KR102269918B1 - Oil cooler apparatus for transmission test - Google Patents

Abstract

An invention for an oil cooler device for transmission testing is disclosed. The disclosed oil cooler device for transmission test includes: an oil cooler case unit through which coolant supplied from a cooling water supply unit is introduced or discharged, a plurality of oil cooler case units are mounted in contact with the cooling water, and any one of the plurality is connected to the transmission. It includes a cooler part, and at least one of the plurality of oil cooler parts is characterized in that it has a different volume.

Description

Oil cooler device for transmission test {OIL COOLER APPARATUS FOR TRANSMISSION TEST}

The present invention relates to an oil cooler device for testing a transmission, and more particularly, to an oil cooler device for testing a transmission capable of easily cooling oil in response to various types of transmission.

BACKGROUND ART In general, a transmission is a device that converts and transmits power generated from various engines into rotational force required according to speed, and as transmission technology develops, various types of transmissions such as multi-stage and light-weight transmission have been developed. The transmission uses different types of oil according to the specifications, and the vehicle uses different types of oil coolers according to the type of oil in the transmission to cool and circulate the oil. However, when testing the performance of various transmissions, each time the specifications and oil types of the transmission are changed, one test oil cooler device must be washed and used, so it takes a long time to test, and is cumbersome and difficult. Therefore, there is a need to improve it.

Background art for the present invention is disclosed in Republic of Korea Patent Publication No. 10-0264111 (title of the invention: automatic transmission test apparatus for a vehicle, registration date: 2000.05.25.).

An object of the present invention is to provide an oil cooler apparatus for a transmission test that can easily cool oil in response to various types of transmissions, which was created by the above necessity.

In order to achieve the above object, an oil cooler apparatus for a transmission test of the present invention includes: an oil cooler case unit through which cooling water supplied from a cooling water supply unit is introduced or discharged; and a plurality of oil cooler parts mounted on the oil cooler case part to be in contact with the coolant, any one of which is connected to a transmission, wherein at least one of the plurality of oil cooler parts has a different volume. characterized.

In addition, a different type of oil is introduced into at least one of the plurality of oil cooler units.

The oil cooler case unit may include: an oil cooler case body to which a plurality of the oil cooler units are mounted to be spaced apart from each other; a supply pipe part connected to the coolant supply part and supplying the coolant supplied from the coolant supply part to the oil cooler case body; and a discharge pipe part connected to the oil cooler case body and discharging the coolant from the oil cooler case body to the outside.

In addition, it is mounted on the oil cooler, a temperature sensor for measuring the temperature of the oil; and a control unit for controlling the opening and closing of the supply valve of the supply pipe part and the discharge valve of the discharge pipe part based on the measured temperature information transmitted from the temperature sensor part.

The oil cooler unit may include an oil cooler body disposed inside the oil cooler case unit; an inlet pipe part connected to the oil cooler body and through which oil is introduced from the transmission; and a discharge pipe part connected to the oil cooler body and discharging oil from the oil cooler body to the transmission, wherein the temperature sensor unit is mounted on at least one of the inlet pipe part and the discharge pipe part characterized.

The temperature sensor unit may include: a first temperature sensor mounted on the inlet pipe part and measuring the temperature of oil flowing into the inlet pipe part; and a second temperature sensor mounted on the discharge pipe unit and configured to measure the temperature of the oil discharged from the discharge pipe unit.

In addition, it characterized in that it further comprises a; support for supporting the oil cooler case part.

In addition, it characterized in that it further comprises; a wheel part rotatably mounted to the support part.

In addition, it is characterized in that it further includes; a display unit provided on each of the plurality of oil cooler parts, each of the plurality of oil cooler parts distinguishable.

The oil cooler device for a transmission test according to the present invention has an effect of easily cooling oil in response to various types of transmissions through a plurality of oil cooler units into which different types of oil are introduced.

In addition, the present invention selects any one of a plurality of oil cooler parts according to the type of transmission and connects to the transmission to cool the oil, so that the test of the transmission is simplified, the test time is shortened, and the performance of the transmission can be easily tested. It works.

In addition, the present invention has the effect of accurately measuring the temperature of the oil through the temperature sensor unit mounted on the oil cooler.

In addition, the present invention adjusts the temperature of the oil according to the situation through the control unit that controls the opening and closing of the supply valve of the supply pipe part and the discharge valve of the discharge pipe part based on the measured temperature information transmitted from the temperature sensor part, so that the temperature of the oil is suddenly increased. It has the effect of preventing it from rising too much.

In addition, the present invention has the effect of being able to easily move the oil cooler case part and the support part to a desired place through the wheel part.

In addition, the present invention has the effect of being able to use the oil cooler unit separately through the display unit.

