KR101401307B1 - Compound pressure reducing valve - Google Patents

Abstract

The present invention discloses a composite pressure reducing valve. According to an aspect of the present invention, there is provided an air conditioner comprising: a decompression unit (110) adapted to control a hydraulic pressure of a fluid to be flowed; a blocking unit (160) detachably coupled to an inlet (121) side of the decompression unit And a blocking unit 160 installed between the decompression unit 110 and the blocking unit 160 to prevent the fluid from flowing backward. The blocking unit 160 includes an inlet hole 162a, A second body 162 having a passage 162b and a flow passage for connecting the inlet hole 162a and the discharge hole 162b and a rotary lever 164a rotatably installed in the second body 162 And a ball disc 164b that can open or close the internal flow path in accordance with the rotation of the rotation lever 164a and a valve body 164b configured to open or close the internal flow path of the second body 162 and the decompression unit 110 And a connection port 166 for separating and coupling the body 120 of the main body 120. The connection port 166 has one end, And a sealing member 167 which is screwed to the discharge hole 162b of the ball screw 162 and provided on the outer circumferential surface of the ball disc 164b to maintain the airtightness, And the hermetic member 168 can be tightly coupled to the hermetic member 168 so as to maintain airtightness in the reverse flow.

Description

A compound pressure reducing valve

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pressure reducing valve, and more particularly, to a combined pressure reducing valve capable of automatically controlling a water pressure and shutting off supply of water during maintenance and preventing reverse flow.

With the development of building materials and construction technology, the rise of high-rise apartment buildings and commercial buildings continues to increase, and the supply of waterworks and hot water supply is becoming a problem. Specifically, in the case of a skyscraper apartment or a commercial building, the supply water pressure is gradually increasing so that the water supply of the water supply system and the hot water supply system can be smoothly performed even in a high-rise building.

However, as the supply water pressure becomes higher and higher, a higher hydraulic pressure acts on the lower part than on the upper part, so that an excessive amount of flow flows in the lower part and a flow is insufficient in the upper part. The problem of increasing damage and leakage of pipes and peripheral devices is increasing.

In addition, the high flow rate due to the high water pressure in the low-level portion causes noise and vibration of the piping, thus causing a problem of deteriorating a pleasant residential environment.

Accordingly, in order to solve various problems in the water supply of the skyscraper buildings and the fire water piping system as described above, an automatic water pressure control valve having a function of appropriately lowering the water pressure to the branch pipe divided from the main pipe of the low- .

That is, as shown in FIG. 1, the conventional automatic hydraulic pressure regulating valve 10 opens and closes a valve by using an equilibrium relationship between a force to open the disc seat 110 of the valve and a force to close the valve.

Specifically, the automatic hydraulic pressure regulating valve 10 shown in the figure is connected to the automatic hydraulic pressure regulating valve 10 through the opening / closing movement of the disc seat 110 provided between the inlet port 90 and the discharging port 100, And an elastic spring 40 is provided between the diaphragm plate 50 and the adjustment unit 20 so that the elastic spring 40 can be adjusted through adjustment of the adjustment unit 20. [ 40 so that the automatic hydraulic pressure control valve 10 can be operated.

The conventional automatic hydraulic pressure control valve 10 having the above-described configuration must perform maintenance such as cleaning the inside and replacing consumables after a certain period of use. Accordingly, in the conventional art, a shutoff valve is provided separately on the piping provided with the automatic hydraulic pressure control valve 10 so as to block the supply of water, thereby blocking the water from being directed to the automatic hydraulic pressure control valve 10.

In other words, in the conventional case, the automatic hydraulic pressure control valve 10 merely has a function of controlling the water pressure only, and has a function of shutting off the water supply, The purchase cost is increased.

Accordingly, the applicant of the present invention has proposed a composite pressure reducing valve that can solve the conventional problems as described above

Korean Patent No. 10-0921663

In one embodiment of the present invention, a shut-off valve for blocking water supply, a check valve for preventing back flow, and a pressure reducing valve for adjusting the water pressure are integrally formed. The water inlet and the water outlet are formed at right angles The present invention provides a composite pressure reducing valve that is easy to construct and can reduce construction costs.

According to an aspect of the present invention, there is provided a pressure reducing apparatus comprising: a pressure-reducing unit adapted to adjust a hydraulic pressure of a fluid to be flowed; and a pressure-reducing unit removably coupled to the inlet of the pressure- And a backflow prevention part provided between the pressure reducing part and the blocking part to prevent the fluid from flowing backward.

The blocking portion may include a second body having a flow path formed therein, a blocking member disposed in the second body, and a connector for separating and coupling the body of the second body and the decompression portion.

