KR101034572B1 - Solenoid valve testing/washing device and method - Google Patents

Abstract

PURPOSE: A solenoid valve test/cleaning apparatus and method for an auto transmission are provided to check a leakage of a solenoid valve by measuring the air pressure of an air line. CONSTITUTION: A fixing block(10) has one or more valve coupling holes. An air line(20) is connected to a connecting groove to supply air to the valve coupling holes. A pressure gauge is connected to the air line to measure the air pressure of the air line. A chamber is filled with a cleaning liquid in which the fixing block is submerged. A valve operation part(40) applies an opening/closing signal to a solenoid valve.

Description

Solenoid valve testing / washing device and method for automatic transmission

       The present invention relates to a solenoid valve test / cleaning apparatus and method for an automatic transmission, and more particularly, it is possible to easily check whether the solenoid valve leaks using air pressure, and cleaning performance by simultaneously using the washing oil and the ultrasonic generator. The present invention relates to a solenoid valve test / cleaning apparatus and method for an automatic transmission.

Solenoid valve is a device that controls the flow of fluid to control the flow of electric current through the solenoid coil, and is used in various fields because it can be fast and stable operation with compact power and low power.

The automatic transmission of the vehicle consists of a torque converter that transmits power, a valve body that controls hydraulic pressure, each brake and clutch, a planetary gear that controls speed, and a differential device. Among them, an overdrive solenoid valve, Various types of solenoid valves, such as underdrive solenoid valves, second solenoid valves, and damper clutch solenoid valves, are installed to control the flow of oil at each gear stage inside the transmission. If any one of these types of solenoid valves is not operated, the vehicle will not be able to drive normally due to transmission failure.

Therefore, the malfunction of the solenoid valve in the vehicle automatic transmission malfunction is the main cause, the testing of the solenoid valve in the maintenance of the transmission part is the key. Nevertheless, in the process of disassembly and maintenance due to transmission failure, general consumables such as plates, discs, O-rings, and gaskets are visually inspected or replaced when wear is exceeded. However, the valve body or solenoid valve is visually inspected. It is impossible to do this, and there is no device that can check whether there is a malfunction separately.

Thus, there is an urgent need for a device that can test each solenoid valve in a separate state from the transmission to eliminate unnecessary time during maintenance and enable more accurate work.

The technical problem to be achieved by the present invention is to provide a test / washing device for a solenoid valve for an automatic transmission that makes it easy to check whether the solenoid valve leaks by using air pressure, and provides an improved cleaning effect using ultrasonic waves during the cleaning process. will be.

Another object of the present invention is to provide a test / cleaning method of a solenoid valve that makes it easy to check whether a solenoid valve is leaked by using air pressure and improves a cleaning effect by using ultrasonic waves.

The technical objects of the present invention are not limited to the above-mentioned technical problems, and other technical subjects not mentioned can be clearly understood by those skilled in the art from the following description.

Solenoid valve test / washing device for an automatic transmission according to an embodiment of the present invention for solving the technical problem, at least one valve coupling hole is coupled to the solenoid valve is formed on one surface, at least one air line on the other surface A fixed block having a connection groove, an air line connected to the air line connection groove to supply air to the valve coupling hole, a pressure gauge connected to the air line to measure the air pressure of the air line, and the inside The fixed block is located and the chamber is filled with the washing oil so that the fixed block is locked, and a valve operation unit is connected via a cable for transmitting and receiving an electrical signal to the solenoid valve to apply an opening and closing signal.

 According to another aspect of the present disclosure, a method of testing / cleaning a solenoid valve may include: connecting a solenoid valve to a valve coupling hole formed at one surface thereof, and connecting the air line connected to the valve coupling hole at another surface thereof. Positioning a fixed block having an air line coupled to a groove in a chamber containing washing oil, injecting air through the air line, and checking a leak state of the solenoid valve; and inserting an ultrasonic vibrator into the washing oil Applying ultrasonic waves to the washing oil and repeating opening and closing of the solenoid valve to wash the solenoid valve.

Solenoid valve test / washing device for an automatic transmission of the present invention by the above-mentioned problem solving means can easily check whether the solenoid valve leaks by using the air pressure, so that the solenoid valve separated for maintenance to check whether the solenoid valve is malfunctioning Can be put back into the transmission to save time and reduce unnecessary work, such as testing the vehicle.

