KR20230057214A - A constant pressure regulator capable of regulating the pressure - Google Patents

Abstract

The constant pressure regulator capable of adjusting the pressure of the present invention has a flow path formed therein so as to allow inflow and outflow of fluid, and an upper body in which an inlet through which the fluid flows is formed, and is provided to be separable from the upper body, a body portion including a lower body through which a pressure-adjusting fluid having a predetermined pressure passes; a valve unit coupled to the body portion and provided to open and close the passage; and a piston provided to be seated in the body and movable on an accommodation space in the body according to the pressure of the fluid whose seating position in the body is changed according to the pressure of the fluid. and a pressure adjusting unit configured to vary and discharge the pressure of the fluid by varying the seating position of the piston.

Description

A constant pressure regulator capable of regulating the pressure}

The present invention relates to a regulator, and more particularly, to a pressure regulator provided to always discharge fluid having a uniform pressure without departing from a predetermined pressure reference value even when a fluid having a non-constant pressure flows in. Regarding possible constant pressure regulators.

In general, as a representative pressure reducing regulator, a pressure reducing regulator mounted and used in a natural gas vehicle may be mentioned as a representative.

Most of these conventional regulators use a diaphragm and an elastic body (coil spring), and are designed to reduce the pressure to a constant pressure by the reaction force of the elastic body acting as a reaction force for the inlet pressure having a high pressure.

At this time, the reaction force of the elastic body is adjusted by a mechanism for adjusting the force of the spring. Therefore, the orifice part is closed when it is higher than the required outlet pressure, and open when it is lower than the required outlet pressure, and the pressure is compensated for.

In addition, the conventional regulator has a complicated structure, which not only reduces processability and precision, but also lowers the operating performance of the diaphragm by directly acting on the diaphragm due to the temperature drop occurring during pressure reduction. The downside is that there is a risk of breakage.

In addition, the above-described conventional regulator has a problem in that it is impossible to adjust the initially set set pressure.

KR 10-2013-0075049 A 'Anti-resonance type vehicle gas regulator'

The present invention has been created to solve the above-described problems, and an object of the present invention is to provide a variable constant pressure regulator with improved control convenience, which can always output a fluid having a uniform pressure even when a fluid having a non-uniform pressure is introduced. do.

The constant pressure regulator capable of adjusting the pressure according to the present invention has a flow path formed therein so as to allow fluid to flow in and out, an upper body having an inlet through which the fluid flows, and being separable from the upper body, A body portion including a lower body through which a pressure adjusting fluid having an adjusted pressure passes; a valve unit coupled to the upper body to open and close the passage; And being provided in a state accommodated in the lower body, the seating position in the lower body is moved in the vertical direction according to the pressure of the fluid, the fluid inlet side end into which the fluid is introduced, and the outflow of the fluid proceeds It includes a piston having a fluid outlet side end formed therein, and a pressure adjusting unit configured to vary and discharge the pressure possessed by the fluid by varying a seating position of the piston.

More specifically, the pressure adjusting unit, while being provided to allow the fluid to pass, by limiting the movement distance of the piston to vary the pressure of the fluid introduced from the fluid inlet side end; further comprising a to be characterized

More specifically, the pressure variable member is provided to be screwed to an upper end of the lower body, and a seating position thereof is varied according to a screwing direction to vary the pressure of the fluid.

The pressure-adjustable static pressure regulator of the present invention varies the pressure of the fluid and discharges the pressure of the fluid, such as the seating position is changed in response to the pressure of the fluid at the inlet side to reduce the pressure held by the fluid and discharged, thereby reducing the pressure of the fluid at the inlet side. Even if it is non-uniform, it is possible to provide an effect capable of supplying a fluid having a constant outlet pressure.

