JPH07174667A - Recognition apparatus for operation of valve - Google Patents

Abstract

PURPOSE:To confirm the operation of a valve without supplying an oil by inserting a push bar for a slider into a valve body and moving it by applying a definite load to a spool. CONSTITUTION:An actuator 9 overcomes the force of a compression spring 7, moves a slider 4 to the right to push back to a confirmation starting position, a housing 4 is clamped by a clamp 2, and a valve W is set. Then, an operating lever 91 is moved to the left, a push bar 5 is inserted from an opening part in a valve body Wc to be brought into contact with a spool (d), and the operating lever 91 is returned to its original position. The spool (d) overcomes the force of an elastic member (f), is pressed by the force of the spring 7, and stops in a position in which the force of the member (f) is balanced with that of the spring 7. The push amount of the spool (d) is equal to the movement amount of the slider 4, and a linear-gage sensor 8 outputs a read-out electric signal. Consequently, when the movement range of the spool (d) is input to a comparator connected to the sensor 8, the output value of the comparator becomes a tolerance range. As a result, whether the open valve pressure of the valve W is good or not can be judged easily.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operation confirmation device such as a regulator valve used in an oil pump.

[0002]

2. Description of the Related Art Conventionally, in the operation confirmation test of a regulator valve, an engine mounting state is created by setting a regulator valve in a performance tester and supplying oil.
This is done by reading the valve opening pressure of the regulator valve with a pressure converter. A similar type is described in, for example, Japanese Patent Laid-Open No. 4-284163.

[0003]

However, since the operation confirmation test requires a lot of time and man-hours, the work efficiency is low. Further, after the test, oil is drained from the regulator valve to wash the inside of the valve, so equipment such as an oil draining / washing device is required, and energy for driving the equipment increases running costs.

The present invention has been made to solve the above problems, and an object thereof is to make it possible to confirm the valve operation without supplying oil.

[0005]

In order to achieve the above object, according to the present invention, as described in claim 1, a spool is slidably accommodated in a valve body having one end opened and the other end closed. Is a valve operation confirmation device in which an elastic member is contracted between one end of the spool and the closed end of the other end of the valve body, and the valve opening pressure is set by the elastic member. A slider having a push bar that is movable in the direction of contact with the other end of the spool, a biasing means that biases the slider with a constant force in the compression direction of the elastic member, and a moving amount of the slider. And a detection means for detecting.

Further, according to the present invention, as described in claim 2, the spool is slidably accommodated in the valve body having one end opened and the other end closed, and one end of the spool and the other end of the valve body are An operation confirmation device for a valve in which an elastic member is contracted between the closed portion and the valve opening pressure is set by the elastic member, and is provided so as to be movable in the sliding direction of the spool.
A slider having a push bar that comes into contact with the other end of the spool, a moving unit that moves the slider by a predetermined distance in the compression direction of the elastic member, and a reaction force of the elastic member that is provided on the slider and detects the reaction force. And a load cell.

[0007]

According to the structure described in claim 1, the push bar of the slider is inserted from the opening at the one end of the valve body, and a constant load of the biasing means is applied to the spool, so that the spool is forced by the elastic member. The moving amount of the spool is detected by the detecting means via the slider until the spool stops by balancing the force of the elastic member and the force of the urging means.

According to the second aspect of the invention, the push bar of the slider is inserted through the opening at the one end of the valve body, and the spool overcomes the force of the elastic member to move a predetermined distance. The reaction force of the elastic member received by the slider is detected by a load cell.

[0009]

Embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a front view showing a valve operation confirmation apparatus according to an embodiment of the present invention.

In this figure, W is a valve incorporated in a housing H. The valve W slidably accommodates a spool d in a valve body c having one end open and the other end closed.
An elastic member f for seating the other end of the spool d on a seat portion e formed at one end opening of the valve body c is contracted between one end of the spool d and the other end closed portion of the valve body c. The valve opening pressure is set by the elastic member f.

Reference numeral 1 is a base, and on the lower surface of the base 1, there are two pairs of clampers 2 for mounting the housing H.
And a guide rail 1a extending in the sliding direction of the spool d of the valve W is provided in a protruding manner.

