KR100473850B1 - reducing valve assembly for water purifier - Google Patents

Abstract

The present invention relates to a pressure reducing valve assembly for a water purifier, the body having a pressure reducing chamber which is connected in one direction and a cylindrical space in the upper portion, a cylindrical cover mounted on the upper portion of the body, the lower end of the cover and the pressure reduction of the body A diaphragm member installed at the upper end of the seal, a spring member embedded in the cover to elastically pressurize the diaphragm member, and mounted on the lower end of the body and interlocked with the diaphragm member to control the flow of fluid flowing through the body; It consists of a control valve member, and a control plate fixedly mounted in the longitudinal direction along the inner periphery of the decompression chamber. In addition, a shaft hole through which the lifting shaft of the control valve penetrates is formed in the center of the control plate, and at least one perforation hole is formed around the shaft hole, and the control plate is preferably made of a resin material. According to the configuration as described above of the present invention, not only the vibration phenomenon generated when the reverse pressure is excessively acted on the pressure reducing valve, but also prevents the damage of the diaphragm or other piping materials due to the reverse pressure to increase the durability Is generated.

Description

Reducing valve assembly for water purifier

The present invention relates to a pressure reducing valve for a water purifier, and more particularly, by mounting a plate member having a predetermined thickness in the valve chamber formed in the body of the pressure reducing valve that controls the pressure of the fluid, thereby preventing the shaking phenomenon generated when the back pressure occurs. Rather, the present invention relates to a pressure reducing valve assembly for a water purifier capable of improving the durability of the diaphragm member by reducing the speed of the reverse flow of the fluid generated when the back pressure is generated.

Generally, pressure reducing valves are used to maintain high pressure steam, air, and gas at a constant pressure. Force is applied to the valve by dead weight, spring, diaphragm and so on.When the pressure reduction side is lower than the predetermined pressure, the fluid is pushed in by pushing the valve.In the opposite case, the pressure of the fluid overcomes the force to open the valve. It is designed to prevent the flow of fluid by closing the valve.

The configuration and operation of the pressure reducing valve as described above are as follows.

Fluid such as hot water or steam flowing from a pipe installed in one side flows into the inlet, and the disk and the diaphragm are coupled to the upper side, and the flow of fluid introduced into the inlet by the elastic force of the spring provided on the upper side of the disk. The control valve member is provided to control.

The valve member is provided at the lower side of the induction hole formed to facilitate the discharge of the fluid introduced into the inlet (IS), the back pressure (逆 壓) occurs when the pressure of the fluid discharged to the outlet through the induction hole increases and the upper side By pushing up the diaphragm provided in the valve member, the valve member blocks the induction hole to block the inflow of the fluid, and when the pressure falls below the set pressure, the control valve member is lowered again by the elastic force of the spring provided on the disk. And to allow fluid to flow into the induction hole.

However, in the conventional pressure reducing valve described above, a problem occurs in that the diaphragm made of rubber material is damaged by the above-mentioned back pressure and the pressure reducing valve must be replaced entirely.

In addition, the above-mentioned back pressure not only easily damages other piping materials other than the diaphragm, but also causes tremors to cause noise and ultimately loses the function of the pressure reducing valve to maintain a constant pressure.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is not only to prevent the shaking phenomenon caused when the above-mentioned back pressure is excessively acted, but also to prevent diaphragm or other piping materials caused by the back pressure. To provide a pressure reducing valve assembly for a water purifier to prevent breakage.

The pressure reducing valve assembly for water purifier according to the present invention for realizing such an object includes a body having a pressure reducing chamber communicating in one direction and having a cylindrical space thereon, a cylindrical cover mounted on an upper portion of the body, and A diaphragm member installed at a lower end and an upper end of the pressure reducing chamber of the body, a spring member embedded in the cover to elastically press the diaphragm member, and mounted to a lower end of the body and interlocked with the diaphragm member through the body. Control valve member for controlling the flow of the flowing fluid further comprises a control plate fixedly mounted in the longitudinal direction along the inner periphery of the decompression chamber.

According to another aspect of the present invention, the central portion of the control plate is formed with a shaft hole through which the lifting shaft of the control valve penetrates, and at least one perforation hole is formed in the outer periphery around the shaft hole, the control plate is It is preferable that it is a resin material.

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

1 is a longitudinal sectional view of a pressure reducing valve according to the invention, and FIG. 2 is a schematic perspective view of a control plate according to the invention.

As shown in the figure, the pressure reducing valve assembly 100 according to the present invention is communicated in one direction and the body 10 is formed with a decompression chamber 20 which is a cylindrical space at the top, which is mounted on the top of the body 10 Cylindrical cover 16, a diaphragm member provided in the lower end of the cover 16 and the upper end of the pressure-reduction chamber 20 of the body 10, embedded in the cover 16 to elastically press the diaphragm member It is made of a spring member, and a control valve member mounted to the lower end of the body to control the flow of fluid flowing through the body (10).

In other words, an inlet 10a for introducing a fluid is formed at one side of the body 10 which is integrally formed, and an outlet 10b for maintaining the pressure of the introduced fluid at a constant pressure is formed at the opposite side, respectively. It is.

In order to block the flow of the fluid flowing out through the inlet (10a) to the outlet (10b) according to the set pressure is a certain portion of the control valve member of the passage is mounted.

