CN113933085A - Radiator performance detection equipment - Google Patents

Abstract

The invention relates to the technical field of radiator performance detection, in particular to radiator performance detection equipment. The temperature patrol instrument comprises a workbench, wherein a heating block is arranged on the workbench, a quick connector connected with the heating block is arranged on the side surface of the workbench, a thermocouple is arranged on the workbench and connected with a temperature patrol instrument, and a water cooling mechanism and an air cooling mechanism are respectively arranged on two sides of the workbench. The heat radiator is placed on the heating block, the thermocouple is connected to the water-cooling heat radiator, the water-cooling mechanism and the air-cooling mechanism are selected according to the type of the heat radiator, the heating block provides heat, the water-cooling mechanism or the water-cooling mechanism starts to work, the temperature patrol instrument can display the temperature change of the water-cooling heat radiator during working, and the heat radiation effect of the water-cooling heat radiator can be judged through the temperature change. Most of the radiators on the market can be detected through the steps.

Description

Radiator performance detection equipment

Technical Field

The invention relates to the technical field of radiator performance detection, in particular to radiator performance detection equipment.

Background

The radiator is a novel high-efficiency heat exchange device, has the advantages of high heat transfer efficiency and the like, and is widely applied to various devices with power dissipation, such as power transistors, silicon controlled rectifiers, integrated devices, rectifiers and the like. Along with the development of electronic equipment, the heat that electronic equipment produced is bigger and bigger, requires that radiator heat exchange performance also is higher and higher, and the radiator can effectually cool down electronic equipment, makes electronic equipment's performance better, and life is longer.

Most of the existing radiators are air-cooled radiators and water-cooled radiators, and after production of the radiators is completed, the heat radiation performance of the radiators needs to be detected by using detection equipment.

The above problems are problems that the art needs to solve.

Disclosure of Invention

The invention aims to provide a device for detecting the performance of a radiator, so that the heat radiation performance of the radiator can be detected.

In order to solve the technical problem, the invention provides the following scheme: the utility model provides a radiator performance detection equipment, includes the workstation, be provided with the heating piece on the workstation, be provided with on the workstation side with the quick-operation joint that the heating piece is connected, be provided with the thermocouple on the workstation, the thermocouple connection is provided with the temperature and patrols and examines the appearance, the workstation both sides are provided with water-cooling mechanism and air-cooling mechanism respectively.

As a further improvement of the present invention, the water cooling mechanism includes a water cooling and heating machine, the water cooling and heating machine is provided with a water outlet and a water inlet, the water inlet is connected with a water inlet pipe, the water inlet pipe is provided with a water temperature sensor, the water outlet is connected with a water outlet pipe, the water outlet pipe is connected with a first water pipe, and the first water pipe is provided with a flow control valve, a flow sensor, a pressure sensor and a water temperature sensor at intervals.

As a further improvement of the invention, a second water pipe is also connected and arranged on the water outlet pipe, one end of the second water pipe is connected and arranged with a connecting pipe, the connecting pipe is communicated with the first water pipe, and a flow control valve, a flow sensor, a pressure sensor and a water temperature sensor are arranged on the second water pipe at intervals.

As a further improvement of the invention, valves are arranged on the first water pipe and the second water pipe.

As a further improvement of the invention, the air cooling mechanism comprises a case, a fan is arranged in the case, the output end of the fan is connected with an air box, the other end of the air box is connected with an air conveying pipe through an air pipe, and an air outlet block communicated with the air conveying pipe is arranged on the side surface of the case.

As a further improvement of the invention, the air delivery pipe comprises a connecting port, one end of the connecting port is provided with an air delivery cavity in an extending mode, the sectional area of the air delivery cavity extends from large to small, and one end face of the air delivery cavity is provided with a mounting plate.

As a further improvement of the present invention, an air speed sensor and a temperature sensor are arranged inside the air outlet block.

As a further improvement of the invention, the quick connector is provided with a power supply with power of 0-2000W and 0-4000W, and the quick connector is connected with a time controller.

As a further improvement of the invention, the quick connectors are all connected with a power detection meter.

As a further improvement of the invention, an operation screen is arranged on the workbench, and the operation screen is connected with the temperature polling instrument, the power detection meter, the quick coupling, the wind speed sensor, the temperature sensor connection, the flow control valve, the flow sensor, the pressure sensor and the water temperature sensor.

