CN220818195U - High-temperature test fixture cooling water supply system - Google Patents
High-temperature test fixture cooling water supply system Download PDFInfo
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- CN220818195U CN220818195U CN202322048247.8U CN202322048247U CN220818195U CN 220818195 U CN220818195 U CN 220818195U CN 202322048247 U CN202322048247 U CN 202322048247U CN 220818195 U CN220818195 U CN 220818195U
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- cooling water
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- 239000000498 cooling water Substances 0.000 title claims abstract description 81
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 155
- 238000001816 cooling Methods 0.000 claims description 34
- 230000006835 compression Effects 0.000 abstract description 4
- 238000007906 compression Methods 0.000 abstract description 4
- 239000008400 supply water Substances 0.000 description 3
- 230000005611 electricity Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
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Abstract
The utility model discloses a high-temperature test fixture cooling water supply system, compressed air in a compression control tank enters a cooling water pipe through an air inlet pipe, cooling water in the cooling water pipe can be completely blown out, the compressed air flows out through a drain pipe, a controller controls an air inlet valve group to be closed, at the moment, fixture disassembly is performed again, and as the water outlet valve group is not closed, the cooling water in the cooling water pipe is not pressurized, so that the test fixture is convenient to disassemble and assemble when the fixture is disassembled and assembled, meanwhile, cooling water is not splashed to a test working area, and the test working area is not required to be cleaned, so that the high-temperature test fixture cooling water supply system has a certain use value and popularization value.
Description
Technical Field
The utility model relates to the field of electromechanical equipment, in particular to a cooling water supply system for a high-temperature test fixture.
Background
After the high-temperature test fixture is subjected to high-temperature test, the fixture is in a high-temperature state, cooling water still needs to be circularly cooled, after the cooling is finished, when the fixture is disassembled and replaced, the water inlet valve group and the water outlet valve group are closed, cooling water in the cooling pipeline has certain pressure, the fixture is inconvenient to disassemble, and when the fixture is disassembled, the cooling water in the cooling pipeline can be splashed onto the test platform, so that the fixture needs to be cleaned, and the next test is inconvenient to carry out.
In view of the foregoing, there is a need for a high temperature test fixture cooling water supply system that addresses the shortcomings of the prior art.
Disclosure of utility model
Aiming at the defects of the prior art, the utility model provides a high-temperature test fixture cooling water supply system, which aims to solve the problems.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a high temperature test anchor clamps cooling water supply system, includes the supply valve subassembly, supply valve subassembly connection inlet unit, supply unit, drainage subassembly, cooling pipeline and controller, the supply valve subassembly includes inlet valve group and play water valve group, the cooling pipeline includes cooling inlet tube and cooling outlet pipe, the cooling inlet tube is connected with the inlet valve group, the cooling outlet pipe is connected with play water valve group, the inlet unit includes inlet valve group, intake pipe and compressed air jar, the compressed air jar is connected with inlet valve group through the intake pipe, inlet valve group and cooling inlet tube connection, the drainage subassembly includes drainage valve group and drain pipe, the drain pipe passes through drainage valve group and cooling outlet pipe connection. After the test is finished, the water supply assembly can continue to supply water to the clamp, the clamp is continuously cooled, after the cooling is finished, the controller firstly controls the water inlet valve bank and the water outlet valve bank to be closed, the water outlet valve bank of the water outlet assembly is controlled to be opened, the cooling water in the cooling pipeline has certain pressure, the cooling water can flow out partially, finally, the controller controls the air outlet valve bank to be opened, compressed air in the compression control tank enters the cooling water pipe through the air inlet pipe, the cooling water in the cooling water pipe can be completely blown out, the water outlet pipe flows out, the controller further controls the air inlet valve bank to be closed, at the moment, the clamp is disassembled again, the water outlet valve bank is not closed, and no cooling water is arranged in the cooling water pipe, so that the clamp is convenient to disassemble and assemble when the clamp is disassembled, and the cooling water is not splashed to the test working area, the controller controls the water inlet valve bank to be opened after the clamp is replaced, when the water outlet pipe flows out, the controller controls the water outlet valve bank to be closed and the water outlet valve bank to be opened, the next test can be performed, and the replacement of the test clamp is greatly facilitated.
Optionally, the valve group of intaking includes intake solenoid valve and intake check valve, and intake solenoid valve and intake check valve set gradually along the rivers direction on the cooling inlet tube, and intake solenoid valve is connected with the controller electricity. The controller can control the opening and closing of the water inlet electromagnetic valve, so as to control the communication and closing of the cooling water inlet pipe, and the water inlet one-way valve can effectively prevent the cooling water from flowing back.
