Fluid circuit control device suitable of nano-satellite hot control system

A technology of thermal control system and fluid circuit, which can be applied to devices for controlling the living conditions of spacecraft, temperature control without auxiliary power supply, etc. Uncontrollable and other problems, to achieve the effect of improving heat exchange efficiency, low thermal resistance, and small size

Inactive Publication Date: 2009-08-19
BEIHANG UNIV
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Problems solved by technology

[0005] The traditional nano-satellite thermal control system is mainly passive, and the heat transfer in the whole process is uncontrollable. When the temperature environment of each subsystem of the nano-satellite drops, it ...

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  • Fluid circuit control device suitable of nano-satellite hot control system
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Embodiment Construction

[0027] The present invention will be further described in detail below in conjunction with the accompanying drawings.

[0028] A fluid circuit control device suitable for a nano-satellite thermal control system of the present invention, the attitude control subsystem 12, the communication subsystem 13, the calculation subsystem 14 and the payload 15 in the nano-satellite form a nano-satellite thermal control system, The fluid circuit control device includes a heat collection module 51 , a fluid circuit driving module 52 , a thermo-electric conversion module 53 and a bypass flow control module 54 .

[0029] (1) heat collection module 51

[0030]The heat collection module 51 is used to collect the waste heat generated during the work of the attitude control subsystem 12, the communication subsystem 13, the computing subsystem 14 and the payload 15. For the collection of waste heat, the present invention adopts the micro-channel heat exchanger and pipeline combination mode , thr...

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Abstract

The invention discloses a fluid loop control device applicable to a nano-satellite thermal control system, which comprises a heat collecting module, a fluid loop driving module, a heat-electricity converting module, and a bypass flow control module. In the fluid loop control device, a micro-channel heat exchange technique combining with a heat-electricity converting technique is adopted so that the fluid loop of a nano-satellite heat control system forms forced convection heat exchange. In tthe fluid loop control device, an initiative heat control mode including major loop self-driving and bypass auxiliary control is adopted, wherein with the initiative heat control mode, the waste heat of the nano-satellite is converted into electric energy to drive the fluid loop to perform the forced convection heat exchange so as to achieve the closed loop control of the heat control system, reduce the electric energy consumption of the nano-satellite, and achieve the temperature control inside the nano-satellite. The fluid loop control device is that micro-channel heat exchangers are arranged on a satellite borne device of the prior nano-satellite and then two ends of each micro-channel heat exchanger are connected with a conduct respectively to form a forced convection fluid loop which can reuse the heat generated in the working process of the satellite borne device, thus the energy of the nano-satellite is saved, and a condition for the nano-satellite to work for a long period is provided.

Description

technical field [0001] The invention relates to a nano-satellite thermal control device. More specifically, it refers to a fluid circuit control device based on main-circuit self-driving and bypass auxiliary control. Background technique [0002] Nano-satellites refer to micro-satellites with a mass between 1Kg and 10Kg. Due to the design concept and manufacturing process of large-scale integrated circuits, nano-satellites have the advantages of small size, light weight, and low manufacturing and launch costs. , Geological exploration, environmental and disaster monitoring, transportation, meteorological services, scientific experiments, deep space exploration and other aspects have a wide range of applications. [0003] The electrical energy required by nano-satellites is usually converted from solar energy absorbed by solar panels. On the one hand, the service time of nano-satellites in space should also consider the loss of electrical energy. However, due to the small ...

Claims

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Application Information

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IPC IPC(8): B64G1/50G05D23/01
Inventor 李运泽刘东晓王玉莹刘佳李运华王浚
Owner BEIHANG UNIV
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