KR102159603B1 - Oil leakage preventing apparatus for fluid pressure check port of auto transmission - Google Patents

Abstract

The present invention relates to a hydraulic check port leakage preventing device of an automatic transmission, formed in a housing of an automatic transmission, a hydraulic check port to which a hydraulic test device for testing the hydraulic pressure inside the housing is connected, and a leak prevention device inserted into the hydraulic check port It is characterized in that it comprises a ball and a ball seating bush that is installed in the hydraulic check port, the leak prevention ball is seated by its own weight, and seals the hydraulic check port.

Description

Oil leak prevention device for hydraulic check port of automatic transmission {OIL LEAKAGE PREVENTING APPARATUS FOR FLUID PRESSURE CHECK PORT OF AUTO TRANSMISSION}

The present invention relates to a hydraulic check port leakage prevention apparatus of an automatic transmission, and more particularly, to a hydraulic check port leakage prevention apparatus of an automatic transmission for preventing oil leakage through a hydraulic check port formed in an automatic transmission.

In general, automatic transmissions such as AT (Auto Transmission), CVT (Continuously Variable Transmission), and wet DCT (Double Clutch Transmission) operate a shift mechanism using a hydraulic device. The automatic transmission is provided with a hydraulic test check port to check whether a hydraulic system including such a hydraulic device is operating normally.

After the assembly of the automatic transmission is completed, hydraulic oil (ATF, Automatic Transmission Fluid) is supplied to check normal operation, and a hydraulic test is conducted to measure the hydraulic pressure inside the housing through the hydraulic check port. It proceeds without being fastened to the check port. When the hydraulic check port is formed in the lower part of the housing, hydraulic oil may flow out through the check port while moving to fasten the check plug after completing the hydraulic test as described above.

When a large amount of hydraulic oil flows out through the hydraulic check port, not only does the work space become contaminated, but there is also a problem that an additional cumbersome process of checking the leakage or remaining amount of hydraulic oil, refueling and replenishing the inside of the housing is required. have. In addition, there is a problem in that the amount of hydraulic oil replenishment must be individually determined and determined for each automatic transmission because the amount of leakage oil is different for each automatic transmission, so that batch processing is impossible.

The background technology of the present invention is disclosed in Korean Patent Registration No. 0117832 (registered on July 8, 1997, title of the invention: check port for measuring line oil pressure of a vehicle automatic transmission).

An object of the present invention is to provide a hydraulic check port leakage prevention device of an automatic transmission capable of preventing oil leakage through the hydraulic check port of an automatic transmission.

The hydraulic check port leakage preventing device of an automatic transmission according to the present invention comprises: a hydraulic check port formed in a housing of the automatic transmission and connected to a hydraulic test device for testing hydraulic pressure inside the housing; A leak prevention ball inserted into the hydraulic check port; And a ball seating bush installed at the hydraulic check port, the leak preventing ball seated by its own weight, and sealing the hydraulic check port.

The hydraulic check port may include a lower vertical extension portion having a lower portion open and extending upward; A ball receiving portion formed on the lower vertical extension portion and receiving the leak-preventing ball; An upper vertical extension part formed to be in communication with the top of the ball receiving part and formed to extend upward; And a horizontal extension portion formed to extend laterally on the upper vertical extension portion.

The ball receiving part may include a ball receiving space formed between the lower vertical extension part and the upper vertical extension part to have a length longer than the diameter of the leak prevention ball and accommodate the leak prevention ball therein; And a bush installation portion formed under the ball receiving space portion and into which the ball seating bush is pressed.

The lower vertical extension portion has a first diameter (D1), the ball receiving portion has a second diameter (D2, D2 <D1) smaller than the first diameter (D1), the upper vertical extension portion, the first Having a third diameter (D3, D3 <D2) smaller than the second diameter (D2), the leak prevention ball is smaller than the second diameter (D2) and larger than the third diameter (D3), the fourth diameter (D4, It is characterized by having D3<D4<D2).

The ball seating bush has a cylindrical shape, and a port coupling portion press-fitted into the hydraulic check port; And a blocking jaw portion formed on the upper portion of the port coupling portion, wherein the leak prevention ball is seated by its own weight, and restricts downward movement of the leak prevention ball.

The hydraulic test device may include a masking jig part connected to the housing and blocking an open part of the hydraulic check port; A flow path securing jig portion connected to the masking jig portion, introduced into the hydraulic check port, pushing the leak prevention ball upwards, and spaced from the ball seating bush; And a tester body part for testing the hydraulic pressure inside the housing through the hydraulic check port opened by the flow path securing jig part.

