KR101299381B1 - Efficiency test apparatus of satelite - Google Patents

Abstract

Disclosed is a performance test apparatus for a satellite body for testing the performance of the satellite body. The apparatus for testing performance of a satellite according to the present invention includes a test unit for providing a performance test environment for a satellite, a supply unit for supplying a temperature regulator for controlling a temperature of the test unit, and a supply unit It includes a dehumidification unit for controlling the humidity of the test unit with a temperature regulator. This configuration can be expected to improve the economic efficiency and test efficiency by the need for a separate refrigeration means.

Description

Satellite performance tester {EFFICIENCY TEST APPARATUS OF SATELITE}

The present invention relates to a performance testing apparatus for a satellite, and more particularly, to a performance testing apparatus for a satellite capable of controlling humidity with a temperature controller provided for testing the performance of the satellite.

In the case of satellites in general, performance tests on satellites are carried out on the ground as they perform their tasks in extreme hot and cold environments. Performance tests of these satellites create a temperature environment of approximately -70 ° C. to 100 ° C. to perform the performance of components such as solar panels of the satellite body in low and high temperature environments.

On the other hand, in order to test the performance of the satellite body as described above, a dehumidification apparatus for preventing the damage of the satellite body by the moisture present in the interior of the performance test apparatus of the satellite body is essential. By the way, the dehumidifier generally has a problem that the efficiency is lowered as well as additional costs generated by using a refrigeration means installed separately in the performance test apparatus of the satellite body.

The present invention is to improve the problems as described above, the performance test apparatus of the satellite body that can improve the satellite performance test efficiency is disclosed.

The performance test apparatus of the satellite body according to the present invention for achieving the above object, the test unit for testing the performance of the satellite body, providing a performance test environment for the satellite body, a temperature regulator for controlling the temperature of the test unit It includes a supply unit for supplying the test unit, and a dehumidification unit for controlling the humidity of the test unit with a temperature regulator supplied from the supply unit.

According to one side, the test body comprises liquid nitrogen.

According to one side, the dehumidification unit, the dehumidification unit includes a dehumidification plate in which a flow path is formed, the dehumidification plate is formed of at least one material of aluminum or copper.

According to one side, the dehumidification unit is installed inside the test unit, and includes a dehumidification plate in which a flow path of the temperature control body is formed, and a temperature sensor for measuring the temperature of the dehumidification plate.

According to one side, the temperature sensor is installed in the central region of the dehumidification plate.

According to one preferred embodiment of the present invention, an apparatus for testing performance of a satellite body includes: a test unit providing a performance test environment for a satellite body, a supply unit supplying a temperature regulator for controlling a temperature of the test unit to the test unit; It is installed inside the test unit, and includes a dehumidification unit for receiving the temperature regulator from the supply unit to remove the humidity of the test unit.

According to one side, the temperature regulator includes liquid nitrogen, the dehumidification unit includes a dehumidification plate in which the flow path of the liquid nitrogen is installed.

According to one side, the dehumidification unit, the dehumidification plate in which the flow path of the temperature regulator is formed, and a temperature sensor for measuring the temperature of the dehumidification plate.

According to the performance test apparatus of the satellite body having the configuration as described above, first, since the humidity of the test unit can be controlled by using a temperature controller for the performance test of the satellite body, a separate refrigeration means for humidity control is unnecessary. The effect of economic improvement can be expected.

Second, due to the removal of moisture in the test unit, it is expected to improve the test efficiency according to the improved performance accuracy of the satellite body.

1 is a configuration diagram schematically showing an apparatus for testing performance of a satellite according to an embodiment of the present invention;
2 is a perspective view schematically showing an enlarged dehumidification unit shown in FIG. 1, and
3 is a view schematically showing a modification of the dehumidification unit shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Referring to FIG. 1, the performance test apparatus 1 of a satellite according to an embodiment of the present invention includes a test unit 10, a supply unit 20, and a dehumidification unit 30.

For reference, the performance test apparatus 1 of the satellite body described in the present invention is a device for testing the performance of the satellite body by simulating a high and low temperature environment similar to the environment in which the satellite body (not shown) performs a task.

The test unit 10 provides a performance test environment for satellites. Although not shown in detail, the test unit 10 includes a thermal cycle chamber for receiving a satellite therein and having a sealing force.

