JP3281416B2 - Pressure regulator - 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 regulator provided in a gas supply pipe for regulating the pressure of a supplied gas within a predetermined range (within a standard).

[0002]

2. Description of the Related Art For example, a general household LP gas supply system is provided with a pressure regulator for adjusting a supply gas pressure within a certain range. FIG. 2 shows a pressure regulator 21 of a so-called inner valve system. In FIG.
1 is provided with a flow control valve portion 24 at a lower portion of the main body case 23 of the gas decompression means, and one of the flow control valve portions 24 is formed with a gas inlet 25 communicating with a gas container (not shown). On the side, an intermediate outlet 26 communicating with a gas metering section (not shown) is formed.

The main body case 23 has a diaphragm 2 inside.
7, a pressure reducing chamber 28 and an atmospheric pressure chamber 29 are defined.
8 has an intermediate outlet 30 and a gas outlet 4 which communicate with the measuring section.
4 are formed. The diaphragm 27 is constantly urged toward the decompression chamber 28 by a compression coil spring 31 disposed on the atmospheric pressure chamber 29 side, and an operating rod 32 is inserted through the center of the compression coil spring 31. This operating rod 3
2 is fixed to the center of the diaphragm 27, and the distal end thereof penetrates and protrudes into the decompression chamber 28, and is engaged with one end of the connection lever 33. The other end of the connection lever 33 is rotatably supported by the main body case 23 about a support shaft 34.
5 are engaged with each other.

A gas inlet side pressure chamber 36 and a gas outlet side pressure chamber 37 are defined by a wall 38 inside the flow control valve section 24. A nozzle portion 39 is formed in the wall portion 38 to communicate the gas inlet side pressure chamber 36 and the gas outlet side pressure chamber 37. Further, a valve body 40 is arranged in the nozzle portion 39 so as to be able to freely come and go. The valve body 40 is composed of a valve portion 41 that comes into contact with the nozzle portion 39 and the support 35 that supports the valve portion 41. The support 35 is disposed between the inner wall of the gas inlet side pressure chamber 36. Compression coil spring 43
Urges the nozzle portion 39 side. Further, the support 35 is inserted through the nozzle portion 39 and the gas outlet side pressure chamber 3 is inserted.
7, the tip of which protrudes into the main body case 23. The gas outlet side pressure chamber 37 is partitioned by the pressure reducing chamber 28 of the main body case 23 and the diaphragm 46.

In such a pressure regulator, the pressure reducing chamber 2
When the pressure of the compression spring 3 rises, the diaphragm 27
The actuator is displaced toward the atmospheric pressure chamber 29 against the urging force of 1, the operating rod 32 is pulled up, the connecting lever 33 is rotated clockwise about the support shaft 34, the support 35 is pulled up, and the valve is lifted. Part 4
1 is brought close to the nozzle portion 39 to reduce the gas inflow amount and reduce the gas pressure in the decompression chamber 28. When the pressure in the decompression chamber 28 decreases, the diaphragm 27 moves to the decompression chamber 2.
8, the operating rod 32 is pulled down, the valve 41 is separated from the nozzle 39, the gas inflow is increased, and the pressure of the gas in the decompression chamber 28 is increased. In this way, the gas pressure in the decompression chamber 28 is kept substantially constant in accordance with the urging force of the compression spring 31.

However, in the pressure regulator 21, when the pressure of the gas on the inlet side is higher than the set pressure, the pressure of the gas in the inlet side pressure chamber 36 increases and the back pressure for pressing the valve portion 41 increases. Compression coil spring 3 through body (valve rod) 35
The force repelling to the force of 1 becomes high, and even if the pressure in the decompression chamber 28 is low, the balance is maintained, so that the pressure of the gas on the outlet side becomes low.

When the pressure of the gas on the inlet side is lower than the set pressure, the pressure of the gas in the inlet side pressure chamber 36 decreases, and when the back pressure for pressing the valve portion 41 decreases, the support (valve rod) 35 decreases.
, The force repelling the force of the compression coil spring 31 decreases, and if the pressure in the pressure reducing chamber 28 is not high, the balance cannot be maintained, so that the pressure of the gas on the outlet side increases.

Therefore, the pressure of the gas on the inlet side fluctuates (0.7
At 15.6 Kgf / cm3), the pressure of the gas on the outlet side was affected by the fluctuation, and it was difficult to control the gas within the standard pressure (280 ± 50 mmH2O).

[0009]

SUMMARY OF THE INVENTION Accordingly, the present invention makes it possible to reduce the influence on the gas outlet side pressure due to the fluctuation of the gas inlet side pressure and to keep the gas outlet side gas pressure within the standard. It is an object to provide a pressure regulator.