Optionally, the water outlet valve group comprises a water outlet electromagnetic valve and a water outlet one-way valve, the water outlet electromagnetic valve and the water outlet one-way valve are sequentially arranged on the cooling water outlet pipe along the water flow direction, and the water outlet electromagnetic valve is electrically connected with the controller. The controller can control the opening and closing of the water outlet electromagnetic valve, so as to control the communication and closing of the cooling water outlet pipe, and the water outlet one-way valve can effectively prevent the cooling water from flowing back.
Optionally, the air inlet valve group comprises an air inlet electromagnetic valve and an air inlet one-way valve, the air inlet electromagnetic valve and the air inlet one-way valve are sequentially arranged on the air inlet pipe along the air flow direction, and the air inlet electromagnetic valve is electrically connected with the controller. The controller can control the solenoid valve that admits air and open and close, and then control intake pipe intercommunication and close, prevents that compressor gas from flowing backward, and the compressed gas of backward flow can become moist after the water route, at this moment dirty gas circuit, and then influence other precision equipment gas, can also prevent that the rivers from flowing into the gas circuit when the water route works, influence gas circuit components and parts operating condition and life-span in the gas circuit, and rivers backward flow can make the moist of gas in the gas circuit, can pollute the gas circuit, and then influence other precision equipment gas.
Optionally, the drainage valves include drainage solenoid valve and drainage check valve, and drainage solenoid valve and drainage check valve set gradually along the rivers direction on the drain pipe, and drainage solenoid valve is connected with the controller electricity. The controller can control the opening and closing of the drainage solenoid valve, and then control the connection and closing of the drainage pipe, and the drainage check valve can effectively prevent the cooling water from flowing back.
Optionally, the water supply assembly comprises a water storage tank and a water supply pump, and the water supply pump is connected with the water storage tank and the cooling water inlet pipe. The water supply pump pumps the cooling water in the water storage tank into the clamp needing cooling through the cooling water inlet pipe.
The utility model has the beneficial effects that:
1. According to the utility model, after the test is finished, the water supply assembly can continue to supply water to the clamp, the clamp is continuously cooled, after the cooling is finished, the controller firstly controls the water inlet valve bank and the water outlet valve bank to be closed, controls the water outlet valve bank of the water outlet assembly to be opened, and controls the water inlet valve bank to be opened because the cooling water in the cooling pipeline has a certain pressure, and finally, the controller controls the air outlet valve bank to be opened, compressed air in the compression control tank enters the cooling water pipe through the air inlet pipe, so that the cooling water in the cooling water pipe can be completely blown out, and flows out through the water outlet pipe, and the controller further controls the air inlet valve bank to be closed, at the moment, the clamp is disassembled again, and the cooling water pipe is not closed, so that the cooling water does not splash to the test working area when the clamp is disassembled, and the test working area is not required to be cleaned, and after the clamp is replaced, the controller controls the water inlet valve bank to be opened, and when the water outlet pipe flows out, the controller controls the water outlet valve bank to be closed and the water outlet valve bank to be opened, so that the next test clamp can be replaced;
2. According to the utility model, the controller can control the opening and closing of the water inlet electromagnetic valve so as to control the communication and closing of the cooling water inlet pipe, the water inlet one-way valve can effectively prevent cooling water from flowing back, the controller can control the opening and closing of the water outlet electromagnetic valve so as to control the communication and closing of the cooling water outlet pipe, the water outlet one-way valve can effectively prevent cooling water from flowing back, the controller can control the opening and closing of the air inlet electromagnetic valve so as to control the communication and closing of the air inlet pipe, the air backflow of the compressor is prevented, the backflow compressed air can become damp after passing through the waterway, at the moment, the air channel is polluted, and further other precise equipment air can be influenced, and when the waterway works, water flows into the air channel, the working state and the service life of air channel components in the air channel are influenced, and the air in the air channel can be changed by the water flowing back to the air channel, the air channel is polluted, and further other precise equipment air is influenced, the controller can control the opening and closing of the water outlet electromagnetic valve so as to control the water outlet pipe to be communicated and closed, and the cooling water backflow of the water outlet one-way valve can be effectively prevented;
3. According to the utility model, the cooling water in the water storage tank is pumped into the clamp to be cooled through the cooling water inlet pipe by the water supply pump, so that the clamp has a certain use value and popularization value.
