CN111147125A - Embedded cable network type satellite platform and implementation method thereof - Google Patents

Abstract

The invention discloses a pre-buried cable network type satellite platform and an implementation method thereof, which are used for improving the convenience of disassembly and assembly of the satellite platform. The embedded cable network type satellite platform comprises a single machine, a single machine device, a board-level data center device, a power supply and distribution management device and an entire satellite data management device, wherein the single machine device comprises an embedded cable and an embedded channel, the embedded cable comprises a power transmission cable and a communication cable, and the power transmission cable and the communication cable are respectively arranged in the corresponding embedded channel; every two single devices are connected; the single machine device is provided with an installation groove, the single machine is connected with the single machine device through the installation groove, and the single machine is connected with the single machine device through a pre-buried cable; the power supply and distribution management device is connected with the single machine through the embedded cable; the power supply and distribution management device is connected with the board-level data center device through a pre-buried cable; the board-level data center device is connected with the whole satellite data management device through a pre-buried cable.

Description

Embedded cable network type satellite platform and implementation method thereof

Technical Field

The invention relates to the technical field of satellites, in particular to a pre-buried cable network type satellite platform and an implementation method thereof.

Background

Satellite platforms (satellite platforms) are an assembly of satellite service (provisioning) systems that can support one or several payloads.

The main components of the satellite platform are structural components, stand-alone equipment and a cable network, and in the current development process, interfaces among the components can be confirmed before production, including installation mechanical interfaces of the stand-alone equipment and connector models of the stand-alone equipment, and each stand-alone equipment is often provided with a plurality of connector models.

Because each point of the cable network is connected with the plug-in unit, point-to-point connection is carried out in the satellite according to the regulations, and the internal space of the satellite is very tightly arranged, most of working hours in the process of assembling and disassembling the satellite are used for manually processing the cable network, so that the satellite is prevented from realizing modularization and assembly automation, and the satellite platform is further low in convenience in disassembling and assembling.

Disclosure of Invention

In view of this, the embodiment of the present invention provides an embedded cable network type satellite platform and an implementation method thereof, where cables are embedded in a single machine and a single machine device of the satellite platform, and the embedded cables connect various components of the satellite platform, so as to solve the problems of no modularization and no automation of assembly of the satellite platform, and improve the convenience of disassembly and assembly of the satellite platform.

The invention provides an embedded cable network type satellite platform, which comprises a single machine, a single machine device, a board level data center device, a power supply and distribution management device and an integrated satellite data management device, wherein,

the single-machine device comprises a pre-buried cable and a pre-buried channel, the pre-buried cable comprises a power transmission cable and a communication cable, and the power transmission cable and the communication cable are respectively arranged in the corresponding pre-buried channels;

every two single devices are connected;

the single machine device is provided with an installation groove, the single machine is connected with the single machine device through the installation groove, and the single machine is connected with the single machine device through the embedded cable;

the board-level data center device is used for realizing the control of the data interaction of the single machine in the single machine device;

the power supply and distribution management device is used for realizing power supply configuration of the embedded cable network type satellite platform;

the whole satellite data management device is used for realizing data transmission, data management and control and data operation of the embedded cable network type satellite platform;

the power supply and distribution management device is connected with the single machine through the embedded cable;

the power supply and distribution management device is connected with the board-level data center device through the embedded cable;

and the board-level data center device is connected with the whole satellite data management device through the embedded cable.

Further, the embedded cable network type satellite platform is characterized in that the stand-alone device comprises a power socket, a communication socket and an inter-board power socket, and the power socket is connected with the inter-board power socket through the power transmission cable;

the communication socket is connected with the communication cable;

the communication socket is connected with the board-level data center device through the communication cable;

the board-level data center device is connected with the power socket between the boards through the embedded cable.

Further, the embedded cable net type satellite platform is characterized in that the inter-board power socket and the inter-board power socket are connected in parallel through the power transmission cable.

