RU2622304C2 - Platform power structure of the spacecraft - Google Patents

Abstract

FIELD: aviation.

SUBSTANCE: power structure of the spacecraft platform is the carbon-plastic mesh structure in the form of the cylindrical tube, installed by one of its bases inside the rectangular parallelepiped coaxially with its axis. The parallelepiped consists of the panel-base and the top panel, connected to the cylindrical tube by means of the corners, and between each other by the support panels.

EFFECT: invention allows to achieve the structure unification, high strength characteristics, reducing of the platform weight, implementation of this technical solution allows to provide simultaneous launch of several devices.

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Description

The invention relates to the design and layout of space technology products or, more precisely, to the power structure of the platform included in the unified platform of the spacecraft, and can be used to create spacecraft for various purposes.

Currently, the space industry needs to create unified unified platforms for spacecraft of various sizes, as well as for various purposes. The creation of such platforms can reduce the cost of the development and manufacture of spacecraft, and also affects its final cost. Reducing the time spent on the production of a spacecraft based on a unified platform gives a high effective, economic, scientific and practical effect of production, which is beneficial not only for the customer of the spacecraft, but also for the manufacturer.

If the interfaces of any means of withdrawal do not allow providing a unified interface of the platform, the corresponding transition elements can be developed as part of it, coordinated for use in the prescribed manner and ensuring the docking of the platform with the required carrier.

A known design of the platform, consisting of a frame in the form of a parallelepiped, with side, upper and lower panels mounted on it. Inside the platform structure, the frame space is divided by an intermediate panel into the utility system compartment and the payload compartment (see, for example, RU 2376212). A common feature between the power structure described in this invention and the claimed power structure is the presence of side panels. This invention is taken as a prototype due to the fact that other analogues with a large number of common features were not found.

The prototype space platform consists of a frame made in the form of a parallelepiped, with panels mounted on the frame. The side panels have a swivel mechanism on the hinges. The side panels included in the platform structure are detachable, with the connector lines running along the intermediate panel. The intraframe space is divided by an intermediate panel located between the lower and upper panels and mounted on the frame, respectively, to the office system compartment and the payload compartment.

The disadvantages of this layout of the space platform are:

- the geometric shape of the power structure does not give a uniform perception of the load on the power structure of the platform, in contrast to the cylindrical shape;

- the geometric shape of the power structure of the prototype spacecraft is less convenient, in terms of power loads on the device, at the stage of the process of putting it into orbit as part of a group launch;

- the design is not unified, which reduces production efficiency in the further development and manufacture of spacecraft with changed dimensions and functional purpose.

The task of the invention is to improve the power structure in terms of the influence of power loads on the spacecraft and the unification of the power structure.

The problem in the proposed device is solved due to the fact that the power structure of the platform of the spacecraft contains side panels, the body of the power structure is a carbon fiber mesh structure in the form of a cylindrical pipe mounted one of its bases inside a rectangular parallelepiped coaxially with its axis; the parallelepiped consists of a base panel and a top panel located in the YOZ plane, connected to the mesh structure by means of angles, and between each other - supporting panels that are in the XOZ and XOY planes and are fixed to each other by means of brackets; along the edge of the base panel and the upper panel in the XOY plane there are dashboards and panels of the radiator AB (batteries), which are connected to the support panels by brackets; inside the cylindrical pipe, a panel block is used to mount the fuel tanks.

The proposed device is illustrated by drawings, which show:

- in FIG. 1 - the location of the panels of the power structure of the platform;

- in FIG. 2 is a general view of the platform structure;

- in FIG. 3 - fixing the honeycomb panels to each other with brackets;

- in FIG. 4 - fixing the honeycomb panels to the corners and corners to the power structure of the module (central pipe 1) by means of corners made of carbon fiber.

The power structure of the spacecraft platform (Fig. 2) consists of a central pipe 1 of a cylindrical shape installed by one of its bases inside a rectangular parallelepiped coaxially with its axis; wherein the box consists of a base panel and a top panel.

The base panel 2 and the upper panel 5 are placed in the YOZ planes and connected to the cylindrical pipe 1 by means of angles (Fig. 4) mounted on it.

The base panel 2 and the upper panel 5 are interconnected by supporting panels 3, 4, which are located in the XOZ and XOY planes and are interconnected by brackets (Fig. 3) made of aluminum or carbon fiber

Along the edge of the base panel 2 and the upper panel 5 are placed in the XOY plane instrument panels 7 and radiator panels AB (batteries) 6, which are connected to the support panels 3 and 4 by brackets (Fig. 3).