A guide 3 is slidably mounted on the guide rail 1a, and a slider 4 is vertically provided on the guide 3. An L-shaped push bar 5, which is inserted from one end opening portion of the valve body c of the valve W and abuts on the other end of the spool d, is provided at a lower portion of one side of the slider 4 so as to project.

[0014] The upper portion of the other side of the slider 4, actuating lever 4 ₁ extending in the moving direction of the slider 4 is protruded, supporting member said operating rod 4 _1, projecting from the lower surface of the base 1 6
It is slidably supported by. The operating rod 4 ₁ between the slider 4 and the support member 6, the compression spring 7 which is biasing means for biasing is inserted the slider 4 with a constant force to the compression direction of the elastic member f ing.

Further, the lower surface of the base 1 is provided with an operating rod 8 ₁ which comes into contact with the tip of the operating rod 4 ₁ of the slider 4, and a linear gauge sensor 8 which is a detecting means for detecting the moving amount of the slider 4. Is attached and the linear gauge sensor 8 is connected to a comparator.

Further, an actuator 9 is mounted on the lower surface of the base 1 on the side opposite to the linear gauge sensor 8 side with respect to the slider 4 and pushes back the slider 4 to a certain confirmation start position. The operating rod 9 ₁ is abuttable on the upper portion of one side of the slider 4.

In the above-mentioned structure, first, the actuator 9 overcomes the force of the compression spring 7 to move the slider 4 to the position shown in FIG.
After pushing it back to the confirmation start position, the housing H is clamped by the clamper 3 and the valve W is set.

[0018] Then, the actuating rod 9 ₁ of the actuator 9 moves to the left in FIG. 1, moving the slider 4 leftward by the force of the compression spring 7, the push bar 5 of the slider 4
Is inserted from one end opening portion of the valve body c of the valve W and brought into contact with the spool d, and then the operating rod 9 of the actuator 9
Return ₁ to its original position.

The spool d of the valve W is pushed by the force of the compression spring 7 against the force of the elastic member f, and stops at a position (balance point) where the force of the elastic member f and the force of the compression spring 7 are balanced. The balance point is set in advance in the valve W on the side where the spool d is pushed in from the relief point.

The spool pushing amount of the valve W is equal to the moving amount of the slider 4, and is read by the linear gauge sensor 8 and output as an electric signal. Therefore, using a master valve (not shown) in which the upper limit and the lower limit of the valve opening pressure are set in advance, the movement range of the spool d is set to the linear gauge sensor 8
If it is input to the comparator connected to, the value output from the comparator falls within the tolerance range of the valve opening pressure, so that the pass / fail judgment of the valve opening pressure of the valve W can be easily performed.

FIG. 2 is a front view showing a valve operation confirmation apparatus according to another embodiment of the present invention, FIG. 3 is a plan view of FIG. 2, and FIG. 4 is an enlarged sectional view of a main part of FIG. 5 is a plan view of FIG. 4, and FIG. 6 is a flow chart for confirming the operation of the valve.

2 to 5, reference numeral 14 is a slider attached to the lower surface of the base 1, and the slider 14 is linearly slid in the moving direction of the slider 4 when a ball screw is driven by a pulse motor (or a servo motor). It has become an actuator.

A mounting bracket 15 is provided on the slider 14 so as to extend toward the valve W side along the moving direction of the slider 14, and a cam floor 16 is mounted on the tip of the mounting bracket 15. The cam floor 16 has a guide hole 16a long in the direction perpendicular to the moving direction of the slider 14.
Is formed, and a cylindrical cam 17 is slidably fitted and attached to the guide hole 16a. A shaft 18 is attached to the cam 17, and the push bar 5 is connected and attached to the lower portion of the shaft 18.

A bearing 19 is provided on one side of the shaft 18 and the valve W of the base 1, and a rotary shaft 20 penetrating vertically is attached to the bearing 19 rotatably. There is. One end of a revolving arm 21 is attached to the lower part of the rotary shaft 20, and the other end of the revolving arm 21 is rotatably attached to the upper end of the shaft 18. As a result, the shaft 18 performs a turning motion about the rotary shaft 20 while being guided by the guide hole 16a of the cam floor 16 via the cam 17.
The push bar 5 is guided from a lateral position displaced from the one end opening of the valve body c of the valve W until it is inserted into the one end opening. In this way, the case where the push bar 5 interferes with the housing H and the push bar 5 cannot be inserted straight into the one end opening of the valve body c is dealt with.

