KR101215529B1 - A pressure regurator with automatic shut-off - Google Patents

Abstract

PURPOSE: A pressure regulator with an automatic shut-off function is provided to implement controlling pressure, displaying flow rate, and preventing backflow with one pressure regulator by simultaneously installing a check valve part, a pressure regulating part, and a flow meter in a body. CONSTITUTION: A pressure regulator with an automatic shut-off function comprises a body(100), an inflow part(200), a check valve part(300), a pressure regulating part(400), a flow meter(500), and a discharge part(600). The inflow part is coupled in the front of the body. The check valve part is connected to the inflow part through a first flow path formed in the body and is coupled to one side of the body. The pressure regulating part is connected to the check valve part through a second flow path formed in the body and is coupled to the other side of the body. The flow meter is connected to the pressure regulating part through a third flow path formed in the body. The discharge part is connected to the flow meter through a fourth flow path formed in the body.

Description

Pressure regulator with automatic shutoff {a pressure regurator with automatic shut-off}

The present invention relates to a pressure regulator, and to a pressure regulator having an automatic shutoff function including a flow meter, a check valve and a pressure regulator.

The present invention relates to a pressure regulator that can easily adjust the pressure of the fluid supplied from the storage tank.

Background Art Conventionally, pressure regulators have been used to control the pressure of a fluid supplied to welding, a pneumatic device or the like. Such a pressure regulator functions to control the air pressure in the pneumatic system according to the purpose of use when air is used as the medium, and also the fluid pressure in the hydraulic system.

Prior arts related to such pressure regulators include Korean Patent Application Nos. 10-1990-002523 and 10-2000-0061057 filed with the Korean Intellectual Property Office.

In the case of adjusting the pressure controlled by the pressure regulator, a flow meter is installed and measured in a passage through which a pneumatic device is connected, and the operator must adjust the pressure regulator while visually checking a pointer of the flow meter.

That is, in the pressure regulator according to the prior art, since a flow meter for displaying the set flow rate is not installed in the pressure regulator itself, a measuring instrument such as a flow meter must be used together, and a check valve must be separately installed to prevent backflow of the fluid. There was a hassle.

It is an object of the present invention to provide a pressure regulator having an automatic shut-off function having a check valve, a flow meter and a pressure regulating function simultaneously.

Pressure regulator having an automatic shut-off function according to the invention is connected to the pressure regulator, through the main body, the inlet coupled to the front of the main body, and the first flow path formed inside the inlet and the main body, A check valve unit coupled to a side, a second flow path formed inside the check valve unit and the main body, and a pressure control unit coupled to the other side of the main body, and a third flow path formed inside the pressure control unit and the main body Is connected through, the flow meter is coupled to the upper surface of the body, and connected through the fourth flow path formed inside the flow meter and the body, characterized in that it comprises a discharge portion coupled to the lower surface of the body.

The check valve unit includes a check valve body coupled to one side bolt of the main body, a piston moved inside the check valve body, and a spring for elastically pressing the piston to one side, wherein the piston end has a first flow path. Characterized in that the contact with the outlet of the.

In addition, the piston is characterized in that the auxiliary flow path is formed so that the fluid flowing from the inlet of the second flow path can be moved to the rear of the piston.

Finally, the pressure control unit, the pressure control unit body coupled to the other side bolt of the body, the pressure control knob protruding out of the pressure control unit body, the close contact in contact with the outlet of the second flow path, the close contact And a spring for pushing the sphere to the outlet side of the second flow path.

The pressure regulator having an automatic shutoff function according to the present invention has the advantage that the check valve unit, the pressure regulator and the flow meter are installed in the body at the same time to perform pressure adjustment, flow rate display, and backflow prevention through a single pressure regulator.

1 is a drawing substitute photograph showing a pressure regulator having an automatic shut-off function according to an embodiment of the present invention.
2 is a cross-sectional view taken along line AA ′ of FIG. 1.
Figure 3 is a variation diagram of Figure 2;
4 is a cross-sectional view taken along line BB ′ of FIG. 1.
5 is a cross-sectional view taken along line C-C 'of FIG.
Figure 6 is an exploded cross-sectional view showing a pressure regulator according to an embodiment of the present invention.
7 is a combined view of FIG.

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

1 is a drawing substitute photograph showing a pressure regulator having an automatic shut-off function according to an embodiment of the present invention.

As shown in FIG. 1, the pressure regulator having the automatic shutoff function according to the present invention includes a main body 100, an inlet 200, a check valve 300, a pressure regulating unit 400, and a flow meter 500. And an outlet 600.

The main body 100 is a body constituting the skeleton of the pressure regulator, the first passage, the second passage, the third passage, the fourth passage should be formed without intersecting.

 The inlet 200 coupled to the front of the main body 100 and the outlet 600 coupled to the lower surface of the main body 100 are passages through which fluid flows in and out, respectively, Respectively connected to the inlet and outlet of the fourth flow path.

FIG. 2 is a cross-sectional view taken along line AA ′ of FIG. 1.

As shown in FIG. 2, the check valve part 300 is connected to the inlet part and the first flow path P1 formed inside the main body 100, and is coupled to one side of the main body 100.

Here, the check valve unit 300 is a check valve body 310 that is bolted to one side of the body 100, the piston 320 to be moved in the check valve body 310, and the piston ( It includes a spring 330 to elastically press the 320 to one side, the piston end 325 is in contact with the outlet (E) of the first flow path (P1).

In addition, O-rings 390 and 395 are coupled to the piston 320 to maintain airtightness.