1 is an exploded perspective view showing an exploded static pressure regulator capable of adjusting pressure according to the present invention.
2 is a cross-sectional view illustrating a state in which a pressure variable member constituting a pressure adjusting unit according to an embodiment of the present invention is seated on a lower body.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below and can be implemented in various different forms, only these embodiments are intended to complete the disclosure of the present invention, and are common in the art to which the present invention belongs. It is provided to fully inform the knowledgeable person of the scope of the invention, and the invention is only defined by the scope of the claims.

Also, terms used in this specification are for describing the embodiments and are not intended to limit the present invention.

In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. As used herein, "comprises" and/or "comprising" does not exclude the presence or addition of other components than the recited components.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used in a meaning commonly understood by those of ordinary skill in the art to which the present invention belongs.

1 is an exploded perspective view showing an exploded static pressure regulator capable of adjusting pressure according to the present invention.

As shown in FIG. 1 , the constant pressure regulator includes a body part 100, a valve unit 200, and a pressure adjusting part 300.

First, the body portion 100 has a flow path formed therein so that fluid can flow in and out.

More specifically, the body portion 100 includes an upper body 110 and a lower body 120.

Here, the upper body 110 is formed with an inlet (I) through which the fluid flows.

In addition, the lower body 120 is provided to be separable from the upper body 110, and the pressure adjusting fluid having the adjusted pressure is provided to flow out.

In addition, in order to prevent separation of the pressure adjusting unit 300 to be described later, the cover body 130 is disposed at the lower end of the pressure adjusting unit 300 and fastened to the lower body 120.

At this time, the cover body 130 is provided with an outlet O so that the pressure-adjusting fluid having a reduced pressure while passing through the lower body 120 flows out.

And, it is characterized in that the pressure of the pressure adjusting fluid is lower than or equal to the pressure of the fluid flowing into the upper body 110 side.

In particular, through the upper body 110 and the lower body 120 provided to be separable from each other, it is possible to provide an effect of performing maintenance on the regulator of the present invention more conveniently.

And, the valve unit 200 is coupled to the body portion 100 and is provided to open and close the passage.

More specifically, the valve unit 200 is provided to be coupled to the upper body 110, and the fluid proceeds from the upper body 110 to the lower body 120 through the valve unit 200. to control the flow of

At this time, the valve unit 200 may include a solenoid valve to open and close the flow path of the body portion 100 by receiving an external electrical signal.

In addition, while the pressure adjusting unit 300 is provided in a state of being seated in the lower body 120 of the body portion 100, the seating position within the body portion 100 varies according to the pressure of the fluid. , It is provided to flow out by varying the pressure held by the fluid through the variable seating position.

Here, the pressure adjusting unit 300 is characterized in that it includes a piston 310, an elastic member 320 and a pressure varying member 330.

First, while the piston 310 is accommodated in the lower body 120, it is provided so that the fluid passing through the upper body 110 can pass therethrough.

In particular, an internal flow path passing through the piston 310 may be formed inside the piston 310 so that the fluid can pass through the piston 310 .

The piston 310 includes a fluid inlet end (uppermost end) into which the fluid passing through the upper body 110 is introduced, and a fluid outlet end (lowest end) through which the fluid flows out.

In addition, the piston 310 is provided to be movable on a predetermined accommodating space formed in the lower body 120 of the body 100 according to the pressure of the fluid.

Further, on the bottom surface of the piston 310, a branch passage formed by a part of the fluid passing through the piston 310 is formed to move the piston 310 upward. Through the formation of the branch passage, the piston By moving the position of 310, the pressure of the fluid introduced through the inlet (I) is varied and the pressure-adjusting fluid is discharged from the outlet (O).

In addition, the elastic member 320 is provided in a coupled state with the piston 310, and its shape is deformed according to the pressure of the fluid introduced from the fluid inlet side end of the piston 310.

More specifically, the elastic member 320 is compressed as the pressure of the fluid flowing into the fluid inlet end increases, and expands as the pressure of the fluid introduced into the fluid inlet end decreases.

