KR101412890B1 - Reducing valve for water purifier - Google Patents

Abstract

An object of the present invention is to provide a pressure reducing valve for a water purifier that is constructed in a cylindrical structure that can withstand high pressure of raw water without seams . In order to achieve the above object, the present invention provides a method of manufacturing an internal combustion engine, comprising: a cylindrical body forming an external appearance; a shaft having a cylindrical inlet formed in the upper opening of the body and introducing raw water into the interior of the body; A spring enclosing the flow block and the inlet in the body and having elasticity that is compressed by a pressure greater than a preset pressure of the raw water; And the packing is mounted so as to face the inflow portion, and the inflow pipe is blocked or opened by the packing as the flow block is moved up and down by the water pressure of the raw water flowing through the inflow portion .

Water Purifier, Pressure Reduction Valve

Description

REDUCING VALVE FOR WATER PURIFIER

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a pressure reducing valve for reducing water pressure, and more particularly, to a pressure reducing valve for reducing water pressure of raw water applied to a water purifier.

A water purifier installed and used in a home or office has a basic function of filtering raw water such as water or natural water and providing it as hot water or cold water. In the water purifier, a number of filters are provided to remove harmful components including the suspended substances contained in the raw water and to sterilize bacteria that cause water-borne diseases.

That is, the water purifier is provided with a sediment filter for generating raw water in succession and a precarbon filter for performing a filtering function by adsorption by micropores of the carbon (activated carbon) block, A UV hollow-fiber filter, a membrane filter, a post-carbon filter, and a UV-filter by a UV hollow fiber filter material that removes contaminants through a number of micropores distributed on the surface of the membrane. Etc. are selectively applied.

Such a water purifier is generally divided into a low water purifier having an internal water tank and a direct water purifier having no water tank.

The water purifier includes a sediment filter (sediment filter) that operates using the hydraulic pressure of the raw water and removes the particles residing in the raw water, a carbon filter and a membrane filter for removing chlorine components and odors. On the other hand, the low-water purifier has a filter similar to that of the direct water purifier, and further has a cold water and hot water function, and since the filtration speed of the water through the filter is slow, Has been added.

1 is a block diagram of a conventional general water purifier.

1, a conventional water purifier includes a sediment filter 120 for filtering small particles in raw water, a pre-carbon filter 130 for removing chlorine components and odors in raw water sent from the sediment filter 130 A membrane filter 140 for removing ionic heavy metals remaining in the raw water having passed through the free carbon filter, a wastewater regulator 160 for regulating wastewater separation rate of raw water passing through the membrane filter and discharging wastewater, A post carbon filter 150 for removing chlorine components and odors contained in the raw water that has passed through the membrane filter, and an essence that passes through the post carbon filter, and discharges the purified water according to a user's request. And a purified water tank 170 having a device (FLC: Float Level Controller) 171.

On the other hand, a pressure reducing valve 180 is connected to the automatic leveling device 171. The pressure reducing valve 180 serves to prevent the inflow of raw water over a predetermined pressure into the above-mentioned filters, particularly the membrane filter 140, and functions to reduce the hydraulic pressure of the raw water flowing from the raw water valve .

2 is a configuration diagram of a conventional pressure reducing valve.

2, the case of the conventional pressure reducing valve 180 is divided into an upper case 181 and a lower case 182, and a lower case 182 is connected to the first spring 183 And the diaphragm 186 connected to the second spring 185 is inserted into the upper case. The lower case 182 has an inlet 187 through which the raw water flows and an outlet 188 through which the raw water is depressurized. The lower case is connected to the upper case through a screw 198.

That is, in the conventional pressure reducing valve, the raw water passes through the gap A inside the pressure reducing valve along the arrow shown in FIG. 2. When the pressure of the raw water is changed, the elasticity of the second spring 185 causes the gap A is automatically adjusted so that the decompression function for the raw water is performed. For example, since the second spring of the upper case normally pushes the first spring of the lower case completely, a clearance of the gap A is opened, and when a high water pressure is generated, the second spring is pushed up, As the first spring is lifted up, the clearance of the gap A is reduced, and the water pressure of the raw water directed to the filters can be reduced.