Further, the embedded cable network type satellite platform is characterized in that the single machine device further comprises a storage battery pack, an inter-board connector and an on-off switch;

the storage battery pack is connected with the power supply and distribution management device through the power transmission cable;

the power supply and distribution management device is connected with the inter-board connector through the power transmission cable;

the inter-board connector is connected with the on-off switch through the power transmission cable;

the on-off switch is connected with the interplate power socket through the power transmission cable.

Further, the embedded cable network type satellite platform, wherein the whole satellite data management device is connected with the board-level data center device through the embedded cable and the inter-board connector.

Further, the embedded cable network type satellite platform is characterized in that every two single machines are connected through the embedded cable;

and the single machine is mechanically connected with the mounting groove.

Further, the embedded cable network type satellite platform, wherein the data transmission, data management and control and data operation of the embedded cable network type satellite platform include:

the whole satellite data management device realizes data interaction between the single computers in the single computer device through the board-level data center device;

the whole satellite data management device controls the power supply and distribution management device to control the power-on connection and the power-off connection between the single machine and the embedded cables through the board-level data center device.

The invention also provides an implementation method of the embedded cable network type satellite platform, wherein the implementation method of the embedded cable network type satellite platform comprises the following steps:

pre-embedding a preset pre-embedded cable in a cable pre-embedding channel in a preset single-machine device, and connecting the pre-embedded cable with a preset socket in the single-machine device to obtain a single-machine assembly;

installing a preset single machine on a first preset installation area in the single machine assembly, connecting a preset power supply and distribution management device with the single machine assembly through the embedded cable and a preset socket, and installing a preset board-level data center device on a second preset installation area in the single machine assembly to obtain a board-level assembly;

connecting the two board-level assemblies through the embedded cables and a preset socket to obtain an integral satellite assembly;

the pre-buried cable and the pre-set socket are used for connecting a pre-set whole satellite data management device with the whole satellite assembly, the whole satellite data management device is used for controlling the power supply and distribution management device to carry out electric energy configuration on the whole satellite assembly, and the whole satellite data management device is used for controlling the board level data center device to carry out data interaction management and control on the whole satellite assembly, so that a pre-buried cable type satellite platform is obtained.

Further, before the preset embedded cable is installed in a cable embedded channel of a preset stand-alone device and the embedded cable is connected with a preset socket in the stand-alone device to obtain a stand-alone assembly, the method for implementing the embedded cable network satellite platform further includes:

analyzing the structural composition information and the functional information of each module in the single machine, and setting the interface information of the single machine and the interface information of a preset single machine mounting plate according to the structural composition information and the functional information, wherein the interface information is used for indicating the specification of a power supply interface and the selection range of a communication interface;

analyzing and acquiring the layout information of the single machine on the single machine mounting plate according to the interface information of the single machine and the interface information of the single machine mounting plate, and setting the power supply line trend information and the data stream line trend information of the single machine mounting plate according to the layout information;

setting cable pre-buried channel information of the single-machine mounting plate based on the power supply line trend information and the data stream line trend information;

setting the socket position information of the single machine mounting plate according to the layout information, the power supply line trend information and the data stream line trend information;

and generating a combined diagram according to the interface information, the layout information, the power supply line trend information, the data stream line trend information and the socket position information, and performing layout and configuration processing on the single unit mounting plate through the combined diagram to obtain a single unit device.

Further, the analyzing the structural composition information and the functional information of each module in the single computer, and setting the interface information of the single computer and the interface information of a preset single computer installation board according to the structural composition information and the functional information includes:

acquiring structural composition information and functional information of each module in the single machine, and acquiring specification information of a platform bus and specification information of a load bus in the single machine;

analyzing the structural composition information and the functional information of each module, the specification information of the platform bus and the specification information of the load bus according to preset service requirements to obtain the mode and the size of electric energy supply, and the type, the communication content and the communication format of a communication interface;

and determining the interface information of the single machine and the interface information of a preset single machine mounting plate according to the mode and the size of the power supply, the type of the communication interface, the communication content and the communication format.

