JP2769248B2 - Pressure control valve - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure control valve, and more particularly to a pressure control valve configured to accurately control pressure in a small flow rate range.

[0002]

2. Description of the Related Art For example, in a pressure control valve disposed in a city gas supply line or the like to control a pressure so that a supply pressure to a downstream side is constant, a seat portion (valve element) is provided at a central portion of a diaphragm. When the amount of gas used on the downstream side decreases, the pressure in the diaphragm chamber increases, and the seat portion closes the valve to reduce the gas supply amount. When the amount of gas used on the downstream side increases, the pressure in the diaphragm chamber drops, displacing the seat portion in the valve opening direction, and increasing the gas supply amount. The seat portion is formed in a disk shape, and the amount of supply to the downstream side is controlled by the disk-shaped flat surface being separated from and seated on the valve seat.

[0003]

However, the conventional pressure control valve controls the gas supply pressure to the downstream side by changing the gap between the disc-shaped seat portion and the valve seat. There is a problem that it becomes fully open immediately after opening, and it is difficult to finely control a small flow rate region. In addition, when the seat is separated from the valve seat due to the valve opening operation of the diaphragm, the flow rate suddenly increases, and when trying to control the flow rate to a small value, the flow rate becomes unstable and hunting tends to occur.

Therefore, an object of the present invention is to provide a pressure control valve which solves the above-mentioned problems.

[0005]

According to the present invention, there is provided a valve body provided with a flow passage communicating the inlet and the outlet therein, and an opening provided in the middle of the flow passage and forming the flow passage. A valve seat formed to surround the valve body, a valve body forming a pressure chamber in the valve body and detaching from the valve seat, and supplying a primary pressure from the inflow port side to the pressure chamber. A pressure control unit that drives the valve body in the valve closing direction, releases the pressure in the pressure chamber to the outlet side by the secondary pressure drop on the outlet side, and drives the valve body in the valve opening direction. Pressure control valve, wherein the valve seat
The valve seat is opened when the valve is driven.
The cylindrical guide portion which is displaced relative to the opening is provided on the valve seat of the valve body.
The cylindrical guide portion is provided on the contact surface side, and the cylindrical guide portion is provided on the cylindrical guide portion.
The flow path area increases with the relative displacement of the valve seat with respect to the opening.
It is provided gradually varying flow passage area adjusting unit, the inflow
The fluid that has flowed in from the port is
Structured to circulate from outside to inside of cylindrical guide
It is characterized by having done.

[0006]

According to the present invention, the valve seat is driven by driving the valve body.
The flow path area is adjusted by the cylindrical guide that is displaced relative to the
A flow control area is provided to adjust the flow area
Flow from the outside to the inside of the cylindrical guide part through the part
With this configuration, the valve
The passage area is gradually increased by the passage area adjustment part of the guide.
Pressure control in large and small flow ranges can be performed stably,
When the valve body is in the open state, the primary pressure is
High-pressure fluid flows in from the inlet because it acts from the outer periphery of the
When the cylindrical guide is deformed by fluid pressure
The valve body becomes inoperable.
Open and close the valve after pressure control
be able to.

[0007]

FIG. 1 shows an embodiment of a pressure control valve according to the present invention. In FIG. 1, a pressure control valve 1 is provided, for example, in a gas supply line, and is downstream by opening and closing a valve body 5 with respect to a seat ring 4 provided in a flow path 3 in a valve body 2. Side pressure is controlled to be constant.

The valve body 2 has an upstream flange 2a to which an upstream pipe (not shown) is connected on the left side, and a downstream flange 2b to which a downstream pipe 6 is connected below. An inlet 2c communicating with one end of the flow path 3 is opened at the center of the upstream flange 2a, and an outlet 2d communicating with the other end of the flow path 3 is opened at the center of the downstream flange 2b. Therefore, the flow path 3 is such that the upstream flow path 3a communicating with the inflow port 2c extends in the horizontal direction, and the downstream flow path 3b communicating with the outflow port 2d.
Are formed to extend in the vertical direction. And
A cylindrical base 7 is provided in the valve body 2 so as to protrude into the flow path 3.
The seat ring 4 is fitted and fixed to the upper end of the pedestal 7. The seat ring 4 has a cylindrical portion 4a press-fitted into the opening of the pedestal 7, a flange 4b abutting on the upper end of the pedestal 7, and a valve seat 4c formed to surround the opening of the cylindrical portion 4a forming the flow path 3. And

The valve element 5 is formed so as to have a U-shaped cross section, and is pressed downward by the spring force of the coil spring 8. Reference numeral 9 denotes a lid, which is fixed to the valve body 2 so as to close the upper opening 2e of the valve body 2. A pressure chamber 10 is formed between the valve body 5 and the lid 9, and a pressure introduction hole 9 a for introducing pressure into the pressure chamber 10 is formed in the center of the lid 9.

