JP2659152B2 - 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 an input port and an output port for displacing a pressure receiving body by opposing the output pressure of a feedback chamber defined by the pressure receiving body and the spring force of a pressure adjusting spring through the pressure receiving body. The present invention relates to a pressure control valve for transmitting the displacement of a pressure receiving body to a valve body that opens and closes a passage connecting the pressure control valve and the pressure control valve.

[0002]

2. Description of the Related Art A pressure control valve of this kind is disclosed in
No. 105 is disclosed. In this pressure control valve, the spring action pressure set by the pressure regulating spring and the output pressure of the pressure control valve oppose each other via the diaphragm, and the diaphragm is displaced by the fluctuation of the pressure opposition. Thereby, the valve connected to the diaphragm is displaced so as to adjust the flow rate of the output fluid, and the output pressure is controlled to the pressure adjusted and set by the pressure adjusting spring. Further, the pressure regulating spring is interposed between the piston and the diaphragm, and the spring force changes by changing the position of the piston. Supplying pressure fluid for piston driving piston abuts the stroke adjusting screw, the spring force of the pressure control spring by the positional displacement changes. Accordingly, the output pressure can be switched in two stages by changing the piston position, and the speed of the piston in the cylinder can be adjusted in two stages by this switching control. Such a speed switch can be used, for example, for impact mitigation at the end end of a piston in a cylinder.

[0003]

The set output pressure can be changed in two stages by changing the position of the piston between two positions. To change the two set output pressures themselves, a pressure adjusting screw screwed to the piston is required. Needs to be adjusted. The adjustment of the screwing position changes the amount of expansion and contraction of the pressure adjusting spring, thereby changing the spring force. However, when the spring constant of the pressure adjusting spring is large, a slight change in the screwing position of the pressure adjusting screw greatly changes the spring force, making it difficult to finely adjust the set output pressure.

[0004]

According to the present invention, there is provided:
Output of feedback chamber defined by pressure receiver
By the pressure and the spring force of the pressure regulating spring through the pressure receiving body
Displace the pressure receiver and connect the input and output ports.
That transmits the displacement of the pressure receiver to the valve that opens and closes the passage
In the force control valve, the second partition forming the feedback chamber
The spring force of the first pressure regulating spring is applied to the first pressure receiving body,
An accommodation recess is formed in the first pressure receiving body, and a first recess is formed in the accommodation recess.
The second pressure receiving body is displaceably assembled and its second
The pressure constant of the pressure receiving member is smaller than that of the first pressure regulating spring.
The spring force of the second pressure adjusting spring is applied,
Adjusting the spring force and the spring force of the second pressure regulating spring respectively
The output pressure set by the first pressure receiving body
The output pressure of the feedback chamber through
The space between the pressure receiving member of the second pressure receiving member and the pressure receiving member of the second pressure receiving member.
It is installed separately from the lock room, and the space
Set output pressure switching means for selectively supplying and discharging fluid from
Flow to the space by the set output pressure switching means.
When supplying the body, the second pressure receiving body is connected to the second pressure regulating spring.
Switch to the first position, where the
So that the second pressure regulating spring switches to the second position where it extends.
did.

[0005]