[0010]

In order to achieve the above object, the present invention provides a case having a gas supply port and a gas outlet, and the case is provided with a decompression chamber provided with the gas supply port and the gas outlet and an atmosphere. A diaphragm that partitions the room into
A nozzle unit is urged by an urging means for urging the diaphragm toward the decompression chamber, a gas decompression means comprising an operating rod protruding at the center of the diaphragm, and a valve connected to the operating rod and an operation lever. A pressure regulator configured to open and close and adjust a flow rate of gas supplied from a gas inlet, wherein the nozzle portion is formed by two nozzles having different cross-sectional areas, and the valve body is Two nozzles each formed of two valve bodies opposed to the nozzle and having different cross-sectional areas.
A nozzle having a small cross-sectional area and a valve body for opening and closing this nozzle are provided in a valve body for opening and closing a nozzle having a large cross-sectional area,
The valve element facing the nozzle having the small cross-sectional area is urged toward the nozzle by the large load urging means, and the valve element facing the nozzle having the large cross-sectional area is loaded with a smaller load than the large load urging means. When the inlet pressure of the gas supplied to the gas inlet is lower than a set pressure by urging the urging means with the urging means to constitute the flow rate regulating valve portion, the urging means of the small load urging means keeps the nozzle having a small cross-sectional area closed. A nozzle with a large cross-sectional area is opened against the force, and when the inlet pressure of the gas supplied to the gas inlet is higher than the set pressure, the nozzle with the large cross-sectional area is closed and the urging force of the large load urging means is closed. And opening a nozzle having a small cross-sectional area.

[0011]

According to the present invention, when the inlet pressure of the gas supplied to the gas inlet is lower than the set pressure when the inlet pressure is lower than a certain set pressure, the nozzle having a small cross-sectional area is closed while the inlet pressure of the gas supplied to the gas inlet is lower than the set pressure. The valve body is separated from the nozzle having a large cross-sectional area against the urging force of the load urging means, and the nozzle having a large cross-sectional area is opened.

When the inlet pressure of the gas supplied to the gas inlet is higher than the set pressure, the valve body is separated from the small cross-sectional area nozzle while keeping the large cross-sectional area nozzle closed, and the small cross-sectional area nozzle is closed. To release.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the pressure regulator according to the present invention will be described below. Note that the same components as those of the internal valve type pressure regulator 21 shown in FIG. 2 will be described using the same reference numerals. As shown in FIG. 1, the flow regulating valve portion 47 of the pressure regulator 45 of the present embodiment includes two nozzles 49 having different cross-sectional areas.
51, two valve bodies 53 and 55 facing the nozzles 49 and 51, respectively, and a large load urging means for urging the valve body 53 facing the nozzle 49 having a small cross-sectional area toward the nozzle 49. The compression coil spring 57 includes a compression coil spring 59 which is a small load urging means having a smaller load than the compression coil spring 57 which urges the valve body 55 facing the nozzle 51 having a large cross-sectional area toward the nozzle 51. ,
A valve element 55 for opening and closing the nozzle 51 is provided in the gas inlet side pressure chamber 36 of the valve element 55. And it is formed integrally with the support 35.

In such a pressure regulator, when the inlet pressure P0 becomes lower than the set pressure, the back pressure becomes lower.
The valve element 55 is separated from the nozzle 51, and the nozzle 51 having a large sectional area is opened. When the nozzle 51 having a large sectional area is opened, the outlet pressure P3 decreases. In addition, the inlet pressure P0
Is higher than the set pressure, the back pressure increases, so the nozzle 51 having a large cross-sectional area is closed and the nozzle 49 having a small cross-sectional area is opened. When the nozzle 49 having a small cross-sectional area is opened, the outlet pressure P3 increases.

The reason will be described below.

The balance between the gas pressure and the compression coil springs 31, 57, 59 in the pressure regulator shown in FIG. 1 is expressed by an equation. In FIG.
3, the receiving area of the diaphragm 27 is S4, the pressure of the gas outlet 44 of the decompression chamber 28 is P3, the intermediate outlet pressure is P2, the receiving area of the diaphragm 46 is S3, and the sectional area of the nozzle 51 is S.
1, when the sectional area of the nozzle 49 is S2, the inlet pressure is P0, the intermediate supply pressure is P1, the load of the compression coil spring 59 is F1, and the load of the compression coil spring 57 is F2, the downward force in the figure is F3 + P3 × S3 + P1. × S1 (or S2) (1) The upward force is represented by P3 × S4 + P1 × S3 + F1 (or F2) + P0 × S1 (or S2) (2) The ratio of the connecting lever 33 is not taken into consideration. Here, in the balanced state, the above (1)
Equation (2) becomes equal.

