KR200465081Y1 - Flushing Block For Servo Valve Protection - Google Patents

Abstract

The present invention is installed before the installation of the servovalve and can be supplied and discharged to remove the foreign matter in the oil flowing pipe, and when the oil supplied to the servovalve is contaminated, the contaminated oil flows to purify normally The present invention provides a flushing block for protecting a servovalve formed with a flow path.
The main configuration of the present invention is the oil supply hole 131 for supplying oil to the servo valve, the oil recovery hole 132 for recovering the oil discharged from the servo valve and the control oil discharged from the servo valve 1, 2 In a flushing block fastened to a mounting plate 130 having control oil movement holes 133 and 134, the flushing block may include a body 10 having a through hole 11 formed thereon so as to be bolted to the mounting plate 130. ; An oil inlet 20 formed in a concave bottom surface of the body 10 corresponding to the oil supply hole 131 of the mounting plate 130; An oil outlet 30 formed in a concave bottom surface of the body 10 corresponding to the oil recovery hole 132 of the mounting plate 130; An oil recovery passage 40 connected to the oil inlet 20 from the oil inlet 20 in the body 10 to supply the oil introduced into the oil inlet 20 to the oil outlet 30; A first recess formed in a lower surface of the body 10 corresponding to the first and second control oil movement holes 133 and 134 of the mounting plate 130, and having third and fourth O-rings 51 and 61 formed on an inner surface thereof. And two blocking grooves (50, 60), and the oil inlet (20) is formed in the concave inward from the surface of the body 10 and the oil inlet groove (21) The first O-ring 23 is equipped with a first O-ring insertion groove 22 is mounted, the oil outlet 30 is an oil discharge groove 31 and the oil discharge groove formed concave inward from the surface of the body 10 The second O-ring insertion groove 32 is mounted to the outside of the (31) is characterized in that made of.

Description

Flushing Block For Servo Valve Protection

The present invention is installed before the installation of the servovalve and can be supplied and discharged to remove the foreign matter in the oil flowing pipe, and when the oil supplied to the servovalve is contaminated, the contaminated oil flows to purify normally The present invention provides a flushing block for protecting a servovalve formed with a flow path.

In general, a servo valve is a valve for controlling a flow rate and a pressure by an input signal, and is used in various industrial fields such as steel mills, various power plants, shipbuilding, and aviation industries.

Referring to FIG. 1, a conventional servovalve system includes a hydraulic tank 110, a hydraulic pump 120, a mounting plate 130, a servovalve 140, and actuators 150.

When power is applied to the hydraulic pump 120, the hydraulic oil in the hydraulic tank 110 flows into the hydraulic pump 120, and then through the pipe 161 connected to the oil supply hole 131 of the mounting plate 130. The servo valve 140 is introduced into the servo valve 140, and the actuator valve 140 is provided along the pipes 162 and 163 connected to the first and second control oil movement holes 133 and 134 of the mounting plate 130 according to the magnitude and polarity of the input signal. 150). At this time, when the input signal applied to the servovalve 140 is + polarity, the hydraulic fluid flows into the actuator 150 through the pipe 162 connected to the first control oil movement holes 133 and 134, so that the actuator 150 The piston moves in one direction. The hydraulic hydraulic oil contained in the actuator 150 flows into the servovalve 140 and then returns to the hydraulic tank 110 through a pipe 164 connected to the oil return hole 132 of the mounting plate 130.

When installing a pipe (161, 164) connected to the mounting plate 130 for mounting the server valve, if a small amount of foreign matter remains in the pipe there is a problem that causes a fatal defect in the servo valve due to the inflow of fine foreign matter.

In addition, when the oil supplied from the servovalve is contaminated, a failure occurs in the servovalve. Therefore, the servovalve must be removed and all the oil must be replaced, resulting in enormous economic loss due to oil replacement.

The problem to be solved of the present invention is to provide a flushing block for protecting the servovalve is formed before the installation of the servovalve is formed with a flow path for supplying and discharging oil to remove the foreign matter in the pipe flowing oil.

Another problem of the present invention is to provide a flushing block for protecting the servo valve, in which a flow path is formed so that the contaminated oil can be purified while the oil supplied to the servo valve is contaminated.

