CN217155467U - Water cooling equipment flow, flow resistance and suppress testing arrangement - Google Patents

Abstract

The utility model provides a water-cooling equipment flow, flow resistance and suppress testing arrangement belongs to water-cooling equipment technical field, include: testing the main pipeline and the branch pipelines; the test main pipeline and the water cooling equipment form a circulating pipeline; the test main pipeline is provided with an exhaust valve, a water pressure monitor, a flow regulating valve, a first circulation pipeline and a second circulation pipeline which are connected in parallel, the water pressure monitor is respectively positioned at two sides of the water cooling equipment, and the test branch pipeline is used for supplementing or pressurizing liquid to the test main pipeline; the test branch pipeline is provided with a liquid supplementing cylinder, and a third circulation pipeline and a fourth circulation pipeline which are connected in parallel. The utility model provides a pair of water cooling equipment flow, flow resistance and suppress testing arrangement is through the break-make of controlling first circulation pipeline, second circulation pipeline, third circulation pipeline and fourth circulation pipeline to the realization is to water cooling equipment's flow, flow resistance and suppress the test.

Description

Water cooling equipment flow, flow resistance and suppress testing arrangement

Technical Field

The utility model belongs to the technical field of the water-cooling equipment, more specifically say, relate to a water-cooling equipment flow, flow resistance and suppress testing arrangement.

Background

The water cooling equipment applied to the industries of heating ventilation, wind power, chemical engineering and the like has mature processing and manufacturing technology, but is still easy to generate processing defects, so that the water cooling equipment needs to be subjected to flow, flow resistance and pressure test when being delivered from a factory, the processing and manufacturing defects of the water cooling equipment can be detected, and the use potential safety hazard is reduced. However, the testing device of the existing water cooling equipment can only complete single flow, flow resistance or pressure test, and cannot realize integrated flow, flow resistance and pressure test.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a water cooling plant flow, flow resistance and suppress testing arrangement, aim at solving water cooling plant integration flow, flow resistance and suppress the test.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a water cooling plant flow, flow resistance and suppress testing arrangement, includes:

the test main pipeline and the water cooling equipment form a circulating pipeline; the water cooling device is characterized in that the test main pipeline is provided with an exhaust valve, a water pressure monitor, a flow regulating valve, a first circulation pipeline and a second circulation pipeline which are connected in parallel, the water pressure monitor is respectively positioned on two sides of the water cooling device, the first circulation pipeline is provided with a first valve, and the second circulation pipeline is provided with a circulating pump and a second valve; and

the test branch pipeline is used for supplementing or pressurizing the test main pipeline; the test branch pipeline is provided with a liquid supplementing cylinder, a third circulation pipeline and a fourth circulation pipeline which are connected in parallel, the third circulation pipeline is provided with a pressurizing pump and a third valve, and the fourth circulation pipeline is provided with a liquid supplementing pump and a fourth valve.

In one possible implementation, the water pressure monitor is a pressure sensor and/or a pressure gauge.

In one possible implementation, the air outlet valve is a manual air outlet valve and/or an automatic air outlet valve.

In one possible implementation, the flow control valve is an electric control valve.

In one possible implementation, the flow monitor is an ultrasonic flow meter.

In a possible implementation manner, a circulation filter is further arranged on the test main pipeline.

In a possible implementation manner, a check valve is further arranged on the test main pipeline.

In a possible implementation manner, a fluid replacement filter is further arranged on the test branch pipeline.

In a possible realization mode, a liquid level meter is arranged on the outer side of the liquid supplementing cylinder.

In a possible implementation manner, a water drain valve is further arranged on the test main pipeline.

Compared with the prior art, the utility model discloses a water cooling equipment flow, flow resistance and suppress testing arrangement, through the break-make of controlling first circulation pipeline, second circulation pipeline, third circulation pipeline and fourth circulation pipeline to the realization is to water cooling equipment's flow, flow resistance and suppress the test.

Drawings

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

Fig. 1 is a schematic structural diagram of a flow, flow resistance and pressure testing device of a water cooling apparatus provided by an embodiment of the present invention.

