JPH07306722A - Reducing valve for vacuum - Google Patents

Abstract

PURPOSE:To obtain the reducing valve for vacuum which can precisely set fine pressure. CONSTITUTION:A valve opening 5 is formed between an intake 2 and an outlet 3. A main valve element 6 is arranged opposite the valve opening 5. A piston 7 is arranged above the main valve element 6. A diaphragm 19 is arranged above the piston 7 across a pilot valve element 15. On the top surface of the diaphragm 19, a coil spring 22 for pressure setting is arranged in a tensed state. On the reverse surface of the diaphragm 19, an auxiliary spring 9 having a spring load in the same direction as the coil spring 22 is fitted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a valve for maintaining a pressure value on the outlet side of a valve at a predetermined vacuum pressure equal to or lower than atmospheric pressure, and more particularly to a vacuum pressure reducing valve capable of setting a minute pressure. Normally, a pressure reducing valve detects a decrease in pressure on the outlet side of the valve and opens the valve opening to supply the high pressure fluid on the inlet side to the outlet side to maintain a desired pressure. In order to maintain the side pressure at a vacuum pressure equal to or lower than the atmospheric pressure, a pressure reducing valve having a configuration in which the direction of applying the initial load to the pressure receiving response portion is opposite to that of the pressure reducing valve that maintains the positive pressure equal to or higher than the atmospheric pressure is used.

[0002]

2. Description of the Related Art As a conventional vacuum pressure reducing valve, for example, the one disclosed in Japanese Utility Model Laid-Open No. 63-14311 has been used. This is because one side of the diaphragm as a pressure receiving response part receives the pressure on the secondary side, that is, the outlet side, the other side is connected with a pressure setting spring, and this pressure setting spring is placed in a tensioned state, so that the outlet side Is set and maintained at a predetermined vacuum pressure below atmospheric pressure.

[0003]

SUMMARY OF THE INVENTION In the above conventional one,
There was a problem that the minute pressure could not be set accurately. Generally, the pressure is set by changing the spring load of the pressure setting spring by an external operation.However, when setting a minute pressure, the spring length must be minutely changed to slightly change the spring load. This is because it is difficult to accurately and minutely change the length of this spring. The spring length is usually changed by a screw mechanism connected to the spring, but it is practically impossible to make a precise displacement due to the play of the screw mechanism. In particular, when the spring constant of the pressure setting spring is large, the spring load changes greatly even with a slight change in the spring length, which makes it difficult to set the pressure more accurately.

Therefore, a technical problem of the present invention is that the spring load can be minutely changed without minutely changing the length of the spring so that the minute pressure can be set with high precision. To get a valve.

[0005]

[Technical Means for Solving the Problems] The technical means of the present invention taken to solve the above problems is to provide a valve opening between an inlet and an outlet and dispose a valve element facing the valve opening. Then, the valve body is connected to the pressure receiving part, and the pressure on the outlet side is applied to one surface of the pressure receiving part, and the pressure setting spring is connected to the other surface to detect that the pressure on the outlet side has dropped below the set pressure. In the pressure reducing valve that detects the response part and supplies the inlet side fluid to the outlet side to maintain the outlet side pressure at the set pressure by opening the valve port, An auxiliary spring equipped with a spring load in the same direction as the pressure setting spring is attached.

[0006]

By mounting the auxiliary spring on the surface of the pressure receiving responsive portion on which the outlet side pressure acts, the load received by the pressure receiving responsive portion by the outlet side pressure becomes small as much as it is offset by the spring force of the auxiliary spring. . The spring load of the pressure setting spring may be small as much as the load is small, and the small spring load can also make the spring constant small. Therefore, since the spring constant is small, it is not necessary to minutely change the length of the spring when minutely changing the spring load to set the minute pressure, and the spring length is relatively changed. As a result, the spring load can be minutely changed, the difficulty of minutely changing the spring length is eliminated, and the minute pressure can be set accurately.

[0007]

EXAMPLES Examples showing specific examples of the above technical means will be described. An inlet 2 and an outlet 3 are formed in the valve casing 1, and a valve seat 5 is formed in a valve seat member 4 attached to the valve casing 1. A flat plate-shaped main valve body 6 is provided in the coil spring 1 so as to face the valve opening 5.
7 is arranged so as to urge the valve 7 in the valve closing direction, and the piston 7
It joins with the connecting rod 8 of.