The control valve is to open and close the elevating shaft 12 is inserted into the communication hole 11 formed in a predetermined portion of the passageway of the body and the communication hole 11 in accordance with the vertical operation of the elevating shaft (12). The packing 13 is mounted on a predetermined portion of the lifting shaft 12 so as to be seated on the lower side of the lifting shaft 12 and the support spring 14 for pressing the lifting shaft 12 elastically This control valve is supported by the lower cap 15 is fastened and fixed by the body 10 and the bolt.

In addition, a cover 16 is fastened by a bolt to an upper side of the body 10, and a disk 17 and a diaphragm 18 are positioned inside the body 10 and the cover 16, and the diaphragm is located. On the upper side of the 18, the bracket 19 is fixed.

In addition, the spring member is installed above the bracket 19. That is, the inner spring 21 and the outer spring 22 having different modulus of elasticity are respectively provided, and the upper cap to the upper side of the cover 16 to adjust the elastic force of the spring member 21, 22 (25) is fastened.

The upper side of the bracket 19 is formed with a seating protrusion 24 is seated on the bottom of the outer spring 22, the bottom of the upper cap 25 is inserted into the top of the outer spring 22 is inserted Protrusions are formed.

Preferably, the inner spring 21 and the outer spring 22 have different elastic modulus, which may be easily adjusted by forming different diameters or winding diameters of the wires.

And, the upper cap 25 is able to adjust the elastic force of the spring member 21, 22 according to the extent to which the cover 16 is fastened.

In addition, the upper cap 25 is fastened to the upper outer circumferential surface of the cover 16, but is not limited thereto. For example, after forming a female screw on the inner surface of the cover 16, the upper cap 25 may be fastened. Of course it can.

On the other hand, as shown in Figure 2, the control plate 30 is installed in the decompression chamber 20, the shaft hole 31 in the center so that the lifting shaft 12 of the control valve can be easily operated up and down Will be formed.

In addition, a plurality of perforation holes 32 are formed around the shaft hole, and when a back pressure is generated, a backflow speed is added and reduced as the fluid flowing back to the decompression chamber 20 passes through the plurality of perforation holes, and thus adversely affects the diaphragm 18. It not only reduces the noise, but also prevents the shaking. In the exemplary embodiment according to the present invention, although four punching holes are formed, a person skilled in the art will readily know that a plurality of punching holes are formed according to a device on which the pressure reducing valve assembly 100 is mounted.

Pressure reducing valve assembly for a water purifier according to the present invention configured as described above, when the fluid having a proper pressure flows into the inlet (10a) of the body 10 in accordance with the operation of a separate opening and closing valve by the pressure of the fluid ( 12 lowers the support spring 14, and thus, the packing 13 is separated from the communication hole 11 so that the communication hole 11 is opened to discharge the fluid to the outlet 20b.

At this time, the lifting shaft 12 is the lower end receives the elastic force from the support spring 14 and the upper end is supported by the disk 17 to discharge the fluid at a constant pressure.

In addition, the inner spring 21 and the outer spring 22 interposed between the bracket 19 and the upper cap exert an appropriate elastic force on the bracket 19 so that the pressure is increased by the diaphragm 18 and the disk 17. In this case, the elastic force of the spring member 21, 22 is to be made within the stroke range when the lifting shaft 22 is lowered or raised.

Such a pressure reducing valve assembly according to the present invention can minimize the change in the elastic modulus of the spring as a double spring member 21, 22 is interposed between the bracket 19 and the upper cap, accordingly By allowing the lifting shaft 12 to be always operated within the operating stroke range, it is possible to prevent the malfunction and the like.

In addition, as described above, when the control plate 30 is installed in the decompression chamber 20 of the body 10, the fluid flowing back to the decompression chamber 20 when a back pressure occurs is passed through a plurality of drilling holes 32. The speed is added and reduced to reduce the adverse effect on the diaphragm 18 as well as to prevent the shaking phenomenon.

According to the configuration and operation of the present invention as well as to prevent the vibration caused when the reverse pressure is excessively acted on the pressure reducing valve as well as to prevent damage to the diaphragm or other piping materials due to the reverse pressure to increase the durability Effect occurs.

The present invention is not limited to the above embodiments, and various changes can be made by any person having ordinary knowledge in the field of the present invention without departing from the gist of the present invention as claimed in the following claims. It will be said that there is a technical spirit of the present invention to the extent.

1 is a longitudinal sectional view of a pressure reducing valve assembly for a water purifier according to the present invention;

2 is a schematic perspective view of a control plate according to the invention;

Explanation of symbols on the main parts of the drawings

10: body, 10 a: inlet,

10b: outlet, 12: lifting shaft,

16: cover, 17 disc,

18: diaphragm, 19: bracket,

20: decompression chamber, 21: internal spring,

22: external spring, 30: control plate.

Claims (3)

A body 10 having a decompression chamber 20 communicating in one direction and having a cylindrical space thereon, a cylindrical cover 16 mounted on an upper portion of the body 10, a lower end of the cover 16, and A diaphragm 18 installed at an upper end of the pressure reduction chamber 20 of the body 10, springs 21 and 22 embedded in the cover 16 to elastically pressurize the diaphragm 18, and formed of synthetic resin. And a control plate 30 fixedly mounted in the longitudinal direction along the inner periphery of the decompression chamber 20, and a shaft hole through which the lifting shaft 12 of the control valve passes through the center of the control plate 30. 31) is formed, the pressure reducing valve assembly for a water purifier, characterized in that at least one perforation hole (32) is formed on the outer periphery of the shaft hole (31). delete delete