Drawings
Fig. 1 is a schematic structural view of the present utility model.
In the figure: 1. a water supply valve assembly; 2. an air intake assembly; 3. a water supply assembly; 4. a drainage assembly; 5. a cooling pipeline; 6, a controller; 11. a water inlet valve group; 12. a water outlet valve group; 13. a water inlet electromagnetic valve; 14. a water inlet one-way valve; 15. a water outlet electromagnetic valve; 16. a water outlet one-way valve; 21. an air inlet valve group; 22. an air inlet pipe; 23. a compressed air tank; 24. an air inlet electromagnetic valve; 25. an air inlet one-way valve; 31. a water storage tank; 32. a water supply pump; 41. a drainage valve group; 42. a drain pipe; 43. a drainage electromagnetic valve; 44 a drain check valve; 51. cooling the water inlet pipe; 52. and cooling the water outlet pipe.
Detailed Description
As shown in fig. 1, a cooling water supply system of a high-temperature test fixture comprises a water supply valve assembly 1, wherein the water supply valve assembly 1 is connected with an air inlet assembly 2, a water supply assembly 3, a water discharge assembly 4, a cooling pipeline 5 and a controller 6, the water supply valve assembly 1 comprises a water inlet valve set 11 and a water outlet valve set 12, the cooling pipeline 5 comprises a cooling water inlet pipe 51 and a cooling water outlet pipe 52, the cooling water inlet pipe 51 is connected with the water inlet valve set 11, the cooling water outlet pipe 52 is connected with the water outlet valve set 12, the air inlet assembly 2 comprises an air inlet valve set 21, an air inlet pipe 22 and a compressed air tank 23, the compressed air tank 23 is connected with the air inlet valve set 21 through the air inlet pipe 22, the air inlet valve set 21 is connected with the cooling water inlet pipe 51, the water discharge assembly 4 comprises a water discharge valve set 41 and a water discharge pipe 42, the water discharge pipe 42 is connected with the cooling water outlet pipe 52 through the water discharge valve set 41, the water supply assembly 3 comprises a water storage tank 31 and a water supply pump 32, and the water supply pump 32 is connected with the water storage tank 31 and the cooling water inlet pipe 51.
The water inlet valve group 11 comprises a water inlet electromagnetic valve 13 and a water inlet one-way valve 14, the water inlet electromagnetic valve 13 and the water inlet one-way valve 14 are sequentially arranged on a cooling water inlet pipe 51 along the water flow direction, the water inlet electromagnetic valve 13 is electrically connected with the controller 6, the water outlet valve group 12 comprises a water outlet electromagnetic valve 15 and a water outlet one-way valve 16, the water outlet electromagnetic valve 15 and the water outlet one-way valve 16 are sequentially arranged on a cooling water outlet pipe 52 along the water flow direction, the water outlet electromagnetic valve 15 is electrically connected with the controller 6, the air inlet valve group 21 comprises an air inlet electromagnetic valve 24 and an air inlet one-way valve 25, the air inlet electromagnetic valve 24 and the air inlet one-way valve 25 are sequentially arranged on an air inlet pipe along the air flow direction, the air outlet electromagnetic valve group 24 is electrically connected with the controller 6, the water outlet valve group 41 comprises a water outlet electromagnetic valve 43 and a water outlet one-way valve 44, the water outlet electromagnetic valve 43 and the water outlet one-way valve 44 are sequentially arranged on a water outlet pipe 42 along the water flow direction, and the water outlet electromagnetic valve 43 is electrically connected with the controller 6.
The controller can control the opening and closing of the water inlet electromagnetic valve so as to control the communication and closing of the cooling water inlet pipe, the water inlet one-way valve can effectively prevent cooling water from flowing back, the controller can control the opening and closing of the water outlet electromagnetic valve so as to control the communication and closing of the cooling water outlet pipe, the water outlet one-way valve can effectively prevent cooling water from flowing back, the controller can control the opening and closing of the air inlet electromagnetic valve so as to control the communication and closing of the air inlet pipe, the air inlet pipe is prevented from flowing back, the flowing back compressed gas can become damp after passing through the waterway, at the moment, the air channel is polluted, the air channel is further prevented from being influenced by water flow, the working state and service life of air channel components in the air channel are influenced, the air in the air channel can be changed by water flow flowing back into the air channel, the air channel is polluted, the air channel is further influenced by other precision equipment, the controller can control the opening and closing of the water outlet electromagnetic valve so as to control the communication and closing of the water outlet pipe, the water outlet one-way valve can effectively prevent cooling water from flowing back, and the cooling water in the water storage tank is pumped into a clamp needing cooling water through the cooling water inlet pipe by the cooling pump.