In addition, different types of solenoid valves can be tested and cleaned at one time, which also provides maintenance convenience, and by using an ultrasonic vibration device, and by adjusting air pressure control and opening / closing the valve periodically, You can get it.

1 is a perspective view showing the overall configuration of the solenoid valve cleaning and testing device for an automatic transmission according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing a state in which the air line, the fixed block, the solenoid valve of Figure 1 is coupled.
3 is an enlarged partial perspective view of the fixed block in which the air line, the fixed block, and the solenoid valve of FIG. 2 are combined.
4 is a front view of the fixing block showing the solenoid valve coupling holes having different diameters formed on one surface of the fixing block of FIG.
Figures 5a and 5b is an operation diagram showing the opening and closing of the solenoid valve coupled to the fixed block during the test / washing.
6A and 6B are operation diagrams for explaining an operation process of the solenoid valve test / cleaning apparatus for an automatic transmission according to another embodiment of the present invention.
7 is a flowchart illustrating a test / cleaning method of a solenoid valve for an automatic transmission according to another embodiment of the present invention.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and the general knowledge in the art to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, a test / cleaning apparatus for a solenoid valve for an automatic transmission according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4.

1 is a perspective view showing the overall configuration of the test / washing device of the solenoid valve for automatic transmission according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a state in which the fixed block, the solenoid valve, the air line is coupled, 3 is an enlarged partial perspective view of the fixed block in which the air line, the fixed block, and the solenoid valve of FIG. 2 are coupled, and FIG. 4 shows a solenoid valve coupling hole having different diameters formed on one surface of the fixed block of FIG. Front view of the fixed block shown.

The test / cleaning device 1 of the solenoid valve for an automatic transmission according to an embodiment of the present invention is a device capable of testing and cleaning the solenoid valve 1 for an automatic transmission, and includes a fixed block 10 and an air line 20. ), The chamber 30 and the valve operation unit 40 is configured.

The test / cleaning device (1) of the solenoid valve for the automatic transmission (1) locates the fixed block (10) in which the solenoid valve (2) is coupled to the inside of the chamber (30) filled with the washing oil (301), and the air line (20). By injecting air into the fixed block 10 through the solenoid valve (2) is a device that can test the leakage of oil and wash. In the present invention, a solenoid valve for an automatic transmission will be described, but the present invention is not limited thereto, and may be used for testing / cleaning a solenoid valve having substantially the same structure as the solenoid valve for an automatic transmission.

The configuration of each solenoid valve test / cleaning device 1 for an automatic transmission will be described in detail. The fixed block 10 includes at least one valve coupling hole to which a solenoid valve 2 for an automatic transmission, which is an inspection target, is coupled to one surface thereof. 101 is formed, and the air line connecting groove 102 to which the air line 20 is coupled to the other surface is formed to have an overall rectangular block shape. The valve coupling hole 101 may be formed in a circular hole shape to fit the valve shape so that the solenoid valve 2 can be inserted and fixed.

Meanwhile, a pair of valve coupling holes 1011 are formed at both sides of the valve coupling hole 101 to fix the solenoid valve 2 in close contact with the fixed block 10. The coupling hole 1011 may be formed in an oblique direction at the center of the valve coupling hole 101. The diameter and spacing of the valve coupling hole 101 may be variously modified according to the size and type of the solenoid valve 2 for fixing.

The valve coupling hole 2 is connected to the air line connecting groove 102 through the inner nozzle 103 inside the fixing block 10. That is, the valve coupling hole 101 and the air line connecting groove 102 are formed in the vertical direction, so that the air injected through the air line connecting groove 102 opens the inner nozzle 103 and the valve coupling hole 101. Can pass. The air injected through the airline connection groove 102 passes through the valve coupling hole 101 according to the operation of the solenoid valve 2, and then inside the solenoid valve 2 through the inlet 22 of the solenoid valve 2. After flowing into the outlet through the several outlets 23 formed on the side of the valve body 21, or the outlet is limited to remain in the valve coupling hole 101.

Air line 20 has a hollow pipe shape, one side is connected to the air line connecting groove 102 and the other side pressure gauge 201 and air pressure for measuring the air pressure injected through the air line 20 Adjustable pressure regulating cocks 202 are formed side by side. The pressure regulating coke 202 may be connected to a branch pipe 203 that distributes air from each main tank containing compressed air to each air line.

