KR102128610B1 - test device for electric water pump - Google Patents

Abstract

An objective of the present invention is to provide a test device for an electric water pump which can safely and quickly discharge hot water remaining in a pipe after a test of a water pump is terminated to reduce waiting time to cool the hot water and prevent accidents. The test device for an electric water pump comprises: a pump installation unit; a tank installation unit on which a water tank is installed; a supply water supply pipe to guide supply water supplied to a water pump to be tested from the water tank; a supply water collection pipe to guide supply water pumped by the water pump to be collected to the water tank; a backflow water collection pipe to collect supply water backflowing towards the supply water supply pipe from the water pump in the water tank; and an air supply unit to supply high-pressure air into the supply water collection pipe.

Description

Test device for electric water pump

The present invention relates to a test apparatus, and more particularly, to a test apparatus of an electric water pump for testing the performance and durability of an electric water pump used in a vehicle.

Generally, a water pump used in a vehicle is a component to circulate coolant.

The water pump is an engine-driven water pump mainly used in an internal combustion engine vehicle and operated by engine power, and an electric water pump in which an electric motor is applied to operate by receiving electric energy from a battery or the like while being used in an electric vehicle. .

In the case of each of these water pumps, the electric water pump has an advantage in that it is possible to control the operation considering not only the temperature of the engine, but also the influence on the surrounding temperature, because a controllable electric motor is used.

On the other hand, in the related art, in developing or manufacturing a water pump, the reliability of the water pump is checked while operating under the same conditions as actual use conditions.

This is as disclosed in Patent Publication Nos. 10-2019-0102365, 10-1088411, 10-1029936, 10-1029936, and 10-1489486.

Particularly, the conventional water pump test apparatus supplies the heated water (high temperature water) of high temperature so that the corresponding water pump is tested under conditions similar to actual use conditions.

However, such a conventional water pump test apparatus frequently disconnects the pipe connection even though it has to wait for the temperature of the hot water remaining in the pipe to reach a certain temperature after completion of the test for the water pump, thereby There was a problem in that the risk of safety accidents, such as injuries to workers, was high due to the high temperature water remaining in the piping.

In addition, the above-described apparatus for testing the conventional water pump had the inconvenience of having to perform the operation of connecting the pipes to the water tank and the water pump or separating the connected pipes whenever the water pump to be tested was replaced.

Patent Publication No. 10-2019-0102365 Registered Patent No. 10-0188411 Registered Patent No. 10-0229936 Registered Patent No. 10-1489486

The present invention is to solve the above-mentioned problems, by allowing the hot water remaining in the pipe to be discharged safely and quickly after the test of the water pump is finished, so as to reduce the waiting time for cooling the hot water The purpose is to provide a new type of electric water pump test device that can prevent a safety accident.

The electric water pump test apparatus of the present invention for achieving the above object, a pump installation unit is installed a water pump to be tested; A tank installation unit in which the water tank in which the supply water is stored is installed; A supply water supply pipe guiding supply water supplied from the water tank to a water pump to be tested; A first opening/closing valve selectively blocking the flow of supply water flowing through the supply water supply pipe; A supply water recovery pipe for guiding supply water pumped by the water pump and recovered into a water tank; A second opening/closing valve to selectively block the flow of supply water recovered from the supply water recovery pipe; A countercurrent recovery pipe for recovering supply water that flows back from the water pump toward the supply pipe into the water tank; It characterized in that it comprises; an air supply unit for supplying high-pressure air into the supply water recovery pipe.

At this time, the tank installation unit has a drain pipe for draining the supply water in the water tank, and a first opening/closing valve, and the supply-side pipe supplying the supply water in the water tank to the supply water supply pipe while the supply water supply pipe is connected And, it has a second opening and closing valve, it characterized in that it is configured to include a supply-side piping for supplying the supply water recovered into the supply water recovery pipe into the water tank while the supply water recovery pipe is connected.

