KR20190102365A - test system for a electric water pump - Google Patents

Abstract

The present invention provides a test apparatus for an electric water pump, which comprises: a thermal shock test unit including an air inlet, an air outlet, and a closed space for testing the electric water pump; an operation control unit separately provided from the thermal shock test unit and providing a signal for controlling operation of the electric water pump placed in the closed space of the thermal shock test unit; a cold/hot air selection and supply unit heating or cooling the inside of the thermal shock test unit while selectively supplying high or low temperature air to the air inlet; and a coolant supply unit supplying coolant to the electric water pump disposed in the thermal shock test unit. Therethrough, a test for an electric water pump can be performed in the same condition as an actual use environment.

Description

Test system for electric water pump

The present invention relates to a test apparatus, and more particularly, to a test for a vehicle electric water pump can be performed under the same conditions as the actual use environment to achieve improved reliability of the test results The present invention relates to a test apparatus for an electric water pump.

Generally, a water pump used in a vehicle is a component for circulating cooling water.

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

Of these water pumps, the electric water pump has an advantage that a controllable electric motor is used, so that operation control considering the influence on the ambient temperature as well as the temperature of the engine can be performed. As described in Patent No. 10-1332853, Patent No. 10-1080770, Patent No. 10-1305671, and the like.

On the other hand, conventionally, the development of the water pump during the development or manufacturing of the damage occurring at high or low temperature, the test process to determine whether or not defective or non-operating.

At this time, the test was performed only a general durability test to check the occurrence of damage to the thermal shock by rapidly heating the water pump using a rapid temperature increase in the thermal shock tester, or taken out of the thermal shock tester and cooled rapidly. After the test, only an additional test is performed on whether or not the water pump is normally operated, and related to the apparatus for testing the water pump, as described in Korean Patent No. 10-0188411.

However, as described above, the conventional water pump is limited to a simple endurance test, and has not been tested for proper operation in a high temperature or low temperature environment.

Patent Registration No. 10-1332853 Patent Registration No. 10-1080770 Patent Registration No. 10-1305671 Patent Registration No. 10-0188411

The present invention has been made to solve the various problems according to the prior art described above, an object of the present invention is to test the electric water pump for a vehicle can be carried out under the same conditions as the actual use environment for the test results The present invention provides a test apparatus for an electric water pump according to a new form to achieve improved reliability.

According to the test apparatus for the electric water pump of the present invention for achieving the above object is provided with an air inlet and an air outlet, respectively, and a thermal shock test unit configured to provide a closed space for testing the electric water pump; An operation control unit provided separately from the thermal shock test unit and providing a signal for operation control by an electric water pump positioned in a closed space of the thermal shock test unit; A cold / hot air selector supplying the high temperature air or the low temperature of the thermal shock test part by selectively supplying high temperature air or low temperature air to the air inlet; And a cooling water supply unit supplying cooling water to the electric water pump in the thermal shock test unit.

Here, the operation control unit is characterized in that it is made to directly control the operation of the electric water pump through CAN communication.

In addition, the air inlet provided in the thermal shock test unit includes an air inlet for high temperature air and an air inlet for low temperature air, and each of the air inlets is provided with an electronic control valve, respectively, the cold and hot air selector supply unit The high temperature air tank for supplying the stored high temperature air to the air inlet for the high temperature air by the selective control and the air heated by the unit is stored, and the low temperature air by the freezer. And a low temperature air tank for supplying the stored lowered air to the low temperature air inlet, and a temperature control unit for controlling the temperature control of the heating unit and the freezing unit and the operation of the electronic control valve of each air inlet. It is characterized by.

In addition, the cooling water supply unit is characterized in that it comprises a load control module for adjusting the load amount of the cooling water supplied to the electric water pump, and a heater for heating the cooling water supplied by the load control module while temperature control is possible. .

The apparatus may further include a monitoring unit configured to receive and provide a temperature in the thermal shock test unit, a control state of the operation control unit, a control state of the cold / hot air selector supply unit, and a control state of the cooling water supply unit.

As described above, the test apparatus for the electric water pump of the present invention is configured to enable the temperature control in the constant temperature chamber and to control the operation of the electric water pump, so that the high temperature or the low temperature of the electric water pump in the constant temperature chamber is achieved. The test can be carried out continuously, which has the effect that the electric water pump can be tested in a state most similar to the actual driving situation.

In addition, the test apparatus for the electric water pump of the present invention has the effect that it is possible to perform the test of the electric water pump in a state more similar to the actual driving situation through the temperature control for the coolant.