The second pressure receiving member is located at the first position or the second position.
The spring force of the first pressure regulating spring and the spring force of the second pressure regulating spring
The set output pressure is set by adjusting the spring force.
It is. At this time, the spring constant of the second pressure regulating spring is
Since it is smaller than the spring constant of the pressure spring,
Fine adjustment of set output pressure is performed by adjusting spring force
It is. Therefore, a second pressure adjusting spring having an appropriate spring constant is selected.
To adjust the expansion and contraction of the pressure regulating spring with a large spring constant.
Fine adjustment of the set output pressure is easier than when the amount is changed directly.
It will be easier. The set output pressure is the first pressure receiving pressure.
Opposes the output pressure of the feedback chamber through the body. Setting
The position of the second pressure receiver is switched by the output pressure switching means.
When changed, the spring force of the second pressure adjusting spring changes and is set.
Output pressure changes. That is, the position of the second pressure receiving member changes.
As a result, the set output pressure is changed in two stages.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIGS. The valve housing 1 is provided with an input port 1a, an output port 1b, and an exhaust port 1c, and the ports 1a, 1b, 1c are connected by a passage L in the valve housing 1. A rod 2 is accommodated in the passage L, and a supply valve 3 and an exhaust valve 4 are loosely fitted to the rod 2 so as to face each other. A valve seat 5 for the supply valve element 3 and a valve seat 6 for the exhaust valve element 4 are formed on the wall where the passage L is formed. The input port 1a is shut off, and the exhaust valve 4 and the valve seat 6 are closed.
The output port 1b and the exhaust port 1c are shut off.

The supply valve element 3 is returned to the valve seat 5 by a return spring 7.
The exhaust valve body 4 is urged by a return spring 8 in a direction in which it is joined to the valve seat 6. The part of the rod 2 between the two valve bodies 3 and 4 joined to the valve seats 5 and 6 is formed to have a slightly larger diameter than the other parts. Is set to be less than the distance between the tips. Therefore, both valve bodies 3 and 4 are shown in FIG.
As shown in (1), it is possible to simultaneously join the valve seats 5 and 6, and the input port 1a, the output port 1b and the exhaust port 1c can be shut off from each other.

A pressure air supply source 9 is connected to the input port 1a connected to the storage chamber Rs of the supply valve element 3, and a silencer 10 is connected to the exhaust port 1c connected to the storage chamber Re of the exhaust valve element 4. Is connected.

A piston housing 11 is joined and fixed on the valve housing 1.
The first piston 12 is slidably accommodated in the first piston 12. The rod 2 projects upward from the valve housing 1, and the rod 2 is connected to the first piston 12. The first piston 12 defines a feedback chamber Rf, and the feedback chamber Rf and the output port 1b are connected via a feedback passage 1d.

On the upper surface of the first piston 12, a housing recess 1 is provided.
A second piston 13 is slidably housed in the housing recess 12a. Housing recess 1
A position restricting ring 14 is fitted on the inner peripheral surface of 2a, and the sliding range of the second piston 13 is
a between the bottom surface and the positioning ring 14.

A first pressure adjusting screw 15 is screwed to the upper end of the piston housing 11, and the tip of the first pressure adjusting screw 15 projects into the piston housing 11. A spring receiver 16 and a first pressure regulating spring 17 are interposed between the rush end and the first piston 12, and the spring force of the pressure regulating spring 17 and the output pressure of the feedback chamber Rf are equal to the first pressure. Opposing each other through a piston 12. First piston 12 and spring receiver 16
Is connected to the atmosphere via a through hole 11b.

The first pressure adjusting screw 15 has the second pressure adjusting screw 1
8 is screwed, and the tip of the second pressure adjusting screw 18 is
And penetrates into the piston housing 11 through the pressure adjusting screw 15 and the spring receiver 16. A spring receiver 19 is screwed to the protruding end, and a second pressure regulating spring 20 is interposed between the spring receiver 19 and the second piston 13.

The second piston 13 housed in the housing recess 12a defines a switching control room Rc. A passage 12b is connected to the switching control chamber Rc from the peripheral surface of the first piston 12, and a pair of seal rings 21 and 22 are provided between the opening of the passage 12b in the peripheral surface of the piston. To be installed.

