KR20150008240A - Regulator - Google Patents

Abstract

The present invention relates to a regulator for high pressure gas comprising: a valve body to finish one open end of a cylindrical housing; a piston accommodated inside the housing, and combined with the valve body; a cover to finish the other open end of the housing, and with which the piston is combined; and a spring interposed between the piston and the valve body. High pressure gas depressurized by a valve seat equipped in the piston is discharged to an outside. In this case, the piston includes a first connecting flow path connected with a pressure chamber, and a second connecting flow path connected with a piston accommodating part of a cover. Accordingly, high pressure gas, which is depressurized by passing through an orifice gap of the valve seat, passes through the first connecting flow path of the piston and flows into the pressure chamber. Moreover, the pressure of the valve body is applied to the piston accommodating part of the cover through a second connecting flow path formed in the piston. Therefore, the present invention has an effect of easily downsizing by simplifying an operation structure, increasing the working efficiency by shortening the assembly time by simplifying the assembly process, and reducing damage to the regulator caused by repeated operation by a structure with high repeat durability.

Description

Regulator {REGULATOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a regulator, and more particularly, to a regulator for regulating the pressure of a gas compressed at a high pressure to a predetermined pressure required in an engine or a system.

Generally, a regulator is a device for reducing the pressure of a high-pressure gas introduced into the inlet side to a predetermined pressure and supplying it to the outlet side.

The static pressure function of such a regulator is used in many fields, among which it is frequently used in the fuel system of a decompression device for natural gas automobiles.

Further, by applying the regulator to the fuel system, the high-pressure gaseous fuel is uniformly supplied to the engine of the natural gas vehicle, so that the combustion efficiency is improved and the output of the engine is improved.

Moreover, as the supply of automobiles using natural gas as fuel has increased and demand has increased accordingly, the range in which regulators are used has become wider.

As a result, the industry needs to develop regulators that are more precise, more efficient in static pressure, and have higher levels of durability.

A representative example of such a regulator is disclosed in Document 1 (hereinafter, referred to as "prior art"), and a regulator according to the related art will be described with reference to FIG.

1, a conventional regulator 10 includes a main body 14 assembled to a fastening portion 16 formed in a tank 12, and an inlet 20 formed in the main body 14 Pressure fluid circuit 26 formed from the inlet 20 to the low-pressure chamber 28. The high-pressure fluid circuit 26 includes a solenoid 22 and an outlet 24 provided in the main body 14.

The regulator 10 also includes a pressure regulated device 32 that extends into the low pressure chamber 28 and the pressure regulated device 32 includes a compensating piston 34 and a main piston 36.

Here, the compensation piston 34 and the main piston 36 have a common central axis 38 spaced a distance from the central axis 18 to create sufficient space for the fluid circuit 26.

The compensation piston 34 is also located in a bore 40 formed in the body 14 and includes a head 42 and a distal end 44 and an axial bore 46, 48 are provided to engage the compensation piston 34.

The main piston 36 is located in the bore 50 formed in the body 14 and includes a head 52 and a distal end 54 and an extension 56 and an axial bore 58, (50) is provided with a main spring (60).

The regulator 10 configured as described above can prevent the operating noise and vibration of the regulator and adjust the pressure of the gas compressed at a high pressure to a predetermined pressure.

However, the prior art regulator 10 disclosed in the prior art has a complicated structure, which makes it difficult to process and manufacture the regulator, resulting in a problem that the precision of the regulator is deteriorated.

In addition, since the manufacturing process is complicated and difficult, the product cost increases, and the installation cost increases as the volume of the regulator increases.

Furthermore, as the volume increases, there is a problem that it is difficult to apply to a field requiring a small-sized regulator.

Therefore, it is necessary to develop a regulator capable of increasing the efficiency of decompression by solving the problems of clogging due to the closing pressure and pressure fluctuation, and by improving the accuracy of the static pressure function by manufacturing an optimal regulator by minimizing the volume and simplifying the structure to be.

US registered patent US 6321779 B1 (registered Nov. 27, 2001)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the related art described above, and it is an object of the present invention to provide a method and an apparatus for regulating a gas compressed at a high pressure to a predetermined pressure required in an engine or a system, And to provide a regulator capable of miniaturization and production as well as increasing assembly and operation efficiency.