1 is a view schematically showing an oil cooler device for a transmission test according to an embodiment of the present invention.
2 is a perspective view of an oil cooler device for a transmission test according to an embodiment of the present invention.
3 is a view showing an oil cooler unit of an oil cooler device for a transmission test according to an embodiment of the present invention.
4 is a side view of an oil cooler device for a transmission test according to an embodiment of the present invention.
5 is a plan view of an oil cooler device for a transmission test according to an embodiment of the present invention.

Hereinafter, an oil cooler device for a transmission test according to an embodiment of the present invention will be described with reference to the accompanying drawings.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a view schematically showing an oil cooler apparatus for a transmission test according to an embodiment of the present invention, FIG. 2 is a perspective view of an oil cooler apparatus for a transmission test according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention It is a view showing an oil cooler part of the oil cooler device for a transmission test according to an embodiment, FIG. 4 is a side view of the oil cooler device for a transmission test according to an embodiment of the present invention, and FIG. 5 is a transmission test according to an embodiment of the present invention It is a plan view of the oil cooler device.

1 to 3, the oil cooler device 1 for a transmission test according to an embodiment of the present invention includes an oil cooler case unit 100, an oil cooler unit 200, a temperature sensor unit 300, and a control unit ( 400). In the oil cooler case unit 100 , cooling water supplied from the cooling water supply unit 10 is introduced or discharged. Cooling water supplied from the cooling water supply unit 10 flows into the inner space (not shown) of the oil cooler case unit 100 , and is discharged through the inner space of the oil cooler case unit 100 .

A plurality of oil cooler units 200 are mounted in the oil cooler case unit 100 so as to be in contact with the coolant, different types of oil (ATF: Automatic Transmission Fluid) are introduced respectively, and any one of the plurality is connected to the transmission 20 ) is connected to The oil cooler unit 200 is disposed in a line to be spaced apart from the oil cooler case unit 100 . At this time, the oil cooler unit 200 is connected to the transmission 20 through the connection pipe 800 . The connection pipe 800 is a tube pipe made of a flexible material.

A different type of oil is introduced into at least one of the plurality of oil cooler units 200 . Specifically, there are various types of the transmission 20 , and the oil used may be different depending on the type of the transmission 20 . For example, the oil used varies depending on whether the transmission 20 is a rear-wheel transmission, a front-wheel transmission, or a continuously variable transmission. Accordingly, the oil cooler unit 200 into which the same type of oil as that of the transmission 20 is introduced among the plurality of oil cooler units 200 is connected to the transmission 20 .

The oil cooler device 1 for a transmission test according to the present invention may select any one of the plurality of oil cooler units 200 according to the type of the transmission 20 and connect it to the transmission 20 to cool the oil. Through this, the test of the transmission 20 is simplified and the test time can be shortened.

At least one of the plurality of oil cooler units 200 has a different volume. Specifically, the volume of the oil cooler unit 200 varies according to various transmissions 20 . For example, the size of the transmission 20 may vary depending on whether the vehicle is small, medium, or large, and the oil cooler unit 200 may also have a different size, that is, a volume.

For example, when the transmission 20 is a rear-wheel transmission of a small vehicle, it can be tested by connecting it to the oil cooler unit 200 having a length of L1 and having a display unit 700 of A-1. In addition, when the transmission 20 is a front-wheel transmission of a small vehicle, it can be tested by connecting it to the oil cooler unit 200 having a length of L1 and having a display unit 700 of A-2. In this case, different oils may be introduced into the oil cooler unit 200 provided with the display unit 700 of A-1 and the oil cooler unit 200 provided with the display unit 700 of A-2.

As another example, when the transmission 20 is a rear wheel transmission of a medium-sized vehicle, it can be tested by connecting it to the oil cooler unit 200 having a length of L2 and having a display unit 700 of B-1. In addition, when the transmission 20 is a front-wheel transmission of a medium-sized vehicle, it can be tested by connecting it to the oil cooler unit 200 having a length of L2 and having a display unit 700 of B-2. In this case, different oils may be introduced into the oil cooler unit 200 provided with the display unit 700 of B-1 and the oil cooler unit 200 provided with the display unit 700 of B-2. In addition, the L2 length of the oil cooler unit 200 provided with the display unit 700 of B-1 or the display unit 700 of B-2 is the display unit 700 of A-1 or the display unit 700 of A-2. It is larger than the L1 length of the provided oil cooler unit 200 , which corresponds to the length of the oil cooler unit 200 , that is, the volume of the oil cooler unit 200 , as the automobile changes from small to medium size.