In the hydraulic check port leakage preventing device of an automatic transmission according to the present invention, since the leak prevention ball accommodated in the hydraulic check port closes the hydraulic check port by its own weight, after testing the hydraulic pressure inside the housing through the hydraulic check port It is possible to prevent fluid from leaking through the hydraulic check port without fastening the check plug to the hydraulic check port.

Therefore, according to the present invention, it is possible to minimize the amount of leakage of hydraulic oil through the hydraulic check port, thereby solving the contamination of the work space as a large amount of hydraulic oil flows out through the hydraulic check port, thereby creating a comfortable working environment. I can.

In addition, according to the present invention, the cumbersome process of replenishing the hydraulic oil inside the housing after checking the amount of leakage or remaining amount of hydraulic oil, and the amount of leakage for each automatic transmission is different from each other, making it impossible to collectively process the hydraulic oil individually for each automatic transmission. The cumbersome process of determining and determining the amount can be omitted, thereby improving the ease of manufacturing the automatic transmission and shortening the cycle time.

1 is a perspective view schematically showing an automatic transmission to which a hydraulic check port leakage prevention device of an automatic transmission according to an embodiment of the present invention is applied.
FIG. 2 is a schematic cross-sectional view of an automatic transmission to which a hydraulic check port oil leakage prevention device of an automatic transmission according to an embodiment of the present invention is applied in the section A-A′ of FIG. 1.
3 is an enlarged view of a main part of FIG. 2.
4 is a conceptual diagram illustrating a process of testing the hydraulic pressure inside the housing through the hydraulic check port leakage preventing device of the automatic transmission according to an embodiment of the present invention.

With reference to the accompanying drawings will be described an embodiment of a hydraulic check port leakage preventing device of the automatic transmission according to the present invention. In this process, thicknesses of lines or sizes of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

1 is a perspective view schematically showing an automatic transmission to which a hydraulic check port leakage prevention device of an automatic transmission according to an embodiment of the present invention is applied, and FIG. 2 is an embodiment of the present invention in section A-A' of FIG. It is a cross-sectional view schematically showing a main part of an automatic transmission to which the hydraulic check port leakage prevention device of the automatic transmission according to the example is applied.

Referring to Figures 1 and 2, the hydraulic check port 10 of the automatic transmission 1 according to an embodiment of the present invention, the oil leakage prevention device 2 is a hydraulic check port 10, a leak prevention ball 20, It includes a ball seating bush (30) and a check plug (50).

The hydraulic check port 10 is formed to open downward in the lower portion of the housing 3 of the automatic transmission 1. The hydraulic check port 10 is formed to extend from the outer surface of the housing 3 to the inner surface of the housing 3 across the housing 3 in the thickness direction. The hydraulic test device 4 measures the hydraulic pressure inside the housing 3 through the hydraulic check port 10 in a state connected to the open part 12 of the hydraulic check port 10 (see FIG. 4).

The leak prevention ball 20 has a spherical shape and is inserted into the hydraulic check port 10, and is seated on the ball seating bush 30 to seal the hydraulic check port 10. As the leak prevention ball 20 is seated or spaced apart from the ball seating bush 30, the hydraulic check port 10 is closed or opened.

Here, the opening of the hydraulic check port 10 means a state in which fluids such as hydraulic oil and air can pass through the hydraulic check port 10, and that the hydraulic check port 10 is closed means that the hydraulic check port 10 It means a state in which the flow of fluid into and out of the housing 3 is blocked. The leak prevention ball 20 may be made of a metal material such as steel, and the housing 3 may be made of a metal material such as aluminum.

The ball seating bush (30) is a device in which the leak prevention ball (20) is seated by its own weight, has a width corresponding to the diameter of the hydraulic check port (10), and is press-fit into the middle part of the extension direction of the hydraulic check port (10). do. The leak-preventing ball 20, which is lined into the interior of the hydraulic check port 10, is seated on the ball seating bush 30 by its own weight and seals the hydraulic check port 10.

The check plug 50 is a device that forms the plug of the hydraulic check port 10 and is fastened to the opening 12 of the hydraulic check port 10. A plug tab (not shown) into which the check plug 50 can be screwed is formed on the inner surface of the open part 12 in the shape of a female thread, and the circumference of the check plug 50 can be screwed to the plug tab. Male threads can be formed. In the state where the check plug 50 is separated from the hydraulic check port 10, a hydraulic test may be performed through the hydraulic check port 10.

3 is an enlarged view of a main part of FIG. 2.

2 and 3, the hydraulic check port 10 according to an embodiment of the present invention includes a lower vertical extension part 11, a ball receiving part 13, an upper vertical extension part 16, and a horizontal extension part ( 17).