Another object of the present invention is to provide a regulator capable of reducing damage to the regulator due to repetitive operation through a highly durable structure.

Still another object of the present invention is to provide a method of reducing the stroke limit through improvement of the structure, thereby facilitating discharge of a large flow rate, providing excellent opening and closing performance, and reducing vibration caused by pressure fluctuation and closure pressure rise, Regulator.

According to an aspect of the present invention, there is provided a regulator for a high-pressure gas, comprising: a valve body closing an opened end of a cylindrical housing; A piston received in the housing and coupled to the valve body; A cover which closes the other open end of the housing and to which the piston engages; And a spring interposed between the piston and the valve body. The high pressure gas decompressed by the valve seat provided in the piston is discharged to the outside.

The piston may have a first connection passage connected to the pressure chamber and a second connection passage connected to the piston accommodating portion of the cover.

The high pressure gas passing through the orifice gap of the valve seat passes through the first connection passage of the piston and flows into the pressure chamber through the second connection passage formed in the piston, And acts as a piston receiving portion.

The valve body is provided with a valve for adjusting the amount of opening of the valve body corresponding to the valve seat.

Further, a tension adjusting plate is included to adjust the tension of the spring.

Further, the valve body is provided with an adjusting screw for adjusting the tension adjusting plate.

And the valve body and the cover are fixed by a stop ring inserted into the housing.

In addition, the housing is provided with a fixing bolt for fixing the valve body and the cover.

The cover may further include a relief valve that discharges gas to the outside of the cover to maintain the positive pressure when the pressure of the gas in the pressure chamber is higher than the set pressure.

The relief valve includes a relief valve seat formed on the cover, a relief valve body that opens and closes the relief valve seat, a relief body that engages with the cover to surround the relief valve body, And a relief spring interposed between the main bodies to apply an elastic force to move the relief valve body in the direction of the relief valve seat.

According to the regulator of the present invention, there is an advantage that the operation structure is simplified and the miniaturization and production are facilitated.

In addition, since the assembly process is simplified and the assembly time is shortened, the efficiency of operation is increased.

In addition, damage to the regulator due to repetitive operation can be reduced by the highly durable structure.

In addition, by adopting a piston type that can reduce the restriction of the stroke, it is easy to discharge large amount of flow and is resistant to noise and vibration.

Furthermore, the variation of the outlet pressure due to the inlet pressure fluctuation can be minimized by improving the structure.

In addition, there is an advantage that the valve body and the cover are firmly fixed through the fixing bolts provided in the housing, thereby preventing vibration and micro pressure fluctuations that may occur during operation of the regulator.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing an example of a conventional reduced pressure adjusting device for a high-pressure gas;
2 is an exploded perspective view showing a regulator according to the present invention.
3 is an assembled view of Fig.
4 is a cross-sectional view illustrating a regulator according to the present invention.
5 is a partial cross-sectional view showing an operating state of a regulator according to the present invention.
6 is a partial cross-sectional view showing a piston operating state of a regulator according to the present invention.
7 is a cross-sectional view showing spring tension control of a regulator according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a cross-sectional view of the regulator according to the present invention, FIG. 5 is a sectional view showing the operation state of the regulator according to the present invention, and FIG. FIG. 6 is a partial cross-sectional view showing a piston operating state of a regulator according to the present invention, and FIG. 7 is a cross-sectional view showing spring tension control of a regulator according to the present invention.

2 to 7, a regulator (A) according to the present invention is a regulator for high-pressure gas, comprising: a valve body (200) closing an opened end of a cylindrical housing (100); A piston 300 housed in the housing 100 and coupled to the valve body 200; A cover (400) to which the piston (300) is coupled, closing the open end of the housing (100); And a spring 500 interposed between the piston 300 and the valve body 200. The high pressure gas decompressed by the valve seat 310 provided in the piston 300 is discharged to the outside.

First, since the housing 100 is cylindrical and the housing 100 is formed in a circular shape, the durability of the regulator having many repetitive operations is increased.

In addition, the assembly jig for assembling the regulator by a simple cylindrical structure is easier than a regulator of an unspecified shape.

The piston 300 is formed with a first connection passage 320 connected to the pressure chamber 110 and a second connection passage 330 connected to the piston receiving portion 420 of the cover 400 .

