KR20100137995A - Pressure reducing valve - Google Patents

Abstract

PURPOSE: A pressure reducing valve is provided to reduce the volume of a valve body because secondary fluid is delivered through a hole of a stem to operate a diaphragm. CONSTITUTION: A pressure reducing valve comprises a body(10), a seat(20), a diaphragm(30), an opening/closing unit(40), a cover(50), and a pressure controller(60). The body is composed of a main body(12) and a chamber(14), wherein a flow passage is formed by an inlet(12a) and an outlet(12b) of the main body. The seat opens and closes the flow passage. The opening/closing unit is composed of a stem(42) which is raised and lowered within the seat and a disc(44). The pressure controller elastically presses the diaphragm to maintain the opened state of the flow passage. As the pressure at the outlet rises, fluid flows backward through a hole(41) of the stem and the diaphragm is raised so that the disc closes the flow passage.

Description

Pressure reducing valve

The present invention relates to a pressure reducing valve, and more particularly, to a pressure reducing valve installed on a pipe to reduce the pressure of the fluid so that the fluid flows at a predetermined pressure.

In general, a pressure reducing valve is installed on a pipe of building equipment and industrial equipment so that fluid flows at a constant pressure. Such a pressure reducing valve has an inlet port 1 through which fluid is introduced and an outlet port through which fluid is discharged (as shown in FIG. 1). 2) is formed and the valve body (5) having a partition (4) having a distribution hole (3) formed in the substantially central portion of the inlet (1) and the outlet (2), coupled to the upper side of the valve body (5) The upper cover body 6 and the disk 7 for opening and closing the distribution hole 3 of the valve body 5, and the stem 8 is coupled to the disk 7 is configured, while the valve body ( In the discharge side (secondary side) space of 5) the diaphragm 9 is moved upward by the applied pressure, and the inside of the upper cover body 6 corresponding to the upper surface side of the diaphragm 9 is provided diaphragm A pressure regulating spring (10) for pressurizing the stem (8) including the lower part (9), and the pressure It is configured to include a pressure adjusting bolt 11 installed on the upper cover body 6 to apply a pressing force to the upper portion of the force control spring (10).

The pressure reducing valve configured as described above has a pressure when the secondary pressure of the fluid flowing through the inlet port 1 and discharged to the outlet port 2 when the flow hole 3 is opened is higher than the pressure of the set pressure regulating spring 10. The diaphragm 9 is acted on through the communication hole 12 formed in the valve body 5 and the stem 8 is raised so that the disk 7 coupled to the lower end of the valve hole 5 opens the flow hole 3. Control to maintain a constant pressure of the fluid.

By the way, the conventional pressure reducing valve is made of a structure in which the fluid flows back through the communication hole in order to transmit the secondary pressure to the diaphragm, so that the volume of the valve body must be increased in order to provide the communication hole.

In addition, since the stem moves vertically up and down to open the distribution hole, the height of the valve body is increased in order to secure the opening degree of the distribution hole. There is a problem that can be received.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and an object of the present invention is to provide a pressure reducing valve through which the secondary pressure can be transmitted through the stem by forming a through hole through which the fluid can pass.

Still another object of the present invention is to provide a pressure reducing valve that lowers the overall height by smoothly installing the chamber of the valve body and facilitates the flow of the fluid.

The present invention for achieving the above object is a main body formed with a flow path by the inlet and the discharge port and the body portion consisting of a chamber formed on the main body, the seat portion is installed in the chamber to open and close the flow path, Opening means consisting of a diaphragm coupled to the upper chamber, a stem coupled to the lower portion of the diaphragm and a disk coupled to the lower portion of the seat portion and a disk coupled to the lower stem to open and close the flow path, and a cover coupled to the upper chamber And a pressure regulating means mounted in the cover and configured to pressurize the diaphragm to elastically pressurize the diaphragm to maintain an open state, wherein the stem has a round bar shape and a through hole penetrating therein. When the outlet side pressure rises, fluid flows back through the through hole. By lifting the diaphragm is characterized in that the disc is closed the flow path.

Here, the through hole penetrates downward along the longitudinal direction of the stem and flows through the vertical hole through a vertical hole through which the fluid on the outlet side flows, and through the vertical circumference of the stem at an upper end of the vertical hole. Characterized in that the horizontal hole for discharging the fluid in the space formed between the seat portion and the diaphragm.

And the chamber is inclined coupled to the main body, characterized in that the inclined support portion for supporting the seat portion inclined in the main body is formed.

On the other hand, the pressure adjusting means is characterized in that it is composed of a spring installed inside the cover, a support plate for supporting the spring up and down, and an adjusting bolt penetrating the cover and coupled to the upper support plate.

In addition, the outer peripheral surface of the sheet portion is characterized in that the strainer capable of filtering foreign matter is coupled.