The invention has the beneficial effects that:

the invention has reasonable and simple structure and convenient and fast operation, when the water-cooled radiator needs to be detected, the water-cooled radiator is placed on the heating block, the thermocouple is connected on the water-cooled radiator, the water-cooled mechanism is connected with the water-cooled radiator, the heating block provides heat, the water-cooled mechanism works to provide circulating water, the temperature polling instrument can display the temperature change of the water-cooled radiator during working, and the heat radiation effect of the water-cooled radiator can be judged through the temperature change; when the air-cooled radiator needs to be detected, the air-cooled radiator is placed on the heating block, the air-cooled radiator is located at an air outlet of the air-cooled mechanism, the thermocouple is connected to the air-cooled radiator at last, the heating block provides heat, the air-cooled mechanism provides an air source to blow air towards the air-cooled radiator, the temperature patrol instrument can display the temperature change of the air-cooled radiator during working, and the heat dissipation effect of the air-cooled radiator can be judged through the temperature change. Most of the radiators on the market can be detected through the steps.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of the water cooling mechanism of the present invention;

FIG. 3 is a schematic structural diagram of another view of the water cooling mechanism of the present invention;

FIG. 4 is a schematic structural diagram of an air cooling mechanism according to the present invention;

fig. 5 is a schematic structural diagram of the air delivery pipe of the present invention.

Reference numerals: 1. a work table; 2. a heating block; 3. a quick coupling; 4. a water cooling mechanism; 401. a cold and hot water machine; 402. a water outlet pipe; 403. a first water pipe; 404. a flow control valve; 405. a flow sensor; 406. a pressure sensor; 407. a water temperature sensor; 408. a water inlet pipe; 409. a second water pipe; 410. a connecting pipe; 411. a valve; 5. an air cooling mechanism; 501. a chassis; 502. a fan; 503. an air box; 504. a wind delivery pipe; 5041. a connecting port; 5042. a wind delivery cavity; 5043. mounting a plate; 505. an air outlet block; 6. and (6) an operation screen.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

Referring to fig. 1, the device for measuring the temperature of the workpiece comprises a workbench 1 and the workbench 1, wherein a heating block 2 is arranged on the workbench 1, a quick connector 3 connected with the heating block 2 is arranged on the side surface of the workbench 1, a thermocouple is arranged on the workbench 1, a temperature polling instrument is connected with the thermocouple, and a water cooling mechanism 4 and an air cooling mechanism 5 are respectively arranged on two sides of the workbench 1. Firstly, distinguishing the type of a radiator, when the water-cooled radiator needs to be detected, placing the water-cooled radiator on a heating block 2, connecting a thermocouple to the water-cooled radiator, simultaneously connecting a water-cooling mechanism 4 with the water-cooled radiator, providing heat by the heating block 2, providing circulating water by the water-cooling mechanism 4 during working, displaying the temperature change of the water-cooled radiator during working by a temperature patrol instrument, and judging the heat dissipation effect of the water-cooled radiator through the temperature change; when the air-cooled radiator needs to be detected, the air-cooled radiator is placed on the heating block 2, the air-cooled radiator is located at an air outlet of the air-cooled mechanism 5, the thermocouple is connected to the air-cooled radiator at last, the heating block 2 provides heat, the air-cooled mechanism 5 provides an air source to blow air towards the air-cooled radiator, the temperature patrol instrument can display the temperature change of the air-cooled radiator during working, and the heat dissipation effect of the air-cooled radiator can be judged through the temperature change. Most of the radiators on the market can be detected through the steps.

In this embodiment, the water cooling mechanism 4 includes a water cooling and heating machine 401, a water outlet and a water inlet are provided on the water cooling and heating machine 401, the water inlet is connected to a water inlet pipe 408, a water temperature sensor 407 is provided on the water inlet pipe 408, the water outlet is connected to a water outlet pipe 402, a first water pipe 403 is connected to the water outlet pipe 402, and a flow control valve 404, a flow sensor 405, a pressure sensor 406, and a water temperature sensor 407 are provided at intervals on the first water pipe 403. The first water pipe 403 and the water inlet pipe 408 are connected to the water-cooled radiator, the water cooling and heating machine 401 starts to work, water can enter the first water pipe 403 along the water outlet pipe 402 and then enters the radiator, finally, the water in the radiator flows back to the water cooling and heating machine 401 through the water inlet pipe 408, the temperature of the water can be adjusted according to actual requirements, the combination of the flow control valve 404 and the flow sensor 405 can monitor and control the flow of water flow in the first water pipe 403, and the pressure sensor 406 and the temperature sensor 407 can monitor the water pressure and the temperature of the water flow in the first water pipe 403 in real time, so that different use requirements are met.