However, the conventional pressure reducing valve as described above has the following problems.

First, there is a risk of leakage as an assembly structure using a screw 198. That is , as described above , the lower case 182 and the upper case 181 forming the outer appearance of the pressure reducing valve are assembled through the screws 198. Since the raw water flows into the lower case 182 and the lower case 181, There is a problem that leakage may occur on the connection portion of the upper case.

Second, the diaphragm 186 is placed on the path where the raw water flows in the pressure reducing valve, and the diaphragm is shaken to generate noise according to the flow of the urine.

Thirdly, since the raw water supply line installed in each area supplies the raw water with the appropriate water pressure, there are many areas where the reducing valve is not required. However, the conventional reducing valve 180 is provided with the automatic water level controller (FLC) 171 ) And is applied to all water purifiers. That is, the pressure reducing valve is unnecessarily mounted on the water purifier, which increases the manufacturing cost and complicates the manufacturing process.

In order to solve the above problems, an object of the present invention is to provide a pressure reducing valve for a water purifier, which has a seamless structure and a cylindrical structure capable of withstanding high pressure of raw water.

According to an aspect of the present invention, there is provided an internal combustion engine comprising: a cylindrical body defining an external appearance; a shaft coupled to an upper opening of the body and having a cylindrical inflow portion into which raw water flows, A spring enclosing a flow block and an inlet in the body and having elasticity that is compressed by a pressure greater than a preset pressure of the raw water; And the inflow pipe is blocked or opened by the packing as the flow block is moved up and down by the water pressure of the raw water flowing through the inflow portion .

The present invention has an excellent effect that leakage is not generated because it is composed of a cylindrical structure having no seams and capable of withstanding the high pressure of raw water.

Further, the present invention has an excellent effect that noise is not generated because there is no diaphragm.

Further, since the present invention can be installed outside the water purifier when reduced pressure for raw water is required, there is an excellent effect that the use of the reduced pressure valve can be suitably used according to the surrounding conditions.

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

FIG. 3 is an exploded view of the reduced pressure valve according to the present invention, and FIG. 4 is a coupled sectional view of the reduced pressure valve shown in FIG.

The pressure reducing valve according to the present invention is externally configured so that it can be selectively used only in a water purifier installed in a high pressure region, and can be connected to a water inlet pipe connected to the inside of the water purifier. However, the present invention is not limited thereto, and thus it can be used in a water purifier installed in a high pressure area. That is, when a water purifier manufactured in a state in which a pressure reducing valve is not mounted is installed in a high pressure area, the user may connect the pressure reducing valve according to the present invention to the raw water inflow pipe located outside the water purifier, They can also be used in connection with tubes.

3 and 4, the pressure reducing valve according to the present invention includes a cylindrical body 5 forming an outer tube, a cylindrical inlet 7a connected to the upper opening 5a of the body and to which raw water flows, A shaft 7 formed inside the body, a cylindrical flow block 11 surrounding the outer periphery of the inlet of the shaft in the body, a flow block 11 enclosing the flow block and the inlet in the body, A spring 9 having elasticity capable of being compressed or returning the flow block to its original state and a packing (rubber (not shown) which is mounted inside the flow block and blocks or opens the inlet portion by a flow block which reciprocates along the outer circumference of the inlet portion Rubber (10).

The opening 5a formed at the upper end of the body is sealed by the shaft 7 and the outlet 5b formed at the lower end of the body is connected to the second fitting 22 (Not shown) through an outlet pipe (not shown). Further, the inner peripheral surface of the body is provided with a locking portion 5c projecting from the inner peripheral surface by a predetermined length, and a flow block 11 is placed at the upper end of the locking portion.