As another example, when the transmission 20 is a rear wheel transmission of a large vehicle, it can be tested by connecting it to the oil cooler unit 200 having a length of L3 and having a display unit 700 of C-1. In addition, when the transmission 20 is a front-wheel transmission of a large vehicle, it can be tested by connecting to the oil cooler unit 200 having a length of L3 and having a display unit 700 of C-2. In this case, different oils may be introduced into the oil cooler unit 200 provided with the display unit 700 of C-1 and the oil cooler unit 200 provided with the display unit 700 of C-2. In addition, the L3 length of the oil cooler unit 200 provided with the display unit 700 of C-1 or the display unit 700 of C-2 is the display unit 700 of B-1 or the display unit 700 of B-2. It is larger than the L2 length of the provided oil cooler unit 200, which corresponds to the increase in the length of the oil cooler unit 200 as the vehicle changes from medium to large.

The oil cooler case unit 100 includes an oil cooler case body 110 , a supply pipe unit 120 , and a discharge pipe unit 130 . The oil cooler case body 110 is mounted with a plurality of oil cooler units 200 spaced apart from each other. At this time, the oil cooler unit 200 is in contact with the cooling water when the cooling water is supplied to the oil cooler case body 110 . The supply pipe unit 120 is connected to the cooling water supply unit 10 , and supplies the cooling water supplied from the cooling water supply unit 10 to the oil cooler case body 110 . The discharge pipe 130 is connected to the oil cooler case body 110 , and discharges the coolant from the oil cooler case body 110 to the outside.

The temperature sensor unit 300 is mounted on the oil cooler unit 200 and measures the temperature of the oil. The control unit 400 controls opening and closing of the supply valve 121 of the supply pipe unit 120 and the discharge valve 131 of the discharge pipe unit 130 based on the measured temperature information received from the temperature sensor unit 300 . Specifically, the temperature sensor unit 300 measures the temperature of the oil in the oil cooler unit 200 and transmits the measured temperature information to the control unit 400 . The control unit 400 controls the opening and closing of the supply valve 121 of the supply pipe unit 120 and the discharge valve 131 of the discharge pipe unit 130 based on the received measured temperature information to pass through the oil cooler unit 200 . Adjust the oil temperature. For this reason, it is possible to prevent a sudden increase in the temperature of the oil by adjusting the temperature of the oil according to the situation.

The oil cooler unit 200 includes an oil cooler body 210 , an inlet pipe unit 220 , and an exhaust pipe unit 230 . The oil cooler body 210 is disposed inside the oil cooler case unit 100 . The oil cooler body 210 may be in contact with the coolant passing through the oil cooler case unit 100 . The oil cooler body 210 has a tubular shape, and an inlet pipe part 220 is connected to one end in a vertical direction, and a discharge pipe part 230 is connected to the other end in a vertical direction (see FIGS. 2 to 5 ).

The inlet pipe 220 is connected to the oil cooler body 210 , and oil is introduced from the transmission 20 . The inlet pipe 220 is connected to one end of the oil cooler body 210 , and the oil introduced from the transmission 20 is transferred to the oil cooler body 210 .

The discharge pipe 230 is connected to the oil cooler body 210 , and oil is discharged from the oil cooler body 210 to the transmission 20 . The discharge pipe 230 is connected to the other end of the oil cooler body 210 , and the oil passing through the oil cooler body 210 is discharged to the transmission 20 . At this time, since the oil circulates between the transmission 20 and the oil cooler unit 200 , the oil can be reused.

The connector 800 includes a first connector 810 and a second connector 820 . The first connection pipe 810 is disposed between the inlet pipe 220 and the discharge pipe (not shown) of the transmission 20 to connect the inflow pipe 220 and the discharge pipe of the transmission 20 . The second connecting pipe 820 is disposed between the discharge pipe 230 and the inlet pipe (not shown) of the transmission 20 to connect the discharge pipe 230 and the inlet pipe of the transmission 20 .

The temperature sensor unit 300 is mounted on at least one of the inlet pipe 220 and the outlet pipe 230 . Accordingly, if necessary based on the temperature of the oil flowing into the oil cooler unit 200 from the transmission 20 through the temperature sensor unit 300 and the temperature of the oil discharged from the oil cooler unit 200 into the transmission 20 . By cooling the oil cooler unit 200 with cooling water, the temperature of the oil may be adjusted.

The temperature sensor unit 300 includes a first temperature sensor 310 and a second temperature sensor 320 . The first temperature sensor 310 is mounted on the inlet pipe 220 and measures the temperature of oil flowing into the inlet pipe 220 . The second temperature sensor 320 is mounted on the discharge pipe unit 230 and measures the temperature of the oil discharged from the discharge pipe unit 230 .