In this embodiment, the water outlet pipe 402 is further connected with a second water pipe 409, one end of the second water pipe 409 is connected with a connecting pipe 410, the connecting pipe 410 is communicated with the first water pipe 403, the second water pipe 409 is provided with a flow control valve 404, a flow sensor 405, a pressure sensor 406 and a water temperature sensor 407 at intervals, and the first water pipe 403 and the second water pipe 409 are both provided with valves 411. Through setting up the first water pipe 403 and the second water pipe 409 that two pipe diameters are different for the water velocity of flow in first water pipe 403 and the second water pipe 409 is different, and then can be applicable to the demand of more radiators. In practice, the pipe diameter of the first water pipe 403 is usually set to DN6, the water flow rate is 1.6L/Min-10L/Min, the pipe diameter of the second water pipe 409 is set to DN15, the water flow rate is 10L/Min-50L/Min, the state of water flow in the first water pipe 403 and the second water pipe 409 is controlled by the valve 411, the valve 411 to be opened is selected according to the requirement of the water-cooled radiator on the water flow rate, and the flow rate, the pressure and the temperature of the water flow in the first water pipe 403 and the second water pipe 409 can be monitored by the flow control valve 404, the flow sensor 405, the pressure sensor 406 and the temperature sensor 407.

In this embodiment, the air cooling mechanism 5 includes a case 501, a fan 502 is disposed inside the case 501, an output end of the fan 502 is connected to a bellows 503, the other end of the bellows 503 is connected to a duct 504 through a duct, and an air outlet block 505 communicated with the duct 504 is disposed on a side surface of the case 501. Place the air-cooled radiator in air-out piece 505 one side, fan 502 work produces and blows, blows and gets into to bellows 503 in, and bellows 503 can collect wind for wind can carry constantly, avoids the wind regime to appear the condition of breaking and continuing to take place, and later wind gets into to defeated tuber pipe 504 along the tuber pipe and compresses, blows out by air-out piece 505 at last, thereby realizes the air feed function to the air-cooled radiator.

In this embodiment, the air delivery pipe 504 includes a connection port 5041, an air delivery cavity 5042 is provided at one end of the connection port 5041 in an extending manner, a sectional area of the air delivery cavity 5042 extends from large to small, and a mounting plate 5043 is provided at one end surface of the air delivery cavity 5042. Can install defeated tuber pipe 504 on quick-witted case 501 better through mounting panel 5043, because defeated wind chamber 5042 sectional area extends the design from big to small, can compress the wind regime for air-out piece 505 exhaust wind can be more stable and steady.

In this embodiment, air-out piece 505 is inside to be provided with air velocity transducer and temperature sensor, can measure the wind speed and the wind temperature that air-out piece 505 is inside to be blown over, can read the data of wind speed and wind temperature in real time, and the operating personnel of being convenient for adjusts the wind speed according to actual conditions.

In this embodiment, the quick coupling 3 is provided with two power supplies of 0-2000W and 0-4000W, and the quick coupling 3 is provided with a time controller in connection therewith. Can be at the within range regulation power of power, and then be applicable to the behavior under the different power, quick-operation joint 3 still connects simultaneously and is provided with time controller, can control the operating time of different powers through time controller, realizes the continuous control of different power segmentation to be applicable to various operating power's in service behavior.

In this embodiment, the quick connectors 3 are all connected to a power detection meter, so that the output power can be known accurately, and when the power and the set value are inaccurate, the power can be modified in time.

In this embodiment, the operation panel 6 is provided on the work table 1, and the operation panel 6 is connected to a temperature polling device, a power detection meter, a quick coupling 3, an air speed sensor, a temperature sensor, a flow control valve 404, a flow sensor 405, a pressure sensor 406, and a water temperature sensor 407. The operation screen 6 can display the wind speed and temperature of the wind output by the air cooling mechanism 4, the flow speed, pressure and temperature of the water cooling mechanism 5 and the temperature change data of the radiator during working, and meanwhile, the data can be manually modified and adjusted.