In addition, the test apparatus for the electric water pump according to the present invention does not heat the constant temperature chamber itself, but selectively supplies the high temperature air stored in the pre-heated state and the control of the low temperature stored in the pre-cooled state into the constant temperature chamber to selectively control the temperature. Because it is configured in an adjustable manner, it is possible not only to perform more various tests but also to shorten test time.

1 is a block diagram schematically shown to explain a test apparatus for an electric water pump according to an embodiment of the present invention.
Figure 2 is a state diagram showing a detailed state of the test apparatus for an electric water pump according to an embodiment of the present invention
3 is a main state diagram schematically illustrating a state in which each pipe line and a signal line are connected to a thermal shock test unit of an electric water pump test apparatus according to an embodiment of the present invention;

Hereinafter, a preferred embodiment of the test apparatus for an electric water pump of the present invention will be described with reference to FIGS. 1 to 3.

1 is a block diagram schematically illustrating the test apparatus for an electric water pump according to an exemplary embodiment of the present invention, and FIG. 2 is a detailed state of the test apparatus for an electric water pump according to an exemplary embodiment of the present invention. Is a state diagram showing.

As shown in these drawings, the test apparatus for the electric water pump according to the exemplary embodiment of the present invention has a large thermal shock test unit 100, an operation control unit 200, a cold / hot air selector 300, and a coolant supply unit 400. In this case, the electric water pump 10 is applied to a real vehicle to accurately implement driving conditions while testing durability and operation of the electric water pump 10 as well. It will be done together.

This will be described in more detail for each component as follows.

First, the thermal shock test unit 100 is a device made to provide a closed space for the test of the electric water pump (10).

The thermal shock test unit 100 includes a constant temperature chamber 110 wrapped with a heat insulating material, an inner wall body 120 installed to surround the constant temperature chamber 110, and an openable and openable side of the inner wall body 120. It is configured to include a door 130 is installed.

At this time, the electric water pump 10 is fixedly installed in the constant temperature chamber 110.

In addition, the thermal shock test unit 100 flows outflow of air from the space in which the air inlets 151 and 152 and the electric water pump 10 are installed to guide the inflow of the air into the space in which the electric water pump 10 is installed. Air outlets 160 for guiding are provided respectively.

Particularly, in the case of the air inlets 151 and 152, the air inlet 151 for supplying high temperature air and the air inlet 152 for supplying low temperature air are separately provided.

In addition, the two air inlets 151, 152 and the air outlet 160 are provided with electronic control valves 171, 172, 173, respectively, and the opening and closing control of each air inlet 151, 152 and the air outlet 160 may be performed as necessary. It is configured to.

Next, the operation control unit 200 is a vehicle ECU simulation apparatus configured to provide a signal for operation control to the electric water pump 10 located in the closed space of the thermal shock test unit 100.

The operation control unit 200 is provided separately from the thermal shock test unit 100 and is configured to directly control the operation of the electric water pump 10 located in the thermal shock test unit 100 through CAN communication. . That is, the operation control unit 200 and the electric water pump 10 as the simulation apparatus can be applied to the actual vehicle to achieve the same situation as the communication method that receives a signal control that can be caused by the different communication method Errors can be prevented.

In this case, the operation control of the electric water pump 10 by the operation control unit 200 may be on-off control and control of the pumping speed.

Next, the cold / hot air selector 300 is a device provided to increase or lower the temperature inside the thermal shock test unit 100.

The cold / hot air selector 300 is configured to heat or lower the temperature inside the thermal shock test unit 100 while selectively supplying high temperature air or low temperature air through the air inlets 151 and 152. present.

In particular, the cold / hot air selector 300 is a hot air tank for supplying the stored high temperature air to the air inlet 151 for the hot air by the selection control is stored in the air heated by the heating unit 310 And a low temperature air tank 340 for storing the low temperature air by the freezing unit 330 and supplying the stored low temperature air to the low temperature air inlet 152 by selection control. The control unit 350 for the cold and hot air to control the temperature of the heating unit 310 and the freezing unit and the operation of the electronic control valves 171 and 172 of the air inlets 151 and 152 and the electronic control valve 173 of the air outlet 160. It is configured to include. In this case, the heating unit 310 may be a conventional heater, the freezing unit 330 may be a refrigeration system consisting of a refrigeration cycle of a compressor, a condenser, an expander and an evaporator.

As described above, the structure in which the preheated air is stored and then supplied, or the preheated air is stored and supplied, enables the rapid temperature change in the thermal shock test unit 100 and the thermal shock test unit. The high temperature test and the low temperature test of the electric water pump 10 may be sequentially performed within the 100, and thus, a test such as a rapid temperature increase and a sudden temperature drop during the actual driving of the vehicle may be repeated. I did it.