In addition, a partition wall is formed in the water tank to partition one side space and the other side space from each other, and the supply-side piping is connected to the one side space and the recovery-side piping is connected to the other side space. It is characterized by being connected.

In addition, the supply water supply pipe and the supply-side pipe are connected by a first connection pipe, the supply water recovery pipe and the recovery-side pipe are connected by a second connection pipe, a flowmeter is installed in the second connection pipe Should be

In addition, a first branch pipe is connected between the first connection pipe and the supply-side pipe, a second branch pipe is connected between the second connection pipe and the recovery-side pipe, and the reverse flow water recovery pipe is the first pipe. It is characterized in that one end is connected to the branch pipe, the other end is connected to the water tank, and the air supply unit is connected to the second branch pipe.

Effects according to the present invention are as follows.

In the present invention, safety accidents due to high-temperature supply water remaining in the pipe can be prevented because supply water does not remain in all the pipes.

And, the present invention can be quickly discharged from each pipe without cooling the supply water remaining in each pipe after the test for the water pump is finished, thereby preventing the risk of safety accidents.

In addition, the present invention can also quickly proceed to the drainage operation.

1 is a front view showing the configuration of an electric water pump test apparatus of the present invention
2 is an enlarged view of part “A” of FIG. 1;
Figure 3 is a plan view showing the configuration of an electric water pump test apparatus of the present invention
4 is a plan view showing a structure in which the supply-side piping and the recovery-side piping are installed in the water tank among the electric water pump test apparatus of the present invention
5 to 9 is a state diagram for each situation shown to explain the test process of the water pump using the electric water pump test apparatus of the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to FIGS. 1 to 9 of the accompanying drawings.

A configuration of an electric water pump test apparatus of the present invention for testing a water pump will be described with reference to FIGS. 1 to 9.

First, referring to Figures 1 and 3, the electric water pump test apparatus of the present invention is largely the pump installation unit 100, the tank installation unit 200, the supply water supply pipe 310, the first opening and closing valve It comprises a (231), a supply water recovery pipe 320, a second opening and closing valve 241, a reverse flow water recovery pipe 330, and an air supply unit 340.

This will be described in more detail for each configuration.

First, the pump installation unit 100 will be described.

The pump installation part 100 is a part provided for the installation of the water pump 10 to be tested.

The pump installation unit 100 is configured to include an installation bed 110, the inlet pipe 120, and the outlet pipe 130.

Here, the installation bed 110 is a bed on which the water pump 10 is mounted and fixed.

In addition, the inlet side pipe 120 is a pipe installed to receive the supply water from the supply water supply pipe 310 and transmit it to the water pump 10.

The supply water inlet side of the inlet side pipe 120 is configured such that the supply water supply pipe 310 can be selectively connected or separated while a coupling 311 is installed.

In addition, the outlet-side piping 130 is a pipe installed to receive the supply water discharged from the water pump 10 and deliver it to the supply water recovery pipe 320.

The supply water outlet side of the outlet side pipe 130 is configured such that the supply water recovery pipe 320 can be selectively connected or separated while a coupling 321 is installed.

On the other hand, the pump installation unit 100 has a case frame 101 forming an exterior, and the installation bed 110, the inlet pipe 120 and the outlet pipe 130 are provided in the case frame 101. Is installed.

Next, the tank installation unit 200 will be described.

The tank installation part 200 is a part provided for supply and recovery of supply water used for the test of the water pump 10.

The tank installation unit 200 includes a water tank 210 in which supply water is stored, a drain pipe 220, a supply side pipe 230, and a recovery side pipe 240.

Here, the water tank 210 is formed of a cylindrical body in which the supply water is stored, and a plurality of heating heaters 211 are installed through the circumferential surface.

At this time, the heating heaters 211 are arranged to be located at different heights, and are arranged to be placed at positions that do not coincide with each other in the vertical direction. This structure is such that the entire temperature of the water tank 210 is uniformly heated, thereby shortening the heating time and allowing the temperature of the supplied water to be constant.