The lower protrusion 302 coupled to the valve body 200 is formed on the lower side of the piston 300 and the upper protrusion 304 coupled to the piston receiving portion 420 of the cover 400 is formed on the upper side thereof. Is formed.

At this time, the lower protrusion 302 and the upper protrusion 304 of the piston 300 are formed to have the same diameter.

The first connection channel 320 starts communicating with the valve seat 310 coupled to the lower protrusion 302 of the piston 300 and is connected to the pressure chamber 110 by the intermediate folded structure. Lt; / RTI >

The start of the second connection passage 330 is formed in parallel to the left side of the first connection passage 320. The first connection passage 320 is straightly formed in a straight line different from the first connection passage 320, (Not shown).

A high pressure gas that has been reduced in pressure through the orifice gap of the valve seat 310 flows into the pressure chamber 110 through the first connection passage 320 of the piston 300, The pressure of the valve body 200 acts as the piston receiving portion 420 of the cover 400 through the second connection passage 330 formed in the cover 400.

Accordingly, as the same pressure acts on the lower protrusion 302 and the upper protrusion 304 of the piston 300, the outlet pressure fluctuation due to the inlet pressure fluctuation is minimized to maintain a constant pressure.

The valve body 200 is provided with a valve 210 for adjusting the amount of opening of the valve body 200 in correspondence with the valve seat 310.

Specifically, the valve 210 is threaded into the valve body 200 and remains airtight through the O-ring and O-ring grooves. As the valve 210 is provided with the inlet port 212 and the inlet port 212 is formed from the center of the lower end of the valve 210 to the cross flow path formed in the stop of the valve 210, Is introduced into the valve body (200).

At this time, a decompression protrusion 214 is formed at an upper end of the valve 210 to abut the valve seat 310.

Accordingly, the high-pressure gas introduced into the valve body 200 is reduced in pressure through the valve seat 310 provided in the piston 300, and the decompressed gas is supplied to the first connection passage (not shown) formed in the piston 300 320 and is discharged to the outside through an outlet port 410 formed in the cover 400. [

Furthermore, since the valve 100 is not provided with a separate connection passage connected to the housing 100 or the valve body 200 by a pressure chamber, the volume of the regulator is reduced, Thereby providing a regulator that is easy to manufacture.

Meanwhile, a tension adjusting plate 510 is included to adjust the tension of the spring 500.

Here, the tension adjusting plate 510 is formed to surround the lower end of the spring 500, and has a cross section of 'C' shape.

The valve body 200 is provided with an adjusting screw 220 for adjusting the tension adjusting plate 510.

Accordingly, by adjusting the adjusting screw 220, the tension adjusting plate 510 is moved up and down to adjust the tension of the spring 500.

Meanwhile, the valve body 200 and the cover 400 are fixed by a stop ring 130 inserted in the housing 100.

Therefore, compared to the structure in which the bolts are fastened, the assembling is easy, and the assembling time of the regulator is shortened and the assembling efficiency is increased.

At this time, the housing 100 is provided with a fixing bolt 120 for fixing the valve body 200 and the cover 400.

Specifically, it is formed on the outer circumferential surface of the housing 100 and is formed at a position where the valve body 200 and the cover 400 can be fixed.

At this time, the fixing bolt 120 uses a tongue bolt, and a plurality of the fixing bolts 120 are used according to the fixing strength.

Accordingly, the valve body 200 and the cover 400 are firmly fixed to each other through the fixing bolts 120 provided in the housing 100, so that vibration and micro pressure fluctuations that occur during operation of the regulator can be prevented .

The O-ring and the O-ring groove are concurrently engaged with each other to maintain the airtightness of the regulator (A).

The cover 400 is further provided with a relief valve 600 for discharging the gas to the outside of the cover 400 to maintain the positive pressure when the pressure of the gas in the pressure chamber 110 is higher than the set pressure.

Specifically, the relief valve 600 includes a relief valve seat 430 formed on the cover 400, a relief valve body 620 for opening and closing the relief valve seat 430, The relief valve body 620 is interposed between the relief valve body 620 and the relief body 610 to connect the relief valve body 620 to the relief valve seat 430, And a relief spring 630 that applies an elastic force to move in the direction of the arrow.