The upper portion of the piston 7 is connected to the pilot valve chamber 14 via the communication passage 13. A pilot valve body 15 is arranged at the end of the pilot valve chamber 14 with a coil spring 16 biasing the valve body 15 in the valve closing direction. The pressure on the inlet side acts on the pilot valve body 15 through the inlet pressure communication passage 20. A pilot valve rod 18 is continuously provided on the upper portion of the pilot valve body 15 and is joined to a diaphragm 19 as a pressure receiving response portion via the lower diaphragm retainer 10. Lower chamber 30 of diaphragm 19
The pressure on the outlet side is exerted by the outlet pressure communication passage 31. The upper diaphragm retainer 2 is provided on the upper surface of the diaphragm 19.
A coil spring 22 for pressure setting is arranged via 1. The upper diaphragm retainer 21 and the lower diaphragm retainer 10 are arranged so as to sandwich the diaphragm 19 by screwing.

A substantially cylindrical female screw member 32 is arranged above the coil spring 22, and a pressure adjusting screw 23 is threaded through the center thereof. The pressure adjusting screw 23 is attached to the center of the upper part of the upper casing 33, and a recess groove is formed in a part of the pressure adjusting screw 23 so that the retaining ring 25 is fitted thereto. Mount it so that it will not be displaced. Female screw member 32 and upper casing 33
A guide member 34 is disposed between the female screw member 32 and the female screw member 32 so that the female screw member 32 is vertically displaceable and does not rotate. The coil spring 22 arranged between the female screw member 32 and the upper diaphragm retainer 21 is attached at both ends by welding. An urging spring 35 that urges the female screw member 32 downward is arranged above the female screw member 32.

An auxiliary spring 9 is attached to the lower portion of the lower diaphragm retainer 10 in the lower chamber 30 of the diaphragm 19.
The auxiliary spring 9 is arranged in a compressed state and is attached so that the spring load acts in the same direction as the spring load of the coil spring 22 for pressure setting.

Next, the operation will be described. When the pressure on the outlet 3 side falls below the pressure set by the coil spring 22, the spring load of the coil spring 22 is overcome and the diaphragm 19 is displaced downward. Due to the downward displacement of the diaphragm 19, the pilot valve body 15 is opened via the pilot valve rod 18, and the high-pressure fluid on the inlet 2 side passes through the communication passages 20 and 13 and acts on the upper surface of the piston 7 to cause the piston 7 to move. Displaces downward. Due to the displacement of the piston 7, the main valve body 6 opens and the outlet 3
To the outlet 3 by replenishing the high pressure fluid on the inlet 2 side
Side pressure rises to the set pressure. When the set pressure is reached, the pilot valve body 15 closes and the main valve body 6 closes in balance with the spring load that pushes the diaphragm 19 upward.

When the outlet side pressure acts on the lower surface of the diaphragm 19 and the diaphragm 19 is displaced downward, the downward force applied to the diaphragm 19 is canceled by the spring force of the auxiliary spring 9, and the load applied to the diaphragm 19 is reduced. It becomes smaller by that amount, and the spring load of the coil spring 22 that balances as the load becomes smaller can also be made smaller.
If the spring load of the coil spring 22 can be reduced, the spring constant also becomes small, and the displacement amount of the spring, that is, the tension amount in this embodiment can be increased when a predetermined load is applied. Therefore, it is necessary to make a minute change. Therefore, the pressure can be set accurately.

[0013]

EFFECTS OF THE INVENTION By mounting the auxiliary spring on the surface of the pressure receiving responsive portion on which the pressure on the outlet side acts, it is not necessary to change the length of the pressure setting spring minutely at the time of setting a minute pressure, and the difficulty is solved. By doing so, it is possible to accurately set the minute pressure.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of a vacuum pressure reducing valve of the present invention.

[Explanation of symbols]

 2 Inlet 3 Outlet 5 Valve port 6 Main valve body 7 Piston 9 Auxiliary spring 19 Diaphragm 22 Coil spring

Claims (1)

[Claims] 1. A valve opening is provided between an inlet and an outlet, a valve body is arranged facing the valve opening, the valve body is connected to a pressure receiving responsive portion, and the outlet side pressure is applied to one surface of the pressure receiving responsive portion. By connecting a pressure setting spring to the other surface, the pressure receiving responder detects that the pressure on the outlet side has dropped below the set pressure and opens the valve port to supply the fluid on the inlet side to the outlet side. In the pressure reducing valve that maintains the outlet side pressure at the set pressure, an auxiliary spring having a spring load in the same direction as the spring load of the pressure setting spring is attached to the surface of the pressure receiving response portion on which the outlet side pressure acts. Vacuum pressure reducing valve.