In addition, a partition wall 212 is formed in the water tank 210 to partition one side space from the other side space.

The partition wall 212 is installed so as to stand vertically on the central portion in the water tank 210, so as to block the front side (the side facing the pump installation portion) space and the rear side space in the water tank 210. Is done. At this time, the upper end of the partition wall 212 is located to be spaced apart from the upper surface in the water tank 210, the lower end of the partition wall 212 is located to be spaced from the bottom surface in the water tank 210.

That is, the partition wall 212 is not a structure for completely dividing the front and rear spaces in the water tank 210, but the upper space and the lower space in the water tank 210 can be communicated with each other while supply side piping 230 to be described later. And the portion of the height where the recovery-side pipe 240 is located is to be blocked from each other so that the recovered supply water and the supply water to be supplied are not mixed with each other. In this regard, it is as illustrated in FIGS. 1 and 4 attached.

In addition, the drain pipe 220 is a pipe provided to drain the supply water in the water tank 210.

The drain pipe 220 is connected to the center side of the bottom surface of the water tank 210, wherein the bottom surface of the water tank 210 is convex downward toward the center side to which the drain pipe 220 is connected. Accordingly, the supply water in the water tank 210 can be drained smoothly.

In addition, the supply-side piping 230 is a pipe connected to supply the supply water in the water tank 210 to the supply water supply pipe 310.

One end of the supply-side pipe 230 penetrates the circumferential wall of the water tank 210 and is installed to communicate with the water tank 210.

At the same time, a first opening/closing valve 231 is installed at the other end of the supply-side pipe 230 (a part exposed to the outside of the water tank). At this time, the first opening/closing valve 231 is a valve that selectively opens and closes the supply water outlet side of the supply-side pipe 230.

For example, the first opening/closing valve 231 is made of a ball valve capable of manual operation. Of course, the first opening/closing valve 231 may be configured as a solenoid valve that performs an opening/closing operation by automatic control.

In addition, the recovery-side piping 240 is a pipe connected to supply the supply water recovered to the supply water recovery pipe 320 into the water tank 210.

One end of the recovery side pipe 240 penetrates the circumferential wall of the water tank 210 and is installed to communicate with the water tank 210.

In particular, in the case of the recovery side piping 240, the supply water recovered to the rear side space in the water tank 210 may be discharged while its one end is also installed to penetrate the partition wall 212 in the water tank 210. It is configured to.

Along with this, the second opening/closing valve 241 is installed at the other end (the portion exposed to the outside of the water tank) of the above-described recovery side pipe 240. At this time, the second opening/closing valve 241 is a valve that selectively opens and closes the supply water inlet side of the recovery-side pipe 240.

For example, the second opening/closing valve 241 is made of a ball valve capable of manual operation. Of course, the second opening/closing valve 241 may be configured as a solenoid valve that performs an opening/closing operation by automatic control.

Meanwhile, the supply water supply pipe 310 and the supply side pipe 230 are connected to the first connection pipe 250.

In addition, the supply water recovery pipe 320 and the recovery-side pipe 240 are connected to a second connection pipe 260.

At this time, while the flowmeter 261 is installed in the second connection pipe 260, the flow rate of the supplied water recovered from the water pump 10 to the water tank 210 is measured to check the performance of the water pump 10. It is configured to.

Of course, the supply-side pipe 230 may be configured to be directly connected to the supply water supply pipe 310 without using the first connection pipe 250, and the recovery-side pipe 240 may be connected to the second connection. It may be configured to be directly connected to the supply water recovery pipe 320 without using the pipe 260.

In addition, a first branch pipe 270 is connected between the first connection pipe 250 and the supply-side pipe 230. At this time, the first branch pipe 270 is a connection pipe 271 connecting the first connection pipe 250 and the supply-side pipe 230, respectively, and a branch pipe 272 connected to communicate with the connection pipe 271 ).