The lower vertical extension part 11 is a device part forming one end of the hydraulic check port 10 in contact with the outer surface of the housing 3, and is formed to be open at the lower part and extend upward. The lower vertical extension 11 has a circular cross-sectional shape and is formed to extend upward in a straight line, an open portion 12 is formed in the lower portion, and the upper portion is connected to the ball receiving portion 13.

The ball receiving portion 13 is a device portion in which the leak prevention ball 20 is accommodated, and is formed on the upper portion of the lower vertical extension portion 11. Referring to FIG. 3, the ball receiving part 13 according to an embodiment of the present invention includes a ball receiving space part 14 and a bush installation part 15.

The ball receiving space 14 is a device unit in which the leak prevention ball 20 is accommodated, and is formed in a width smaller than that of the lower vertical extension 11 between the lower vertical extension 11 and the upper vertical extension 16 do. The lower vertical extension part 11 has a first diameter D1, and the ball receiving part 13 has a second diameter D2, D2 <D1, which is smaller than the first diameter D1. For example, the lower vertical extension portion 11 has a diameter of 7 mm, and the ball receiving portion 13 has a diameter of 6 mm.

In addition, the ball receiving space 14 extends to a length longer than the diameter of the leak prevention ball 20. Accordingly, the leak-preventing ball 20 is pushed against the flow path securing jig 42 of the hydraulic test device 4 by an external force in the state of being accommodated and seated in the ball receiving space 14 to seat the ball It can be moved upward away from the bush (30).

The bush installation part 15 is a device to which the ball seating bush 30 is press-fit, and is formed on the lower circumference of the ball receiving space 14. The ball seating bush 30 has a cylindrical shape and is press-fitted into the bush mounting portion 15. The ball seating bush 30 has an outer diameter that is larger than the inner diameter of the bush mounting portion 15 by a set size, and is inserted into the ball receiving space 14 to be pressure-welded and fixed with the bush mounting portion 15. When the bush installation part 15 has a diameter of 6 mm, the ball seating bush 30 has a diameter of 6.5 mm and is fitted inside the ball receiving space 14 to be pressure-bonded and fixed with the bush installation part 15. .

A locking projection is formed at the boundary between the lower vertical extension part 11 and the ball receiving part 13. Accordingly, by using a tool that is smaller than the lower vertical extension portion 11 and having a diameter larger than the ball receiving portion 13, the ball seating bush 30 is pressed into the ball receiving portion 13, and the ball seating bush 30 Can be positioned reliably in the correct position. In this case, the lower end of the ball seating bush 30 is positioned to correspond to the boundary between the lower vertical extension 11 and the ball receiving section 13, that is, the upper end of the lower vertical extension 11.

The upper vertical extension part 16 is formed to be in communication with the upper part of the ball receiving part 13 and is formed to extend upward. That is, the ball receiving portion 13 is formed in an intermediate portion between the lower vertical extension portion 11 and the upper vertical extension portion 16, that is, on the vertical extension portion of the hydraulic check port 10. Accordingly, the leak prevention ball 20 accommodated in the ball receiving portion 13 can be reliably seated in a correct position on the hydraulic check port 10 by its own weight.

The horizontal extension part 17 is a device part forming the other end of the hydraulic check port 10 in contact with the inner surface of the housing 3, and is formed to extend in the lateral direction above the upper vertical extension part 16. Accordingly, fluid injection into the interior of the housing 3 can be stably performed without leakage up to a water level corresponding to the upper portion of the upper vertical extension unit 16.

In addition, conventionally, the hydraulic test device 4 is separated from the housing 3 and then the hydraulic check port 10 is closed with the check plug 50, so that the horizontal extension part of the fluid injected into the housing 3 is (17) The fluid located above the hydraulic check port 10 flows into the inside of the hydraulic check port 10 and flows out of the housing 3, but according to the present invention, the hydraulic check port 10 through the horizontal extension part 17 Even if the fluid flows into the interior, the leakage is blocked by the leak prevention ball 20.

The lower vertical extension part 11 has a first diameter (D1), the ball receiving part 13 has a second diameter (D2, D2 <D1) smaller than the first diameter (D1), and the upper vertical extension part 16 ) Has a third diameter (D3, D3 <D2) smaller than the second diameter (D2). That is, the hydraulic check port 10 has a shape whose width gradually decreases toward the inside of the housing 3.