The pressure gauge 201 may measure the internal pressure of the air line 20 respectively connected to the air line connecting groove 102, and the pressure adjusting cock 202 adjusts the amount of air injected into each air line 20, respectively. Can be. Pressure regulating cock 202 may be manually controlled or automatically controlled by a controller (not shown). When the pressure control cock 202 is automatically controlled, the air may be continuously supplied to the air line 20 or may be controlled to be supplied in a constant pulse form. By supplying pulsed air into the air line 20, the washing effect of the solenoid valve 2 can be enhanced. The cleaning process of the solenoid valve 2 will be described later in detail.

Meanwhile, the fixing block 10 is inserted into the chamber 30 in which the washing oil 301 is contained therein. The chamber 30 has a space in which the upper portion of the rectangular parallelepiped box is opened and accommodates the washing oil 301 and the ultrasonic vibrator 302 therein. The washing oil 301 is formed by the solenoid valve 2. In order to test for leaks or to clean the solenoid valve 2, an insulating oil may be used so that the solenoid valve 2 may be inserted and operated. For example, the washing oil 301 may be a transmission oil.

The ultrasonic vibrator 302 is for washing the solenoid valve 2 with the washing oil 301 and is inserted into the chamber 30 so as to be immersed in the washing oil 301.

The valve operation unit 40 may open or close the solenoid valve 2 by applying an electrical signal to the solenoid valve 2 connected to the fixed block 10, and may control the opening and closing speed of the valve. As a kind of electrical signal generator that is connected to the solenoid valve (2) via a cable 401 that can send and receive electrical signals.

Referring to FIG. 4, a plurality of valve coupling holes 101a to 101c having different diameters may be formed in the fixing block 10.

The solenoid valve 2 for the automatic transmission may have different diameters of the inlets 22 according to the vehicle type. The inlet 22 is formed at one side of the valve body 21 to face the valve coupling holes 101a to 101c when the solenoid valve 2 is engaged with the fixing block 10 using the coupling hole 1011. As a part to be in contact, the valve coupling holes 101a to 101c of the fixed block 10 are formed to have various diameters so as to accommodate the valves having the various inlets 22. The valve coupling holes 101a to 101c can test / clean several different solenoid valves at once, and vary the maintenance by varying the size of the fixed block, the number, size and the size of the valve coupling holes. It is possible to configure a variety of solenoid valve test / cleaning devices for automatic transmissions that are optimized for the environment.

Hereinafter, a test and cleaning process of a solenoid valve for an automatic transmission will be described in detail with reference to FIGS. 5A and 5B.

First, referring to FIG. 5A, FIG. 5A illustrates a state in which an off signal is applied from the valve operating unit 40. Specifically, when the solenoid valve 2 is in close contact with the fixed block 10 through the valve coupling hole 101, the valve coupling hole 101, the internal nozzle 103, the air line including the solenoid valve 2 A sealed space is formed along the connection groove 102 and the air line 20, and air is injected through the air line 20. At this time, while measuring the air pressure with the pressure gauge 201, by adjusting the air injection amount to the pressure adjusting cock 202, it is possible to provide the air pressure of the same size as the prescribed hydraulic pressure to the solenoid valve (2).

When the solenoid valve 2 is normal, the air pressure will be maintained when the solenoid valve 2 is closed, and the air pressure cannot be maintained when the solenoid valve 2 is closed. At this time, if the specified pressure cannot be maintained even when the solenoid valve 2 is closed, there is a leak of air, and the o-ring failure of the solenoid valve 2 and contamination inside the valve may be the cause. Therefore, if there is a leak, first check the O-ring breakage and replace it, and if the leak continues afterwards, it is determined that it is due to internal contamination, and the cleaning operation of the solenoid valve 2 is started. Such a test operation is to be performed in the washing oil 301 inside the chamber 30, so that the leak or the leak position through the solenoid valve 2 can be easily identified.

Subsequently, referring to FIG. 5B, FIG. 5B illustrates a state in which an on signal is applied from the valve operating unit 40.

When the ON signal is applied to the solenoid valve 2, the air injected through the internal nozzle 103 is introduced into the solenoid valve 2 through the inlet 22 of the solenoid valve 2 and then through the outlet 23. Spills. At this time, the amount of air flowing out through the outlet 23 of the solenoid valve 2 or the air pressure at the time of the outflow may be measured to examine the necessity of washing the solenoid valve 2.