Reference numeral 11 denotes a diaphragm whose peripheral portion is sandwiched between the lid 9 and the valve body 2 and is attached so as to be in close contact with the lower surface of the valve body 5. The diaphragm 11 is a pressure chamber 1
0 and a flow path 3, and has a telescopic portion bent in an inverted U-shape between the outer periphery of the valve body 5 and the inner wall of the valve body 2, In other words, the configuration allows the valve opening and valve closing operations.

Reference numeral 12 denotes a guide, which comprises a cylindrical guide portion 12a inserted into the opening of the valve seat 4c, and an abutment portion 12b abutting on the diaphragm 11. A plurality of openings (flow path area adjusting portions) 13 are formed in the cylindrical guide portion 12a. Inflow
The fluid (city gas) flowing from the port 2c opens the valve 5
Or, provided on the cylindrical guide portion 12a in accordance with the valve closing operation.
From the outside of the cylindrical guide portion 12a through the plurality of openings 13
Distribute inward.

Each of the plurality of openings 13 is formed of a small circular hole. Then, the guide 12 is fixed to the valve body 5 by the mounting screw 14, and clamps the center of the diaphragm 11. Therefore, when the valve body 5 performs the valve opening operation as described later, the moving direction is guided by the guide 12 fitted to the cylindrical portion 4a of the seat ring 4, and the valve body 5 flows according to the number of the openings 13 that have come out of the valve seat 4c. Adjust the road area. Therefore, even if the valve element 5 is separated from the valve seat 4c, the flow rate does not rise rapidly, and a small flow rate can be finely controlled.

[0013] Also, as in the case of city gas, the primary pressure is high.
In some cases, the fluid pressure causes the cylindrical guide 12 to deform.
May be affected. However, in this embodiment, the primary pressure
The force acts on the outside of the cylindrical guide and the secondary pressure
The guide 12 is deformed because it acts on the inside of the
Then it will be deformed inside. Thus, the fluid pressure
Even if the cylindrical guide 12 is deformed due to
The valve body does not become inoperable.
Even if the guide member 12a is deformed by fluid pressure, the valve
Valve closing operation can be performed. In particular, control of city gas pressure
The controlled pressure control valve 1 always supplies a stable supply of city gas.
Is important to prevent deformation of the cylindrical guide portion 12a.
The valve can be opened and closed without becoming inoperable.
Therefore, the stability and safety of city gas supply are ensured.

Reference numeral 14 denotes a pressure controller, which is a primary pressure supply line 1
5 and a bleed line 16 for releasing the bleed pressure to the downstream side
, A pilot valve 17, an operating pressure introducing line 18 for introducing the primary pressure P ₁ or the secondary pressure P ₂ into the pressure chamber 10, and a downstream detected pressure (secondary pressure P ₂ ) to the pilot valve 17. And a detection line 19 for supplying. Primary pressure supply line 1
5 is a primary pressure P having one end communicating with the inlet 2c of the valve body 2.
_The other end of the pilot valve 17 is connected to the middle chamber 17 a of the pilot valve 17. Also, primary pressure supply line 1
In the middle of 5, there is a throttle 2 for restricting the flow rate from the inlet 2c side.
0 is provided.

