KR100528529B1 - valve assembly for maintaining flow of water - Google Patents

Abstract

The present invention provides a housing having a chamber formed in the upper portion and an upper portion thereof, an inlet connected to the chamber of the housing, an orifice formed in the center thereof, and a flow control elastic body mounted on the lower portion of the chamber, and formed in the lower portion of the housing. It relates to a constant flow valve body consisting of a water outlet port in communication with the secondary flow path formed to be connected through the chamber and the orifice, a primary flow path in communication with the chamber and the water outlet, and a cover for opening and closing the upper portion of the housing. The valve body may include a disk portion receiving a flow rate flowing from the water inlet, a contact portion of a conical shape or a flat plate that opens and closes an inlet of the primary flow path connected to the chamber, and connects the disk portion and the contact portion to each other. A flow control assembly consisting of a stem portion and mounted on top of the elastic body, and the one connected to the chamber And one end is secured around the inlet of the flow path, and the other end is characterized in that it comprises a spring which is secured to the inner surface of the disc portion. According to the above-described configuration of the present invention, the flow control assembly, which has a simple configuration and is easily adjusted by an elastic force such as a spring or rubber, is mounted in addition to the chamber of the constant flow valve body or mounted in the primary flow path. Fluctuation In particular, in the low pressure range of 0.5 to 2kg / cm2, the fluid flows simultaneously through the primary and secondary flow paths, and at some point the primary flow path is closed so that the flow rate can be controlled only by the rubber elastomer in the secondary flow path. A small amount of refined oil can be supplied constantly, and the functionality is remarkably improved to increase the commerciality.

Description

Valve assembly for maintaining flow of water

The present invention relates to a constant flow valve body, and more particularly, by adding and installing a flow control assembly which is made of a simple configuration and is adjusted by an elastic force, a static oil supply capable of constantly supplying a small amount of constant oil flow even under fluctuations in hydraulic pressure, particularly low pressure. It relates to a flow valve body.

In general, a constant flow valve used in a vending machine, a water purifier, an ice ice maker, or the like is used. An elastic body such as a flow control rubber is mounted between upper and lower flow paths in a valve body, and an orifice is formed by drilling a hole in the center of the elastic body. In this way, the effective cross-sectional area of the orifice in the central portion of the elastic body changes in response to the pressure difference between the upstream and downstream streams, thereby obtaining a constant flow rate.

In the case of another constant flow valve, only the elastic force of the spring may be used or it may be used in combination with an elastic body such as rubber. However, since the control of the static flow rate is performed on the same flow path, the low pressure range (about 0.5-2kg / ㎠) or high pressure It is difficult to control the flow rate in the range (about 8-15 kg / cm 2).

However, when only one rubber elastic body or spring elastic body is used or flow rate control is performed on the same flow path, static flow rate control in the low pressure and high pressure ranges is difficult, and the fatigue or aging of the elastic body is reduced, and the durability is degraded.

In particular, since the thickness and hardness of the elastic body must be large and high in order to endure under high pressure fluid, it is difficult to precisely control the flow rate due to variations in thickness and hardness.

In addition, under low pressure fluid, the internal orifice size of the flow control elastic body is changed according to the inlet pressure, and the flow rate is controlled. Due to the difficulty in obtaining, not only the overall functional problem occurs, but also the economic burden is high due to the high manufacturing cost to obtain the purpose of the constant flow control in the low and high pressure range.

Accordingly, the present invention has been made to solve the problems described above, the object of the present invention is to add a flow control assembly to the chamber of the constant flow valve body made of a simple configuration and easily adjusted by elastic force such as a spring In the low pressure range, the flow path is formed only by the spring elastic body in the low pressure range, but when the pressure reaches a certain pressure, the primary flow path is blocked. In the high pressure range, the fluid flows through the orifice of the rubber elastic body in the secondary flow path. The present invention provides a constant flow valve body capable of constantly supplying a small amount of oil flow even in a fluctuation of hydraulic pressure, particularly at low pressure.