The invention provides an embedded cable network type satellite platform which comprises a single machine, a single machine device, a board-level data center device, a power supply and distribution management device and an entire satellite data management device, wherein the single machine device comprises an embedded cable and an embedded channel, the embedded cable comprises a power transmission cable and a communication cable, and the power transmission cable and the communication cable are respectively arranged in the corresponding embedded channels; every two single devices are connected; the single machine device is provided with an installation groove, the single machine is connected with the single machine device through the installation groove, and the single machine is connected with the single machine device through a pre-buried cable; the power supply and distribution management device is connected with the single machine through the embedded cable; the power supply and distribution management device is connected with the board-level data center device through a pre-buried cable; the board-level data center device is connected with the whole satellite data management device through a pre-buried cable. According to the embedded cable network type satellite platform provided by the embodiment of the invention, cables are embedded in the stand-alone devices and stand-alone devices of the satellite platform, and all parts of the satellite platform are connected through the embedded cables, so that the problems of no modularization and no assembly automation of the satellite platform are solved, and the convenience in disassembly and assembly of the satellite platform is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic diagram of an embodiment of a structure of a pre-buried cable network type satellite platform according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an embodiment of the single-machine apparatus according to the present invention;

FIG. 3 is a schematic diagram of an embodiment of a portion of the circuit connections for power supply of the power distribution management device in an embodiment of the present invention;

FIG. 4 is a schematic diagram of an embodiment of a part of circuit connections for data flow control in an embodiment of the present invention;

fig. 5 is a schematic diagram of an embodiment of a method for implementing a pre-buried cable network satellite platform in an embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

Referring to fig. 1 to 4, fig. 1 is a block diagram illustrating a buried cable network type satellite platform according to the present invention, fig. 2 is a block diagram illustrating a stand-alone device, fig. 3 is a partial circuit connection diagram illustrating power supply to a power distribution management device, and fig. 4 is a partial circuit connection diagram illustrating data flow control, and for convenience of description, only the parts related to the embodiment of the present invention are shown. The embedded cable network type satellite platform 10 comprises a stand-alone unit 11, a stand-alone unit 12, a board-level data center device 13, a power supply and distribution management device 14 and a whole satellite data management device 15.

The stand-alone device 12 includes a pre-buried cable 21 and a pre-buried channel (not shown in the figure), the pre-buried cable includes a power transmission cable 211 and a communication cable 212, and the power transmission cable 211 and the communication cable 212 are respectively disposed in the corresponding pre-buried channels. An isolation plate (not shown in the figure) is arranged on the pre-buried channel, and the transmission cable 211 and the communication cable 212 are isolated from other components on the isolation plate through the isolation plate so as to protect the transmission cable 211 and the communication cable 212 pre-buried in the pre-buried channel. The embedded cable is embedded in the embedded channel, so that the problems that the cable network needs to be laid, wired, fixed and detached when the single-machine device is assembled are solved.

Every two stand-alone devices 12 are connected to each other. Each two stand-alone devices 12 can be mechanically connected by a nut (not shown) and a tapered thread (not shown) or a straight thread (not shown) on the nut. Every two single-machine devices 12 can be connected through embedded cables. The mechanical connection mode through the screw thread and the connection mode of pre-buried cable are connected between every two single-machine devices 12, on one hand, be convenient for fix and assemble every two single-machine devices 12, on the other hand, be convenient for dismantle every two single-machine devices 12.

The single machine device 12 is provided with an installation groove 25, the single machine 11 is connected with the single machine device 12 through the installation groove 25, and the single machine 11 is connected with the single machine device 12 through the embedded cable 21. The single unit device 12 may be provided with a plurality of mounting grooves 25 for mounting the single units 11, respectively. The stand-alone devices 11 include, but are not limited to, power control stand-alone devices, communication stand-alone devices, and other stand-alone devices that implement the functions of the pre-buried cable network satellite platform 10.

And the board-level data center device 13 is used for realizing the management and control of data interaction of the single machine 11 in the single machine device 12. After the stand-alone device 11 is connected with the stand-alone device 12 in an electrifying and communication mode, the stand-alone device 11 interacts with other components of the embedded cable network type satellite platform 10 to generate a series of data, and the generated series of data is stored, analyzed and transmitted by the board-level data center device 13. The board-level data center device 13 may include algorithms and models, and implement control of data interaction of the single machines 11 in the single machine device 12 through the algorithms and models. The board-level data center device 13 manages and controls data interaction of the single machine 11, so that data interaction and reduced load are effectively performed.

