KR200256583Y1 - Valve device having the function of water levelling - Google Patents

Abstract

The present invention relates to a valve device for constantly controlling the water level of the water tank. The apparatus of the present invention includes a pipe 10 having an inlet through which water is introduced and an outlet connected with the water tank and through which water is discharged; On one side of the pipe, the valve body 20 is installed so that water can be supplied to the outlet side through the space (A) therein; A magnetic plunger 26 supported to be movable upward and downward from an upper portion of the inside of the valve body; A blocking member installed in the lower portion of the plunger in the valve body and blocking the water supplied from the inlet of the pipe to the outlet side when the plunger is located below; An upper housing (30) installed at an upper portion of the valve body and having a permanent magnet (40) elastically supported downwardly and moving the plunger in a vertical direction by a magnetic force; A pressure sensing diaphragm (42) installed on the bottom of the permanent magnet in the upper housing (30) and capable of moving like a permanent magnet; A pressure transfer part 50 communicating with the outside of the valve body so as to apply pressure to the bottom of the pressure sensing diaphragm 42; And one side end is provided in the water tank, the other end is connected to the pressure transmitting portion, and includes a connection hose for transmitting the pressure inside the pressure sensing diaphragm.

Description

Valve device having the function of water levelling}

The present invention relates to a valve assembly, and more particularly, to a water level adjustable valve assembly configured to be able to adjust the level of the water tank without using a separate external device.

Valves that must maintain a constant level inside the tank, such as vending machines, toilets, water purifiers, etc., are configured to supply water in conjunction with water tanks. Looking at the general device for this purpose, it is common to use a solenoid valve as a valve, it is also installed in the water tank sensor for detecting the water level.

The sensor installed inside the water tank senses the water level, and when the water level drops below a certain level, a predetermined signal is transmitted to an external control unit (microprocessor). The microprocessor opens the solenoid valve to generate an electrical signal for replenishing water, thereby maintaining the water in the water tank at a predetermined level or more.

However, according to the conventional valve device configured as described above, a complicated structure such as a sensor, a microprocessor, and a solenoid valve for detecting the water level is required, and a structurally complicated wire is required to electrically connect them. Disadvantages are raised. In addition, the solenoid valve itself has a complicated structure, and the unit price is relatively expensive. In addition, since the valve having a conventional water level adjusting function operates substantially on the basis of electricity, it is also true that there are various disadvantages due to an error of an electrical control signal or a malfunction upon application of a current.

An object of the present invention is to provide a valve assembly having a simpler structure, the water tank can be adjusted.

1 is a cross-sectional view showing the configuration of a valve according to the present invention.

2 is an explanatory view showing the overall configuration of a valve device according to the present invention.

10 ... pipe 20 ... valve body

21 ........ Communication 22 ..... Diapram

24 ..... holder 22a, 24a, 24b ..... through

26 ..... magnetic plunger 30 ..... top housing

40 ..... permanent magnet 42 ..... pressure sensitive diaphragm

50 ..... Pressure cutting part A ..... Space

H ..... Connection hose T ..... Fire tank

Water level control valve device according to the present invention for achieving the above object, and a pipe having an inlet for the water is introduced, the outlet is connected to the water tank and the water is discharged; A valve body installed at one side of the pipe so that water can be supplied to the outlet side through a ball therein; A magnetic plunger supported to be movable upward and downward from an upper portion of the valve body; A blocking member installed in the lower portion of the plunger in the valve body and blocking the water supplied from the inlet of the pipe to the outlet side when the plunger is located below; An upper housing installed at an upper portion of the valve body, the upper housing being elastically supported downwardly and having a permanent magnet moving the plunger upward and downward by magnetic force; A pressure sensing diaphragm installed on the bottom of the permanent magnet in the upper housing to move like a permanent magnet; A pressure transfer part communicating from the valve body to the outside so as to apply pressure to a bottom of the pressure sensing diaphragm; And one end is installed in the water tank, the other end is characterized in that it comprises a connection hose which is connected to the pressure transfer portion, and transfers the pressure inside the pressure sensing diaphragm.

The permanent magnet is elastically supported downward by a spring installed on the upper surface of the upper housing.

And the upper end of the spring is in contact with the adjustment member, the adjustment member is screwed to the upper end of the upper housing is configured to be movable by rotation.

According to the present invention as described above, it is possible to control the supply of water so that the water level in the water tank is constantly maintained while having a relatively simple structure.

Next will be described in more detail with respect to the present invention based on the embodiment shown in the drawings.