At this time, the leak prevention ball 20 has a fourth diameter (D4, D3 <D4 <D2) smaller than the second diameter (D2) and larger than the third diameter (D3). For example, the lower vertical extension part 11 may have a diameter of 7 mm, the ball receiving part 13 may have a diameter of 6 mm, the upper vertical extension part 16 may have a diameter of 5 mm, and the leak prevention ball 20 is 5.5 It has a diameter of mm, and can be introduced into the interior of the ball receiving portion 13 through the lower vertical extension (11).

Referring to FIG. 3, the ball seating bush 30 according to an embodiment of the present invention includes a port coupling part 31 and a blocking protrusion part 32.

The port coupling part 31 is a device part corresponding to the body part of the ball seating bush 30, has a cylindrical shape, and is inserted and pressed into the ball receiving part 13 through the lower vertical extension part 11. The ball seating bush 30 has a diameter larger than that of the ball receiving portion 13 and is fitted into the ball receiving space 14 to be pressure-welded and fixed with the bush installation portion 15.

For example, when the ball receiving part 13 has a diameter of 6 mm and the leak prevention ball 20 has a diameter of 5.5 mm, the ball seating bush 30 has a diameter of 6.5 mm and a thickness of 1 mm. It can be press-fit into the inside of the welding part (13). In a state pressed into the ball receiving portion 13, the inner diameter of the ball seating bush 30 is 5 mm. The leak-preventing ball 20 having a diameter of 5.5 mm is caught on the upper end of the ball seating bush 30 and the lower end of the upper vertical extension part 16, respectively, and their downward movement and upward movement are restricted.

The outer circumferential portion of the upper end of the port coupling portion 31 may have a shape of a curved or inclined surface whose width becomes narrower toward the upper side. As the upper end portion of the port coupling portion 31 has a shape that narrows the width toward the upper side as described above, it is possible to more easily enter the ball receiving portion 13 from the lower vertical extension portion 11 side, and thus Assembling properties can be further improved.

The blocking jaw portion 32 is a device portion in which the leak prevention ball 20 is seated by its own weight, and is formed to be stepped in a'A' shape to a'T' shape on the upper portion of the port coupling portion 31. The blocking jaw portion 32 may have a sharp corner shape, but may have a rounded shape or an inclined shape so that the width gradually narrows toward the lower side in order to prevent damage to the leak prevention ball 20.

In addition, the blocking jaw portion 32 is corresponding to the lower portion of the leakage prevention ball 20 in contact with the blocking jaw portion 32 among the surfaces of the leakage prevention ball 20 so that the surface contact with the leak prevention ball 20 stably It may be formed concave in shape. As described above, if the blocking jaw portion 32 is formed in a shape that gradually narrows in width toward the lower side, the leak prevention ball 20 can be more stably seated on the blocking jaw portion 32, and is subjected to arbitrary external force and vibration. The lateral flow can be constrained more stably.

4 is a conceptual diagram illustrating a process of testing the hydraulic pressure inside the housing through the hydraulic check port leakage preventing device of an automatic transmission according to an embodiment of the present invention.

4, the hydraulic test device 4 for testing the hydraulic pressure inside the automatic transmission 1 to which the hydraulic check port leakage preventing device 2 of the automatic transmission 1 according to an embodiment of the present invention is applied is , A masking jig portion 41, a flow path securing jig portion 42, and a tester body portion 43.

The masking jig part 41 is a hydraulic check port 10 so that the hydraulic pressure formed inside the housing 3 can be clearly transmitted to the tester body 43 to prevent loss of hydraulic pressure inside the housing 3. It is connected to the outer surface of the housing 3 while blocking the opening 12 of ). The flow path securing jig portion 42 is formed to protrude toward the hydraulic check port 10 at a position corresponding to the hydraulic check port 10 of the masking jig portion 41.

The passage securing jig portion 42 has a length that is longer than the lower vertical extension portion 11. Accordingly, when the masking jig part 41 is in close contact with the housing 3 and the opening part 12, the flow path securing jig part 42 is brought into the inside of the hydraulic check port 10, and the leak prevention ball 20 Push it upwards. The leak prevention ball 20 is pushed by the flow path securing jig portion 42 and is separated from the ball seating bush 30, and the hydraulic check port 10 is opened.

The tester body 43 is a device that forms the body of the hydraulic test device 4, and checks and tests the hydraulic pressure inside the housing 3 through the hydraulic check port 10 opened by the flow path securing jig part 42. do. The tester body 43 is not limited to a specific structure and shape, including known techniques, as long as it can measure the hydraulic pressure, and thus a detailed description of the structure and operation will be omitted.

According to the hydraulic check port leakage preventing device 2 of the automatic transmission 1 according to the present invention having the above configuration, the leak prevention ball 20 accommodated in the hydraulic check port 10 is hydraulically checked by its own weight. Since the port 10 is sealed, after testing the hydraulic pressure inside the housing 3 through the hydraulic check port 10, the hydraulic check port (with the check plug 50 not fastened to the hydraulic check port 10) ( 10) can prevent fluid leakage.