The board-level data center device 13 is connected with the single computer 11 through embedded cables. The board-level data center device 13 can be fixed on the stand-alone device 12 by a mechanical connection, and the board-level data center device 13 can be connected with the stand-alone device 11 by connecting a power-on interface (not shown) of the board-level data center device 13 through a pre-buried cable connected with the stand-alone device 11. By fixing board-level data center apparatus 13 to stand-alone apparatus 12 and connecting it to stand-alone 11, the layout of cables of board-level data center apparatus 13 is facilitated, the layout length of cables of board-level data center apparatus 13 is reduced, and the efficiency of data interaction between board-level data center apparatus 13 and stand-alone 11 is improved.

And the power supply and distribution management device 14 is used for realizing the power supply configuration of the embedded cable network type satellite platform 10. The power supply and distribution management device 14 is used for power supply and distribution of each component of the embedded cable network type satellite platform 10. The power supply and distribution management device 14 may analyze the electric energy and the electric energy transmission mode of each component of the embedded cable network type satellite platform 10 through a preset distribution algorithm, and then control the on/off of each switch to perform corresponding electric energy transmission and provide corresponding electric energy for each component of the embedded cable network type satellite platform 10.

And the whole satellite data management device 15 is used for realizing data transmission, data management and control and data operation of the embedded cable network type satellite platform 10. The whole satellite data management device 15 manages and controls data transmission, data management and control and data operation of each component of the whole embedded cable network type satellite platform 10 alone or among the components, so that the operation condition of the embedded cable network type satellite platform 10 is conveniently monitored. The whole satellite data management device 15 can be preset with a corresponding deep neural network model and a monitoring tool, and the operation of the embedded cable network type satellite platform 10 can be effectively monitored and operated through the intelligence of the deep neural network model and the monitoring tool.

The power supply and distribution management device 14 is connected to the stand-alone unit 11 via a buried cable 21. The power supply and distribution management device 14 is connected to the single unit 11, thereby realizing the management and control of the power supply and distribution management device 14 on the power supply of the single unit 11.

The power supply and distribution management device 14 is connected to the board-level data center device 13 through a buried cable 21. The control of the power supply and distribution management device 14 by the board-level data center device 13 is realized by connecting the power supply and distribution management device 14 with the board-level data center device 13.

The board-level data center device 13 is connected with the whole satellite data management device 15 through a pre-buried cable 21. The whole star data management device 15 controls data interaction of the connection board level data center device 13 through the connection board level data center device 13 and the whole star data management device 15.

The power supply and distribution management device 14 and the whole satellite data management device 15 are connected to the single device 12 through embedded cables. The power supply and distribution management device 14 can be fixed on the single-machine device 12 in a mechanical connection mode, the power supply and distribution management device 14 and the single-machine device 12 are connected through the embedded cable on the single-machine device 12, and the whole satellite data management device 15 is connected through the embedded cable, so that the power supply and distribution management device 14 and the whole satellite data management device 15 are connected. The whole satellite data management device 15 is connected with the single-machine device 12 through the power supply and distribution management device 14 and the whole satellite data management device 15 respectively, so that the whole satellite data management device 15 controls the power supply and distribution management device 14, the single-machine device 12 is controlled through the power supply and distribution management device 14, assembly and disassembly among the single-machine device 12, the power supply and distribution management device 14 and the whole satellite data management device 15 are facilitated, and modularization and assembly automation of the embedded cable network type satellite platform 10 are achieved.

Further, the stand-alone device 12 includes a power socket 22, a communication socket 23, and an inter-board power socket 24, and the power socket 22 is connected to the inter-board power socket 24 through a power transmission cable 211; the communication jack 23 is connected with a communication cable 212; the communication socket 23 is connected with the board-level data center device 13 through a communication cable 212; the board-level data center device 13 is connected with an inter-board power socket 24 through a pre-buried cable 21. The power socket, the communication socket, the board-level data center device and the power socket between boards are connected with the embedded cable and the socket in a mode, so that modularization and assembly automation of the embedded cable network type satellite platform are achieved, and the cable network is prevented from being laid, wired, fixed and detached when the embedded cable network type satellite platform is disassembled and assembled.

