KR100492860B1 - Assembly Device for Relief Valve - Google Patents

Abstract

The relief valve assembling apparatus of the present invention is for assembling the relief valve only for the parts that have passed the test by testing the normal operation of the relief valve composed of the valve body, the flanger, the spring and the plug. It is further provided with a configuration capable of testing the supply of pressure fluid to the valve to measure the operating pressure of the relief valve.

Description

Assembly device for Relief Valve

The relief valve assembling apparatus of the present invention, in assembling a conventional relief valve composed of the valve body, the flanger, the spring, and the plug, the normal operation by testing the normal operation of the spring and the flanger before fixing the plug It is used to produce a reliable relief valve by assembling the relief valve using only parts.

Hereinafter, in order to increase the reliability of the relief valves mounted on the various pumps of the vehicle, the relief valve is tested for the normal operation of the flanger and the spring before completing the assembly of the relief valve, and only the parts that pass the test are released. It relates to the relief valve assembling apparatus that can be assembled to be limited to the description.

The relief valve applied to the pump of the vehicle, as shown in FIG. 1, forms a valve body 20 including a valve seat 22 by drilling a hole in a part of the housing of the pump, and the flanger 30 inside the valve body. ) And the spring 40 are inserted in this order, the plug 50 is inserted, and then the housing 50 is caulked to fix the plug 50.

The operation of the relief valve is to elastically support the flanger 30 to the valve seat 22 side by the spring 40 to close the valve, the pressure of the discharge port is increased, the force acting on the flanger 30 is spring ( When the elastic support force of 40) is higher than that, the flanger 30 is raised to transfer the fluid to the bypass passage, so that the pressure of the discharge port is controlled so as not to be higher than the set pressure.

Until now, after assembling the relief valve, that is, fixing the plug to the housing by caulking, the fluid was supplied to the discharge port to check whether the relief valve operates normally within the set pressure range. If it does not operate normally, the plug must be removed from the housing and the defective part must be replaced with a new part. The relief valve plug is fixed to the pump housing by the caulking operation, and the caulking mark 60 is removed by grinding. It is not easy to do the work, and if the fine chips generated by grinding are not completely stirred, it will adversely affect the operation of the valve.In addition, if the plug is installed and caulked again after removing the bad factors, the appearance of the housing may be degraded. It becomes bad.

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Normally, the main reason why the relief valve does not operate normally within the set pressure range is that the spring force between the plunger and the plug is excessive or insufficient. Since the spring bearing force is determined by multiplying the spring constant by the deformed length, the length of the spring mounted in the housing must be accurate. However, not only is it difficult to measure the length of the spring supplied in mass production, but the spring constant of the spring itself is affected not only by the shape of the spring but also by the uniformity of the material. It was very difficult to determine in advance whether there was a problem.

In addition, while the plug produced by the press working has a small dimensional error, the flanger and the valve body produced by the cutting work have a high possibility of dimensional error, which is another factor that hinders the normal operation of the relief valve.

According to the conventional assembly method, when using a component having a factor that prevents the normal operation of the relief valve, it is very difficult to determine whether or not the valve malfunction before completing the assembly.

The present invention has been made in order to solve the above problems, the object of the present invention is to provide a relief valve assembly device that can test the normal operation of the valve before the final assembly step of fixing the plug to the relief valve. .

It is another object of the present invention to increase the reliability of the normal operation of the valve by testing using the parts to be actually assembled.

Still another object of the present invention is to provide a relief valve assembling apparatus which allows the plug to be finally assembled as long as the relief valve is normally operated.

The relief valve assembling apparatus of the present invention is for assembling the relief valve with only the parts that are normally operated by testing the relief valve composed of the valve body, the flanger, the spring and the plug.

Relief valve assembly of the present invention, the jig fixed to the valve body and movable to the first jig position and the second jig position, respectively; a front end to be the same spring jigging with the plug, and the jig in the first jig position A moving support part comprising a moving part for moving the tip to a plug mounting position inside the valve body being mounted; a sealing member for sealing an inlet of the valve body mounted to the jig at a first jig position; and a pressure fluid to the valve. A pressure fluid supply having a supply passage; a pressure sensor connected to the passage of the pressure fluid supply at all times, the pressure sensor measuring a pressure of the pressure fluid acting on the valve; and displaying a pressure measured from the pressure sensor. A pressure indicator; a plug is supplied and inserted into the valve body fixed to the jig moved to the second jig position, and the plug For positive plug fixing processing unit; is configured to include a control unit for controlling the pressure fluid supply of the mobile support and the plug fixing processing operation and negative pressure fluid source.