Therefore, according to the present invention, it is possible to minimize the amount of leakage of hydraulic oil through the hydraulic check port 10, and it is possible to solve the problem that the work space is contaminated as a large amount of hydraulic oil flows out through the hydraulic check port 10. You can create a comfortable working environment.

In addition, according to the present invention, the cumbersome process of replenishing the hydraulic oil inside the housing 3 after checking the amount of leakage or remaining amount of hydraulic oil, and the automatic transmission 1 differs from each other, so that batch processing is impossible. The cumbersome process of determining and determining the amount of hydraulic oil supplemented individually for each transmission 1 can be omitted. Accordingly, the ease of manufacturing the automatic transmission 1 can be improved, and the cycle time can be further shortened.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is only illustrative, and those of ordinary skill in the field to which the technology pertains, various modifications and other equivalent embodiments are possible. I will understand. Therefore, the true technical protection scope of the present invention should be determined by the following claims.

1: automatic transmission 2: oil pressure check port leakage prevention device
3: housing 4: hydraulic test device
10: hydraulic check port 11: lower vertical extension
12: opening part 13: ball receiving part
14: ball accommodation space 15: bush installation
16: upper vertical extension 17: horizontal extension
20: leak prevention ball 30: ball seating bush
31: port coupling portion 32: blocking jaw portion
41: masking jig part 42: euro securing jig part
43: tester body

Claims (6)

It is formed to be opened downward on the housing of the automatic transmission, is formed to extend from the outer surface of the housing to the inner surface of the housing across the thickness direction, and gradually narrows the width toward the inside of the housing. A hydraulic check port;
A leak prevention ball inserted into the hydraulic check port; And
Including; a ball seating bush installed in the hydraulic check port, the leak-preventing ball seated by its own weight, and sealing the hydraulic check port,
The hydraulic check port,
A lower vertical extension portion having a lower portion open and extending upward; And
Includes; a ball receiving part formed on the upper part of the lower vertical extension part and receiving the leak prevention ball,
The ball receiving part,
A ball-accommodating space portion formed with a width smaller than that of the lower vertical extension portion and receiving the leak-preventing ball therein; And
A bush mounting portion formed under the ball receiving space portion, a locking jaw formed at a boundary portion with the lower vertical extension portion, and press-fit into the ball seating bush; and
The ball seating bush,
In an automatic transmission, characterized in that the bush installation has an outer diameter that is larger than the inner diameter of the bush installation and is press-fitted to the bush installation portion through the lower vertical extension, and the lower end is press-fit to be positioned at the boundary between the lower vertical extension and the ball receiving portion Hydraulic check port leakage prevention device.
The method of claim 1,
The hydraulic check port,
An upper vertical extension part formed to be in communication with the upper part of the ball receiving part and extending upward; And
A hydraulic check port leakage preventing device of an automatic transmission, further comprising: a horizontal extension part formed to extend laterally on the upper vertical extension part.
The method of claim 2,
The ball receiving space part,
The hydraulic check port leakage prevention device of an automatic transmission, characterized in that formed between the lower vertical extension part and the upper vertical extension part to a length longer than the diameter of the leak prevention ball.
The method of claim 2,
The lower vertical extension part has a first diameter (D1),
The ball receiving portion has a second diameter (D2, D2 <D1) smaller than the first diameter (D1),
The upper vertical extension portion has a third diameter (D3, D3 <D2) smaller than the second diameter (D2),
The leak prevention ball has a fourth diameter (D4, D3 <D4 <D2) smaller than the second diameter (D2) and larger than the third diameter (D3), preventing leakage of the hydraulic check port of the automatic transmission. Device.
The method of claim 1,
The ball seating bush,
A port coupling portion having a cylindrical shape and pressed into the hydraulic check port; And
It is formed on the upper portion of the port coupling portion, the leak prevention ball is seated by its own weight, the blocking jaw portion for restricting the downward movement of the leak prevention ball; hydraulic check port leakage prevention device of the automatic transmission comprising a.
The method of claim 1,
A hydraulic test device for testing the hydraulic pressure inside the housing,
A masking jig part connected to the housing and blocking an open part of the hydraulic check port;
A flow path securing jig portion connected to the masking jig portion, introduced into the hydraulic check port, pushing the leak prevention ball upwards, and spaced from the ball seating bush; And
And a tester body part for testing the hydraulic pressure inside the housing through the hydraulic check port opened by the flow path securing jig part.

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