The effect of the present invention by the configuration as described above is because the secondary fluid is transmitted through the through hole formed in the stem to operate the diaphragm, there is no need to make a separate through hole in the body can reduce the volume of the valve body portion.

In addition, since the chamber and the cover are installed to be inclined, the overall height of the valve is low, so that the installation is easy and the maintenance is easy even in a narrow space.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. The following description and the accompanying drawings are presented for the overall understanding of the present invention, and thus the technical scope of the present invention is not limited thereto. And a detailed description of known configurations and functions that may unnecessarily obscure the subject matter of the present invention will be omitted.

Figure 2 is a cross-sectional view showing a pressure reducing valve according to an embodiment of the present invention.

Referring to the main part of the present invention, the body portion 10, the seat portion 20, the diaphragm 30, the opening and closing means 40, the cover 50, the pressure control means 60 is configured to include.

The body portion 10 has a main body 12 having an inlet 12a formed on one side and an outlet 12b formed on the other side, and a flow path formed thereon, and an upper side open at the center of the main body 12. The chamber 14 of the structure is formed.

At this time, the chamber 14 may be installed vertically on the main body 12, but preferably, it is installed inclined. Because the chamber 14 of the same height is inclined rather than being installed vertically, the space occupied by the entire valve can be reduced, so that installation is easy and maintenance is easy even in a narrow space.

In addition, the main body 12 is formed with an inclined support portion 16 which is formed to be inclined upward along the flow path and supports the seat 20 to be inclined with respect to the flow path.

Inside the chamber 14 there is a seat portion 20 is formed to open and close the flow path, the sheet portion 20 has a cylindrical shape to form a frame (frame) so that the fluid can pass through the outer peripheral surface and the upper portion Closely coupled to the chamber 14 and the lower portion is opened to form a flow hole 22 through which the fluid can pass. That is, the fluid flowing into the inlet 12a passes through the outer circumferential surface of the seat 20 and exits into the distribution hole 22.

For reference, a strainer 24 in the form of a strainer may be coupled to surround the outer circumferential surface of the seat part 20 so as to filter foreign matter.

The diaphragm 30 is interposed on the sheet portion 20 and forms a circular flat plate shape having elasticity. Since it is a well-known structure, detailed description is abbreviate | omitted.

Next, the opening and closing means 40 is installed in the seat part 20 to open and close the flow hole 22, and is composed of a stem 42 and a disk 44.

The stem 42 has an annular rod shape as shown in the drawing, and is rotatably coupled through the center of the seat part 20, and an upper end is coupled to the center of the diaphragm 30, and a lower end of the disk 44 is provided. Combined.

Here, a through hole 41 is formed in the stem 42 so that a passage is formed. The through hole 41 may include a vertical hole 41a and a horizontal hole 41b.

The vertical hole 41a is a passage formed at the center along the longitudinal direction of the stem 42 and penetrates to the lower side of the stem 42 to have an open shape so that the fluid at the outlet 12b side flows in.

In addition, the horizontal hole 41b is formed in the space of the chamber 14 formed between the seat portion 20 and the diaphragm 30 by the fluid flowing through the vertical hole 41a rising through the stem 42. As it allows to flow out, it is a passage formed perpendicularly to the vertical hole 41a at the upper end of the vertical hole 41a and penetrates on both outer peripheral surfaces of the stem 42.

Therefore, the through hole 41 is appropriate to form a 'T' as a whole, but is not limited thereto.

And the bottom of the stem 42 is coupled to the disk 44, the disk 44 is made of a disk-shaped flow hole 22 formed in the lower portion of the seat portion 20 in accordance with the lifting of the stem 42 ) Or open it.

Next, the cover 50 is a configuration in which the chamber 14 is closed, but a cap shape is general, but is not limited thereto. The cover 50 may be screwed to an upper portion of the chamber 14.

The cover 50 is provided with a pressure regulating means 60, the pressure regulating means 60 to elastically press the diaphragm 30 to maintain the pressed state to the lower side and thereby the stem 42 ) And the disk 44 is lowered so that the distribution hole 22 of the seat portion 20 is kept open.

The pressure adjusting means 60 is screwed through the spring 62, the support plate 64 for supporting the upper and lower portions of the spring 62 and the cover 50, and the upper support plate 64 Consists of an adjusting bolt 66 coupled to.

In other words, a spring 62 is interposed between the upper and lower support plates 64, and the adjustment bolt 66 is coupled to the upper support plate 64 to tighten the adjustment bolt 66 to support the upper support plate. As the 64 is lowered, the spring 62 is further compressed, which increases the elastic force, thereby adjusting the pressure by increasing the force that the lower support plate 64 presses the diaphragm 30.