The jig may directly fix the valve body by a screw or the like, or may be rotatable and include a clamp that can adjust the height of the rotation shaft to fix the valve body by such a clamp. Various shapes of the jig can be varied to fix various relief valves. In addition, when fixing the body of the valve through the clamp it is preferable to control the valve body fixing action of the jig by the test device control unit.

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The relief valve assembly device of the present invention may further include a jig moving part capable of moving the jig between the first jig position and the second jig position by a cylinder or the like.

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Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

In this embodiment, the assembly process will be described taking an example of a relief valve installed by processing the valve body in the oil pump housing.

Figure 2 is a front view showing the appearance of this embodiment, the moving support portion 110 for testing the normal operation of the relief valve, the plug fixing part 220 for supplying and fixing the plug into the valve body, and fixing the valve body Jig 300 capable of reciprocating between the first jig position for testing the normal operation of the valve by the movable support 110 and the second jig position for fixing the plug by the plug fixing processing unit 220 is Is shown.

In addition, the jig 300 is provided with a clamp 320 which can rotate and adjust the height of the rotation shaft 340. In order to fix the valve body 20 to the jig 300, the clamp 320 is rotated and the height of the rotation shaft 340 is increased so that interference with the valve body 20 does not occur, and then the valve body 20 is jig After mounting on the 300, the clamp 320 is rotated again to closely contact the jig 300 and the valve body 20, and the height of the rotation shaft 340 is lowered so that the valve body is fixed to the jig 300. It is. In addition to the clamp as described above may be further provided with a cylinder for supporting the valve body.

In order to assemble the relief valve, the jig 300 is first positioned at the first jig position as shown in FIG. 2, and the flanger 30 and the spring 40 are moved into the valve body 20 coupled to the jig 300. Insert them in turn. It is also desirable to provide a limit switch 360 so that the jig 300 is correctly positioned in the first jig position.

Next, the front end 112 of the moving support 110 is moved into the valve body 20 using the moving unit 114 as shown in FIG. 3. As the moving part 114, it is preferable to use a linear motor or a pneumatic cylinder which is easy to control the position. The tip 112 of the movable support 110 has a shape that can be the spring support area, the same as the plug. The tip 112 of the movable support 110 is processed into an adapter (not shown) to which a plug can be inserted and used by inserting a plug into the adapter, so that it can be used for assembling various valves using plugs of different sizes. It is also preferable to.

When the front end 112 of the movable support 110 is inserted into the valve body 20 and stopped, the pressure fluid is applied to the valve, and the pressure fluid supply unit 120 is used. As shown in FIG. 3, the pressure fluid supply unit 120 includes a sealing member 122 that seals the inlet of the valve body and a passage 124 through which the pressure fluid may be supplied to the valve. The pressure fluid supply unit 120 contacts the inlet of the valve body through the opening 310 of the jig 300, and prevents the pressure fluid from leaking by the sealing member 122 such as an O-ring. The pressure supply unit 120 may be configured integrally with the jig 300, or may be provided with a transfer device (not shown) to transfer the inside of the valve body and to the outside of the jig after the test so that interference with the jig does not occur. It is also possible. In addition, it is also preferable to have a separate actuator (not shown) that can be in close contact with the inlet portion of the valve body 120 supply pressure.

In this embodiment, since the compressed air is used as the pressure fluid, the relief valve is operated so that the compressed air flowing out of the bypass passage is not treated separately. It is preferable to further provide the means which can collect | recover.

The pressure of the pressure fluid acting on the valve is measured by a pressure sensor (not shown) connected to the passage 124 of the pressure fluid supply unit 120 at all times, and gradually increases the pressure of the fluid supplied to the relief valve. If the pressure rises, the pressure rises and the pressure fluid flows out into the bypass passage. The relief valve opens so that the pressure does not increase above a certain pressure. At this time, the pressure becomes the measured pressure, and the measured pressure is the allowable range of the set pressure. If not, it is determined to be bad. If it is determined to be defective, replace the flanger or spring and retest.

