the support panel 2 (3) and in the groove 10 of the dashboard 4 (5) with the possibility of its free movement relative to the support panel 2 (3) along the X axis (see Fig. 5 and 6 ).

Then the astroplate panel 11 is installed so that it is connected to one of the instrument panels 5 using two landing bolts 12 with a smooth part, which are located in the same line along the Y axis. One bolt 12 with its smooth part 13 forms a backlash-free connection in the round holes 14 of the astroplate 11 and dashboard 5 (see FIGS. 7 and 8). The second bolt is in the round hole 14 of the dashboard 5 and in the groove 15 of the astroplate 11 with the possibility of free movement of the astroplate 11 relative to the dashboard 5 along the Y axis (see Figs. 9 and 10). In other places of fastening of instrument panels 4, 5 with support 2, 3 and astroplate 11 with instrument panels 4, 5, threaded connections are made with gaps in the smooth parts of the mounting holes (not shown in Fig. 2).

Gap-free joints in round holes and in the groove ensure the stability of the relative position of the panels between themselves during assembly and vibrations of the active flight section, and the specified location of the gaps in the mounting holes and the orientation of the grooves relative to the gap-free connections of the panels makes it possible to compensate for deformations under thermal effects.

To reduce the time for assembling the spacecraft modules, a variant of autonomous assembly of the MPN is provided in parallel with the assembly of other modules, according to which the MPN is preliminarily assembled on a technological simulator 16 of the central part of the spacecraft, in which the dimensions and seats for attaching the MPN are identical (see Fig. 11). At the same time, the assembly sequence of support panels 2, 3, instrument panels 4, 5 and the astroplate panel 11 on the technological simulator 16 fully corresponds to the assembly on the central part of the spacecraft 1. The assembly of the MPN on the technological simulator 16 is necessary when carrying out routine maintenance with the MPN separately from the central part of the spacecraft 1, for example, during the installation of instruments and equipment on the MPN, during rigging operations and transportation of the MPN to the places of assembly work.

In FIG. 12 shows the scheme of dismantling the MPN from the technological simulator 16 and mounting the MPN on the central part of the spacecraft 1. After carrying out all routine maintenance with the MPN, it is dismantled from the process simulator 16 and installed on the central part of the spacecraft 1 for further mounting and installation operations.

Thus, the method of assembling the MPN SC using guide pins and bolts when assembling honeycomb panels, and installing them without clearance in round holes and grooves, with the possibility of free movement in the grooves along the X or Y axes, allows us to solve the problem - creating a method for assembling the MPN SC, ensuring the stability of the relative position of the honeycomb panels between themselves, which improves the quality of the assembly of the MPN and the stability of the adjustments of the on-board instruments and equipment.

Claims (2)

1. A method for assembling a payload module (MPM) of a spacecraft (SC), which consists in the sequential assembly of honeycomb panels on the central part of the SC using threaded connections, while the PLM consists of two support panels located in the XOZ plane and designed for installation and fixing on the central part of the spacecraft, two instrument panels located parallel to the XOY plane, which are installed and fixed on the support panels, and an astroplate panel located in the YOZ plane, which is installed and fixed on the support and instrument panels and on the central part of the spacecraft, characterized in that each of the instrument panels is mounted on the support panels using two guide pins with a smooth part, located in line along the X axis so that one of them with its smooth part forms a gap-free connection in the round hole of the dashboard and the smooth part of the stud in the support panel, and the second - in the smooth part of the stud of the support panel and in the groove of the dashboard panels with the possibility of its free movement relative to the support panel along the X axis, the astroplate panel is installed on each of the dashboards using two landing bolts with a smooth part, which are located in the same line along the Y axis so that one of them forms a gap-free connection with its smooth part in the round holes of the astroplate and the dashboard, and the second - in the round hole of the dashboard and in the groove of the astroplate with the possibility of free movement of the astroplate relative to the dashboard along the Y axis, gaps in the smooth parts of the mounting holes. 2. The method of assembling the MPN of the spacecraft according to claim 1, characterized in that the assembly of the MPN is carried out on the technological simulator of the central part of the spacecraft, after which the MPN is dismantled from the technological simulator, and then installed and fixed on the central part of the spacecraft.

Images