JPH0632528Y2 - Fluid switching valve - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to a fluid switching valve.

[Prior Art] In order to prevent the lubricant applied to the sliding seal portion from mixing with the fluid flowing through the flow passage, the valve body that opens and closes the valve seat is a diaphragm, and the diaphragm is prevented from being damaged. Therefore, the fluid switching valve provided with a support on the side opposite to the valve seat of the diaphragm to reduce the pressure receiving area of the diaphragm is
It is already known (for example, see JP-A-1-93647).

However, the known fluid switching valve described above has a problem in that when the sliding speed of the piston for displacing the diaphragm is high, the diaphragm collides with the support with a large force, which shortens the life of the diaphragm.

In order to solve this problem, it is conceivable to supply the fluid through a throttle such as a needle valve to slow down the sliding speed of the piston, but this will increase the cost and also reduce the responsiveness of the valve. Not preferable.

[Problems to be Solved by the Invention] An object to be solved by the present invention is to provide a fluid switching valve having good responsiveness and a long diaphragm life.

[Means for Solving the Problems] In order to solve the above problems, the present invention provides a valve body having a plurality of ports and a valve seat in a flow path communicating these ports, and a bonnet attached to the valve body. And a piston that slides in a cylinder formed in the bonnet,
A diaphragm that is displaced by sliding of the piston to open and close the valve seat, a support for reducing the pressure receiving area of the diaphragm provided on the side opposite to the valve seat of the diaphragm, a pressure chamber and a spring defined by the piston. In a fluid switching valve in which a diaphragm opens a valve seat by a fluid supplied to the pressure chamber, the breathing chamber having a compressed breathing chamber, and a support and a breathing hole that individually open to these chambers. It is characterized in that the opening area is gradually reduced by the sliding of the above to the breathing chamber side.

[Operation and Effect of Invention] When fluid is supplied to the pressure chamber and the piston is slid toward the breathing chamber, the diaphragm opens the valve seat and the flow paths between the ports communicate with each other.

In this case, since the opening area of the breathing hole is large at the beginning of sliding of the piston, the diaphragm displaces quickly to open the valve seat, and the sliding area of the breathing hole becomes smaller due to the sliding of the piston, thus reducing the sliding speed of the piston. Is gradually delayed, the breathing chamber acts as a damper to prevent the diaphragm from colliding with the support.

Therefore, the responsiveness of the valve is good, the life of the diaphragm can be extended, and since no other parts are required, there is no increase in cost.

When the fluid in the pressure chamber is discharged, the diaphragm closes the valve seat due to the biasing force of the spring.

[Embodiment] The drawings show an embodiment of the present invention. This fluid switching valve includes a valve body 1 and a drive unit 2 for driving a diaphragm, which will be described later, and a piston assembly 3 is attached to the drive unit 2. Has been.

The valve body 1 is provided with an inlet port 5 and an outlet port 6 for a fluid such as air at opposed positions, and a valve seat 7 facing the drive unit 2 side is formed in a flow path communicating these ports.

The bonnet 9 of the drive unit 2 includes a cylinder 10 that is open on the valve body 1 side, and a piston 11 that slides in the cylinder 10 has an engaging piece that projects toward the valve body 1 at the central portion and that is inward at the tip. An annular support 14 that has a cylindrical engagement portion 12 provided with 12a and is biased toward the valve body side by a spring 13 that is compressed between the top wall of the bonnet 9 and the valve body side. Are fixed to the bonnet 9 by pins 15.

The diaphragm 17 that opens and closes the valve seat 7 has its peripheral edge tightly clamped by the support 14 and the valve body 1, and the engaging piece 12a is engaged with the engaging groove 18a formed on the outer periphery of the projecting portion 18 at the central portion. It is attached to the piston 11 so that it can be displaced integrally, and the intermediate portion is
By being supported by the support surface 14a, the pressure receiving area when the valve seat 7 is opened is reduced. The piston 13, the piston 11, the support 14, and the diaphragm 17 form the piston assembly 3.