Meanwhile, while the solenoid valve 2 is cleaned, the inside of the valve coupling hole 101 is continuously provided with air through the internal nozzle 103, and thus has a constant internal pressure. The solenoid using the valve operation unit 40 is provided. Opening and closing of the valve 2 brings about a change in this internal pressure. In addition, it is possible to adjust the internal pressure of the valve coupling hole 101 by adjusting the pressure of the injected air by controlling the pressure adjusting cock 202. When the internal pressure is high, since the air is injected with greater force through the inlet 22 of the solenoid valve 2, a larger washing effect can be expected when the air exits through the solenoid valve 2. Therefore, after the internal pressure is increased to an appropriate size, the solenoid valve 2 may be opened to operate in conjunction with the pressure adjusting cock 202 and the valve operation unit 40 to obtain an optimum washing effect. For example, while the solenoid valve 2 is closed, the pressure adjusting cock 202 is continuously opened for a predetermined time to increase the internal pressure, and when it is determined that the proper pressure is reached, the amount of air injected using the pressure adjusting cock 20 is determined. It is possible to think of a method of periodically reducing the air flow rate by opening the solenoid valve 2 and releasing the air. For this purpose, a control unit for automatically controlling the pressure regulating cock 202 may be installed, and the valve operation unit 40 may be replaced. Operation may be performed in synchronization with the control unit of the pressure adjusting cock 202.

Hereinafter, a solenoid valve test / cleaning apparatus for an automatic transmission according to another embodiment of the present invention will be described in detail with reference to FIGS. 6A and 6B. 6A and 6B are operation diagrams for explaining an operation process of the solenoid valve test / cleaning apparatus for an automatic transmission according to another embodiment of the present invention.

In another embodiment of the present invention, the solenoid valve test / cleaning apparatus for an automatic transmission includes an ultrasonic vibrator 302 directly inserted into the valve coupling hole 101 and an outside of the fixed block 10 inside the valve coupling hole 101. It includes a bypass 104 pipe connected to.

6A shows a state in which the bypass tube 104 is closed, and FIG. 6B shows a state in which the bypass tube 104 is opened. The ultrasonic vibrator 302 is directly inserted into the valve coupling hole 101. The bypass pipe 104 may be formed as a cylindrical passage so as to pass through the fixed block 10 at one surface inside the valve coupling hole 101 and be connected to the outer surface of the fixed block 10. The internal pressure of the valve coupling hole 101 is adjusted by opening and closing the bypass pipe 104 using the bypass valve 105 provided at one end of the valve. 6A and 6B, the solenoid valve 2 shows one situation in which all of the solenoid valves 2 are open. When the bypass pipe 104 is closed, the inside of the valve coupling hole 101 forms a closed space. The air injected through the air line 20 passes through the valve coupling hole 101 and flows through the inlet 22 of the solenoid valve 2 and is discharged through the outlet 23. However, when the bypass pipe 104 is opened, the air inside the valve coupling hole 101 is discharged through the bypass pipe 104, and the inner space of the valve coupling hole 101 through which the air is discharged is discharged from the solenoid valve 2. It is filled with the washing oil 301 introduced through the outlet 23 or the bypass pipe 104. This continues until all of the inside of the valve coupling hole 101 is filled with the washing oil 301 so that the pressure is balanced in the valve coupling hole 101. Inflow of the washing oil into the air line 20 through the internal nozzle 103 may be considered, but the pressure of the air remaining in the air line 20 may be ignored so that it may be ignored.

The washing oil filling the valve coupling hole 101 through the inside of the solenoid valve 2 resonates with the ultrasonic vibrator 302 directly inserted into the valve coupling hole 101 to improve the washing effect. Thereafter, to remove the washing oil 301 inside the valve coupling hole 101 for the inspection of the solenoid valve 2, the fixing block 10 is removed from the chamber 30 or the fixing block 10 is left as it is. (30) It is conceivable to inject air into the valve coupling hole 101 through the air line 20 in a state in which the washing oil 301 is removed, and the combined solenoid valve 2 is in a closed state. The inside of the valve coupling hole 101 is changed by changing the direction of air flow in the valve coupling hole 101 such as opening the bypass tube 104 or closing the bypass tube 104 and leaving the solenoid valve 2 open. Residual washing oil 301 can be more effectively removed. Even after the removal, some washing oil 301 residue may remain in the valve coupling hole 101, but only a small amount does not affect the inspection of the solenoid valve 2.

  As such, the ultrasonic vibrator 302 is directly inserted into the valve coupling hole 101, and a bypass pipe 104 is formed so that the washing oil 301 passes through the solenoid valve 2 to the valve coupling hole 101. By allowing the inflow, it is possible to maximize the cleaning effect of the solenoid valve (2).