The mounting bracket 15 and the cam floor 16
A high-precision load cell 22 is provided between the load cell 22 and the cam floor 16, and an insulating joint 23 is provided between the load cell 22 and the cam floor 16. The load cell 22 is a measuring instrument that measures a load acting on the load cell 22 by a voltage change of a strain gauge, and is connected to a comparator. The load is a load (reaction force of the elastic member f) applied to the push bar 5 transmitted through the cam 17, the cam floor 16 and the insulating joint 23.

A connecting terminal 24 is provided on the shaft 18.
And a lead wire 25 is attached to the connection terminal 24.
One end of is connected. Also, one end of a lead wire is connected to the valve body c, and the other end of the lead wire and the other end of the lead wire 25 are connected to each other via an ammeter, a power supply, or the like. A valve return confirmation circuit that closes when the push bar 5 contacts the spool d of the valve W is configured.

In the above structure, first, the base 1 is attached to the housing H transported to a predetermined position by the pallet 26 or the like.
The two locates 1b provided on the base 1 by lowering
After the housing H is positioned by and the clamper 2 or the like is used to clamp the three positions A, B, and C of the housing H to fix the position of the valve W, the valve operation is confirmed according to the flowchart shown in FIG.

First, after moving the slider 14 to the right in FIG. 2 from the origin (movement start position), the push bar 5 is inserted from one end opening of the valve body c of the valve W and brought into contact with the spool d. Then, the spool d is overcome by the force of the elastic member f and pushed by a predetermined distance (7.20 mm). Then, the slider 14 is retracted to the left in FIG. 2 to the origin. Repeat this multiple times. This is a leveling-in operation for eliminating the state where the spool d does not move due to gnawing in the valve body c.

Next, the slider 14 is moved rightward in FIG. 2 from the origin, and the push bar 5 is jogged to the contact point P ₁ where the push bar 5 contacts the spool d, and the push bar 5 contacts the spool d. At this time, the valve return confirmation circuit is energized.

After the push bar 5 comes into contact with the spool d and times out for a predetermined time, the slider 14 is further moved to the right in FIG. 2 to move the push bar 5 to a relief point P ₂ of the valve W by a predetermined distance (7). . 20 mm), and the elastic member f is compressed by the push bar 5.
At this time, the slider 14 is pushed through the push bar 5 or the like.
The reaction force of the elastic member f received by the load cell 22 is detected, and the detection value of the load cell 22 is detected by the comparator connected to the load cell 22 so that the valve opening pressure tolerance range (1
Whether the valve opening pressure is good or not is directly determined depending on whether the valve opening pressure is within the range of 2.5 to 13.5 kg). The following (Table 1) is the load cell 22
The measurement data of is shown. These measurement data can be displayed by digital display or the like by connecting the display means.

[Table 1] In Table 1, the measured value of 1162 times of 12.2 kg and the measured value of 1134 times of 12.1 kg are judged to be NG due to insufficient valve opening pressure, and the other measured values are judged to be OK.

Next, the compression spring 7 is compressed by the push bar 5 and after a predetermined time-out, the slider 14 is moved to the position shown in FIG.
To the left of the point P (0.2mm) slightly before the origin
Return to ₃ and check if the valve return confirmation circuit is energized. If the spool d of the valve W is returned by the force of the elastic member f, the confirmation of the energization is a confirmation of the return of the spool d because the spool d is in contact with the push bar 5 at the point P _3. . When the energization cannot be confirmed, the spool d is caught in the valve body c and has not returned, so that the slide failure of the spool d of the valve W can be confirmed.

After a predetermined time-out at point P ₃ , the slider 14 is further moved to the left in FIG. 2 and returned to the origin.

As described above, whether or not the valve opening pressure is good is determined at point P ₂ , and whether or not the spool d is slid is determined at point P ₃ to complete the operation confirmation of the valve W. Moreover, since the quality of the valve opening pressure is directly determined depending on whether the detection value of the load cell 22 is within the valve opening pressure tolerance range, the detection value of the linear gauge sensor 8 corresponds to the valve opening pressure tolerance range. The accuracy is higher than that in the above-described embodiment, in which the quality of the valve opening pressure is indirectly determined depending on whether or not it is within the set range.