The shaft 7 seals the opening 5a formed at the upper end of the body and introduces the raw water introduced from the outside into the inside of the body. The shaft 7 has a fastening portion 7b for sealing the opening 5a formed at the upper end of the body, A receiving part 7c formed on the upper surface of the fastening part and connected to the first fitting 21 connected to the inlet pipe (not shown), and a lower end surface of the fastening part, And an inflow portion 7a for transferring the water introduced through the fastening portion into the inside of the body. And the first O-ring 7d is fastened to the outer peripheral surface of the end of the inflow portion extending into the body.

The flow block 11 includes a cylindrical first block 11a surrounding the outer surface of the inlet of the shaft and a second block 11b having an outer radius greater than the outer radius of the first block and smaller than the inner radius of the body And a second O-ring 11c which is in contact with the inner circumferential surface of the body is fastened to the outer circumferential surface of the second block. The second block is placed on the upper end of the locking portion 5c formed on the inner peripheral surface of the body. On the other hand, since the lower surface of the second block is adjacent to the raw water introduced through the inside of the second block, the pressure is received from the raw water. That is, the raw water introduced into the second block through the inlet pipe (not shown), the first fitting 21, the inlet portion 7c, the fastening portion 7b, and the inlet portion 7a, Since the water pressure portion A is formed on the lower surface of the second block and is surrounded by the second block and the body through the second block, A part of the raw water before going out of the second block becomes high in the pressure receiving portion, so that the water pressure acts on the bottom surface of the second block in the upward direction. Also, since the second O-ring 11c is fastened to the outer peripheral surface of the second block, the raw water flowing into the lower surface of the second block can not leak through the outer peripheral surface of the second block. The second block placed on the upper end of the latching portion 5c is raised by the water pressure or is held by the latching portion because the latching portion 5c is formed on the pressure receiving portion A do.

The spring 9 is placed on the upper surface of the second block 11b, that is, the first block and the step portion of the second block, inside the body. That is, the spring is compressed in accordance with the rise of the second block in a state of being placed between the coupling portion 7b of the shaft and the upper end surface of the second block 11b, and when the lifting force of the second block is lost, And performs the function of lowering the block.

The packing 10 is mounted inside the flow block and moves according to the vertical movement of the flow block to shut off or open the inlet 7a of the shaft.

Features of the pressure reducing valve according to the present invention including the above-described configuration are as follows.

First, the pressure reducing valve according to the present invention has a closed structure. That is, in the pressure reducing valve, the opening 5a of the body is sealed by the O-ring inserted into the first fitting 21 connected to the shaft 7 and the shaft 7, and the connecting portion of the body and the shaft is also sealed by an O- The shaft and the flow block are also sealed by the first O-ring 7d and the outlet is sealed by an O-ring (not shown) inserted into the fitting connected to the outlet 5b.

Second, the pressure reducing valve according to the present invention has a cylindrical structure in which the body can withstand the high pressure of raw water.

Thirdly, the lower surface of the flow block 11 of the pressure reducing valve according to the present invention is configured to receive the water pressure, so that an immediate change can be detected according to the water pressure of the raw water flowing into the pressure reducing valve.

Fourth, since the pressure reducing valve according to the present invention can be connected to various tubing (hoses) through the fittings 21 and 22, the pressure reducing valve can be installed not only on the outside of the water purifier but also inside the water purifier.

Hereinafter, the operation of the pressure reducing valve according to the present invention having the above-described configuration and features will be described.

First, when the water pressure of the raw water received into the pressure reducing valve is lower than the set pressure of the pressure reducing valve, the raw water is directly discharged through the outlet port 5b without movement of the flow block 11 due to the tension of the spring 9 . That is, when the pressure applied to the lower surface of the second block 11b is lower than the set pressure, the spring 9 has an elasticity that can be deformed by the pressure equal to or higher than the set pressure of the pressure reducing valve, Since the pressure is smaller than the elastic force of the spring 9, the second block does not flow smoothly over the engagement portion 5c. Accordingly, since the packing 10 is also placed in the same position in the flow block, the amount of the raw water flowing through the inlet 7a is kept constant and the amount of the raw water exiting through the outlet 5b is also kept constant .

