KR960005280B1 - Water supply valve - Google Patents

Abstract

The water supply valve prevents choking of its pressure control hole. The valve is composed of a housing(21) which has an inlet(22) and an outlet(23), a bellows plate(24), a bellows(27), a rod(28) and a rod cushion(29) which is fixed at the top of the rod. The bellows(27) and a bellows plate(24) are modified in order to improve water supply performance. A circular channel(31) is formed at the bottom of the bellows to connect with the pressure control hole(25).

Description

Feed valve

1 is a cross-sectional view schematically showing a conventional water supply valve.

2 is a cross-sectional view schematically showing the water supply valve of the present invention.

3 is a cross-sectional view schematically showing the bellows used in the water supply valve of the present invention.

4 is a cross-sectional view schematically showing the bellows plate used in the water supply valve of the present invention.

5 is a plan view schematically showing a state in which the bellows and the bellows plate shown in FIGS. 3 and 4 are combined.

* Explanation of symbols for main parts of the drawings

10,20: water supply valve 11,21: housing

12,22: Inlet 13,23: Outlet

14,24: bellows plate 15,25: pressure adjusting hole

16,26: outlet 17,27: bellows

18,28: Road 19,29: Road Cushion

31: Euro 32: deformation portion

33: inner wall 34: water passage

35: turning

[Field of Invention]

The present invention relates to a water supply valve.

In particular the invention relates to bellows and bellows plates of feed valves.

[Background of invention]

As shown in FIG. 1, the conventional water supply valve 10 has a housing 11 having an inlet 12 and an outlet 13, a bellows plate 14 having a pressure adjusting hole 15 and an outlet 16. ), Bellows (17), rod (18) and rod cushion (19).

Although the water pressurized through the water inlet 12 formed in the housing 11 presses the bellows plate 14 to which the bellows 17 is fixed, the pressure adjusting hole 15 formed in the bellows plate 14 is provided. Since the same pressure is applied to the pressure chamber under the bellows plate 14 as a result, the water pressure to the outlet 13 is not discharged because the pressure of the water inlet 12 is the same as the pressure of the pressure chamber. Of course, although the outlet 16 is formed at the same time in addition to the pressure adjusting hole 15 in the bellows plate 14, the outlet 16 has a rod cushion 19 fixed to the upper end of the rod 18. Since it is closed, the discharge of water through this outlet 16 does not occur, and therefore the water pressure in the pressure chamber is equal to the water pressure applied to the inlet 12. Therefore, even if the water supply source, in particular the valve of the faucet, which is fluidly connected to the water supply valve 10, the discharge of the urine water to the outlet 13 of the water supply valve 10 does not occur.

In order to discharge the water through the outlet 13 of the water supply valve 10, the rod 18 is retracted by supplying a current to a solenoid (not shown) of the water supply valve 10 to which the rod 18 is connected. When the rod 18 is retracted, the rod cushion 19 fixed to the upper end of the rod 18 opens the outlet port 16 formed in the bellows plate 14 so that the water pressure in the pressure chamber is opened to atmospheric pressure. The pressure is reduced to atmospheric pressure in the same manner as the outlet 13. Since the pressure in the pressure chamber is lower than the pressure in the inlet 12, the deformation portion of the bellows 17 is deformed by the pressure difference so that the bellows plate 14 and the bellows 17 are simultaneously lowered toward the bottom of the pressure chamber. Therefore, the inner wall 33 of the housing 11 and the bellows 17 are spaced apart to form an outlet 16 through which a large amount of water can be discharged so that normal water supply occurs.

However, in the case of the conventional water supply valve 10 as described above, since the pressure adjusting hole 15 having a very small diameter is formed in the bellows plate 14 made of hard plastic, the scale may be caused by the inflow of foreign matter or long-term use. It is very likely to be closed due to the formation of. When the pressure adjusting hole 15 is closed, since the water pressure of the water through the water inlet 12 is not transmitted to the pressure chamber, the water pressure of the water inlet 12 is always higher than the water pressure of the pressure chamber, and thus water is always discharged. This can cause malfunction.

In addition, since the deformed portion of the bellows 17 is semi-circular, the deformed portion is deformed so that the separation between the inner wall 33 of the housing 11 and the bellows 17 is not smooth, and thus the inner wall 33 of the housing 11 and Since the outlet 16 formed by the separation of the bellows 17 is not sufficiently opened, there is a disadvantage in that the flow rate of water supplied through the water supply valve 10 is small.

Therefore, the present inventors have completed the present invention by solving the above problems by improving the pressure adjusting hole formed in the bellows plate of the feed valve and the deformation portion of the bellows.

[Purpose of invention]

It is an object of the present invention to provide a water supply valve which improves the clogging problem of the pressure regulating holes.

It is another object of the present invention to provide a water supply valve that improves the deformed portion of the bellows to enable more smooth water supply.

[Summary of invention]

The present invention relates to a bellows and bellows plate of a feed valve.

The inlet valve of the present invention comprises a housing formed with an inlet and an outlet, a bellows plate formed with a water inlet and a protrusion and an outlet, a bellows having a deformation portion and a pressure control hole and a flow path, a rod and a rod cushion fixed to an upper end of the rod. It is done.

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

[Description of Specific Example of the Invention]

Referring to FIG. 2, the water supply valve of the present invention is variably fixed in the housing 21 and the housing 21 in which the inlet 22 and the outlet 23 are formed, and the water inlet 34 and the protrusion ( 35 and bellows plate 24 with outlet 26 formed on the bellows plate 24 in the housing 21 to deform the flow of fluid in accordance with pressure so that the deformable portion 32 and the pressure regulation hole The rod 28 and the upper end of the rod 28 for contacting the bellows 27 and the outlet 26 of the bellows plate 24 formed with the flow path 31 and the flow path 31 to adjust the pressure. In the conventional water supply valve which is composed of a rod cushion 29 interlocked by a solenoid to control the flow of fluid, the outlet port is centered on the bottom surface of the bellows 27 so as to communicate with the pressure adjusting hole 25. The circular flow path 31 made into a further shape It is characterized by.