For the depth of the spool accommodating hole of the valve body c, the variation of the locate position on the base 1, the positioning error of the pallet 26, etc., a pulse motor or the like is used as the drive source of the slider 14, so that You can adjust the movement distance with high accuracy.

Although the regulator valve has been described in the above two embodiments, it is needless to say that the present invention is not limited to this.

[0036]

As described above, according to the present invention, the spool is slidably accommodated in the valve body whose one end is open and the other end is closed, and one end of the spool and the other end closing portion of the valve body are closed. A valve operation confirmation device in which an elastic member is contracted between and the valve opening pressure is set by the elastic member. The device is provided movably in the sliding direction of the spool and abuts on the other end of the spool. Since a slider having a push bar, an urging means for urging the slider with a constant force in the compression direction of the elastic member, and a detecting means for detecting the movement amount of the slider, the slider push bar is provided with a valve. By inserting the spool from one end opening of the main body and applying a constant load of the biasing means to the spool, the spool is moved to overcome the force of the elastic member and the force of the elastic member and the force of the biasing means are balanced. The spool Can be detected by the detecting means spool moving amount until the stop through the slider.

Further, according to the present invention, the spool is slidably accommodated in the valve body having one end opened and the other end closed, and the elastic member is provided between one end of the spool and the other end closed portion of the valve body. Is a valve operation confirmation device in which the valve opening pressure is set by the elastic member, and has a push bar that is movably provided in the sliding direction of the spool and abuts against the other end of the spool. Since the slider, the moving means for moving the slider in the compression direction of the elastic member by a predetermined distance, and the load cell provided in the slider for detecting the reaction force of the elastic member, the slider push bar is provided with a valve. Inserted from one end opening of the main body, the spool overcomes the force of the elastic member and moves for a predetermined distance, and the reaction force of the elastic member received by the slider at this time is detected by the load cell. It can be.

Therefore, according to the present invention, it is possible to confirm whether or not the valve operates accurately and smoothly at the valve opening pressure without supplying oil as in the prior art, and the oil drain after the operation is confirmed. Since it does not require cleaning or washing, and the man-hours can be greatly reduced, work efficiency can be greatly improved, and equipment such as an oil draining / cleaning device can be omitted to simplify equipment and reduce running costs. It can be reduced. Moreover, since the structure is simple and the device can be made compact, it can be easily incorporated in the final step of the valve assembly line.

[Brief description of drawings]

FIG. 1 is a front view showing a valve operation confirmation device according to an embodiment of the present invention.

FIG. 2 is a front view showing a valve operation confirmation device according to another embodiment of the present invention.

FIG. 3 is a plan view of FIG.

FIG. 4 is an enlarged cross-sectional view of a main part of FIG.

FIG. 5 is a plan view of FIG.

FIG. 6 is a flowchart for confirming the operation of the valve.

[Explanation of symbols]

 W valve c valve body d spool f elastic member 4 slider 5 push bar 7 compression spring (biasing means) 8 linear gauge sensor (detection means) 14 slider 22 load cell

Claims (2)

[Claims] 1. A spool is slidably accommodated in a valve body having one end opened and the other end closed, and an elastic member is contracted between one end of the spool and the other end closed portion of the valve body. A slider for confirming a valve operation in which a valve opening pressure is set by the elastic member, the slider being movably provided in a sliding direction of the spool and having a push bar that abuts against the other end of the spool; An operation confirmation device for a regulator valve, comprising: an urging means for urging the slider in a compression direction of the elastic member with a constant force, and a detection means for detecting a movement amount of the slider. 2. A spool is slidably accommodated in a valve body having one end opened and the other end closed, and an elastic member is contracted between one end of the spool and the other end closed portion of the valve body. A slider for confirming a valve operation in which a valve opening pressure is set by the elastic member, the slider being movably provided in a sliding direction of the spool and having a push bar that abuts against the other end of the spool; An operation confirmation device for a regulator valve, comprising: a moving means for moving the slider in a compression direction of the elastic member by a predetermined distance; and a load cell provided on the slider for detecting a reaction force of the elastic member. .