The backflow prevention portion includes a backflow prevention disk slidably installed in an inlet of the body, a support member having one side supported by a step formed in an inlet of the body, and a support member provided between the backflow prevention disk and the support member. A spring for elastically supporting the backflow preventing disk and a guide member for preventing the spring from being separated and preventing the backflow preventing disk from being rotated by fluid flow.

Embodiments of the present invention are composite depressurization valves that include a depressurizing function for lowering the high water pressure, a blocking function for arbitrarily blocking the fluid flow, and a function for preventing the back flow of the fluid. It is easy and easy to construct the hot water supply pipe and can reduce the work time and cost.

In addition, the purchase cost and the management cost are increased by purchasing the existing shutoff valve, the check valve, and the pressure reducing valve. However, since the present invention integrates various functions, it is easy to purchase and manage, .

1 is a schematic view of a conventional automatic pressure control valve.
2 is a schematic view of a composite pressure reducing valve according to an embodiment of the present invention.
3 is a schematic view showing a closed state of an internal flow path of a composite pressure reducing valve according to an embodiment of the present invention.
4 is a schematic view illustrating a blocking portion of a composite pressure reducing valve according to an embodiment of the present invention.
5 and 6 are views schematically showing a backflow prevention portion of a composite pressure-reducing valve according to an embodiment of the present invention.

Hereinafter, a composite pressure reducing valve according to embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 2 is a view schematically showing a composite pressure reducing valve according to an embodiment of the present invention, and FIG. 3 is a view schematically showing a state in which an internal flow path of a composite pressure reducing valve according to an embodiment of the present invention is closed .

Referring to FIGS. 2 and 3, the composite reducing valve 100 according to the embodiment of the present invention includes a shutoff valve and a pressure reducing valve integrally formed therein, and a check valve is provided between the shutoff valve and the pressure reducing valve It is possible to prevent the backflow of water in the direction of the shutoff valve from the pressure reducing valve.

Specifically, the composite pressure reducing valve 100 according to an embodiment of the present invention includes a decompression unit 110 that can automatically adjust a high-pressure water supply pressure of a fluid to be flowed, A blocking unit 160 detachably coupled to the pressure reducing unit 110 and the blocking unit 160 to selectively block the flow of the fluid to the current (forward flow) side, The backflow prevention part 170 may prevent the backflow prevention part 170 from being blocked.

The decompression unit 110 includes a body 120 having an inner channel formed between the inlet 121 and the outlet 122 and having an open upper portion and a cover 130 covering the opened upper portion of the body 120, Closing means 140 disposed inside the body 120 and capable of opening and closing the internal flow passage and a control unit 140 disposed in the cover 130 and controlling the pressure of the opening and closing means 140, And a pressure regulating means 150 for controlling the pressure regulating means.

The body 120 has an inlet 121 through which fluid can be introduced into both side surfaces of the body 120 and an outlet 122 through which the fluid introduced through the inlet 121 can be discharged to the outside, And an internal flow path is formed in the inside of the body to connect the inlet 121 and the outlet 122 so that fluid can flow.

At this time, the upper portion of the body 120 is formed to be opened, and the cover 130 having the receiving space therein is coupled to the opened upper portion.

The opening and closing means 140 is installed on the internal flow path of the body 120 and includes a valve seat 142 having a lower opening to allow a fluid to flow through the plurality of through- A stem 144 which is installed in the valve seat 142 so as to be able to move up and down and a valve seat 142 which is fixedly connected to a lower end of the stem 144, And a disk 146 that can be opened and closed.

The valve seat 142 is formed in the shape of a double pipe so as to guide the lifting and lowering of the stem 144. The valve seat 142 surrounds the inner pipe 142a and has a plurality of through holes 141, And a contact member 142c disposed at a lower portion of the outer tube 142b and minimizing the occurrence of a gap when the disk 142 is in contact with the disk 146. [

The disc 146 is formed of a rubber plate support 146a and a rubber plate 146b and a rubber plate cover 146c for supporting the rubber plate 146b on the rubber plate support 146a. And closes the inner flow path when it comes into contact with the contact member 142c.

That is, when the stem 144 is lowered in a state where the valve seat 142 is fixed on the internal flow path of the body 120, the opening and closing means 140 may include a disk 146 fixedly coupled to the stem 144 When the stem 144 rises, the disk 146 fixedly coupled to the stem 144 rises and is in close contact with the valve seat 142 to close the internal flow path.

At this time, the composite reducing valve 100 according to an embodiment of the present invention may further include a cylindrical strainer 148 to surround the outer surface of the valve seat 142.