Further, the interplate power outlets 24 and the interplate power outlets 24 are connected in parallel by power transmission cables 211. The circuit connection mode between the power sockets 24 between the boards is a parallel connection mode, which is not interfered with each other, and the assembly and disassembly of the parts corresponding to the power sockets 24 between the boards are convenient and rapid.

Further, the stand-alone device 12 further includes a battery pack 31, a board-to-board connector 32, and an on-off switch 33, the battery pack 31 is connected to the power supply and distribution management device 14 through a power transmission cable 211, the power supply and distribution management device 14 is connected to the board-to-board connector 32 through the power transmission cable 211, the board-to-board connector 32 is connected to the on-off switch 33 through the power transmission cable 211, and the on-off switch 33 is connected to the board-to-board power outlet 24 through the power transmission cable 211. Through the circuit connection of this power supply and distribution management device electric energy supply to realize the net type of buried cable and connect, connect through buried cable and socket in advance, solve the problem that satellite platform does not have modularization and does not have the automatic of assembly, improve the convenience that satellite platform dismantled and assembled.

Further, the whole star data management device 15 is connected to the board-level data center device 13 through the embedded cable 21 and the board-to-board connector 32. The modularization and the assembly automation of the satellite platform are realized, and the convenience of the disassembly and the assembly of the satellite platform is improved.

Furthermore, every two single machines 11 are connected through the embedded cables 21, and the single machines 11 are mechanically connected with the installation grooves 25. The single machine 11 is installed on the installation groove 25, a fixing frame (not shown in the figure) and a fixing piece (not shown in the figure) can be arranged at the edge of the installation groove 25, corresponding nut holes (not shown in the figure) are formed in the fixing frame and the fixing piece, threads are arranged on the nut holes, the bottom side face of the single machine 11 is tightly connected with the bottom side face of the installation groove 25, the upper side face of the single machine 11 is tightly connected with the bottom side face of the fixing piece, and the fixing piece is connected with the fixing frame through the threads. By installing the single unit 11 in the corresponding installation groove 25, the assembly of the embedded cable and the modularization of the embedded cable network type satellite platform are facilitated. Through mount and stationary blade, be convenient for install and dismantle.

Further, the whole satellite data management device 15 realizes data interaction between the single machines 11 in the single machine device through the board-level data center device 13, and the whole satellite data management device 15 controls the power supply and distribution management device 14 to control power-on connection and power-off connection between the single machines 11 and the embedded cable 21 through the board-level data center device 13. The whole satellite data management device 15 is connected with the board-to-board connector 32, the board-to-board connector 32 is connected with the board-level data center device 13, the board-level data center device 13 is connected with the single machine 11, and the single machine 11 is connected with the single machine switch 41, so that modularization of the embedded cable network type satellite platform is achieved, and disassembly and assembly are facilitated.

In the embodiment of the invention, the cables are embedded in the stand-alone units and stand-alone units of the satellite platform, and all parts of the satellite platform are connected through the embedded cables, so that the problems of no modularization and no assembly automation of the satellite platform are solved, and the convenience of disassembling and assembling the satellite platform is improved.

The invention also provides a method for realizing the embedded cable network type satellite platform, and as shown in fig. 5, the method for embedding the embedded cable network type satellite platform comprises the following steps:

s101, pre-embedding a pre-embedded cable in a cable pre-embedding channel in a pre-arranged single-machine device, and connecting the pre-embedded cable with a pre-arranged socket in the single-machine device to obtain a single-machine assembly;

the method comprises the steps of controlling a preset mechanical device through a preset process and a preset algorithm, embedding an embedded cable in a cable embedded channel of a preset single-machine device according to a preset single-machine device circuit layout diagram, and connecting the embedded cable with a metal sheet or a key part on a preset socket in the single-machine device to obtain a single-machine assembly. The preset mechanical device can be a circuit layout robot and is used for intelligently and automatically pre-burying the cable.