Next, the pressure variable member 330 is provided to allow the fluid to pass therethrough, and is provided to change the pressure of the fluid introduced from the fluid inlet side end by limiting the moving distance of the piston.

Here, the pressure varying member 330 is provided to be seated in the lower body 120 and, more specifically, disposed between the upper body 110 and the piston 310 .

In particular, when the separation distance between the fluid inlet side end of the piston 310 and the pressure variable member 330 is narrowed, there is a gap between the pressure of the fluid introduced from the fluid inlet end and the fluid flowing out from the fluid outlet end. The pressure difference increases.

Further, when the separation distance between the fluid inlet side end of the piston 310 and the pressure variable member 330 is widened, there is a gap between the pressure of the fluid introduced from the fluid inlet end and the fluid flowing out from the fluid outlet end. Characterized in that the pressure difference is reduced.

That is, the separation distance between the pressure variable member 330 and the piston 310 is varied, and the inflow of the fluid proceeds to a separation space in which a predetermined area is formed through the separation distance, so that the fluid passing through the piston By adjusting the amount of, it is possible to finally control the pressure of the fluid passing through the outlet (O).

At this time, as shown in FIG. 2 , in order for the pressure variable member having the above-described first screw thread engagement surface 333 to be screwed into the lower body, the lower body 120 has a second screw thread 121 ) is characterized in that it is formed.

As described above, according to the additional embodiment of the present invention, the pressure variable member 330 is provided so that position adjustment is performed within the lower body 120 of the body through rotation.

Here, the position adjustment is performed through the rotation of the pressure variable member as described above, and when the pressure variable member is raised and lowered by inducing rotation of the pressure variable member, the fluid inlet end of the piston and the pressure variable member 310 ) It is possible to expand or reduce the range of the maximum separation distance between

That is, by expanding or reducing the range of the maximum separation distance between the fluid inlet end of the piston and the pressure variable member 310, the amount of fluid entering the fluid inlet end is increased or decreased. Finally, the pressure of the discharged fluid can be easily controlled by the user.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is only for explaining the present invention, and those skilled in the art to which the present invention belongs may make various modifications or equivalents from the detailed description of the present invention. It will be appreciated that one embodiment is possible.

Therefore, the true scope of the present invention should be determined by the technical spirit of the claims.

100: body part
110: upper body
120: lower body
121: second threaded engagement surface
130: cover body
200: valve unit
300: pressure adjusting unit
310: piston
311: seating steps
312: fluid outlet groove
320: elastic member
330: pressure variable member
331: through hole
332: departure prevention step
333: first threaded coupling part
334: position adjustment unit
I: inlet
F: fluid movement path
BF: quarter euro
O: outlet
Ab: buffer member

Claims (3)

An upper body 110 having an inlet through which the fluid flows and an upper body 110 having an inlet through which the fluid flows in and out so that the fluid can flow in and out, and a pressure regulating fluid having an adjusted pressure while being separable from the upper body. Body portion 100 including; lower body 120 provided to pass through;
a valve unit 200 coupled to the upper body to open and close the passage; and
While being accommodated in the lower body, the seated position in the lower body is moved in the vertical direction according to the pressure of the fluid, the fluid inlet side end into which the fluid is introduced, and the fluid through which the fluid flows out. It includes a piston 310 having an outflow-side end, and a pressure adjusting unit 300 provided to vary and discharge the pressure held by the fluid through the variation of the seating position of the piston; pressure characterized by comprising a Adjustable constant pressure regulator. According to claim 1,
The pressure regulator 300,
A pressure variable member 330 configured to allow the fluid to pass through and limiting the movement distance of the piston to vary the pressure of the fluid introduced from the fluid inlet side end; constant pressure regulator. According to claim 2,
The pressure variable member 330,
A constant pressure regulator capable of adjusting pressure, characterized in that provided to be screwed to the upper end of the lower body, and provided to vary the pressure of the fluid by varying the seating position according to the screwing direction.

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