This object is achieved by the present invention, and according to one aspect of the present invention, a housing having a chamber formed in an upper portion and an open portion thereof, an inlet connected to a chamber of the housing, an orifice formed in a central portion thereof, and a lower portion of the chamber. A flow rate control elastic body to be mounted, an outlet port formed at a lower portion of the housing and communicating with a secondary flow path formed to be connected through the chamber and the orifice, a primary flow path communicating the chamber and the outlet port, and an upper portion of the housing The constant flow valve body comprising a cover for opening and closing the valve includes a disk part receiving a flow rate flowing from the water inlet, a conical contact part for opening and closing an inlet of the primary flow path connected to the chamber, and the disk part and the A flow control assembly having an stem portion connecting the close contact portions to each other and mounted on the elastic body, and the chamber One end is seated around the inlet of the primary flow path to be connected, the other end is characterized in that it comprises a spring seated on the inner surface of the disk portion.

According to another aspect of the invention, the flow control ring body is installed in the upper portion of the orifice formed in the flow control elastic body, characterized in that the stopper for preventing the separation of the flow control ring body is formed around the flow control ring body. Should be.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and like reference numerals designate like parts throughout the drawings.

1 is a cross-sectional view of main parts of a rectifier valve body according to an embodiment of the present invention, and FIG. 2 is a schematic perspective view of a flow control assembly of the rectifier valve body according to FIG. 1.

As shown in the figure, the rectifier valve body according to the present invention, which is indicated by reference numeral 10, has a housing 22 which is a body formed so that the inlet 18 and the outlet 30 communicate with each other, and an upper portion of the housing 22. And a flow rate control assembly 40 mounted on the chamber 16.

As described above, the housing 22 has a chamber 16 formed at an upper portion thereof, and an upper portion thereof is opened, and a chamber 16 of the housing is connected to the water inlet 18. A lower portion of the chamber 16 has a central portion. An elastic body 20 for flow rate control having an orifice 24 formed thereon is mounted, and such elastic body may use a conventional rubber material.

In addition, a flow control ring body 32 is installed on the orifice 24 formed in the flow control elastic body 20, and the ring body 32 is prevented from deviating from its position in the periphery of the ring body 32. A stopper 34 for forming is formed.

The outlet 30 is formed in the lower portion of the housing 22 and communicates with the secondary flow path 26 formed to be connected through the chamber 16 and the orifice 24, the chamber 16 and the outlet 30 is connected by the primary flow path 28.

And the cover 14 which opens and closes the upper part of the said housing 22 is attached to the upper part of the said rectification amount valve body 10. As shown in FIG.

In particular, a flow control assembly 40 for constantly adjusting the flow rate flowing from the inlet 18 is built into the chamber 16 to operate such a disc 40, a stem ( 44), the contact portion 46 and the like.

The disk portion 42 is a region directly receiving the flow rate flowing from the water inlet 18, the contact portion 46 is a function for opening and closing the inlet of the primary flow path connected to the chamber (16). It is more preferable to form a conical shape. In addition, the stem portion 44 connects the disc portion 42 and the contact portion 46 with each other, and the contact portion 46 allows the contact portion 46 to open and close the inlet of the primary flow path 28 more accurately. It is preferable to make the elastic body having a certain elasticity while forming the needle 48 at the tip of the 46 part.

Then, one end is provided around the inlet of the primary flow path 28 connected to the chamber 16, the other end is provided with a spring 12 is seated on the inner surface of the disk portion (42).

Operation according to the above configuration of the present invention is as follows.

When the pressure of the flow rate flowing through the water inlet 18 is low (about 0.5-2 kg / cm 2), the close contact portion 46, which is the front end of the flow control assembly 40, is the inlet of the primary flow path 28. Is not completely shielded, the flow rate present in the chamber 16 is discharged not only through the orifice 24 through the secondary flow path 26 but also through the primary flow path 28 to the outlet 30. Will flow into.

However, when the pressure of the flow rate flowing through the water inlet 18 is gradually increased to be above a predetermined pressure, the close contact portion 46, which is the front end of the flow control assembly 40, enters the inlet of the primary flow path 28. By completely shielding the flow rate existing in the chamber 16 flows to the outlet 30 through the orifice 24 only through the secondary flow path 26 to the flow rate of the flow rate flowing through the inlet 18 Regardless of the pressure, the flow rate flowing out through the outlet 30 is kept constant.

3 is a sectional view of principal parts of a rectifying valve body according to another embodiment of the present invention.

The constant flow valve body 50 in the embodiment according to FIG. 3 differs from the embodiment of FIG. 1 described above in which the flow control assembly 40 is mounted on the primary flow path 28.