S102, installing a preset single machine on a first preset installation area in a single machine assembly, connecting a preset power supply and distribution management device with the single machine assembly through a pre-buried cable and a preset socket, and installing a preset board-level data center device on a second preset installation area in the single machine assembly to obtain a board-level assembly;

the single machines include, but are not limited to, a power control single machine, a communication single machine, and other single machines that implement the functions of the embedded cable network type satellite platform 10. The method comprises the steps of obtaining a first preset installation area of a single machine correspondingly installed by a single machine assembly, a second preset installation area of a board-level data center device installed in the single machine assembly, structural information of the single machine assembly and structural information of the single machine, setting a corresponding operation process according to the first preset installation area, the second preset installation area, the structural information of the single machine assembly and the structural information of the single machine, starting a preset intelligent robot through the operation process, installing the preset single machine on the first preset installation area in the single machine assembly, connecting the preset power supply and distribution management device with the single machine assembly through an embedded cable and a preset socket, and installing the preset board-level data center device on the second preset installation area in the single machine assembly to obtain the board-level assembly. The board-level assembly can also be obtained by manually and directly installing a preset single machine on a first preset installation area in the single machine assembly, connecting a preset power supply and distribution management device with the single machine assembly through a preset socket, and installing a preset board-level data center device on a second preset installation area in the single machine assembly. The modularization of the embedded cable network type satellite platform is realized through the board-level assembly, so that the embedded cable network type satellite platform is convenient to disassemble and assemble.

S103, connecting the two board-level assemblies through the embedded cables and the preset socket to obtain a whole-satellite assembly;

and connecting the embedded cable between the two board-level assemblies with a preset socket through a preset mechanical device so as to connect the two board-level assemblies and further obtain the whole satellite assembly. After the two board-level assemblies are connected through the embedded cables and the preset socket, the mechanical interfaces on the two board-level assemblies can be connected in a threaded connection mode through the preset mechanical device, and therefore the two board-level assemblies are fixed through the preset mechanical device, and the two board-level assemblies are convenient to disassemble and assemble.

And S104, connecting a preset whole satellite data management device with the whole satellite assembly through the embedded cable and a preset socket, controlling the power supply and distribution management device to carry out electric energy configuration on the whole satellite assembly through the whole satellite data management device, and controlling the board-level data center device to carry out data interaction control on the whole satellite assembly through the whole satellite data management device to obtain the embedded cable type satellite platform.

The satellite data management device can be in communication connection with the whole satellite data management device through a HyperText Transfer Protocol (HTTP), a wireless network or a local area network. The whole star data management device can be called through a preset algorithm or a model to carry out data interaction management and control operation. Through pre-buried cable type satellite platform, solve the problem that satellite platform does not have modularization and does not have the automation of assembly, improve the convenience that satellite platform dismantled and assembled.

Further, before step S101, the method for implementing the embedded cable network type satellite platform further includes: analyzing the structural composition information and the functional information of each module in the single machine, and setting the interface information of the single machine and the interface information of a preset single machine mounting plate according to the structural composition information and the functional information, wherein the interface information is used for indicating the specification of a power supply interface and the selection range of a communication interface; analyzing and acquiring layout information of the single machine on the single machine mounting plate according to the interface information of the single machine and the interface information of the single machine mounting plate, and setting power supply line trend information and data stream line trend information of the single machine mounting plate according to the layout information; setting cable pre-buried channel information of the single-machine mounting plate based on power supply line trend information and data stream line trend information; setting socket position information of the single machine mounting plate according to the layout information, the power supply line trend information and the data stream line trend information; and generating a combined diagram according to the interface information, the layout information, the power supply line trend information, the data stream line trend information and the socket position information, and performing layout and configuration processing on the single unit mounting plate through the combined diagram to obtain the single unit device.

Through the operation of obtaining the unit device, the cable of the unit device in the embedded cable type satellite platform is embedded, and all parts in the embedded cable type satellite platform are connected through the embedded cable (the socket connected with the embedded cable), so that modularization and assembly automation of the embedded cable type satellite platform are realized, and convenience in disassembly and assembly of the satellite platform is improved.