The piston housing 11 has a control port 1
1a is formed, and a pressure air supply source 24 is connected to the control port 11a via a three-way valve type electromagnetic switching valve 23. Control port 11a is communicated always with the passage 12b, the pressure in the switching control chamber Rc is switched to the atmospheric pressure P ₀ and the supply pressure P ₁ by ON-OFF switching of the solenoid switching valve 23. When the spring force of the second pressure regulating spring 20 and the pressure P ₁ of the switching control chamber Rc are opposed via the second piston 13, the supply pressure is set to be higher, and the supply pressure is inside the switching control chamber Rc. The second piston 13 is pressed against the position restricting ring 14. That is, the second piston 13 is turned on and off of the electromagnetic switching valve 23.
When the switch is turned off, it is displaced relative to the first piston 12, and the second pressure regulating spring 20 is switched between a pressure increase setting position where the pressure is reduced and a pressure reduction setting position where the pressure adjustment is extended.

The output pressure P ₂ on the output port 1b side spreads to the feedback chamber Rf, and the output pressure P ₂ in the feedback chamber Rf and the spring force F of the first pressure regulating spring 17 pass through the first piston. Oppose. In the state of FIG. 1 serves switching control chamber Rc electromagnetic switching valve 23 is in the OFF state and the pressure P _1, the second piston 13 is in the step-up set position. Accordingly, the spring force f _{1 of} the second pressure regulating spring 20 having the length in the contracted state and the output pressure P _{2 correspond} to the second piston 13.
And via the first piston 12.

Assuming that the pressure receiving area of the first piston 12 is S, the first piston 12 is arranged at a balance position where (P ₀ S + F + f ₁ ) = P ₂ S, and the valve bodies 3 and 4 _{P 0 S + F + f 1} ) = controlled to open and close to provide a P ₂ S. That is, the output pressure P ₂ becomes too and opens the exhaust valve body 4 high, open wide and the output pressure P ₂ becomes too low the supply valve element 3.

In the state shown in FIG. 2, the electromagnetic switching valve 23 is ON.
In the state, the switching control room Rc has an atmospheric pressure P₀Becomes
And the second piston 13 is at the step-down setting position. Obedience
Thus, the spring of the second pressure regulating spring 20 having the length of the extended state
Force f_Two(<F₁) And output pressure P _TwoIs the second piston 13
And via the first piston 12. Therefore,
(P₀S + F + f_Two) = P_TwoIn the balance position that becomes S
1 piston 12 is arranged, and valve bodies 3 and 4 are pressure balun
(P₀S + F + f_Two) = P_TwoOpen and close to bring S
Controlled. That is, whether the electromagnetic switching valve 23 is in the OFF state.
The second pressure regulating spring 2
0 spring force is f₁To f_TwoAnd the output pressure P_TwoIs reduced
I do.

In the configuration of the present embodiment in which such a set output pressure is changed in two stages, a minute change in the set output pressure is performed in the first step.
The adjustment is performed by adjusting the screwing position of the second pressure adjusting screw 18 with respect to the pressure adjusting screw 15. This screw position adjustment changes the length of the second pressure adjustment spring 20, and changes the spring force of the second pressure adjustment spring 20. The amount of change in the spring force of the second pressure adjusting spring 20 is smaller as the spring constant of the second pressure adjusting spring 20 is smaller than the same amount of screw position adjustment of the pressure adjusting screw 18. Therefore, if the second pressure adjusting spring 20 having an appropriate spring constant is selected, minute change of the set output pressure becomes easy.

In Japanese Patent Application Laid-Open No. 1-309105, the position of the piston for changing the difference between the two-stage set output pressures depends on the adjustment of the engagement position of the stroke adjusting screw. Setting is difficult. That is, in this adjustment, it is necessary to perform the adjustment while checking the output pressure, and for that purpose, the pressure fluid for driving the piston must be maintained in a supply state. In such a state, the piston is pressed against the adjusting screw by fluid pressure, so that the turning operation for adjusting the screwing position of the adjusting screw cannot be easily performed, and it is difficult to set the output pressure with high accuracy. is there. However, in this embodiment the engagement position adjustment of the second pressure adjusting screw 18 is only only the spring force of the second pressure control spring 20 is resistance, the influence of the supply pressure P ₁ is eliminated. Therefore, the adjustment work of the output pressure setting of the present embodiment is easy.