In addition, a second branch pipe 280 is connected between the second connection pipe 260 and the recovery side pipe 240. At this time, the second branch pipe 280 is a connection pipe 281 connecting the second connection pipe 260 and the recovery side pipe 240, respectively, and a branch pipe connected to communicate with the connection pipe 281 ( 282).

Next, the supply water supply pipe 310 will be described.

The supply water supply pipe 310 is a pipe for guiding supply water supplied from the water tank 210 to the water pump 10 to be tested.

The supply water supply pipe 310 is connected to the first connection pipe 250 at one end, and the other end is connected to the inlet pipe 120 as described above.

At this time, the supply water supply pipe 310 is made to be connected to the first connection pipe 250 and the inlet pipe 120 using a coupling 311, respectively.

Next, the supply water recovery pipe 320 will be described.

The supply water recovery pipe 320 is a pipe that is pumped by the water pump 10 and guides the supply water recovered to the water tank 210.

The supply water recovery pipe 320 is one end is connected to the second connection pipe 260, and the other end is connected to the outlet pipe 130, as described above.

At this time, the supply water recovery pipe 320 is made to be connected to the second connection pipe 260 and the outlet pipe 130 using a coupling 321, respectively.

Next, the reverse flow water recovery pipe 330 will be described.

The backflow water recovery pipe 330 is a pipe for recovering the feed water flowing back from the water pump 10 toward the feed water supply pipe 310 to the water tank 210.

The reverse flow water recovery pipe 330 has one end connected to the branch pipe 272 of the first branch pipe 270 and the other end connected to the water tank 210.

That is, the supply water flowing back through the first connection pipe 250 can be recovered into the water tank 210 through the backflow water recovery pipe 330.

In particular, the other end of the reverse flow water recovery pipe 330 is connected to the upper surface of the water tank 210, whereby the supply water in the water tank 210 is the first branch pipe through the reverse flow water recovery pipe 330 ( 270) to prevent the phenomenon of reverse flow.

Reference numeral 331 (see attached FIG. 2) is an on-off valve that opens and closes the reverse flow water recovery pipe 330.

Next, the air supply unit 340 will be described.

The air supply unit 340 is configured to supply high pressure air into the supply water recovery pipe 320.

At this time, the air supply unit 340 may be an air compressor or a supply device selectively receiving high pressure compressed air from the air compressor.

In particular, the air supply unit 340 is configured to be connected to the branch pipe 282 of the second branch pipe 280.

The water pump test process using the electric water pump test apparatus of the present invention configured as described above is as follows.

First, the first opening and closing valve 231 and the second opening and closing valve 241 are locked in the initial state as shown in FIG. 1 so that the supply water does not flow, and then the supply water is supplied to the water tank 210 to an appropriate level. To supply.

At this time, the appropriate water level is the water level of the supply water in consideration of the capacity of the water pump 10 to be tested. This is as shown in Figure 5 attached.

Next, the first opening/closing valve 231 and the second opening/closing valve 241 are opened to open the water tank 210, the supply water supply pipe 310, and the supply water recovery pipe 320 to each other.

Then, by supplying high pressure air into the water tank 210, the air present in the supply water supply pipe 310 and the supply water recovery pipe 320 is completely discharged. This is as shown in Figure 6 attached.

At this time, the water pump 10 is not operated.

In addition, when exhausting air remaining in each pipe is completed, power is supplied to the heating heater 211 to heat the supply water stored in the water tank 210 to a set temperature. At this time, the completion of the air discharge is recognized by confirming that the supply water is discharged through a discharge valve (not shown) installed in the pressure gauge (or flowmeter).

Of course, after air discharge is completed, additional air is supplemented by the amount of the discharged water, and then air supply is stopped.

Thereafter, when the supply water reaches a set temperature, a durability test (or reliability test) of the water pump 10 is performed through supplying power to the water pump 10. This is as shown in Figure 7 attached.

On the other hand, when the test of the water pump 10 is completed, the power supply to the water pump 10 is cut off and the drain pipe 220 connected to the water tank 210 is opened to supply water in the water tank 210. Drain to the outside.