That is, by covering the valve seat 142 having the through-hole 141 formed therein so as to flow the fluid, the foreign substance contained in the fluid can be filtered when passing through the through-hole 141.

The pressure regulating means 150 is installed to press the stem 144 of the opening and closing means 140 downward in the cover 130 located on the upper side of the body 120, An elastic member 156 installed in the cover 130 to elastically support the adjusting screw 152 through the spring plate 154, And a diaphragm 158 installed at a lower portion of the elastic member 156 to divide a receiving space formed in the body 120 and a receiving space formed in the cover 130.

That is, when the adjusting screw 152 is lowered by rotation in a state where the adjusting screw 152 is installed at one end on the inner side of the cover 130, when the adjusting screw 152 is lowered by the rotation, The opening and closing means 140 is opened while the stem 144 of the opening and closing means 140 supporting the elastic member 156 is directed downward.

At this time, the diaphragm 158 divides the pressure chamber P1 formed in the body 120 and the pressure chamber P2 formed in the cover 130, and the pressure chamber P1 formed in the body 120, The pressure chamber P1 is connected to the discharge port 122 of the body 120 through a sensing hole 159. The pressure chamber P1 is connected to the pressure chamber P1 through the sensing hole 159, The pressure on the side of the discharge port 122 of the body 120 is in the same state.

That is, the disk 146 is spaced apart from the valve seat 142 by the pressure regulating means 150 so that the internal flow path is kept open. The fluid is directed to the pressure chamber P1 of the body 120 through the sensing hole 159 to cancel the elastic force of the spring as the elastic member 156, So that the disc 146 is brought into contact with the valve seat 142 to close the inner flow path.

The inlet 121 formed in the body 120 of the decompression unit 110 is detachably coupled to the connection port 166 of the blocking unit 160 through a screw connection.

As shown in FIG. 4, the blocking unit 160 may include a second body 162 having a flow path formed therein, A blocking member 164 positioned in the body 2 162 and a coupling 166 detachably coupling the second body 162 and the body 120 of the decompression unit 110 .

The second body 162 is provided with an inflow hole 162a through which fluid can flow and a discharge hole 162b through which the fluid introduced through the inflow hole 162a can be discharged to the outside, And an internal flow path is formed therein so that the hole 162a and the discharge hole 162b are connected.

A blocking member 164 is provided on the inner flow path of the second body 162. The blocking member 164 restricts the flow of the fluid by opening or closing the inner flow path. The blocking member 164 includes a rotation lever 164a rotatably installed on the upper portion of the second body 162, And a ball disk 164b having a channel formed therein and having one side fixedly coupled to the rotation lever 164a so as to open or close the internal channel in accordance with rotation of the rotation lever 164a.

In other words, an inlet 165a for allowing fluid to flow into the lower surface of the ball disk 164b is formed, and the introduced fluid is discharged through a discharge port 165b formed on both sides of the ball disk 164b .

When the discharge port 165b is rotated in the direction of the body 120 of the decompression unit 110, the fluid is discharged from the discharge port 165b, And the fluid does not flow when the discharge port 165b rotates in a direction orthogonal to the body 120 of the decompression unit 110.

The exhaust port 162b of the second body 162 is provided with a connection port 166 for connection with the body 120 of the decompression unit 110.

One end of the connector 166 is screwed to the discharge hole 162b of the second body 162 and the other end of the connector 166 is screwed to the inlet 121 of the body 120.

At this time, the connection port 166 can press the sealing member 167 having one end to contact with the ball disc 164b of the blocking portion 160 to maintain the airtightness, so that the sealing member 167 can flow And the other end is engaged with the airtight member 168 which is coupled to the air inlet 121 formed in the body 120 of the pressure reducing portion 110 and is kept airtight so that leakage phenomenon .

On the other hand, the backflow prevention part 170 is installed inside the inlet 121 of the pressure-reducing part 110 as shown in FIGS.

The backflow prevention part 170 prevents fluid from flowing back in a direction in which the blocking part 160 is positioned through the decompression part 110. The backflow prevention part 170 is slidable in the inlet 121 of the body 120 A support member 174 which is supported at one side of a step formed in an inlet 121 of the body 120 and a backflow prevention disk 172 installed to the support member A spring 176 which is installed between the spring 176 and the spring 174 to elastically support the backflow preventing disk 172 and a spring 176 which prevents the spring 176 from being separated and prevents the backflow preventing disk 172 from being rotated And may include a guide member 178.