One end of the working pressure introducing line 18 is connected to the primary pressure supplying line 15 between the throttle 20 and the pilot valve 17, and the other end is connected to the pressure introducing hole 9 a of the lid 9.
Therefore, the gas at the primary pressure P ₁ whose flow rate is restricted by the throttle 20 is supplied to the pressure chamber 10. Pilot valve 17
The upper chamber 17 is formed by a pair of diaphragms 17a and 17b.
c, a middle chamber 17d, and a lower chamber 17e. Nakamuro 1
7d is a nozzle 17 connected to the primary pressure supply line 15.
f is provided, and a coil spring 17g for pressing the diaphragm 17b is interposed in the lower chamber 17e. In addition, the coil spring 1
For 7g, the magnitude of the spring force is changed by turning the adjustment screw 17h, and the pilot set pressure is adjusted. The pair of diaphragms 17a and 17b are connected to each other and are displaced in the same direction.
The flow rate flowing out of the nozzle 17f is reduced by the pressure rise of 7c, and the flow rate flowing out of the nozzle 17f is increased by the pressure drop of the upper chamber 17c.

The bleed line 16 has one end connected to the middle chamber 17d of the pilot valve 17 and the other end connected to the secondary connection port 2g of the valve body 2. Accordingly, the gas supplied to the middle chamber 17d passes through the bleed line 16 and flows out of the outlet 2d.
Run away. One end of the detection pipe 19 is a pilot valve 17.
The other end is connected to the secondary connection port 6 a of the downstream pipe 6. Therefore, the upper chamber 17c of the pilot valve 17 is the pressure corresponding to a change in the secondary pressure P ₂ on the downstream side.

Here, the pressure control operation of the pressure control valve 1 configured as described above will be described. The primary pressure P ₁ on the upstream side is supplied to the upstream flow path 3 a upstream of the valve seat 4 c and supplied into the pressure chamber 10 via the primary pressure supply pipe 15 and the working pressure introduction pipe 18. Is done. The valve body 5 and the primary pressure P ₁ on the upstream side conduit 3a acts on the lower surface of the diaphragm 11, the operating pressure P _L of the pressure chamber 10 acts on the upper surface.

When the operating pressure P _L is equal to the primary pressure P ₁ , the valve body 5 is pressed downward by the operating pressure P and the pressing force of the spring 8 to seat the diaphragm 11 on the valve seat 4c. That is, the valve element 5 is in the valve closed state, and shuts off the flow path 3. Here, the gas consumption in the downstream side increases, the secondary pressure P ₂ decreases. Since the pressure in the upper chamber 17c of the pilot valve 17 is lowered due to a decrease in the secondary pressure P _2,
The diaphragms 17a and 17b are displaced upward. As a result, the diaphragm 17a is separated from the nozzle 17f.
Since the throttle 20 is provided in the primary pressure supply line 15, the gas in the pressure chamber 10 passes through the working pressure supply line 18 and the middle chamber 17 of the pilot valve 17 when the nozzle 17 f is opened.
d. Further, the gas in the middle chamber 17d flows through the bleed conduit 16 to the downstream flow path 3b.

Therefore, the operating pressure P _L of the pressure chamber 10 is reduced. As a result, the resultant force of the pressing force of the hydraulic pressure P _L and the spring 8 becomes smaller than the pressing force by the primary pressure P ₁ on the upstream side flow passage 3a, away from the valve seat 4c valve body 5 is moved upward Sit down. Since the cylindrical guide 12 is attached to the lower surface of the valve body 5, the valve body 5 is displaced in the valve opening direction while being guided by the guide 12 inserted into the seat ring 4. Therefore, the valve body 5 is not subjected to the vibration of the fluid pressure, and the valve seat 4 c
The valve is stably opened in the horizontal state without tilting.

Since a plurality of openings 13 are formed in the guide 12 as described above, even if the valve element 5 is separated from the valve seat 4c, the opening area does not increase sharply, and The flow rate will increase gradually. That is, by changing the number, position, and inner diameter of the openings 13 provided in the guide 12,
Changes in capacity or characteristics can be made. Therefore, by exchanging the guides 12 having different shapes, for example, as shown in FIG. 2, the rate of increase in the flow rate is suppressed to a small value when the valve is started to be opened. Can be.

As shown in FIG. 3, it is also possible to keep the rate of increase in the flow rate constant irrespective of the amount of displacement of the valve element 5, and to increase the flow rate in proportion to the rise of the valve element 5. Therefore, the shape and number of the openings 13 of the guide 12 are not limited to the above-described embodiment, and the openings 13 may be formed in a slit shape extending in the up-down direction.
In addition to the above, for example, a tapered groove extending in the valve opening direction is provided on the outer periphery of the guide 12 as the flow path area adjusting unit, and the flow path area by the tapered groove increases as the valve body 5 rises. It may be configured to increase gradually.