That is, in the case of the prior art, the heater is provided in the thermal shock test unit to heat up the thermal shock test unit through heat generation of the heater and performs a high temperature test in such a state. When the high temperature test is completed, the electric water pump 10 is completed. Draws out of the thermal shock test unit and performs a low temperature test, so it takes a long time to heat up the inside of the thermal shock test unit. In consideration of the above, since the thermal shock test unit had to be sufficiently cooled and then performed, virtually no continuous test was performed, and it was impossible to test the high temperature and the low temperature repeatedly. However, in the embodiment of the present invention, the above-mentioned It is to be eliminated by using the selection supply unit 300.

Next, the cooling water supply unit 400 is a portion provided to supply the cooling water to the electric water pump 10 in the thermal shock test unit 100.

The coolant supply unit 400 includes a load control module 410, a heater 420, a coolant inlet pipe 430, and a coolant outlet pipe 440.

That is, the load amount of the coolant supplied to the electric water pump 10 can be controlled using the load control module 410, and the coolant supplied by the load control module 410 using the heater 420. It is to enable the temperature control of.

In addition, the heater 420 is configured to enable the temperature control according to the user's needs to enable the supply of cooling water in the same conditions as the actual use environment.

At this time, the cooling water inlet pipe 430 is a conduit to guide the cooling water to the electric water pump 10, the cooling water outlet pipe 440 is the discharge of the cooling water discharged through the electric water pump (10). It is a guiding pipeline, and one end of each of the pipelines 430 and 440 is installed to extend into the constant temperature chamber 110 so that it can be connected to the electric water pump 10 located in the constant temperature chamber 110.

Of course, a portion of the wall of the constant temperature chamber 110 constituting the thermal shock test unit 100 passes through the pipelines 430 and 440 of the cooling water supply unit 400 and a portion through which the signal line 210 for communication between the operation control unit and the can passes. The pipe finishing material 111 is preferably provided so as to prevent heat leakage in the constant temperature chamber 110 through a portion through which the pipe lines 430 and 440 or the signal line 210 pass. In this case, the signal line 210 is installed so as to pass through the heat insulating block 211 made of a separate heat insulating material on the inner wall body 120 and a portion provided with the heat insulating block 211 of the inner wall body 120. The wall surface of the constant temperature chamber 110 opposite thereto is preferably connected through a separate cable pipe 212 so that the signal line 210 can be connected into the constant temperature chamber 110.

On the other hand, in the embodiment of the present invention suggests that the monitoring unit 500 is further included.

The monitoring unit 500 is an integrated system configured to receive and display respective information data from the operation control unit 200, the cold / hot air selector and the coolant supply unit.

At this time, the information provided to the user by the monitoring unit 500 is the temperature in the thermal shock test unit 100, the control state of the operation control unit 200, the control of the cold / hot air selector 300 State and a control state of the cooling water supply unit 400.

In the following, the electric water pump test procedure using the electric water pump test apparatus according to the embodiment of the present invention described above will be described in more detail.

First, the electric water pump 10 to be tested is positioned in the constant temperature chamber 110 of the thermal shock test part 100.

At this time, the electric water pump 10 connects the coolant inlet side and the coolant outlet side to one end of the coolant inlet pipe 430 and one end of the coolant outlet pipe 440 which extend to the inside of the constant temperature chamber 110, respectively. . In other words, the cooling water flowing through the cooling water inlet pipe 430 passes through the electric water pump 10 and is connected to the cooling water outlet pipe 440.

In addition, the electric water pump 10 is connected to the operation control unit in a can communication. That is, the electric water pump 10 is to perform the operation control by the operation control unit 200 through the can communication.

When the installation process is complete, test it.

That is, the temperature control for the inside of the constant temperature chamber 110 forming the thermal shock test unit 100 is performed while the operation control of the cold / hot air selector 300, the coolant supply unit 400, and the operation controller 200 is performed. Cooling water flows in and out of the electric water pump 10 in the constant temperature chamber 110.

In particular, the temperature control inside the constant temperature chamber 110 by the cold / hot air selector 300 is a high-temperature air or a low-temperature air pre-stored in the cold / hot air selector 300 to each air inlet (151, 152) It is carried out by providing into the constant temperature chamber 110 through, thereby providing a heater in the constant temperature chamber 110, it is possible to achieve a significantly shortened temperature rise time compared to the prior art that heats the heater to increase the temperature, It is also possible to lower the temperature by rapid temperature drop. At this time, the high temperature air stored in the high temperature air tank 320 is preheated by the heating unit 310, and the low temperature air stored in the low temperature air tank 340 is lowered in advance by the freezing unit 330. In this state, the hot air or the low-temperature air can be supplied at the moment when the operation control for the supply thereof occurs, so that the high temperature or the low temperature time in the constant temperature chamber 110 can be shortened as much as possible.