The supply unit 20 supplies a temperature controller N for controlling the temperature of the test unit 10 to the test unit 10. Here, the temperature regulator N includes liquid nitrogen having a temperature control characteristic according to rapid cooling. The supply unit 20 is provided with a first control valve 21 for controlling the supply amount of the liquid nitrogen that is supplied, that is, the temperature regulator (N).

The dehumidification unit 30 controls the humidity of the test unit 10 by using the temperature control body (N) supplied from the supply unit 20. That is, the dehumidification unit 30 removes the moisture in the test unit 10 with the temperature control body N, which is liquid nitrogen. To this end, the dehumidification unit 30 includes a dehumidification plate 31 and a temperature sensor 33.

The dehumidification plate 31 is installed inside the test unit 10, and a flow path 32 through which the temperature regulator N flows is formed. At this time, the dehumidification plate 31, as shown in Figure 2, has a substantially rectangular plate shape having a predetermined thickness, the flow path 32 is formed therein. The dehumidification plate () is preferably formed of a metallic material having a high thermal conductivity such as aluminum or copper.

The shape of the flow path 32 is illustrated as controlling the temperature of the dehumidification plate 31 by reciprocating the dehumidification plate 31 once, as shown in FIGS. 1 and 2. However, the present invention is not necessarily limited thereto, and as shown in FIG. 3, a variation in which the flow path 32 ′ is reciprocated a plurality of times, that is, a direction change is possible.

The temperature sensor 33 measures the temperature of the dehumidification plate 31. At this time, the temperature sensor 33 is installed in the approximately center region of the dehumidification plate 31, as shown in Figure 1, to measure the temperature of the dehumidification plate 31. For reference, the temperature sensor 33 is not shown in detail, but is preferably attached to the outer surface of the dehumidification plate (31).

On the other hand, the temperature regulator N supplied into the flow path 32 is supplied from the supply unit 20, the supply amount is controlled by the second control valve 22. At this time, the supply amount control by the second control valve 22 is based on the temperature information measured by the temperature sensor 33.

The performance test operation of the performance test apparatus 1 of the satellite according to the present invention having the above configuration will be described.

As shown in FIG. 1, after a predetermined component such as a solar panel of a satellite is not shown inside the test unit 10, the temperature controller N is supplied from the supply unit 20 to the test unit 10. Is fed into the interior. At this time, the supply amount of the temperature regulating body (N) is controlled by the first control valve (21). The internal temperature of the test unit 10 is cooled or heated at predetermined intervals due to the temperature regulator N supplied to the test unit 10.

In addition, the moisture generated by the temperature control of the test unit 10 is controlled by the temperature control body (N) which is liquid nitrogen supplied to the dehumidification plate 31 of the dehumidification unit (30). At this time, the temperature control body (N) which is the liquid nitrogen is supplied from the supply unit 20, it is supplied separately from the supply to the test unit 10, that is independently. Accordingly, when the humidity rises inside the test unit 10, the supply amount of the temperature control body N, which is liquid nitrogen, is increased and the dehumidification plate 31 is cooled, thereby removing moisture in the test unit 10. do. The temperature regulator N supplied to the flow path 32 of the dehumidification plate 31 has a supply amount due to the second control valve 22 based on the temperature sensor 33 for measuring the temperature of the dehumidification plate 31. Controlled. In addition, as the temperature control body N passing through the flow path 32 of the dehumidification plate 31 is discharged from the dehumidification plate 31, the dehumidification force is maintained and adjusted through the continuous supply of a new temperature control body N. do.

Although the present invention has been described with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It can be understood that

1: Test device for satellite body 10: Test unit
20: supply unit 30: dehumidification unit
31: dehumidification plate 32: euro
33: temperature sensor

Claims (8)

In the performance test apparatus of the satellite body to test the performance of the satellite body,
A test unit providing a performance test environment for the satellite;
A supply unit for supplying a temperature regulator for controlling the temperature of the test unit to the test unit; And
Dehumidification unit for controlling the humidity of the test unit with a temperature regulator supplied from the supply unit;
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In the dehumidifying unit,
A dehumidification plate installed inside the test unit and having a flow path of the temperature control body formed therein; And
A temperature sensor measuring a temperature of the dehumidification plate and installed in a central area of the dehumidification plate;
Performance test device of the satellite body comprising a.
The method of claim 1,
The temperature regulator is a performance test device of a satellite containing liquid nitrogen.
The method of claim 1,
The dehumidification plate is a performance test device of the satellite body is formed of at least one material of aluminum or copper.
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