RU2014110080A - SPACE PLATFORM - Google Patents

Abstract

1. A space platform containing a module of service systems (MSS) in the form of a rectangular parallelepiped, docking nodes with a separation system, a propulsion system, solar panels, characterized in that the space platform is a spatial structure, and the structural and power basis of the space platform is a cylindrical compartment (power structure of the case), made in the form of a mesh structure of high-modulus carbon fiber reinforced plastic, with honeycomb panels mounted on it, connected between battle with brackets, inside the cylindrical compartment, storage tanks for the working fluid for the propulsion system (DU) of the correction system (SC) and storage tanks of the working fluid for the DU of the orientation and stabilization system (SOS) are installed, the internal volume of the MCC housing, the top panel and the vertical panel are reserved for placement instruments of subsystems, the multipurpose space platform includes folding solar panels (SB), the solar battery drive is designed to orient the normal of the active surface of SB panels in the sun, installation of a correction system (SC) based on stationary xenon plasma engines mounted on titanium brackets with rod vectors of correction blocks passing through the actual center of mass of the spacecraft (SC) to ensure the rod vectors through the actual center of mass correction blocks are mounted on titanium brackets with the ability to move in the same plane and rotate around the axis, as an executive body to create control moments relative to the axes associated with the spacecraft system

Claims (4)

1. A space platform containing a module of service systems (MSS) in the form of a rectangular parallelepiped, docking nodes with a separation system, a propulsion system, solar panels, characterized in that the space platform is a spatial structure, and the structural and power basis of the space platform is a cylindrical compartment (power structure of the case), made in the form of a mesh structure of high-modulus carbon fiber reinforced plastic, with honeycomb panels mounted on it, connected between battle with brackets, inside the cylindrical compartment, storage tanks for the working fluid for the propulsion system (DU) of the correction system (SC) and storage tanks of the working fluid for the DU of the orientation and stabilization system (SOS) are installed, the internal volume of the MCC housing, the top panel and the vertical panel are reserved for placement instruments of subsystems, the multipurpose space platform includes folding solar panels (SB), the solar battery drive is designed to orient the normal of the active surface of SB panels in the sun, installation of a correction system (SC) based on stationary xenon plasma engines mounted on titanium brackets with rod vectors of correction blocks passing through the actual center of mass of the spacecraft (SC) to ensure the rod vectors through the actual center of mass correction blocks are mounted on titanium brackets with the ability to move in the same plane and rotate around the axis, as an executive body to create control moments relative to the axes associated with the spacecraft system Coordinate systems are used with the SOS propulsion system, the orientation motor blocks are located on the radiator panels, in the interface zone with the upper panel and in the center of the power structure of the hull (CCM) from the side of the docking with the launch vehicle, at a distance from the center of mass of the spacecraft based on the claimed platform, providing maximum shoulders of control moments, the installation of spacecraft on the basis of this space platform on a launch vehicle during the implementation of group and associated launches is carried out using the separation device, Formation of lower frames CCM to provide temperature control equipment consisting of a platform exists thermal control system, the main application of the basic solution is a liquid completely redundant circuit CTP and passive control means. 2. The space platform according to claim 1, characterized in that the number of tanks can vary depending on the mission of the spacecraft built on the basis of this platform. 3. The space platform according to claim 1, characterized in that the number of vertical panels may be more than one, if it is necessary to more fully use the layout space. 4. The space platform according to claim 1, characterized in that a part of the propulsion system of the correction system is installed on the payload module.