In the figure: 1. testing the main pipeline; 101. a flow rate monitor; 102. a flow regulating valve; 103. a first valve; 104. a circulation pump; 105. a second valve; 106. a pressure sensor; 107. a pressure gauge; 108. a manual exhaust valve; 109. an automatic exhaust valve; 110. a circulating filter; 111. a one-way valve; 112. a water drain valve; 2. testing the branch pipeline; 201. a fluid infusion cylinder; 202. a pressurizing pump; 203. a third valve; 204. a liquid supplementing pump; 205. a fourth valve; 206. a liquid supplementing filter; 207. a liquid level meter; 208. a liquid adding filter; 3. and (5) water cooling equipment.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, a flow rate, flow resistance and pressure testing device for water cooling equipment according to the present invention will now be described. It should be noted that: related parts mentioned in this application are standard parts, can directly adopt outward and obtain, and concrete model is no longer repeated. The utility model provides a water cooling plant flow, flow resistance and suppress testing arrangement, includes: a main test pipeline 1 and a branch test pipeline 2; the test main pipeline 1 and the water cooling equipment 3 form a circulating pipeline; the test main pipeline 1 is provided with an exhaust valve, a water pressure monitor, a flow monitor 101, a flow regulating valve 102, a first circulation pipeline and a second circulation pipeline which are connected in parallel, the water pressure monitor is respectively positioned at two sides of the water cooling equipment 3, the first circulation pipeline is provided with a first valve 103, and the second circulation pipeline is provided with a circulating pump 104 and a second valve 105; the test branch pipeline 2 is used for supplementing or pressurizing the test main pipeline 1; the test branch pipeline 2 is provided with a liquid supplementing cylinder 201, a third flow pipeline and a fourth flow pipeline which are connected in parallel, the third flow pipeline is provided with a pressurizing pump 202 and a third valve 203, and the fourth flow pipeline is provided with a liquid supplementing pump 204 and a fourth valve 205.

Compared with the prior art, the flow, flow resistance and pressurizing test device for the water cooling equipment provided by the embodiment has the advantages that the flow, flow resistance and pressurizing test of the water cooling equipment 3 are realized by controlling the on-off of the first circulation pipeline, the second circulation pipeline, the third circulation pipeline and the fourth circulation pipeline;

and (3) flow testing: the first valve 103 and the fourth valve 205 are opened, the second valve 105 and the third valve 203 are closed, the liquid supplementing pump 204 introduces the liquid in the liquid supplementing cylinder 201 into the test main pipeline 1 until the water at the exhaust valve is sprayed out, the water pump in the water cooling equipment 3 is started, the water pump drives the water in the test main pipeline 1 to flow, the opening degree of the valve is adjusted through the flow adjusting valve 102 to adjust the flow, and a curve graph of the flow and the lift of the water cooling equipment can be drawn by recording the pressure value on the water pressure monitor;

and (3) testing the flow resistance: the second valve 105 and the fourth valve 205 are opened, the first valve 103 and the third valve 203 are closed, the liquid supplementing pump 204 introduces the liquid in the liquid supplementing cylinder 201 into the test main pipeline 1 until the water at the exhaust valve is sprayed out, the circulating pump 104 (the water pump in the water cooling equipment 3 does not work) on the second flow pipeline is opened after the liquid supplementing is completed, the flow regulating valve 102 is regulated to enable the flow value of the test main pipeline 1 to reach a set value, the pressure values of the water pressure monitors positioned at the two sides of the water cooling equipment 3 are respectively recorded, and the pressure difference at the two sides of the water cooling equipment 3, namely the flow resistance value of the water cooling equipment 3 is obtained;

and (3) pressing test: the method comprises the steps of firstly opening a first valve 103 and a fourth valve 205, closing a second valve 105 and a third valve 203, opening a flow regulating valve 102 to the maximum, introducing liquid in a liquid supplementing cylinder 201 into a test main pipeline 1 by a liquid supplementing pump 204 until water is sprayed out from an exhaust valve, then closing the fourth valve 205 and the liquid supplementing pump 204, opening the third valve 203 and a pressurizing pump 202, and closing the fourth valve 205 and the pressurizing pump 204 when the pressure value of a hydraulic pressure monitor reaches a set value, so that pressure maintaining is carried out on the water cooling equipment 3, and pressurizing work is completed.

In this embodiment, the first valve 103 and the second valve 105 are manual ball valves, and the third valve 203 and the fourth valve 205 are solenoid valves.

In some embodiments, referring to fig. 1, the hydraulic pressure monitor is a pressure sensor 106 and/or a pressure gauge 107. In this embodiment, the test main pipeline 1 is provided with two pressure sensors 106 and two pressure gauges 107. Two pressure sensors 106 are respectively positioned at two sides of the water cooling device 3, and two pressure gauges 107 are respectively positioned at two sides of the water cooling device 3. The pressure sensor 106 is located on the side of the pressure gauge 107 near the water cooling device 3. The pressure sensor 106 is connected with the touch screen through the PLC controller, and the pressure value obtained by the pressure sensor 106 can be displayed in a digital form on the touch screen. Because the pressure sensing's measuring accuracy is higher, when the pressure value that needs to acquire water cooling equipment 3, can directly read out on the touch-sensitive screen. The magnitude of the change in pressure can be judged by the pressure value displayed on the pressure gauge 107.

In some embodiments, referring to fig. 1, the exhaust valve is a manual exhaust valve 108 and/or an automatic exhaust valve 109. In this embodiment, the manual exhaust valve 108 and the automatic exhaust valve 109 are arranged in parallel. When the automatic exhaust valve 109 fails, the manual exhaust valve 108 can be opened to exhaust the test main line 1.