Accordingly, the valve element 5 is displaced in the valve opening direction, and a flow rate corresponding to the total opening area of the hole 13 that has escaped from the valve seat 4c is supplied to the downstream flow path 3b. The control in the area becomes stable. Therefore, the valve element 5
When the valve is opened, the inconvenience that the flow rate sharply increases and the small flow rate range cannot be controlled is solved. Therefore, the secondary side pressure P ₂ are gradually increased, the occurrence of hunting is prevented.

When the amount of gas used on the downstream side decreases,
The secondary pressure P ₂ increases, and the pressure is supplied to the upper chamber 17 c of the pilot valve 17 via the detection pipe 19. Upper room 1
The diaphragm 17a moves down due to the pressure rise of 7c,
The amount of outflow from the nozzle 17f is reduced. Thereby, the primary pressure P ₁ from the primary pressure supply pipe 15 is supplied to the pressure chamber 10 via the working pressure introduction pipe 18. As a result, the pressure in the pressure chamber 10 increases, so that the valve element 5 is displaced in the valve closing direction to decrease the flow rate to the downstream side.

[0024] In this way, the pressure control valve 1, as by displacing the valve body 5 in the valve opening direction or the valve closing direction secondary pressure P ₂ is constant pressure in response to variation of the secondary pressure P ₂ Control. Although the above embodiment has been described as controlling the pressure of the gas, the pressure of a gas other than the gas or a liquid may be controlled.

[0025]

As described above , according to the present invention, the drive of the valve element is achieved.
Cylindrical guide that is displaced relative to the valve seat opening with movement
A flow area adjustment part is provided in the part,
From the outside of the cylindrical guide section through the flow path area adjustment section.
The valve is configured to circulate toward the
The flow is adjusted by the flow path area adjustment section of the guide provided on the valve body.
Road area gradually increases, and pressure control in small flow rate areas is stable
And the primary pressure when the valve is in the open state.
Since the force acts from the outer periphery of the cylindrical guide, high-pressure fluid
When the fluid flows in from the inlet, the cylindrical guide
Even if it is deformed, it only deforms inward, so the valve
After the pressure control operation, the valve
Can be opened and closed.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of one embodiment of a pressure control valve according to the present invention.

FIG. 2 is a diagram showing a displacement amount and a flow rate change of a valve body.

FIG. 3 is a diagram showing another flow rate change with respect to a displacement amount of a valve body when a guide is replaced.

[Description of Signs] 1 Pressure control valve 2 Valve body 3 Flow path 4 Seat ring 4c Valve seat 5 Valve body 9 Lid 10 Pressure chamber 11 Diaphragm 12 Guide 13 Opening (flow path area adjusting unit) 14 Pressure control unit 15 Primary pressure Supply line 16 Bleed line 17 Pilot valve 18 Operating pressure introduction line 19 Detection line

──────────────────────────────────────────────────続 き Continuation of front page (56) References JP-A-56-105163 (JP, A) JP-A-63-214813 (JP, A) JP-A-63-204305 (JP, A) (58) Field (Int.Cl. ⁶ , DB name) G05D 16/16

Claims (1)

(57) [Claims] 1. A valve body provided with a flow path communicating an inlet and an outlet therein, and a valve seat provided in the middle of the flow path and formed so as to surround an opening forming the flow path. A valve body that forms a pressure chamber in the valve body and is separated from and seated on the valve seat; and a primary pressure from the inflow side is supplied to the pressure chamber to drive the valve body in a valve closing direction. and, a pressure control valve comprising a pressure control unit for driving the relief by a secondary pressure drop of the fluid outlet pressure of the pressure chamber to the outlet side of the valve body in the valve opening direction, the valve The valve is inserted into the opening of the seat and
The cylindrical guide portion displaced relative to the opening of the valve seat is
An opening of the valve seat of the cylindrical guide portion is provided on the valve seat contact surface side of the valve body.
Flow whose flow area gradually changes with relative displacement
A fluid flow area adjusting unit is provided, and the fluid flowing in from the inflow port passes through the fluid area adjusting unit.
And circulates from the outside to the inside of the cylindrical guide portion
A pressure control valve characterized by having such a configuration .