The present invention further improves the bellows and bellows plate in the conventional water supply valve shown in FIG. Therefore, the basic operation principle of the water supply valve of the present invention is the same as the conventional water supply valve. Therefore, the basic operation of the water supply valve of the present invention is to discharge the water through the water outlet 23 of the water supply valve 20 to the solenoid (not shown) of the water supply valve 20 to which the rod 28 is connected. The rod 28 is retracted by supplying. When the rod 28 is retracted, the rod cushion 29 fixed to the upper end of the rod 28 opens the outlet port 26 formed in the bellows plate 24 so that the water pressure in the pressure chamber is opened to atmospheric pressure. The pressure is reduced to atmospheric pressure in the same manner as the outlet 23. Since the pressure in the pressure chamber is lower than the pressure in the inlet port 22, the deformation portion of the bellows 27 is deformed by the pressure difference so that the bellows plate 24 and the bellows 27 are simultaneously lowered toward the bottom of the pressure chamber. Therefore, the inner wall 33 and the bellows 27 of the housing 21 are spaced apart to form an outlet 26 for discharging a large amount of water, thereby causing a normal water supply.

However, in the case of the water supply valve of the present invention, unlike the conventional water supply valve formed in the bellows plate 24, the pressure adjusting hole 25 is formed in the bellows 27, and the deformation of the pressure adjusting hole 25 is prevented. As described below, it provides a very important difference in feedwater valves.

A cross-sectional view of the bellows 27 and the bellows plate 24 of the feed valve of the present invention and a plan view of the state in which they are coupled are shown in FIGS. 3, 4, and 5, respectively.

In the conventional water supply valve, the pressure adjusting hole 15 is formed on the bellows plate 24 made of a rigid plastic, and is highly likely to be closed due to inflow of foreign matter or formation of scale due to prolonged use. When the pressure control hole 15 is closed, since the water pressure of the water through the water inlet 12 is not transmitted to the pressure chamber, the water pressure of the water inlet 12 is always higher than the water pressure of the pressure chamber, so that the water always The discharge may be the cause. However, in the water supply valve of the present invention, the above-mentioned problem is solved by forming the pressure adjusting hole 25 in the bellows 27 made of a flexible rubber and connecting the pressure adjusting hole 25 to the water outlet 34 through the flow path 31. That is, by forming the pressure adjusting hole 25 in the bellows 27, foreign matter or the like flows into the pressure adjusting hole 25. However, the repeated movement of the bellows 27 caused by the water pressure difference makes it easier to exit and thus significantly reduces the possibility of a complete closure.

In addition, the bellows 27 used in the water supply valve of the present invention is preferably formed with a deformable portion 32 having a tamper angle of 20 to 30 degrees compared with the deformed portion 32 of the conventional bellows 27 having a semicircular shape. have.

When the taper angle is less than 20 degrees, the tapered portion is inclined so much that it is less affected by hydraulic pressure, and the movable portion is not deformed well. The outer diameter of the tube is so large that no effective component is mounted.

As described above, the deformable portion 32 of the bellows 27 pressurizes the bellows 27 and the bellows plate 24 by the hydraulic pressure difference when a hydraulic pressure difference occurs between the hydraulic pressures in the pressure chamber. It serves to descend to the bottom of the seal, in which case the deformation portion 32 should be deformed under the application of hydraulic pressure.

However, since the deformable portion 32 of the conventional bellows 27 is formed in a semi-circular shape, the deformable width of the portion to be actually deformed is very narrow and the area subjected to hydraulic pressure is very narrow. The range of retreat narrowed, making it difficult to supply large amounts of water.

The bellows 27 of the water supply valve of the present invention is tapered to the portion subjected to the actual hydraulic pressure, and further longer than the portion to which the actual deformed portion in the deformable portion 32 is fixed so that The retraction range of the bellows 27 and the bellows plate 24 due to the deformation of the deformable portion 32 is improved.

In FIG. 3, not only the deformation part 32 of the bellows 27 of the water supply valve of this invention is shown in detail, but the hydraulic pressure applied and the movement of an actual movable part are shown by the arrow.

Although the present invention has been described in detail only with respect to the embodiments described above, it will be apparent to those skilled in the art that the present invention may be changed or modified within the spirit and scope of the present invention, and such changes or modifications are attached to the appended claims. Should be limited by

Claims (3)

A housing 21 having an inlet 22 and an outlet 23 is variably fixed in the housing 21, and has a bellows plate 24 having a water inlet 34, a protrusion 35, and an outlet 26. ), A bellows having a deformable portion 32, a pressure adjusting hole 25 and a flow path 31 mounted on the bellows plate 24 in the housing 21 to control the flow of fluid according to pressure. 27) and the rod 28 and the rod cushion 29 fixed to the upper end of the rod 28 for contact with the outlet 26 of the bellows plate 24 to control the pressure by the solenoid In a conventional water supply valve which interlocks and controls a flow of fluid, a circular flow passage 31 is formed on the bottom surface of the bellows 27 so as to communicate with the pressure adjusting hole 25. Water supply valve characterized in that. The water supply valve according to claim 1, wherein the deformable portion (32) is a tapered portion. The water supply valve according to claim 2, wherein the taper angle of the deformable portion is preferably 20 to 30 degrees.