However, when the water pressure of the raw water received into the pressure reducing valve becomes equal to or greater than the set pressure of the pressure reducing valve, the flow block 11 pressurizes and pushes the spring 9, (10) blocks the inlet. That is, when the water pressure of the raw water is equal to or higher than the set pressure, the water pressure applied to the lower surface of the second block 11b in the pressure receiving portion A also becomes higher than the set pressure. As a result, The second block pushes the spring up. At this time, the first block 11a connected to the second block also rises along the outer peripheral surface of the inlet portion 7a, so that the inlet portion abuts at a distance close to the packing 10, So that it is blocked.

On the other hand, when the inflow part is blocked by the packing, the amount of the raw water flowing into the flow block through the inflow part is reduced, so that the water pressure of the raw water is lower than the set pressure again. Therefore, the water pressure applied to the lower surface of the second block in the water pressure portion A also drops below the set pressure, so that the second block descends in the direction of the engagement portion 5c by the elastic force of the spring. At this time, the first block also descends along the outer circumferential surface of the inflow portion, so that the inflow portion 7a is separated from the packing 10, so that the inflow portion is not blocked by the packing.

That is, in the pressure reducing valve according to the present invention, when the water pressure of the raw water is lower than the predetermined pressure, the raw water is passed without performing any other operation, and when the water pressure of the raw water becomes equal to or higher than the set pressure, When the water pressure of the raw water drops below the set pressure, the process of passing the raw water again in a normal state is repeated, so that the raw water having a water pressure higher than the set pressure is decompressed It is possible to continuously pass through the state.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

2 is a configuration diagram of a conventional pressure reducing valve.

3 is an exploded view of a pressure reducing valve according to the present invention.

4 is an engaging sectional view of the pressure reducing valve shown in Fig.

DESCRIPTION OF THE RELATED ART [0002]

5: Body 7: Shaft

9: Spring 10: Packing

11: Flow block

Claims (9)

A cylindrical body forming an outer appearance; A shaft coupled to the upper opening of the body and having a cylindrical inflow portion into which the raw water flows, the hollow inflow portion being formed inside the body; A cylindrical flow block enclosing the outer circumferential surface of the inlet of the shaft within the body; A spring which is disposed in the body so as to surround the flow block and the inflow portion and has elasticity that is compressed by a pressure greater than a preset pressure of the raw water; And And a packing mounted in the flow block so as to face the inflow portion, On the inner peripheral surface of the body, And the flow block is placed on the upper end of the engaging portion, And the inflow pipe is blocked or opened by the packing as the flow block is moved up and down by the water pressure of the raw water flowing through the inflow portion. delete The method according to claim 1, The shaft includes: A fastening part for sealing the opening formed at the upper end of the body; A receiving portion formed on an upper surface of the fastening portion and connected to the fitting; And And an inlet portion protruding in a cylindrical shape on a lower end surface of the coupling portion and transferring the water introduced through the inlet portion and the coupling portion into the inside of the body. The method of claim 3, And a first O-ring is fastened to an outer peripheral surface of an end of the inflow portion extending into the body. The method of claim 3, The flow block includes: A cylindrical first block surrounding the exterior of the inlet of the shaft; And And a second block having an outer radius greater than an outer radius of the first block and smaller than an inner radius of the body. 6. The method of claim 5, And a second O-ring in contact with an inner circumferential surface of the body is fastened to an outer circumferential surface of the second block. 6. The method of claim 5, Wherein the second block comprises: Wherein the pressure reducing valve is disposed on an upper end of the engaging portion protruding from the inner peripheral surface of the body by a predetermined length. 6. The method of claim 5, On the lower surface of the second block, Wherein a space enclosed by the second block and the body is formed, and water pressure is applied to the lower surface of the second block placed in the space by raw water flowing through the inlet. 9. The method of claim 8, Wherein the second block moves up and down by a water pressure acting in the space and an elastic force of the spring and the packing blocks or opens the inlet according to the up and down movement of the second block.

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