In some embodiments, referring to fig. 1, the flow control valve 102 is an electric control valve. In this embodiment, electrical control valve passes through the PLC controller and realizes automatic control to the flow size of pipeline is cast in the automatically regulated test, has reduced the error that manual operation exists.

In some embodiments, referring to fig. 1, the flow monitor 101 is an ultrasonic flow meter. In the present embodiment, the ultrasonic flow meter is a flow meter that can be used to measure the amount of fluid flowing in a pipe. Ultrasonic flow meters have sufficient accuracy for use in custody transfer. In an ultrasonic flow meter manifold, acoustic signals are transmitted back and forth through the fluid flow to be measured. Based on the parameters of the received acoustic signals, a fluid flow rate in the flow meter is determined.

In some embodiments, referring to fig. 1, the main test pipeline 1 is further provided with a circulation filter 110. In this embodiment, the circulation filter 110 is located at a side close to the ultrasonic flow meter, and is used for filtering water in the main test pipeline 1, preventing impurities in the water from entering the ultrasonic flow meter, playing a role in protecting the ultrasonic flow meter, and prolonging the service life of the ultrasonic flow meter.

In some embodiments, referring to fig. 1, the test main pipeline 1 is further provided with a check valve 111. In this embodiment, the check valve 111 is used to control the direction of the water flow in the test main pipeline 1, so that the water flow passes through the circulating filter 110 and then passes through the ultrasonic flowmeter.

In some embodiments, referring to fig. 1, the test branch pipe 2 is further provided with a fluid replacement filter 206. In this embodiment, the fluid infusion filter 206 is located between the fluid infusion pump 204 and the fluid infusion cylinder 201, so as to filter the water output from the fluid infusion cylinder 201, and prevent impurities in the water from entering the fluid infusion pump 204 and the pressurizing pump 202.

In some embodiments, referring to fig. 1, a liquid level meter 207 is disposed outside the fluid infusion cylinder 201. In this embodiment, level gauge 207 is glass tube level gauge 207, installs on the lateral wall of fluid infusion section of thick bamboo 201, makes things convenient for operating personnel to survey the liquid level in the fluid infusion section of thick bamboo 201.

In some embodiments, referring to fig. 1, a drain valve 112 is further disposed on the main test pipeline 1. In this embodiment, the drain valve 112 is disposed on the test main pipe 1, so that the residual water in the test main pipe 1 can be discharged smoothly.

In some embodiments, referring to fig. 1, a filling filter 208 is installed on the top of the fluid infusion cylinder 201. Tap water in an external tap water pipe is added into the fluid infusion cylinder 201 through the liquid adding filter 208.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a water cooling plant flow, flow resistance and suppress testing arrangement which characterized in that includes:

the test main pipeline and the water cooling equipment form a circulating pipeline; the test main pipeline is provided with an exhaust valve, a water pressure monitor, a flow regulating valve, a first flow pipeline and a second flow pipeline which are connected in parallel, the water pressure monitor is respectively positioned at two sides of the water cooling equipment, the first flow pipeline is provided with a first valve, and the second flow pipeline is provided with a circulating pump and a second valve; and

the test branch pipeline is used for supplementing or pressurizing the test main pipeline; the test branch pipeline is provided with a liquid supplementing cylinder, a third circulation pipeline and a fourth circulation pipeline which are connected in parallel, the third circulation pipeline is provided with a pressurizing pump and a third valve, and the fourth circulation pipeline is provided with a liquid supplementing pump and a fourth valve.

2. The device for testing the flow rate, the flow resistance and the pressurization of the water cooling equipment according to claim 1, wherein the water pressure monitor is a pressure sensor and/or a pressure gauge.

3. The device for testing the flow rate, the flow resistance and the pressurization of the water cooling equipment according to claim 1, wherein the exhaust valve is a manual exhaust valve and/or an automatic exhaust valve.

4. The water cooling equipment flow, flow resistance and pressurization testing device according to claim 1, wherein the flow regulating valve is an electric regulating valve.

5. The water cooling equipment flow, flow resistance and pressurization testing device according to claim 1, wherein the flow monitor is an ultrasonic flow meter.

6. The device for testing the flow rate, the flow resistance and the pressurization of the water cooling equipment according to claim 1, wherein a circulating filter is further arranged on the testing main pipeline.

7. The device for testing the flow rate, the flow resistance and the pressurization of the water cooling equipment according to claim 1, wherein a check valve is further arranged on the testing main pipeline.

8. The device for testing the flow rate, the flow resistance and the pressurization of the water cooling equipment according to claim 1, wherein a liquid supplementing filter is further arranged on the test branch pipeline.

9. The device for testing the flow rate, the flow resistance and the pressurization of the water cooling equipment as claimed in claim 1, wherein a liquid level meter is arranged on the outer side of the liquid supplementing cylinder.

10. The device for testing the flow rate, the flow resistance and the pressurization of the water cooling equipment according to claim 1, wherein a water drain valve is further arranged on the test main pipeline.

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