In the bonnet 9, a pipe mounting member 20 is replaceably mounted on the opening side surface of the port 5, and the pilot fluid is supplied to the pressure chamber 21 defined by the piston 11 in the pipe mounting member 20 and the bonnet 9. The pilot port 22 and the breathing hole 24 are opened, and the breathing hole 24
When the diaphragm 17 closes the valve seat 7, it is in full communication with the breathing chamber 23 through the radial communication hole 25 formed in the piston 11.

Reference numerals 26 and 27 in the figure denote the piston 11 and the engaging portion 12.
Is a sealing member provided on the outer peripheral surface of the.

In the above-described embodiment, when the fluid is supplied from the pilot port 22 to the pressure chamber 21, the piston 11 and the diaphragm 17 are displaced upward in the drawing to open the valve seat 7, and the pressure chamber 21
When the fluid is discharged, the piston 11 and the diaphragm 17 are displaced downward in the figure by the urging force of the spring 13, and the valve seat 7 is closed.

At the beginning of sliding the piston 11 upward in the drawing, since the breathing hole 24 is in the fully opened state and communicates with the breathing chamber 23,
The piston 11 and the diaphragm 17 are rapidly displaced to open the valve seat 7 with good responsiveness, and the communication hole 25 also rises due to the upward movement of the piston 11, so that the opening area of the breathing hole 24 is gradually reduced and Since the sliding speed becomes slower, and the breathing chamber 23 acts as a damper by this, the diaphragm 17 is prevented from colliding with the support 14 with a large force while the valve seat 7 is quickly opened.

Therefore, the responsiveness of the switching valve is good, and the intermediate portion of the diaphragm 17 is supported by the support surface 14a of the support 14 so that the pressure receiving area thereof becomes small. Since no other parts such as a valve are required, there is no cost increase.

Further, in the above embodiment, the engaging groove 18a of the diaphragm 17 is used.
Is engaged with the engagement piece 12a of the piston 12, the piston assembly 3 is mounted from the opening side of the bonnet 9, and the support 14 is fixed by the pin 15, so that the piston assembly 3 is assembled to the drive unit 2. Therefore, the piston assembly 2 can be easily attached to the drive unit 2.

Furthermore, since the pipe mounting member 20 is replaceably mounted on the bonnet 9, the pipe mounting member 20 can be mounted after the necessary pipes have been mounted on the ports 5 and 6, so that piping to the port is easy.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a vertical sectional front view of an embodiment of the present invention. 1 ... Valve body, 2 ... Driving part, 3 ... Piston assembly, 5,6 ... Port, 7 ... Valve seat, 11 ... Piston, 12a ... Engaging piece, 14 ... Support, 17 ... ... diaphragm, 18a ... engagement groove.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toyonobu Sakurai 6-19-1 Inari, Soka City, Saitama Prefecture SMC Co., Ltd. Grass processing plant Kaoru Onozuka (56) Reference JP-A-1-93674 (JP, A) ) JP-A-2-271168 (JP, A) Actually open flat 1-115074 (JP, U)

Claims (1)

[Scope of utility model registration request] 1. A valve body having a plurality of ports and a valve seat in a flow path for communicating these ports, a bonnet attached to the valve body, and a piston that slides in a cylinder formed in the bonnet. , A diaphragm that is displaced by sliding of the piston to open and close the valve seat, a support for reducing the pressure receiving area of the diaphragm provided on the side opposite to the valve seat of the diaphragm, a pressure chamber defined by the piston, and In a fluid switching valve including a breathing chamber in which a spring is contracted, a support and a breathing hole that individually open to these chambers, and a diaphragm that opens a valve seat by a fluid supplied to the pressure chamber, A fluid switching valve characterized in that the opening area is gradually reduced by sliding the piston toward the breathing chamber.