Figure 1 shows the configuration of the valve used in the present invention. With reference to this will be described the configuration of the valve according to the present invention. As shown, a valve body 20 is installed at one side of the pipe 10 through which the fluid passes through the inlet and the outlet. The inlet and the outlet of the pipe 10 are designed to be blocked by the partition 12. In addition, a communication part 21 communicating with an outlet is formed on the upper left side of the partition 12, and the communication part 21 is blocked by the diaphragm 22 and the holder 24. have. In addition, when the diaphragm 22 and the holder 24 move upward, the communication portion 21 is opened, so that water at the inlet In may flow to the outlet Out.

In addition, a space A is formed in the valve body 20 to communicate with the pipe 10, and the diaphragm 22 and the holder 24 which are movable up and down inside the space A are formed. Is installed. The diaphragms 22 are made of rubber, the holders 24 are made of synthetic resin, and are joined together, and they move together.

The diaphragm 22 and the holder 24 are formed so that the through holes 22a and 24a communicate with each other in the circumferential direction, which is a position in communication with each other. A through hole 24b is formed in the central portion of the holder 24. The central portion of the holder 24 in which the through hole 24b is formed is extended downward through the diaphragm 24. The diameters of the through holes 22a and 24a formed in the circumferential direction have a smaller diameter than the through holes 24b formed in the central portion. The through hole 24b for the center portion communicates with the outlet side of the pipe 10, and the through hole 22a and the through hole 24a at the edge portion communicate with the inlet side of the pipe.

And the upper part of the through-hole 24b for the central part is installed so that the plunger 26 can move up and down, The said plunger 26 is guided so that it may move up and down by the upper end part of the valve body 20. As shown in FIG. The plunger 26 according to the present invention is formed of a magnetic body, and is configured to be able to move in the vertical direction by the magnetic force of the permanent magnet 40 as described later.

The upper housing 30 is installed at the upper end of the valve body 20 in which the plunger 26 is installed. Inside the upper housing 30, a permanent magnet 40 elastically supported downward by the spring 34 is provided at the lower end. In the illustrated embodiment, the permanent magnet 40 is connected by a connecting portion 36 installed between the spring 34 and the permanent magnet 40. And the spring 34, the upper end is supported by the adjustment member 32 coupled to the upper end of the upper housing (30).

The outer circumferential surface of the adjusting member 32 is screwed, and because the screw is coupled to the upper inner peripheral portion of the upper housing 30, the adjusting member 32 is the upper housing 30 by screwing It is bound to. Therefore, when the adjustment member 32 is rotated, because the state can move in the vertical direction, the spring 34 is more elastically compressed downward, or moved upward to reduce the elastic force of the spring 34 It becomes possible.

A pressure sensing diaphragm 42 is installed on the bottom of the permanent magnet 40 installed at the lower end of the upper housing 30. In addition, the pressure sensing diaphragm 42 may receive the pressure from the water tank, and is exposed to the pressure transmitting part 50 formed in the valve body 20, at the lower end of the upper housing 30. It is installed.

Next, the driving of the valve body of the present invention configured as described above will be described.

First, when water is introduced through the inlet (In), the water is introduced into the space (A) inside the valve body 20 through the through holes (22a and 24a). Then, the water flowing in is discharged downward through the through hole 24b in the central portion of the holder 24, and the water thus flowing out flows into the pipe 10 through the outlet.

At this time, the diameter of the through hole 24b in the center portion is larger than the diameters of the through holes 22a and 24a, so that the amount of water flowing out is larger than the amount of water flowing in. Therefore, the water pressure at the inlet side of the pipe 10 becomes larger than the water pressure in the space A inside the valve body 20. This hydraulic pressure is applied to the bottom surface of the diaphragm 22, which substantially pushes the holder 24 upward from the bottom. Here, the shanghai copper of the holder 24 causes the diaphragm 22 coupled to the bottom thereof to move upward and downward as well.

Therefore, when the holder 24 is raised upward, the communication portion 21 located at the upper portion of the partition 12 is opened, so that water introduced from the inlet In can be discharged to the outlet Out. do.

As described above, the water can be discharged from the inlet to the outlet in a state in which the plunger 26 moves upward. When the plunger 26 is lowered to block the through hole 24b formed in the central portion of the holder 24, even if water flows into the space A through the through holes 22a and 24a at the edges, The water pressure in the space A and the water pressure at the inlet of the pipe are equal, so that the holder 24 and the diaphragm 22 do not move upwards, so that water cannot be discharged to the outlet substantially.

Next, the overall apparatus according to the present invention will be described with reference to FIG. 2.