In addition, since the electric water pump 10 can be selectively heated or lowered without taking the electric water pump 10 out of the constant temperature chamber 110, it is possible to test under various temperature conditions.

In addition, the coolant supply unit 400 heats the coolant through the heater 420 and supplies the coolant to the electric water pump 10 under the load controlled by the load control module 410. 200 is to control the electric water pump 10 to flow in and out of the cooling water according to the temperature situation.

Therefore, the electric water pump 10 located in the constant temperature chamber 110 may achieve the same situation as the situation when the vehicle is mounted on the actual vehicle, and the test for the operation accuracy in the corresponding situation may be performed. do.

In addition, the information on the control state of the operation control unit 200 and the cold / hot air selector 300 and the coolant supply unit 400 controlled for the test of the electric water pump 10 described above is real-time through the monitoring unit 500. It is provided as a worker can perform an accurate reliability test for the electric water pump (10).

As a result, the test apparatus for the electric water pump of the present invention is configured to enable the temperature control in the constant temperature chamber 110 and to control the operation of the electric water pump 10, and thus the electric water pump in the constant temperature chamber 110. The high temperature or low temperature test for 10 may be continuously performed, and thus the electric water pump 10 may be tested in a state most similar to the actual driving situation.

In addition, the test apparatus for the electric water pump of the present invention can control the temperature of the cooling water, thereby enabling the electric water pump 10 to be tested in a state similar to the actual driving situation.

In addition, the test apparatus for the electric water pump of the present invention selectively controls the high temperature air stored in the pre-heated state and the control of the low temperature stored in the pre-cooled state rather than heating the constant temperature chamber 110 itself. It is configured in such a way that the temperature can be controlled by supplying the inside of the coil.

On the other hand, the electric water pump test apparatus according to an embodiment of the present invention is not limited to being configured to test only one electric water pump 10 per test.

That is, two or more electric water pumps 10 may be configured to be tested at the same time in one test due to work efficiency.

In this case, the electric water pump 10 to test the portion located in the constant temperature chamber 110 of the thermal shock test unit 100 of the cooling water inlet pipe 430 and the cooling water outlet pipe 440 constituting the cooling water supply unit 400. The number of branches is configured to be provided, and the operation control unit 200 may be configured to interlock so as to control each electric water pump 10, respectively.

As such, the present invention is a useful invention that can be modified in various forms.

10. Electric water pump 100. Thermal shock test part
110. Constant temperature chamber 120. Inner wall
130. Door 151. High temperature air inlet
152. Low Temperature Air Inlets 160. Air Outlets
171,172,173. Electronic control valve 200. Operation control
210. Signal line 300. Cold and hot air selector
310. Heating section 320. High temperature air tank
330. Freezer 340. Low temperature air tank
350. Control unit for cold and hot air heater 400. Cooling water supply
410. Load control module 420. Heater
430. Chilled water inlet 440. Chilled water outlet
500. Monitoring Department

Claims (5)

An air inlet and an air outlet, respectively, and a thermal shock test unit configured to provide a closed space for testing the electric water pump;
An operation control unit provided separately from the thermal shock test unit and providing a signal for operation control by an electric water pump positioned in a closed space of the thermal shock test unit;
A cold / hot air selector supplying the high temperature air or the low temperature of the thermal shock test part by selectively supplying high temperature air or low temperature air to the air inlet;
And a coolant supply unit for supplying coolant to the electric water pump in the thermal shock test unit. The method of claim 1,
The operation control unit is a test device for an electric water pump, characterized in that made to directly control the operation of the electric water pump through the CAN communication. The method of claim 1,
The air inlet provided in the thermal shock test unit includes an air inlet for high temperature air and an air inlet for low temperature air, and each of the air inlets is provided with an electronic control valve.
The cold and hot air selection supply unit
A high temperature air tank for storing the air heated by the heating unit and supplying the stored heated air to the air inlet for the high temperature air by selective control;
A low temperature air tank for storing the cooled air by the freezing unit and supplying the stored cooled air to the air inlet for low temperature air by selective control;
And a control unit for a cold / hot air control unit for controlling the temperature of the heating unit and the freezing unit and the operation of the electronic control valve of each air inlet. The method of claim 1,
The cooling water supply unit
A load control module for controlling a load of cooling water supplied to the electric water pump;
The apparatus for an electric water pump comprising a heater for heating the cooling water supplied by the load control module while being capable of temperature control. The method of claim 1,
For the electric water pump further comprises a monitoring unit for receiving and providing the temperature in the thermal shock test unit, the control state of the operation control unit, the control state of the cold / hot air selector supply unit and the control state of the cooling water supply unit. Test equipment.

Images