In particular, high pressure air is supplied into the water tank 210 through the supply-side piping 230 and the recovery-side piping 240 by locking the first opening/closing valve 231 and the second opening/closing valve 241 during the drainage of the aforementioned supply water. Or supply water is blocked. This is as shown in Figure 8 attached.

In this state, the air supply unit 340 is controlled to supply high-pressure air to the second branch pipe 280 as shown in the attached FIG. 9.

The high pressure air supplied in this way sequentially flows through the second connection pipe 260 connected to the second branch pipe 280, the supply water recovery pipe 320, the water pump 10, and the supply water supply pipe 310 in sequence. Forced flow of the supply water remaining in the corresponding pipeline up to the first branch pipe 270, and the flowed supply water is a reverse flow water recovery pipe 330 connected to the branch pipe 272 of the first branch pipe 270 ) Is provided into the water tank 210.

Therefore, the supply water does not remain in all pipes, and thereafter, even if the operator separates the water pump 10 from the inlet pipe 120 or the outlet pipe 130, a safety accident due to hot supply water is prevented.

According to the present invention acting as described above, after the test for the water pump 10 is finished, the supply water remaining in each pipe can be quickly discharged from each pipe without cooling, thereby preventing the risk of safety accidents. do.

In addition, the drainage operation can also proceed quickly.

On the other hand, the present invention is not limited to the above-described embodiments, it is of course possible to change and modify in various various forms as long as it does not depart from the scope of the technical idea of the present invention.

10: water pump 100: pump installation
110: installation bed 120: inlet piping
130: outlet pipe 200: tank installation
210: water tank 211: heating heater
212: partition wall 220: drain piping
230: Supply side piping 240: Recovery side piping
231,241: open/close valve 250: first connection pipe
260: second connection pipe 261: flow meter
270,280: branch pipe 271,281: connector
272,282: branch pipe 310: supply water supply pipe
320: supply water recovery pipe 330: countercurrent recovery pipe
340: air supply

Claims (5)

A pump installation unit in which the water pump to be tested is installed;
A tank installation unit in which the water tank in which the supply water is stored is installed;
A supply water supply pipe guiding supply water supplied from the water tank to a water pump to be tested;
A first opening/closing valve selectively blocking the flow of supply water flowing through the supply water supply pipe;
A supply water recovery pipe for guiding supply water pumped by the water pump and recovered into a water tank;
A second opening/closing valve to selectively block the flow of supply water recovered from the supply water recovery pipe;
A countercurrent recovery pipe for recovering supply water that flows back from the water pump toward the supply water supply pipe into the water tank;
And an air supply unit for supplying high-pressure air into the supply water recovery pipe. According to claim 1,
The tank installation part
Drain piping for draining the supply water in the water tank,
A supply-side pipe having a first opening/closing valve and supplying supply water in the water tank to the supply water supply pipe while the supply water supply pipe is connected;
An electric water pump test apparatus having a second opening/closing valve, and comprising a recovery-side piping supplying the supply water recovered by the supply water recovery pipe into the water tank while the supply water recovery pipe is connected. According to claim 2,
In the water tank, a partition wall partitioning one side space from the other side space is formed,
The supply-side piping is connected to the one side space, and the recovery-side piping is connected to the other side space, the electric water pump test apparatus. According to claim 2,
The supply water supply pipe and the supply-side pipe are connected by a first connection pipe,
The supply water recovery pipe and the recovery-side pipe are connected by a second connection pipe,
The second connection pipe is a motorized water pump test device, characterized in that a flow meter is installed. The method of claim 4,
A first branch pipe is connected between the first connection pipe and the supply-side pipe,
A second branch pipe is connected between the second connection pipe and the recovery side pipe,
The reverse flow water recovery pipe has one end connected to the first branch pipe and the other end connected to the water tank,
The air supply unit is an electric water pump test device, characterized in that connected to the second branch pipe.

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