Accordingly, when the pressure in the pressure chamber 110 is higher than the set pressure, the relief valve body 620 compresses the relief spring 630 to open the relief valve seat 430, The relief valve seat 430 is closed.

Therefore, the regulator according to the present invention simplifies the operation structure, facilitates miniaturization and production, simplifies the assembling process, shortens the assembling time, increases work efficiency, and improves the efficiency of the regulator due to repeated operation . Further, by applying a piston type capable of reducing the restriction of the stroke, it is easy to discharge large amount of flow and is resistant to noise and vibration, and the structure of the piston 300 is improved to minimize the fluctuation of the outlet pressure due to the fluctuation of the inlet pressure .

Hereinafter, the operation of the regulator according to the present invention will be described.

First, as shown in FIG. 5A, the high-pressure gas introduced into the inlet port 212 is reduced in pressure through the valve seat 310 provided in the piston 300, and the reduced- To the pressure chamber (110). The gas introduced into the pressure chamber 110 is discharged to the outside through the outlet port 410 formed in the cover 400.

5A, when the pressure in the pressure chamber 110 becomes lower than the described pressure, the piston 300 moves up and down in the opposite direction to the above-mentioned principle to open the first connection passage 320 The outlet pressure is increased.

5B, when the pressure in the pressure chamber 110 is higher than the predetermined pressure, the piston 300 moves downward to move in the direction of closing the first connection channel 320, .

Since the same pressure acts on the lower protrusion 302 and the upper protrusion 304 of the piston 300 through the second connection passage 330 to minimize the fluctuation of the outlet pressure due to the variation of the inlet pressure, .

Although the preferred embodiments of the present invention have been described in detail, the technical scope of the present invention is not limited to the above-described embodiments, but should be construed according to the claims. It will be understood by those skilled in the art that many modifications and variations are possible without departing from the scope of the present invention.

A: Regulator 100: Housing
110: pressure chamber 120: fixing bolt
130: stop ring 200: valve body
210: valve 212: inlet port
214: Pressure reducing protrusion 220: Adjusting screw
300: piston 302: lower projection
304: upper protrusion 310: valve seat
320: first connection channel 330: second connection channel
400: cover 410: outlet port
420: piston receiving portion 430: relief valve seat
500: spring 510: tension adjusting plate
600: Relief valve 610: Relief body
620: Relief valve body 630: Relief spring

Claims (10)

A regulator for a high-pressure gas,
A valve body closing an open end of the cylindrical housing;
A piston received in the housing and coupled to the valve body;
A cover for closing the open other end of the housing and to which the piston is coupled; And
And a spring interposed between the piston and the valve body,
And a high pressure gas decompressed by the valve seat provided in the piston is discharged to the outside.
The method according to claim 1,
Wherein the piston has a first connection passage connected to the pressure chamber and a second connection passage connected to the piston accommodation portion of the cover.
3. The method of claim 2,
Pressure gas passing through the orifice gap of the valve seat is passed through the first connection passage of the piston and flows into the pressure chamber,
And the pressure of the valve element acts through the second connection passage formed in the piston as the piston accommodation portion of the cover.
The method of claim 3,
Wherein the valve body is provided with a valve that adjusts an amount of opening of the valve body corresponding to the valve seat.
The method of claim 3,
Wherein a tension adjusting plate is included to adjust the tension of the spring.
The method according to claim 3 or 5,
Wherein the valve body is provided with an adjusting screw for adjusting the tension adjusting plate.
The method of claim 3,
Wherein the valve body and the cover are fixed by a stop ring inserted in the housing.
The method of claim 3,
Wherein the housing is provided with a fixing bolt for fixing the valve body and the cover.
The method of claim 3,
Wherein the cover further includes a relief valve that discharges gas to the outside of the cover to maintain the positive pressure when the pressure of the gas in the pressure chamber is higher than the set pressure.
10. The method of claim 9,
The relief valve includes:
A relief valve seat formed on the cover; a relief valve body that opens and closes the relief valve seat; a relief body that engages with the cover to surround the relief valve body; and a relief valve interposed between the relief valve body and the relief body, And a relief spring for applying an elastic force to move the valve body in the direction of the relief valve seat.

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