During actual work, when the water-cooled radiator is detected, the water-cooled radiator is placed on the heating block 2, the thermocouple is connected to the water-cooled radiator, then the first water pipe 403 and the water inlet pipe 408 are connected to the water-cooled radiator, proper input power is selected according to the performance detected by the water-cooled radiator, specified power and corresponding time as well as the temperature and flow rate data requirements of water flow are input on the operation screen 6, the heating block 2 starts to work to provide a heat source for the water-cooled radiator, the temperature change of the water-cooled radiator during work can be displayed on the operation screen 6, meanwhile, data are collected and stored, and finally, the heat radiation performance of the water-cooled radiator is judged according to the data; when detecting the air-cooled radiator, the air-cooled radiator is placed on the heating block 2, so that the air-cooled radiator is located at an air outlet block 505 of the air-cooled mechanism 5, meanwhile, the thermocouple is connected to the air-cooled radiator, appropriate input power is selected according to the performance detected by the air-cooled radiator, then specified power and corresponding time are input on the operation screen 6, and data requirements of wind speed and wind temperature are met, the heating block 2 works to provide heat for the air-cooled radiator, the air-cooled mechanism 5 provides air blowing, the air-cooled radiator starts working, the temperature change condition of the air-cooled radiator in working can be displayed on the operation screen 6, meanwhile, storage and data change can be collected, and finally the heat radiation performance of the air-cooled radiator can be judged according to the data.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

As used herein, the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used in the positional or orientational relationship illustrated in the figures to facilitate the description of the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be construed as limiting the invention.

The appearances of the terms first, second, and third, if any, are used for descriptive purposes only and are not intended to be limiting or imply relative importance.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings, or any other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a radiator performance detection equipment, its characterized in that, includes workstation (1), be provided with on workstation (1) heating piece (2), be provided with on workstation (1) side with quick-operation joint (3) that heating piece (2) are connected, be provided with the thermocouple on workstation (1), the thermocouple connection is provided with the temperature and patrols and examines the appearance, workstation (1) both sides are provided with water-cooling mechanism (4) and air-cooled mechanism (5) respectively.

2. The radiator performance detection device according to claim 1, wherein the water cooling mechanism (4) comprises a cold and hot water machine (401), the cold and hot water machine (401) is provided with a water outlet and a water inlet, the water inlet is connected with a water inlet pipe (408), the water inlet pipe (408) is provided with a water temperature sensor (407), the water outlet is connected with a water outlet pipe (402), the water outlet pipe (402) is connected with a first water pipe (403), and the first water pipe (403) is provided with a flow control valve (404), a flow sensor (405), a pressure sensor (406) and a water temperature sensor (407) at intervals.

3. The radiator performance detection device according to claim 2, wherein a second water pipe (409) is further connected to the water outlet pipe (402), a connecting pipe (410) is connected to one end of the second water pipe (409), the connecting pipe (410) is communicated with the first water pipe (403), and a flow control valve (404), a flow sensor (405), a pressure sensor (406) and a water temperature sensor (407) are arranged on the second water pipe (409) at intervals.

4. A radiator performance testing apparatus according to claim 2 or 3, wherein said first water pipe (403) and said second water pipe (409) are each provided with a valve (411).

5. The heat radiator performance detection device according to claim 1, wherein the air cooling mechanism (5) comprises a case (501), a fan (502) is disposed inside the case (501), an output end of the fan (502) is connected to a bellows (503), the other end of the bellows (503) is connected to a wind pipe (504), and a wind outlet block (505) communicated with the wind pipe (504) is disposed on a side surface of the case (501).

6. The heat sink performance testing apparatus according to claim 5, wherein the air duct (504) includes a connection port (5041), an air duct cavity (5042) is provided at one end of the connection port (5041) in an extending manner, a cross-sectional area of the air duct cavity (5042) extends from large to small, and a mounting plate (5043) is provided at one end of the air duct cavity (5042).

7. The heat sink performance testing apparatus according to claim 5, wherein said air outlet block (505) is internally provided with an air speed sensor and a temperature sensor.

8. A radiator performance testing device according to claim 1, wherein said quick coupling (3) is provided with power supplies of both 0-2000W and 0-4000W, and said quick coupling (3) is connected to a time controller.

9. A heat sink performance testing apparatus according to claim 1, wherein the quick connectors (3) are each provided with a power testing meter.

10. The radiator performance detecting apparatus according to claim 1, wherein an operation panel (6) is provided on the work table (1), and the operation panel (6) is connected to the temperature polling device, the power detecting meter, the quick coupling (3), the wind speed sensor, the temperature sensor connection, the flow control valve (404), the flow sensor (405), the pressure sensor (406), and the water temperature sensor (407).

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