The present invention is, of course, not limited to the above-described embodiment. For example, an embodiment in which pressure air can be supplied from the pressure air supply source 25 to the through hole 11b as shown in FIG. 3 is also possible. . In this embodiment, the electromagnetic switching valve 2
6, the first piston 12
Region R between the spring and the spring receiver 16 is supplied with the atmospheric pressure P _0.
It is switched to the pressure P _3. Setting the output pressure if the spatial area R of the atmospheric pressure P ₀ is in the same manner as in the Example. When the space region R is at the supply pressure P ₃ , the pressure balance via the first piston 12 is (P ₃ S + F + f ₁ ) = P ₂ S or (P ₃ S + F + f ₂ ) = P ₂ S.

The present invention is also applicable to the embodiment shown in FIG. In this embodiment, the valve housing 27 has an input port 27a and an output port 27b.
Only are housed. The feedback chamber Rf and the space region R are connected by a passage 12c in the first piston 12, and the opening of the passage 12c on the feedback chamber Rf side can be opened and closed by a valve rod 28a. That is, when the output pressure rises abnormally, the first piston 12
Is separated from the valve rod 28a, and pressure is released. This avoids an abnormal increase in the output pressure.

Further, in the present invention, an embodiment is also possible in which a third piston is assembled to the second piston in each of the above embodiments, and the spring force of the third pressure adjusting screw is applied to the third piston. is there.

[0023]

As described in detail above , according to the present invention ,
The constant output pressure can be changed in two stages,
By selecting a second pressure adjusting spring having a proper spring constant,
Fine adjustment of the set output pressure can be easily performed .

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing an embodiment of the present invention, showing a state in which a second piston is arranged at a boost setting position.

FIG. 2 is a longitudinal sectional view showing a state in which a second piston is arranged at a step-down setting position.

FIG. 3 is a longitudinal sectional view showing another example.

FIG. 4 is a longitudinal sectional view showing another example.

[Explanation of symbols]

12... A first piston as a first pressure receiving body, 12 a.
Accommodating recess, 13: second piston as second pressure receiving body , 15: first pressure adjusting screw, 17: first pressure adjusting spring, 1
8 ... second pressure adjusting screw, 20 ... second pressure adjusting spring, 23 ...
Electromagnetic switching valve as constant output pressure switching means, Rc ...
Switching control room as space, Rf ... feedback
Room.

Claims (1)

(57) [Claims] An output pressure of a passage connecting an input port and an output port by displacing a pressure receiving body by opposition of an output pressure of a feedback chamber defined by the pressure receiving body and a spring force of a pressure adjusting spring through the pressure receiving body. In a pressure control valve for transmitting a displacement of a pressure receiving element to a valve element for opening and closing, a first pressure receiving element defining a feedback chamber is provided with a first pressure receiving element.
The spring force of the pressure regulating spring is applied, and the first pressure receiving body receives the force.
A second pressure receiving body can be displaced in the receiving recess by forming a receiving recess.
As well as the first pressure receiving member
Of the second pressure regulating spring having a smaller spring constant than the pressure regulating spring of
A spring force of the first pressure adjusting spring and a second adjusting spring.
Set by adjusting the spring force of each pressure spring
Setting the output pressure to the feed pressure through the first pressure receiving body;
The first pressure receiver and the second pressure receiver are opposed to the output pressure of the back chamber.
Isolate the space between the pressure body and the feedback chamber
And selectively supply fluid to the space from outside.
A set output pressure switching means for discharging is provided, and the set output pressure
When the fluid is supplied to the space by the switching means,
A first position in which the second pressure receiving spring contracts a second pressure receiving body;
Switch, and the second pressure regulating spring is extended when the fluid is discharged.
A pressure control valve characterized by switching to a second position .