Specifically, the backflow prevention disk 172 is formed in the shape of a circular plate and is provided with a fastening plate 172a made of a rubber member so as to restrict the flow of the fluid when one end of the connection port 166 contacts with the end, And a plurality of protrusions 172b are provided on the outer circumferential surface so as to smoothly slide in the inflow hole 162a and to allow fluid to flow when separated from the discharge hole 162b.

The support member 174 is formed in a cross shape so that the other end of the support member 174 is in close contact with the step formed inside the inlet 121, .

The spring 176 is a coil spring which is installed between the backflow prevention disk 172 and the support member 174 so as to provide an elastic restoring force to the backflow prevention disk 172, When the fluid does not flow, the backflow prevention disk 172 is always kept in contact with the discharge hole 162b by the elastic restoring force of the spring 176. [

In addition, the guide member 178 is formed in a bar shape and is installed to be positioned between the support member 174 formed at one end of the backflow prevention disk 172 and the other end formed at the cross shape.

In other words, the backflow prevention disk 172 can be rotated by the force that the fluid flows. At this time, since the guide member 178 is positioned between the support members 174 having a cross shape, Thereby preventing the rotation shaft 172 from rotating.

Accordingly, the composite pressure reducing valve according to one embodiment of the present invention having the above-described structure is configured such that when the pressure reducing portion 110 is maintained and cleaned, the rotation lever of the blocking portion 160 coupled to the inlet 121 164a to rotate the ball disc 164b so as to close the internal flow path and shut off the fluid flowing toward the decompression portion 110. [

The backflow prevention part 170 may be provided between the decompression part 110 and the blocking part 160 to completely prevent the backflow of the fluid from the decompression part 110 to the blocking part 160.

Further, it is possible to reduce the inconvenience of the operation which has been caused by installing the existing pressure reducing valve and the shut-off valve, and the purchase cost which has occurred when the pressure reducing valve and the shut-off valve are purchased.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: Combined pressure reducing valve 110:
120: body 121: inlet
122: outlet 130: cover
140: opening and closing means 141: through hole
142: valve seat 142a: inner tube
142b: Outer appearance 142c:
144: Stem 146: Disk
146a: Rubber plate support 146b: Rubber plate
146c: rubber plate cover 148: strainer
150: pressure adjusting means 152: adjusting screw
154: spring plate 156: elastic member
158: Diaphragm 159: Sphere
160: breaking portion 162: second body
162a: Inflow hole 162b: Discharge hole
164: blocking member 164a: rotating lever
164b: ball disk 165a: inlet
165b: outlet 166: connector
167: sealing member 168: airtight member
170: reverse flow prevention part 172: reverse flow prevention disk
172a: Adhering plate 172b:
174: support member 176: spring
178: Guide member
P1: pressure chamber formed in the body
P2: pressure chamber formed on the cover

Claims (3)

A pressure reducing portion 110 for adjusting the pressure of the fluid to be flowed; a blocking portion 160 detachably coupled to the inlet 121 side of the pressure reducing portion 110; And a backflow prevention part (170) installed between the backflow prevention part (160) and the backflow prevention part (170)
The blocking unit 160
A second body 162 having an inlet hole 162a and an outlet hole 162b and having a flow path for connecting the inlet hole 162a and the outlet hole 162b to each other; A blocking member 164 composed of a rotating lever 164a that is installed as much as possible and a ball disc 164b that can open or close the internal flow path in accordance with the rotation of the rotating lever 164a, 162) and a coupling (166) for separating and coupling the body (120) of the decompression part (110)
The connection port 166 is provided at one end with the discharge hole 162b of the second body 162 and is provided on the outer circumferential surface of the ball disc 164b to press the sealing member 167 to maintain the airtightness And the other end is screwed to the inlet 121 of the body 120 and is tightly coupled with the hermetic member 168 to maintain airtightness in the reverse flow,
The backflow prevention part 170 includes:
A backflow prevention disk 172 slidably installed in an inlet 121 of the body 120,
A supporting member 174 which is supported at one end thereof in a step formed in the inlet 121 of the body 120,
A spring 176 installed between the backflow prevention disk 172 and the support member 174 to elastically support the backflow prevention disk 172,
And a guide member (178) for preventing the spring (176) from being separated and preventing the backflow prevention disk (172) from being rotated by the flow of the fluid.
delete The backflow prevention disk (172) according to claim 1, wherein the backflow prevention disk (172) is formed in the shape of a circular plate so as to restrict the flow of the fluid upon contact with the discharge hole (162b) of the blocking part (160) And a plurality of protrusions (172b) are provided on an outer circumferential surface of the backflow prevention disk (172).

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