F3 + P3 × S3 + P1 × S1 (or S2) = P3 × S4 + P1 × S3 + F1 (or F2) + P0 × S1 (or S2) (3) By transforming equation (3), P3 × (S3-S4) = P1 × S3 + P0 × S1 (or S2) −F3−P1 × S1 (or S2) + F1 (or F2) (4), and the outlet pressure P3 is P3 = ｛F3 + (P1−P0) S1 (or S2) −P1 × S3-F1 (or F2)} / S4-S3 (5) In this case, when the nozzle 49 opens,
In the equation (5), the sectional area S1 becomes the sectional area S2, and the load F1 of the compression coil spring becomes the load F2.

In the above equation (5), the valve element 53,
55 when the compression coil springs 31, 57, 5
Assuming that the load change of No. 9 is ΔF1, ΔF2, ΔF3, P3 = {F3-ΔF3 + (P1-P0) S1 (or S2) −P1 × S3- (F1 (or F2) + ΔF1 (ΔF2))} / S4-S3 ... (6)

In the above equation (5), the inlet pressure P0 is always higher than the intermediate supply pressure P1 (P0> P1).
The term (P1-P0) is always negative. Also, the denominator (S4-S3) is constant, and the other numerator (F3, P1 * S
3-F1 (or F2)) is also constant, so the outlet pressure P3 decreases as the cross-sectional area S1 (or S2) of the nozzle increases, and the outlet pressure P3 decreases as the cross-sectional area S1 (or S2) of the nozzle decreases. growing.

For this reason, when the inlet pressure P0 is lower than a certain set pressure, the nozzle 51 having a large cross-sectional area is opened, thereby acting to lower the outlet pressure P3. On the other hand, when the inlet pressure P0 is higher than a certain set pressure, the opening of the nozzle 49 having a small sectional area acts to increase the outlet pressure P3. Therefore, the influence of the fluctuation of the inlet pressure on the outlet pressure can be reduced, and the outlet pressure P3 can be kept within the standard.

In the above embodiment, an example in which the present invention is applied to an inner valve type pressure regulator is shown. However, the present invention can be applied to an outer valve type pressure regulator.

[0022]

As described above, according to the pressure regulator according to the present invention, the influence of the fluctuation of the gas inlet side pressure on the gas outlet side pressure is reduced, so that the gas outlet side gas pressure is within the standard. It is possible to put in.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a pressure regulator according to the present invention.

FIG. 2 is a sectional view showing a conventional pressure regulator.

[Explanation of symbols]

 23 Body Case 25 Gas Inlet 27 Diaphragm 28 Decompression Chamber 29 Atmospheric Pressure Chamber 31 Compression Coil Spring 44 Gas Outlet 45 Pressure Regulator 47 Flow Adjustment Valve 49,51 Nozzle 53,55 Valve 57,59 Compression Coil Spring

Claims (1)

(57) [Claims] A case having a gas supply port and a gas outlet; a diaphragm dividing the case into a decompression chamber and an atmosphere chamber provided with the gas supply port and the gas outlet;
A nozzle unit is urged by an urging means for urging the diaphragm toward the decompression chamber, a gas decompression means comprising an operating rod protruding at the center of the diaphragm, and a valve connected to the operating rod and an operation lever. A pressure regulator configured to open and close and adjust a flow rate of gas supplied from a gas inlet, wherein the nozzle portion is formed by two nozzles having different cross-sectional areas, and the valve body is Two nozzles each formed of two valve bodies opposed to the nozzle and having different cross-sectional areas.
A nozzle having a small cross-sectional area and a valve body for opening and closing this nozzle are provided in a valve body for opening and closing a nozzle having a large cross-sectional area,
The valve element facing the nozzle having the small cross-sectional area is urged toward the nozzle by the large load urging means, and the valve element facing the nozzle having the large cross-sectional area is loaded with a smaller load than the large load urging means. When the inlet pressure of the gas supplied to the gas inlet is lower than a set pressure by urging the urging means with the urging means to constitute the flow rate regulating valve portion, the urging means of the small load urging means keeps the nozzle having a small cross-sectional area closed. When the inlet pressure of the gas supplied to the gas inlet is higher than the set pressure, the nozzle with the large cross-sectional area is opened against the force and the urging force of the large-load urging means is kept while the nozzle with the large cross-sectional area is closed. A pressure regulator characterized by opening a nozzle having a small sectional area.