Hereinafter, a solenoid valve test / cleaning method for an automatic transmission according to an embodiment of the present invention will be described in detail.

7 is a flowchart illustrating a solenoid valve test / cleaning method for an automatic transmission according to an embodiment of the present invention.

First, for testing / cleaning a solenoid valve for an automatic transmission, basically, a fixed block connection body combining the inspection solenoid valve 2, the fixed block 10, and the air line 20 is configured (S100). Thereafter, the fixed block is positioned so as to be sufficiently locked inside the chamber 30 filled with the washing oil 301 (S110).

Next, the prescribed pressure is checked with a pressure gauge 201 located above the air line 20, and the pressure adjusting cock 202 is opened to inject air into the fixing block 10 through the air line 20 to leak the valve. Perform a first test to check the state (S120). At this time, if the leak is confirmed even in the state in which the valve is closed, first check the O-ring damage of the valve as described above, and if there is a problem to replace it. This completes the primary valve test operation.

Next, the electrical defect of the solenoid valve 2 itself is checked through the lighting state of the lamp located in front of the valve control unit 40 connected through the cable 401, and when the lamp is normally turned on, the washing oil 301 is The ultrasonic vibrator 302 is inserted, and the operation of repeatedly opening and closing the valve by applying a signal from the valve operating unit 40 is repeated to clean the solenoid valve 2 (S130). This operation is to check the improvement of the O-ring damage, etc. in the previous step, and to clean the valve, and then continue naturally in the test (S120) of the previous step, the ultrasonic vibrator 302 inserted into the washing oil 301 The cleaning effect is further expanded while the valve is repeatedly opened and closed. According to the present embodiment, the driving time for opening and closing the valve is about 15 minutes.

Next, the solenoid valve 2 is turned off, and the final test is performed by checking the leak state of the valve through the air injection process (S140).

In another embodiment of the present invention, in the method of immersing only the existing washing oil 301 in washing the solenoid valve 2 to be inspected, a method of washing by resonating the washing oil 301 with an ultrasonic vibrator 302 and In parallel, the air pressure is controlled at regular time intervals, and the opening / closing period of the solenoid valve 2 is also simultaneously controlled through the duty control of the valve operating unit 40 so that the air is injected through the air line 20 and the solenoid valve 2. By synchronizing the cycle of opening / closing), it is possible to operate the cycles to coincide or stagger each other, and various combinations can achieve the optimal cleaning effect according to the situation.

The above description is merely illustrative of the present invention, and various modifications and variations will be possible to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1: Solenoid valve test / cleaning device for automatic transmission
2: solenoid valve 10: fixed block
20: Airline 21: Valve body
22: inlet 23: outlet
30: chamber 40: valve operation part
101,101a ~ 101c: Valve coupling hole 102: Air line connecting groove
103: internal nozzle 104: bypass pipe
105: bypass valve 201: pressure gauge
202: pressure adjustment cock 203: branch pipe
301: washing oil 302: ultrasonic vibrator
401: cable
1011: Joiner

Claims (7)

A fixed block having at least one valve coupling hole to which the solenoid valve is coupled to one surface and at least one airline connection groove formed at the other surface;
An air line connected to the connection groove to supply air to the valve engagement hole;
A pressure gauge connected to the air line to measure air pressure of the air line;
A chamber in which the fixed block is located inside and the washing oil is filled to lock the fixed block therein;
A valve operation unit for applying an open / close signal to the solenoid valve; And
An ultrasonic vibrator inserted into the washing oil in the chamber and resonating the solenoid valve with the washing oil,
The fixed block is in communication with the valve coupling hole and the bypass pipe connected to the outside of the fixed block; And
And a bypass valve connected to one end of the bypass pipe to open and close the bypass pipe, wherein the ultrasonic vibrator is inserted into the valve coupling hole.
delete delete The method of claim 1,
The fixed block is a solenoid valve test / washing device for an automatic transmission, characterized in that the one or more valve coupling holes formed on one surface are formed with different diameters to accommodate the solenoid valves of various sizes. The method of claim 1,
Further comprising a pressure adjusting cock to adjust the pressure of the air injected into the air line on one side of the air line,
The pressure regulating cock independently controls the air pressure of each air line, characterized in that for supplying the air in a continuous or pulse form solenoid valve test / washing device for automatic transmission. delete delete

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