Further, the analyzing the structural composition information and the functional information of each module in the single computer, and setting the interface information of the single computer and the interface information of the preset single computer installation board according to the structural composition information and the functional information may specifically include: acquiring structural composition information and functional information of each module in the single machine, and acquiring specification information of a platform bus and specification information of a load bus in the single machine; analyzing the structural composition information and the functional information of each module, the specification information of the platform bus and the specification information of the load bus according to the preset service requirement to obtain the mode and the size of the electric energy supply, the type, the communication content and the communication format of a communication interface; and determining the interface information of the single machine and the interface information of the preset single machine mounting plate according to the mode and the size of supplying the electric energy, the type of the communication interface, the communication content and the communication format.

For example: the power supply control single machine consists of a full regulating bus, a load bus, a platform discharging regulating module, a platform filtering module, a platform charging shunt module, a remote measuring and remote controlling module, a tr charging controlling module, a balance managing module and a lower machine managing module, and the function information and the specification information of the full regulating bus, the load bus, the platform discharging regulating module, the platform filtering module, the platform charging shunt module, the remote measuring and remote controlling module, the tr charging controlling module, the balance managing module and the lower machine managing module are analyzed and counted according to preset service requirements (the preset service requirements can be the operation market of the embedded cable network type satellite platform and the receiving requirements of data) through a preset machine learning algorithm and a statistical algorithm to obtain the interface information of the single machine, which is determined by the mode and the size of providing electric energy, the type of a communication interface, the communication content and the communication format, and determining the interface information of the single machine and the interface information of the preset single machine mounting plate by determining the interface information of the single machine according to the mode and the size of the power supply, the type of the communication interface, the communication content and the communication format.

Through the operation of setting interface information, borrow information is accurately obtained and set, so that the single machine device is accurately and conveniently connected with other parts in the embedded cable network type satellite platform, and further the modularization of the embedded cable network type satellite platform and the assembly automation among the parts are effectively realized.

In summary, compared with the prior art, in the embodiment of the invention, the cables are embedded in the single machine and the single machine device of the satellite platform, and all parts of the satellite platform are connected through the embedded cables, so that the problems of no modularization and no assembly automation of the satellite platform are solved, and the convenience of disassembling and assembling the satellite platform is improved.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. An embedded cable network type satellite platform is characterized by comprising a single machine, a single machine device, a board level data center device, a power supply and distribution management device and an integrated satellite data management device,

the single-machine device comprises a pre-buried cable and a pre-buried channel, the pre-buried cable comprises a power transmission cable and a communication cable, and the power transmission cable and the communication cable are respectively arranged in the corresponding pre-buried channels;

every two single devices are connected;

the single machine device is provided with an installation groove, the single machine is connected with the single machine device through the installation groove, and the single machine is connected with the single machine device through the embedded cable;

the board-level data center device is used for realizing the control of the data interaction of the single machine in the single machine device;

the power supply and distribution management device is used for realizing power supply configuration of the embedded cable network type satellite platform;

the whole satellite data management device is used for realizing data transmission, data management and control and data operation of the embedded cable network type satellite platform;

the power supply and distribution management device is connected with the single machine through the embedded cable;

the power supply and distribution management device is connected with the board-level data center device through the embedded cable;

and the board-level data center device is connected with the whole satellite data management device through the embedded cable.

2. The pre-buried cable mesh satellite platform of claim 1,

the single-machine device comprises a power socket, a communication socket and an inter-board power socket, and the power socket is connected with the inter-board power socket through the power transmission cable;

the communication socket is connected with the communication cable;

the communication socket is connected with the board-level data center device through the communication cable;

the board-level data center device is connected with the power socket between the boards through the embedded cable.

3. The pre-buried cable mesh satellite platform of claim 2,

the power socket between boards and the power socket between boards are connected in parallel through the power transmission cable.