In addition, the piston 320 is characterized in that the auxiliary flow path 328 through which the fluid flowing from the inlet of the second passage (P2) can be moved to the rear of the piston (320) is formed.

3 is a change diagram of FIG. 2.

As shown in FIG. 3, when the piston is moved backward by the pressure of the fluid flowing through the first flow path P1, the outlet E of the first flow path opens and the flow path is opened, and the fluid flowing from the first flow path is opened. When the pressure of the pressure decreases, as shown in FIG. 2, the piston end 325 blocks the outlet E of the first flow path P1 by the pressure of the fluid transferred through the auxiliary flow path 328.

In particular, since the pressure on the discharge side is transmitted to the rear of the piston 320 through the auxiliary flow path 328, the pressure is automatically adjusted.

Looking at the first passage in more detail, Figure 5 is a cross-sectional view of the CC 'of FIG.

As shown in FIG. 5, the first flow path P1 is vertically formed inside the main body 100 to connect the inflow part 200 and the check valve part, and the second flow path P2 is the first flow path P1. There is a step difference between and connects the check valve unit and the pressure regulator.

Next, the pressure adjusting unit 400 is coupled to the other side of the main body 100 as shown in FIG. 1, and is connected to the check valve unit 200 through a second flow path P2 formed inside the main body 100. do.

Figure 6 is an exploded cross-sectional view showing a pressure regulator according to an embodiment of the present invention.

In addition, the pressure adjusting part 400 includes a pressure adjusting part body 410 coupled to the other side bolt of the main body 100, a pressure adjusting knob 420 protruding out of the pressure adjusting part body, and a second flow path ( It includes a close contact 430 in contact with the outlet (E) of P2, and a spring 440 for pushing the close contact 430 toward the outlet (E) side of the second flow path (P2).

Then, a spring 425 is built into the pressure regulator body 410 to push the contact plate 428, and the contact plate comes into contact with the protrusion 434 of the contact hole 430.

Here, the close contact 430 in contact with the outlet of the second flow path (P2) has a wedge-shaped surface 432 is formed.

Here, as shown in FIG. 6, the contact plate 428 is in contact with the protrusion 434 of the contact hole through the connecting pin 429, and the wedge surface 432 of the contact hole 430 is connected to the seal plate 440. It is coupled to the through-hole 442 formed in the center.

The connection pin 429 is embedded in the case 429-1, and the case 429-1 is coupled to a nut N formed in the second flow path P2.

7 is a coupling diagram of FIG. 6.

Looking at the operation of the pressure regulator, when the user rotates the pressure adjustment knob 420 from the outside, the built-in spring 425 is compressed while pushing the contact plate 428 to push the protrusion 434 of the contact hole 430 to the second A gap is generated with the outlet E of the flow path P2, and the size of the flow path is determined by the gap to control the pressure.

That is, the size of the flow path is determined through the gap between the wedge surfaces of the close contact 430 coupled to the through hole of the hermetic plate 440.

Next, as shown in FIG. 2, the flow meter 500 is coupled to the upper surface of the main body, and the discharge part 600 is coupled to the lower surface of the main body 100.

4 is a cross-sectional view taken along line BB ′ of FIG. 1.

As shown in FIG. 4, the pressure adjusting unit 400 is connected to the third passage P3 formed in the main body, and serves to check the pressure of the fluid from the outside.

In addition, the discharge part 600 is connected through the fourth flow path P4 formed in the flowmeter 500 and the main body 100. Here, the fourth channel P4 must be formed at a position biased to one side such that the second channel P2, the third channel P3, and the fourth channel P4 do not interfere with each other.

In addition, the auxiliary passage 900 is installed in the fourth flow path P4, and may be designed to be advantageous for maintenance.

As described above, the present invention has a main technical idea to provide a pressure regulator having an automatic shut-off function, and the embodiment described above with reference to the drawings is only one embodiment, so the true scope of the present invention is the claims. Must be determined by

P1: Euro 1
P2: second euro
100: main body
200: inlet
300: check valve unit
310: check valve body
320: piston
325: piston end
328: secondary euro
330: spring
400: pressure regulator
410: pressure regulator body
420: pressure adjustment knob
425: spring
428: contact plate
329: connecting pin
329-1: case
430: close contact
432: wedge surface
440: airtight plate
442: through hole
450: spring
500: flow meter
600: discharge part
900: auxiliary regulator

Claims (4)

In the pressure regulator,
A main body;
An inlet coupled to the front of the main body;
A check valve part connected to the inlet part and a first flow path formed inside the main body and coupled to one side of the main body;
A pressure adjusting part connected to the check valve part and a second flow path formed inside the main body and coupled to the other side of the main body;
A flow meter connected to the pressure adjusting part through a third flow path formed inside the main body and coupled to an upper surface of the main body;
And a discharge part connected to the flow meter through a fourth flow path formed inside the main body and coupled to a lower surface of the main body.
The method of claim 1,
The check valve unit,
A check valve body coupled to one side bolt of the main body,
And a piston moving inside the check valve body and a spring for elastically pressing the piston to one side, wherein the piston end is in contact with the outlet of the first flow passage.
The method of claim 2,
And an auxiliary flow path through which the fluid flowing from the inlet of the second flow path is moved to the rear of the piston.
The method of claim 1,
The pressure regulator may include:
A pressure regulator body coupled to the other side bolt of the body;
A pressure adjusting knob protruding out of the pressure adjusting body;
A close contact with the outlet of the second flow path,
And a spring for pushing the contact hole toward the outlet side of the second flow path.

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