The oil cooler device 1 for a transmission test further includes a support part 500 and a wheel part 600 . The support part 500 supports the oil cooler case part 100 . The support part 500 may be connected to the lower part of the oil cooler case body 110 of the oil cooler case part 100 with a plurality of legs to support the oil cooler case part 100 .

The wheel part 600 is rotatably mounted on the support part 500 . The wheel part 600 includes a wheel 610 and a wheel fixing part 620 . The wheel 610 is rotatably mounted on the support 500 . Through this, the oil cooler case part 100 and the support part 500 can be moved to a desired place when necessary.

The wheel fixing part 620 is mounted on the wheel 610 and blocks the rotation of the wheel 610 . Accordingly, after the oil cooler case part 100 and the support part 500 are moved, it can be fixed at a desired place.

The oil cooler device 1 for transmission test further includes a display unit 700 . The display unit 700 is provided on each of the plurality of oil cooler units 200 , and makes it possible to distinguish the plurality of oil cooler units 200 from each other. The display unit 700 may be mounted on at least one of the inlet pipe unit 220 and the discharge pipe unit 230 of the oil cooler unit 200 . The display unit 700 may be provided with a mark capable of displaying letters, numbers, symbols, etc. to distinguish each of the plurality of oil cooler units 200 , and may be identified by color.

In the present invention, the display unit 700 is a separate member having a mark and is illustrated as being mounted on at least one of the inlet pipe unit 220 and the discharge pipe unit 230 of the oil cooler unit 200, but this is not limited. It may be directly formed on at least one of the inlet pipe part 220 and the discharge pipe part 230 of the oil cooler part 200 by a mark or color. As a result, the operator can easily identify and separate the plurality of oil cooler units 200 , respectively, and maintain, manage, and repair the oil cooler unit 200 more conveniently and efficiently.

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely exemplary, and it is understood that various modifications and equivalent other embodiments are possible by those of ordinary skill in the art. will understand

Accordingly, the true technical protection scope of the present invention should be defined by the following claims.

1: oil cooler device for transmission test 10: coolant supply part
20: Transmission 100: Oil cooler case part
110: oil cooler case body 120: supply pipe part
130: discharge pipe part 200: oil cooler part
210: oil cooler body 220: inlet pipe part
220: discharge piping unit 300: temperature sensor unit
310: first temperature sensor 320: second temperature sensor
400: control unit 500: support unit
600: wheel 610: wheel
620: wheel fixing part 700: display part
800: connector 810: first connector
820: second connector

Claims (9)

an oil cooler case unit through which the cooling water supplied from the cooling water supply unit is introduced or discharged; and
A plurality of oil cooler units are mounted on the oil cooler case unit so as to be in contact with the coolant, and any one of the plurality is connected to the transmission; and
At least one of the plurality of oil cooler parts has a different volume.
The method of claim 1,
An oil cooler device for a transmission test, characterized in that a different type of oil flows into at least one of the plurality of oil cooler parts.
The method of claim 1,
The oil cooler case part,
an oil cooler case body in which a plurality of the oil cooler units are mounted to be spaced apart;
a supply pipe part connected to the coolant supply part and supplying the coolant supplied from the coolant supply part to the oil cooler case body; and
and a discharge pipe part connected to the oil cooler case body and discharging the coolant from the oil cooler case body to the outside.
4. The method of claim 3,
a temperature sensor unit mounted on the oil cooler unit and measuring the temperature of the oil; and
and a control unit for controlling the opening and closing of the supply valve of the supply pipe part and the discharge valve of the discharge pipe part based on the measured temperature information transmitted from the temperature sensor part.
5. The method of claim 4,
The oil cooler unit,
an oil cooler body disposed inside the oil cooler case part;
an inlet pipe part connected to the oil cooler body and through which oil is introduced from the transmission; and
a discharge pipe part connected to the oil cooler body and discharging oil from the oil cooler body to the transmission;
The oil cooler device for transmission test, characterized in that the temperature sensor unit is mounted on at least one of the inlet pipe part and the discharge pipe part.
6. The method of claim 5,
The temperature sensor unit,
a first temperature sensor mounted on the inlet pipe and measuring a temperature of oil flowing into the inlet pipe; and
and a second temperature sensor mounted on the discharge pipe and measuring the temperature of the oil discharged from the discharge pipe.
The method of claim 1,
The oil cooler device for the transmission test, characterized in that it further comprises; a support part for supporting the oil cooler case part.
8. The method of claim 7,
The oil cooler device for transmission test, characterized in that it further comprises; a wheel part rotatably mounted to the support part.
The method of claim 1,
The oil cooler device for transmission test according to claim 1, further comprising: a display unit provided on each of the plurality of oil cooler units, and configured to distinguish the plurality of oil cooler units from each other.

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