That is, by mounting the flow control assembly 40 in the passage of the primary flow path 28 separated from the secondary flow path 26 by the partition 52, regardless of the pressure of the flow rate flowing through the water inlet 18 The flow rate flowing out through the outlet 30 is to be kept constant and a description thereof will be omitted below.

4 and 5 are cross-sectional views of main parts of the rectifying valve body according to another embodiment of the present invention.

The static flow valve body 60 in the embodiment according to FIG. 4 differs from the embodiment of FIG. 3 described above in which two flow control assemblies are mounted in the primary flow path 28.

That is, the valve body 60 has a hollow portion that vertically penetrates, and opens and closes the inlet of the outer body 61 located in the primary flow path 28 and the primary flow path connected to the chamber 16. The primary flow path is formed of a plate-shaped outer contact portion 62 having a hollow portion, and a cylindrical outer stem portion 63 through which the outer body 61 and the outer contact portion 62 penetrate each other. An external flow control assembly mounted in a passage of 28, one end of which is seated around an inlet of the primary flow path 28 connected to the chamber so that the assembly is elastic, and the other end of the outer body 61 An outer spring 64 is provided that rests on the lower outer surface of the.

In addition, the valve body 60 has an inner body 65 which is located in the hollow of the outer body 61 and an inner opening and closing of the through hole of the outer body 61 connected to the outer stem portion 63. Including a close contact portion 66, the inner body portion and the inner body portion that the inner contact portion 66 is connected to each other, and includes an inner flow control assembly mounted to the hollow portion of the outer body (61) In order to provide elasticity to the inner flow control assembly, one end is seated on the inner bottom surface of the outer body 61, and the other end is provided with an inner spring 68 seated on the bottom outer surface of the inner body 65.

In another embodiment according to FIG. 5, the constant flow valve body 70 uses a rubber elastic body as an elastic means applied to the flow control assembly.

That is, the body part 71 receiving the flow rate flowing from the water inlet, the close part 72 for opening and closing the inlet of the primary flow path 28 connected to the chamber, and the body part 71 and the close part ( 72, which is formed of a stem portion 73 connecting each other to each other, and is mounted on the close contact portion 72, which is the tip of the assembly, to impart elasticity to the flow control assembly and the disassembled body, which are mounted in the passage of the primary flow path. It is to provide a rubber elastic body 74 located around the inlet of the primary flow path connected to the.

As shown in the enlarged view of the main part of FIG. 5, the flow rate control of the rectified amount valve body includes a rubber elastic body 74 mounted at the front end of the flow rate control assembly and a stepped portion 75 formed around the inlet of the primary flow path. Will be controlled by pressing.

According to the above-described configuration and method of the present invention, the flow control assembly, which has a simple configuration and is easily adjusted by elastic force such as a spring, is mounted in addition to the chamber of the constant flow valve body or mounted in the primary flow path. Variation Especially in the low pressure range from 0.5 to 2kg / ㎠, fluid flows through the primary and secondary flow paths at the same time, and at some point the primary flow path is closed so that the flow rate can be controlled only by the rubber elastomer in the secondary flow path. A small amount of refined oil can be supplied constantly, and the functionality is remarkably improved to increase the commerciality.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional view of principal parts of a rectifying valve body according to an embodiment of the present invention.

2 is a schematic perspective view of a flow control assembly of the rectifier valve body according to FIG. 1;

3 is a sectional view of principal parts of a rectifying valve body according to another embodiment of the present invention;

4 and 5 are cross-sectional views of main parts of a rectifying valve body according to still another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10,50,60,70: rectifier valve body, 12: spring,

14: cover, 16: chamber,

18: water inlet, 20: elastic body for flow control,

22: housing, 24: orifice,

26: secondary euro, 28: primary euro,

30: outlet, 40: flow control assembly,

42: disk portion, 44: stem portion,

46: close contact portion, 52: partition wall

Claims (7)