The flushing block for the servovalve protection according to the present invention supplies an oil supply hole 131 for supplying oil to the servovalve, an oil recovery hole 132 for recovering oil discharged from the servovalve, and a control oil discharged from the servovalve. In the flushing block fastened to the mounting plate 130 having the first and second control oil movement holes (133,134), the flushing block, the through hole 11 is formed so as to be bolted to the mounting plate 130 A body 10; An oil inlet 20 formed in a concave bottom surface of the body 10 corresponding to the oil supply hole 131 of the mounting plate 130; An oil outlet 30 formed in a concave bottom surface of the body 10 corresponding to the oil recovery hole 132 of the mounting plate 130; An oil recovery passage 40 connected to the oil inlet 20 from the oil inlet 20 in the body 10 to supply the oil introduced into the oil inlet 20 to the oil outlet 30; A first recess formed in a lower surface of the body 10 corresponding to the first and second control oil movement holes 133 and 134 of the mounting plate 130, and having third and fourth O-rings 51 and 61 formed on an inner surface thereof. And two blocking grooves (50, 60), and the oil inlet (20) is formed in the concave inward from the surface of the body 10 and the oil inlet groove (21) The first O-ring 23 is equipped with a first O-ring insertion groove 22 is mounted, the oil outlet 30 is an oil discharge groove 31 and the oil discharge groove formed concave inward from the surface of the body 10 The second O-ring insertion groove 32 is mounted to the outside of the (31) is characterized in that made of.

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The flushing block for protecting the servovalve of the present invention is installed on the mounting plate 130 on which the servovalve is installed so that a flow path for receiving and discharging oil is formed so that foreign substances in the pipe where the oil flows are installed before the servovalve is installed. There is an advantage that can be removed.

In addition, even when the oil used in the servovalve is contaminated, the contaminated oil can be purified while allowing the contaminated oil to flow normally. Therefore, it is possible to shorten the oil refining operation to remove and refine all the oil used in the oil tank as in the prior art. Can be.

1 is a circuit diagram of a general servovalve system.
2 is a front view of a typical mounting plate.
3 is a perspective view of a flushing block for protecting a servo valve according to the present invention;
Fig. 4 is a sectional view of Fig. 3; Fig.

Hereinafter, with reference to the accompanying drawings will be described in detail the flushing block for servo valve protection of the present invention.

As shown, the flushing block for the servovalve protection of the present invention has a predetermined shape of the body 10, the oil inlet 20 is supplied with oil, the oil outlet 30 is discharged oil, the oil inlet 20 and the oil outlet An oil recovery passage 40 connecting the 30 is provided.

Looking in more detail, the body 10 is formed with a through hole 11 to be bolted to the mounting plate 130 in a shape to have a certain thickness, such as a tetrahedron. The body 10 is preferably formed of the same size as the bottom surface of the servovalve.

The oil inlet 20 is recessed in the lower surface of the body 10 corresponding to the oil supply hole 131 of the mounting plate 130. The oil inlet 20 is an oil inlet groove 21 formed concave inwardly from the surface of the body 10 and a first o-ring insertion groove in which the first o-ring 23 is mounted to the outside of the oil inlet groove 21. 22).

The oil outlet 30 is recessed in the lower surface of the body 10 corresponding to the oil recovery hole 132 of the mounting plate 130. The oil discharge port 30 has an oil discharge groove 31 recessed inwardly from the surface of the body 10 and a second O-ring insertion groove in which the second O-ring 33 is mounted to the outside of the oil discharge groove 31. 32). O-rings 23 and 33 mounted on the first and second O-ring insertion grooves 22 and 32 are in close contact with the oil supply hole 131 of the mounting plate 130 and the oil inlet 20 and the oil outlet 30. Oil can be prevented from leaking along the contact surface.

The oil return passage 40 is formed inside the body 10 to allow oil to flow from the oil inlet groove 21 of the oil inlet 20 to the oil outlet groove 31 of the oil outlet 30. When the oil is introduced into the oil inlet 20 through the oil supply hole 131 of the mounting plate 130 by the oil return passage 40, the introduced oil is transferred to the oil outlet 30 to be mounted again to the mounting plate ( 130 may be provided to the oil recovery hole 132.