After the test is finished, the water supply assembly can continue to supply water to the clamp, the clamp is continuously cooled, after the cooling is finished, the controller firstly controls the water inlet valve bank and the water outlet valve bank to be closed, the water outlet valve bank of the water outlet assembly is controlled to be opened, the cooling water in the cooling pipeline has certain pressure, the cooling water can flow out partially, finally, the controller controls the air outlet valve bank to be opened, compressed air in the compression control tank enters the cooling water pipe through the air inlet pipe, the cooling water in the cooling water pipe can be completely blown out, the water outlet pipe flows out, the controller further controls the air inlet valve bank to be closed, at the moment, the clamp is disassembled again, the water outlet valve bank is not closed, and no cooling water is arranged in the cooling water pipe, so that the clamp is convenient to disassemble and assemble when the clamp is disassembled, and the cooling water is not splashed to the test working area, the controller controls the water inlet valve bank to be opened after the clamp is replaced, when the water outlet pipe flows out, the controller controls the water outlet valve bank to be closed and the water outlet valve bank to be opened, the next test can be performed, and the replacement of the test clamp is greatly facilitated.
The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, or alternatives falling within the spirit and principles of the utility model.
Claims (6)
1. The utility model provides a high temperature test anchor clamps cooling water supply system, its characterized in that, including supply valve subassembly, supply valve subassembly connects inlet unit, water supply unit, drainage subassembly, cooling pipeline and controller, supply valve subassembly includes inlet valve group and play water valve group, cooling pipeline includes cooling inlet tube and cooling outlet pipe, cooling inlet tube is connected with inlet valve group, cooling outlet pipe is connected with play water valve group, inlet unit includes inlet valve group, intake pipe and compressed air jar, compressed air jar passes through the intake pipe and is connected with inlet valve group, inlet valve group and cooling inlet tube are connected, drainage subassembly includes drainage valve group and drain pipe, the drain pipe passes through drainage valve group and is connected with cooling outlet pipe.
2. The fixture cooling water supply system for high temperature test of claim 1, wherein the water inlet valve group comprises a water inlet electromagnetic valve and a water inlet one-way valve, the water inlet electromagnetic valve and the water inlet one-way valve are sequentially arranged on the cooling water inlet pipe along the water flow direction, and the water inlet electromagnetic valve is electrically connected with the controller.
3. The fixture cooling water supply system for high temperature test of claim 1, wherein the water outlet valve group comprises a water outlet electromagnetic valve and a water outlet one-way valve, the water outlet electromagnetic valve and the water outlet one-way valve are sequentially arranged on the cooling water outlet pipe along the water flow direction, and the water outlet electromagnetic valve is electrically connected with the controller.
4. The fixture cooling water supply system for high temperature test of claim 1, wherein the air inlet valve group comprises an air inlet electromagnetic valve and an air inlet one-way valve, the air inlet electromagnetic valve and the air inlet one-way valve are sequentially arranged on the air inlet pipe along the air flow direction, and the air inlet electromagnetic valve is electrically connected with the controller.
5. The fixture cooling water supply system for high temperature test of claim 1, wherein the drain valve block comprises a drain solenoid valve and a drain check valve, which are sequentially arranged on the drain pipe along the water flow direction, and the drain solenoid valve is electrically connected with the controller.
6. A high temperature test fixture cooling water supply system according to any one of claims 1 to 5 wherein the water supply assembly comprises a water storage tank and a water supply pump, the water supply pump being connected to the water storage tank and the cooling inlet pipe.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322048247.8U CN220818195U (en) | 2023-08-01 | 2023-08-01 | High-temperature test fixture cooling water supply system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322048247.8U CN220818195U (en) | 2023-08-01 | 2023-08-01 | High-temperature test fixture cooling water supply system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220818195U true CN220818195U (en) | 2024-04-19 |
Family
ID=90676065
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322048247.8U Active CN220818195U (en) | 2023-08-01 | 2023-08-01 | High-temperature test fixture cooling water supply system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220818195U (en) |
-
2023
- 2023-08-01 CN CN202322048247.8U patent/CN220818195U/en active Active
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