Inside the cylindrical pipe 1, a horizontal block of panels 8 is installed, which is used to fasten the fuel tanks of the correction system. The honeycomb panels used in the power structure of the platform are made in the form of sandwiches with aluminum or coal cladding and an aluminum honeycomb with installed structural instrument mortgages. The platform design is capable of withstanding all direct and cumulative combinations of static and dynamic loads that occur during tests, ground operations, transportation, launching of the spacecraft and orbital maneuvers. A general view of the structure is shown in (Fig. 1).

The assembly of the power structure of the platform is carried out sequentially. At the initial stage of the assembly, the honeycomb panel-base 2, lying in the YOZ plane, is connected to the cylindrical pipe 1 using brackets located on it.

Next is the sequential installation on the base panel 2 of the support panels 3 in the corners (Fig. 3) and brackets (Fig. 4) installed for mounting the panels along the contour of the pipe 1 and on the surface of the base panel 2, respectively. The number of installed panels, brackets, corners and their location is regulated by the technical requirements for the design.

The next step is the installation of the upper panel 5, lying in the YOZ plane, to the pipe 1 and the supporting panels 3. Then, the supporting panels 4 are mounted on the base panel 2 and to the upper panel 5. The functional purpose of the panels 4 is to ensure rigidity of the platform structure. The installation of the support panels 4 is carried out on the corner sections along the edge of the base panel 2 using the brackets pre-installed on this panel. Next, they perform machining (in order to obtain the specified parameters of the fastening elements) of the products: base panels 2, support panels 3, 4, and top panel 5. Next, install the dashboards 7 located in the XOY plane along the edge of the base panel 2, and fix their brackets with support panels 3 located in the XOZ and XOY planes. The radiator panels AB (batteries) 6, located in the XOY plane, are connected along the edge with the support panels 3 and 4 with brackets pre-installed on these panels, according to the technical requirements for the design.

At the final stage of assembly, the panel block 8 is installed in the inner part of the pipe 1 of the power structure of the platform. The block of panels 8 is attached to the Central pipe 1 by brackets. The installation of the block of panels 8 is carried out along the inner contour of the central pipe 1. The design of the block of panels 8 is strengthened with the help of the internal support panel included in the general structure of the panel of panels 8, this support panel is mounted to the pipe 1 using brackets. Next, reinforce the fastening of the panel block 8 to ensure its strength characteristics, when used in the process of further operation as a panel of the structural module of the fuel tanks.

The final result of the assembly is the power structure of the platform (Fig. 1).

During the technological operation of assembling the power structure of the spacecraft, the panels and other structural elements are interconnected using brackets and angles made of either aluminum or carbon fiber, the connection diagram of a cylindrical pipe and panels by angles is shown in FIG. 3, the connection of the panels to each other with brackets is shown in FIG. 4. In the process of assembling the final structural parts, unified fasteners are used, which simplifies and accelerates the assembly process, which leads to a reduction in the manufacturing time of the spacecraft.

For the installation of the structure, the following technical and technological conditions for the connection of structural elements have been fulfilled, in accordance with the requirements for the power structure of the platform.

- vertical honeycomb panels are attached to the central pipe 1 by means of corners;

- the step of fastening the panels to the corners and corners to the Central pipe 1 is determined based on ensuring the strength of the structure;

- the step of attaching the honeycomb panels of the housing to each other is determined based on the value of the structural strength.

Thus, the proposed power structure of the platform of the spacecraft allows to achieve unification of the structure, high strength characteristics, and also allows to reduce the weight of the platform through the use of elements made of modern high-tech materials.

In addition, the implementation of this technical solution (the implementation of spacecraft on the basis of this power structure) allows the simultaneous launch of several vehicles, while placing them on the same axis of symmetry passing through a cylindrical pipe, contributes to the uniform distribution of power loads on the platform of the spacecraft and vehicles in whole.

Claims (1)

The power structure of the platform of the spacecraft, containing side panels, characterized in that the body of the power structure is a carbon fiber mesh structure in the form of a cylindrical tube mounted one of its bases inside a rectangular parallelepiped coaxially with its axis; wherein the parallelepiped consists of a base panel and a top panel located in the YOZ plane, connected to the cylindrical pipe by means of angles, and between each other - supporting panels that are in the XOZ and XOY planes and are fixed to each other using brackets; along the edge of the base plate and the upper panel in the XOY plane are the dashboards and radiator panels of the batteries, which are connected to the support panels by brackets; inside the cylindrical pipe, a panel block is used to mount the fuel tanks.

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