The measured pressure set from the pressure sensor is displayed on a pressure indicator (not shown). The pressure indicator may indicate a measured pressure value, and an alarm sound when the measured pressure is out of an allowable range of the set pressure. Either sound the alarm or activate an alarm, but it is also desirable to implement it at the same time.

In this embodiment, the control unit for controlling the operation of the moving support portion and the plug fixing processing unit and the pressure fluid supply of the pressure fluid supply unit controls the power, air pressure or hydraulic pressure supplied to the moving unit so that the front end 112 of the moving unit 114 is valved. When the test is completed, the front end 112 of the moving part 114 is released from the valve body 20 to allow the jig 300 to move from the first jig position to the second jig position. In addition to controlling, it has a function of supplying pressure fluid to the pressure fluid supply part. It is preferable to also have a function of preventing the jig 300 from moving to the second jig position when the valve is opened outside the allowable range of the set pressure by analyzing the numerical value of the pressure display.

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As a result of the test, the valve, which is normally operated, is moved to the second jig position with the flanger 30 and the spring 40 embedded therein, and then the plug is fixed by the plug fixing part 220 at the second jig position as shown in FIG. 4. 50 is inserted and fixed. In the present embodiment, the plug fixing processing unit 220 is inserted into the valve body and inserted into the valve body and caulked so that the plug is not separated. However, the plug fixing processing unit 220 is not limited thereto. .

Supply of the plug is made through the plug supply unit 240 for automatically supplying the plug. It can be inserted into the valve body manually.

4 (A) shows that the plug supply unit 240 having the cylinder and the plug gripping device is waiting to supply the plug to the plug fixing machining unit 220,

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As shown in FIG. 4 (B), the plug fixing processing unit 220 supplied with the plug 50 from the plug supply unit 240 lowers the pneumatic cylinder 222 attached to the upper end thereof, and inserts the plug into the front end thereof, and then the rear end of the plug. By caulking the valve body 20 by using the caulking projection 224 in the plug 50 is to be fixed to the valve body 20.

After the assembly of the plug 50 is completed, the assembly of the relief valve is completed, the jig 300 is moved to the first jig position.

Such a series of processes can be performed sequentially and repeatedly through the control unit.

In the present invention, before the final assembly of the plug to the relief valve, it is possible to test whether the normal operation of the valve can be corrected without disassembling the valve even if the failure occurs, by testing using the actual parts to be assembled The effect of improving the reliability of the normal operation of the valve can be obtained.

1 is a partial cross-sectional view showing the structure of a relief valve of the present invention.

2 is a front view of an embodiment of the present invention;

Figure 3 is a partial cross-sectional view showing the operating relationship of the present invention

4 is a front view showing the operating relationship of the present invention

*** Description of the symbols for the main parts of the drawings ***

10: relief valve 20: valve body 22: valve seat

30: Plunger 40: Spring 50: Plug

110: moving support 112: tip

114: moving unit 120: pressure fluid supply unit

122: sealing member 124: passage

220: plug fixing part 222: pneumatic cylinder

224: caulking projection 240: plug supply 300: jig

320: clamp 340: rotating shaft 360: limit switch

Claims (2)

A device for assembling a relief valve consisting of a valve body, a flanger, a spring and a plug, A jig fixed to the valve body and movable to a first jig position and a second jig position, respectively; A moving support part comprising a front end to allow the same spring support area as the plug, and a moving part to move the front end from a first jig position to a plug mounting position inside the valve body mounted to the jig; A pressure fluid supply unit having a sealing member for sealing an inlet portion of the valve body mounted to the jig at a first jig position, and a passage for supplying pressure fluid to the valve; A pressure sensor connected to the passage of the pressure fluid supply unit at all times and measuring a pressure of the pressure fluid acting on the valve; A pressure display unit for displaying the pressure measured from the pressure sensor; A plug fixing processing portion for supplying and inserting a plug into the valve body fixed to the jig moved to the second jig position and fixing the plug; Relief valve assembly device characterized in that it comprises a control unit for controlling the operation of the moving support portion and the plug fixing processing portion and the pressure fluid supply of the pressure fluid supply. The relief valve assembly according to claim 1, further comprising a jig moving part capable of moving the jig between a first jig position and a second jig position.