A housing having a chamber formed at an upper portion thereof, an upper opening thereof, an inlet connected to a chamber of the housing, an orifice formed at a central portion thereof, and a flow control elastic body mounted at a lower portion of the chamber, and formed at a lower portion of the housing, A constant flow valve comprising a water outlet communicating with a secondary flow passage formed to be connected through the orifice, a primary flow passage formed on the inner side of the housing so as to communicate the chamber and the water outlet, and a cover that opens and closes an upper portion of the housing. In the sieve, A disk part receiving the flow rate flowing from the water inlet, a conical contact part for opening and closing the inlet of the primary flow path connected with the chamber, and a stem part connecting the disk part and the contact part with each other and having an upper portion of the elastic body. A flow control assembly mounted to the; And One end is seated around the inlet of the primary flow path connected to the chamber, the other end comprises a spring seated on the inner surface of the disk portion of the flow control assembly. According to claim 1, wherein the orifice formed on the flow control elastic body is provided with a flow control ring body formed in the center of the through-hole of a constant size, the periphery of the flow control ring to prevent the separation of the flow control ring body A constant flow valve body, characterized in that the stopper is formed for. A housing having a chamber formed at an upper portion thereof, an upper opening thereof, an inlet connected to a chamber of the housing, an orifice formed at a central portion thereof, and a flow control elastic body mounted at a lower portion of the chamber, and formed at a lower portion of the housing, An outlet port communicating with a secondary flow path formed to be connected through the orifice, a primary flow path separated by the secondary flow path and a partition wall, and communicating with the chamber and the outlet port, and a cover for opening and closing an upper portion of the housing; In the constant flow valve body, A disk portion receiving the flow rate flowing from the water inlet, a conical contact portion for opening and closing the inlet of the primary flow path connected to the chamber, and a stem portion connecting the disk portion and the contact portion to each other, and the primary flow path A flow control assembly mounted to a passage of the; And A rectifier valve body characterized in that the one end is seated around the inlet of the primary flow path connected to the chamber, the other end includes a spring seated on the inner side of the disk portion. According to claim 3, wherein the orifice formed in the flow control elastic body is provided with a flow control ring body formed in the center of the through-hole of a constant size, the periphery of the flow control ring to prevent the separation of the flow control ring body A constant flow valve body, characterized in that the stopper is formed for. A housing having a chamber formed at an upper portion thereof, an upper opening thereof, an inlet connected to a chamber of the housing, an orifice formed at a central portion thereof, and a flow control elastic body mounted at a lower portion of the chamber, and formed at a lower portion of the housing, An outlet port communicating with a secondary flow path formed to be connected through the orifice, a primary flow path separated by the secondary flow path and a partition wall, and communicating with the chamber and the outlet port, and a cover for opening and closing an upper portion of the housing; In the constant flow valve body, An outer body having a vertically penetrating hollow portion and positioned in the primary flow passage, a flat outer contact portion having a hollow portion vertically opening and closing the inlet of the primary flow passage connected to the chamber, the outer body and the An external flow control assembly comprising a cylindrical outer stem portion connecting the outer close contact portions to each other and mounted in a passage of the primary flow path; An outer spring having one end seated around an inlet of the primary flow path connected to the chamber, and the other end seated at a lower outer surface of the outer body; An inner body located in the hollow of the outer body, an inner close part for opening and closing a through hole of the outer body connected to the outer stem part, and an inner stem part connecting the inner body and the inner close part to each other; An inner flow control assembly mounted to the hollow part of the outer body; And One end is seated on the inner lower side of the outer body, the other end is a constant flow valve body, characterized in that it comprises an inner spring seated on the lower outer surface of the inner body. A housing having a chamber formed at an upper portion thereof, an upper opening thereof, an inlet connected to a chamber of the housing, an orifice formed at a central portion thereof, and a flow control elastic body mounted at a lower portion of the chamber, and formed at a lower portion of the housing, An outlet port communicating with a secondary flow path formed to be connected through the orifice, a primary flow path separated by the secondary flow path and a partition wall, and communicating with the chamber and the outlet port, and a cover for opening and closing an upper portion of the housing; In the constant flow valve body, A body part receiving a flow rate flowing from the water inlet, a close part for opening and closing an inlet of the primary flow path connected to the chamber, and a stem part connecting the body part and the close part to each other, and a passage of the primary flow path A flow control assembly mounted to the; And And a rubber elastic body mounted around the inlet of the primary flow path connected to the chamber and attached to the close contact portion of the flow control assembly. 7. The flow rate valve of claim 6, wherein the flow rate control of the flow rate valve body is controlled by a rubber elastic body mounted on the front end of the flow rate control assembly and a depression of a step formed around the inlet of the primary flow path. sieve.