Therefore, when the pressure of the outlet 12b is greater than or equal to the set pressure in the state in which the adjustment bolt 66 is adjusted to set a certain pressure, the pressure is passed through the through hole 41 of the stem 42. It is transmitted to the lower surface of the diaphragm 30 to overcome the elastic force of the spring 62, as a result of which the diaphragm 30 is moved upward, the stem 42 also rises and subsequently the flow hole 22 The disk 44 that has been opened rises to close the flow hole 22.

Hereinafter, the operating state of the present invention will be briefly described with reference to FIG. 3. 3 is a cross-sectional view showing an operating state of the present invention shown in FIG.

Normally under the set pressure by adjusting the adjusting bolt 66, the spring 62 presses the diaphragm 30 and the diaphragm 30 is elastically lowered, which causes the stem 42 to descend. The disk 44 opens the flow hole of the sheet portion 20.

In this state, the fluid is introduced from the inlet 12a and passes through the outer circumferential surface of the seat 20, and the fluid is supplied while forming a flow path toward the outlet 12b through the distribution hole 22.

At this time, since the seat portion 20 is inclinedly coupled, the fluid introduced into the inlet 12a naturally flows into the seat portion 20 by the inclined support 16.

However, if the pressure on the outlet 12b side increases due to a certain factor and exceeds the pressure on the inlet 12a side, the fluid on the outlet 12b side flows back to the through hole 41 of the stem 42. Is introduced into, more specifically, it is transmitted through the vertical hole (41a) and flows out to the upper outer peripheral surface of the stem 42 through the horizontal hole (41b). The spilled fluid pushes up the diaphragm 30, but when the pressure overcomes the elastic force of the spring 62, the lower support plate 64 rises, and the stem 42 also rises, thereby causing the disk 44 to rise. ) Eventually closes the distribution hole 22.

Therefore, the fluid on the outlet 12b side is blocked to enter the inlet 12a.

Since the pressure of the fluid is transmitted through the through hole 41 in the stem 42 as described above, there is no need to make a separate hole for transmitting the pressure of the outlet 12b to the seat part 20. The volume of the seat 20 and the chamber 14 can be reduced, and the chamber 14 is inclinedly coupled so that the actual height of the valve is lowered, so that it is easy to install in a narrow space.

1 is a cross-sectional view showing a conventional general pressure reducing valve.

Figure 2 is a cross-sectional view showing a pressure reducing valve according to an embodiment of the present invention.

3 is a cross-sectional view showing an operating state of the present invention shown in FIG.

<< Explanation of main parts of drawing >>

10: body 12: main body

12a: inlet 12b: outlet

14 chamber 16 inclined support

20: seat portion 22: distribution hole

24: strainer

30: diaphragm

40: opening and closing means 41: through hole

41a: vertical hole 41b: horizontal hole

42: stem 44: disk

50: cover

60: pressure regulating means 62: spring

64: support plate 66: adjustment bolt

Claims (5)

A body portion 10 including a main body 12 having a flow path formed by an inlet 12a and an outlet 12b and a chamber 14 formed on the main body 12, and installed in the chamber 14. And a seat portion 20 through which the flow path is opened and closed, a diaphragm 30 coupled to the upper portion of the seat portion 20, and a stem coupled to the lower portion of the diaphragm 30 and lifting up and down within the seat portion 20. 42 and an opening means 40 composed of a disk 44 coupled to a lower portion of the stem 42 to open and close a flow path, a cover 50 coupled to an upper portion of the chamber 14, and the cover 50. In the pressure reducing valve consisting of a pressure regulating means (60) mounted in the) and elastically pressurizing the diaphragm (30) to maintain the open state, The stem 41 is formed in a round bar shape and a through hole 41 penetrating therein is formed, The pressure reducing valve (12b) when the pressure rises, the fluid flows back through the through hole (41) and the diaphragm (30) by raising the disk (44) is characterized in that the flow path is sealed. The method of claim 1, The through hole 41, Vertical holes 41a penetrating downward along the longitudinal direction of the stem 42 and into which the fluid at the outlet 12b flows, and on the outer circumferential surface of the stem 42 at the upper end of the vertical hole 41a. Pressure reducing valve, characterized in that consisting of a horizontal hole (41b) for passing through the vertical hole (41a) flows in the space formed between the seat portion 20 and the diaphragm (30). The method of claim 1, The chamber 14 is inclinedly coupled to the main body 12, a pressure reducing valve characterized in that the inclined support portion 16 is formed to support the seat portion 20 inclined in the main body 12. . 4. The method according to any one of claims 1 to 3, The pressure adjusting means 60, Spring 62 is installed inside the cover 50, the support plate 64 for supporting the spring 62 up and down, and the adjustment to penetrate the cover 50 and coupled to the upper support plate 64 Pressure reducing valve, characterized in that consisting of a bolt (66). 4. The method according to any one of claims 1 to 3, Pressure reducing valve, characterized in that the outer circumferential surface of the seat portion 20 is coupled to the strainer 26 to filter foreign matter.

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