The outlet (Out) of the above-mentioned valve is connected to the water tank (T). The water tank T is supplied to a predetermined place through its own outlet. And the end of the connection hose (H) in the water tank is installed in a state of being immersed in water. The other end of the connection hose (H) is connected to the pressure transmission unit 50 formed on the upper portion of the valve body 20 described above. Therefore, when the water is filled in the water tank (T), the air inside the connection hose (H) is compressed and the air pressure increases. The high pressure is transmitted to the pressure sensing diaphragm 42 through the pressure transmission unit 50.

The overall operation of the present invention will be described. First, when the water in the water tank (T) is smaller than the reference level by the water level is lowered, the pressure inside the connection hose (H) is lowered. Therefore, since the pressure applied to the pressure sensing diaphragm 42 is very low, the permanent magnet 40 is lowered by the elastic force of the spring 34.

When the permanent magnet 40 is located in the lower side of the upper housing 30, the magnetic plunger 26 in the valve body 20 is moved upward by the magnetic force of the permanent magnet close to the permanent magnet side do. Therefore, the plunger 26 is spaced apart from the upper portion of the holder 24, and the through hole 24b in the center portion is opened.

In this state, the water supplied from the inlet (In) is a state that can be discharged to the outlet (Out) through the communication portion 21 via the space (A) inside the valve body (20). Herein, the operation of the process of discharging the water supplied from the inlet to the outlet in the state in which the holder 24 and the diaphragm 22 are raised is as described above.

In this way, the water supplied along the outlet (Out) is supplied to the water tank (T), the water level in the water tank rises. As the water level rises, since water enters the inside through the end Ha of the connection hose H, the air inside the connection hose H is compressed and the pressure is increased. This increase in pressure is the highest when the water reaches the desired predetermined water level in the water tank (T), this pressure is the pressure sensing diaphragm through the pressure transmission unit 50 in the connection hose (H). Is passed to 42. Therefore, the pressure sensing diaphragm 42 is moved to the upper side to overcome the elastic force of the spring (34).

The upward movement of the pressure sensing diaphragm 42 will substantially push the permanent magnet 40 upward. When the permanent magnet 40 moves upward, the magnetic force applied to the magnetic plunger 26 is weakened, and the magnetic plunger 26 falls downward by the weakened magnetic force. When the plunger 26 falls downward, it blocks the through hole 24b of the center portion of the holder 24 and simultaneously drops the holder 24 and the diaphragm 22 to communicate the communication portion 21. Will be blocked.

In this state, since the pressure of the water in the inlet portion and the water in the space A becomes the same, it is possible to maintain the state in which the water supply is stopped.

In this state, the water level will be lowered if the water contained in the water tank (T) is used. When the water level is lowered, the pressure inside the connection hose (H) is lowered, which causes the permanent magnet 40 to fall downward, after which the process as described above will be repeated.

According to the valve device according to the present invention as described above, the water level in the water tank can be kept constant at all times. And within the basic technical scope of the present invention, many other modifications will be possible to a person having ordinary skill in the art and should be interpreted by the appended claims of the present invention.

According to the present invention as described above, it has a simpler structure that does not require a separate level sensor and microprocessor as in the prior art. While having such a simple structure, it is expected that the water level in the water tank can be maintained accurately and constantly.

Claims (3)

A pipe 10 having an inlet through which water is introduced and an outlet through which the water is discharged and connected to the water tank; On one side of the pipe, the valve body 20 is installed so that water can be supplied to the outlet side through the space (A) therein; A magnetic plunger 26 supported to be movable upward and downward from an upper portion of the inside of the valve body; A blocking member installed in the lower portion of the plunger in the valve body and blocking the water supplied from the inlet of the pipe to the outlet side when the plunger is located below; An upper housing (30) installed at an upper portion of the valve body and having a permanent magnet (40) elastically supported downwardly and moving the plunger in a vertical direction by a magnetic force; A pressure sensing diaphragm (42) installed on the bottom of the permanent magnet in the upper housing (30) and capable of moving like a permanent magnet; A pressure transfer part 50 communicating with the outside of the valve body so as to apply pressure to the bottom of the pressure sensing diaphragm 42; And One end is installed in the water tank, the other end is connected to the pressure transmission, the level control valve device characterized in that it comprises a connection hose for transmitting the pressure inside the pressure sensing diaphragm. . The level control valve device of claim 1, wherein the permanent magnet is elastically supported downward by a spring installed on an upper surface of the upper housing. The level control valve of claim 2, wherein the upper end of the spring is in contact with the adjustment member 32, and the adjustment member is screwed to the upper end of the upper housing to be movable by rotation. Device.