Meanwhile, the first and second blocking holes 50 and 60 are recessed in the lower surface of the body 10 corresponding to the first and second control oil moving holes 133 and 134 of the mounting plate 130. Third and fourth O-rings 51 and 61 are formed in the first and second blocking grooves 50 and 60 to prevent oil from leaking from the control oil inlets 133 and 134 of the mounting plate 130.

Looking at the operation of the servo valve protection flushing block of the present invention configured as described above are as follows.

First, the hydraulic pump for supplying oil to the servovalve is turned off, and the servovalve mounted on the mounting plate 130 is removed. Thereafter, the fixing plate 130 is fixed to the mounting plate 130 through the through hole 11 formed in the body 10 of the flushing block.

As such, when the body 10 of the flushing block is fixed to the mounting plate 130, the oil inlet 20 formed in the body 10 is in close contact with the oil supply hole 131 of the mounting plate 130, and the oil outlet ( 30 is in close contact with the oil recovery hole 132 of the mounting plate 130. In addition, the first and second blocking holes 50 and 60 are in close contact with the first and second control oil moving holes 133 and 134 of the mounting plate 130. At this time, the oil can be prevented from leaking along the contact surface by the O-rings formed in each hole.

Thereafter, when the hydraulic pump is operated to supply high pressure oil to the oil inlet 20 of the body 10 along the oil supply hole 131 of the mounting plate 130, the oil supplied to the oil inlet 20 is It is supplied to the oil outlet 30 along the oil return passage 40 and is discharged back to the oil recovery hole 132 of the mounting plate 130.

The oil discharged into the oil recovery hole 132 is supplied to the oil tank again after refining through the oil rectifier. This process can be repeated to purify all the oil in the oil tank.

When the purification of oil is completed, the hydraulic pump for supplying oil to the flushing block may be turned off, and after the flushing block mounted on the mounting plate 130 is removed, the servo valve may be mounted to operate normally.

10: body 11: through hole
20: oil inlet 21: oil inlet groove
22: first O-ring insertion groove 23: the first O-ring
30: oil outlet 31: oil outlet groove
32: second O-ring insertion groove 33: second O-ring
40: oil recovery passage 50: first blocking groove
51: third O-ring 60: second blocking groove
61: fourth O-ring 130: mounting plate
131: oil supply hole 132: oil recovery hole
133,134: 1st, 2nd control oil movement hole

Claims (3)

An oil supply hole 131 for supplying oil to the servo valve, an oil recovery hole 132 for recovering oil discharged from the servovalve, and first and second control oil movement holes for receiving control oil discharged from the servovalve 133,134 In the flushing block fastened to the mounting plate 130 having a),
The flushing block,
A body 10 in which a through hole 11 is formed to be bolted to the mounting plate 130;
An oil inlet 20 formed in a concave bottom surface of the body 10 corresponding to the oil supply hole 131 of the mounting plate 130;
An oil outlet 30 formed in a concave bottom surface of the body 10 corresponding to the oil recovery hole 132 of the mounting plate 130;
An oil recovery passage 40 connected to the oil inlet 20 from the oil inlet 20 in the body 10 to supply the oil introduced into the oil inlet 20 to the oil outlet 30;
A first recess formed in a lower surface of the body 10 corresponding to the first and second control oil movement holes 133 and 134 of the mounting plate 130, and having third and fourth O-rings 51 and 61 formed on an inner surface thereof. , Including two blocking grooves (50, 60),
The oil inlet 20 is an oil inlet groove 21 recessed inwardly from the surface of the body 10 and a first o-ring insertion groove in which the first o-ring 23 is mounted to the outside of the oil inlet groove 21. Consisting of 22,
The oil outlet 30 has an oil outlet groove 31 recessed inwardly from the surface of the body 10 and a second O-ring insertion groove in which the second O-ring 33 is mounted to the outside of the oil outlet groove 31. Flushing block for servo valve protection, characterized in that consisting of (32). delete delete

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