4. The pre-buried cable mesh satellite platform of claim 3,

the single machine device also comprises a storage battery pack, an inter-board connector and an on-off switch;

the storage battery pack is connected with the power supply and distribution management device through the power transmission cable;

the power supply and distribution management device is connected with the inter-board connector through the power transmission cable;

the inter-board connector is connected with the on-off switch through the power transmission cable;

the on-off switch is connected with the interplate power socket through the power transmission cable.

5. The pre-buried cable mesh satellite platform of claim 4, wherein the whole satellite data management device is connected to the board level data center device through the pre-buried cable and the inter-board connector.

6. The pre-buried cable network type satellite platform according to claim 1, wherein every two single machines are connected through the pre-buried cable;

and the single machine is mechanically connected with the mounting groove.

7. The pre-buried cable mesh satellite platform of claim 1, wherein data transmission, data management and data manipulation of the pre-buried cable mesh satellite platform comprises:

the whole satellite data management device realizes data interaction between the single computers in the single computer device through the board-level data center device;

the whole satellite data management device controls the power supply and distribution management device to control the power-on connection and the power-off connection between the single machine and the embedded cables through the board-level data center device.

8. A method for realizing an embedded cable network type satellite platform is characterized in that the method for embedding the embedded cable network type satellite platform comprises the following steps:

pre-embedding a preset pre-embedded cable in a cable pre-embedding channel in a preset single-machine device, and connecting the pre-embedded cable with a preset socket in the single-machine device to obtain a single-machine assembly;

installing a preset single machine on a first preset installation area in the single machine assembly, connecting a preset power supply and distribution management device with the single machine assembly through the embedded cable and a preset socket, and installing a preset board-level data center device on a second preset installation area in the single machine assembly to obtain a board-level assembly;

connecting the two board-level assemblies through the embedded cables and a preset socket to obtain an integral satellite assembly;

the pre-buried cable and the pre-set socket are used for connecting a pre-set whole satellite data management device with the whole satellite assembly, the whole satellite data management device is used for controlling the power supply and distribution management device to carry out electric energy configuration on the whole satellite assembly, and the whole satellite data management device is used for controlling the board level data center device to carry out data interaction management and control on the whole satellite assembly, so that a pre-buried cable type satellite platform is obtained.

9. The method of claim 8, wherein the method further comprises, before installing the pre-buried cable in a cable pre-buried channel of a pre-installed stand-alone device and connecting the pre-buried cable to a pre-socket of the stand-alone device to obtain a stand-alone assembly, the method further comprising:

analyzing the structural composition information and the functional information of each module in the single machine, and setting the interface information of the single machine and the interface information of a preset single machine mounting plate according to the structural composition information and the functional information, wherein the interface information is used for indicating the specification of a power supply interface and the selection range of a communication interface;

analyzing and acquiring the layout information of the single machine on the single machine mounting plate according to the interface information of the single machine and the interface information of the single machine mounting plate, and setting the power supply line trend information and the data stream line trend information of the single machine mounting plate according to the layout information;

setting cable pre-buried channel information of the single-machine mounting plate based on the power supply line trend information and the data stream line trend information;

setting the socket position information of the single machine mounting plate according to the layout information, the power supply line trend information and the data stream line trend information;

and generating a combined diagram according to the interface information, the layout information, the power supply line trend information, the data stream line trend information and the socket position information, and performing layout and configuration processing on the single unit mounting plate through the combined diagram to obtain a single unit device.

10. The method for implementing the pre-buried cable network type satellite platform according to claim 9, wherein the analyzing structural composition information and functional information of each module in the single computer, and setting the interface information of the single computer and the interface information of a preset single computer installation plate according to the structural composition information and the functional information comprises:

acquiring structural composition information and functional information of each module in the single machine, and acquiring specification information of a platform bus and specification information of a load bus in the single machine;

analyzing the structural composition information and the functional information of each module, the specification information of the platform bus and the specification information of the load bus according to preset service requirements to obtain the mode and the size of electric energy supply, and the type, the communication content and the communication format of a communication interface;

and determining the interface information of the single machine and the interface information of a preset single machine mounting plate according to the mode and the size of the power supply, the type of the communication interface, the communication content and the communication format.

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