KR20030080889A - Automatic floating level control - Google Patents

Abstract

PURPOSE: An automatic water level controller is provided to increase capacity of purified water tank. CONSTITUTION: The apparatus comprises a purified water tank for storing purified water, a storage tank(15) installed above the purified water tank, a water inlet assembly(33) installed in the storage tank(15) for controlling purified water inflow to the purified water tank, an air bladder(24) moving up and down depending on water level, a pivoting shaft(26) hinge coupled to the storage tank(15), a shaft pin(23) attached to the pivoting shaft(26) for closing or opening the water inlet assembly(33) depending on a height of the air bladder(24).

Description

Non-power level controller {Automatic floating level control}

The present invention relates to a water level control device of a water purifier, and more particularly, to improve the structure of the water level control valve to expand the low water level in the water purifier tank, and at the same time, to adjust the water supply in the tank quickly and accurately the water level control device It is about.

In general, a water purifier is a device for filtering and sanitarily drinking various components harmful to the human body contained in drinking water, such as tap water, and in recent years, the demand is increasing due to contamination of drinking water.

When the tap water flows through the water supply pipe 11 connected to the faucet 10 as shown in FIG. 1, the tap water maintains a constant pressure through the pressure reducing valve 12, and the pressure reducing valve 12 After passing through the water level sensor 13, the tap water is passed through the water level control valve 20 after the various harmful components are removed from the filter 14 is supplied into the water purification tank 16 to the cock (17) Purity is discharged through.

2 shows a structure of a water level control valve 20 which adjusts the water level in the purified water tank 16 to maintain a constant water level.

As shown in the figure, the cover 21 is coupled to the upper side of the storage tank 15 in which the purified water is stored therein, and the inlet port 22a into which the purified water flows on the upper side of the cover 21. An inlet body 22 is coupled, and an opening and closing shaft pin 23 is coupled to the inside of the inlet 22a.

Inside the storage tank 15 is a buckle 24 which is elevated in accordance with the amount of water stored therein is coupled, the shaft holder 25 is coupled to the upper side of the buckle 24, the shaft holder 25 One end of the rotation shaft 26 is hinged to the front end of the rotation shaft, and the other end is hinged to the storage tank 15 to operate the shaft pin 23.

The burette 24 is provided with a magnet 27 on the inner side, a plunger 28 is inserted in the center of the storage tank 15 facing the spring, and a spring 28a is installed on the upper side thereof. The plunger plug 28b is attached.

The head 29 is coupled to the lower side of the storage tank 15, and one end of the head 29 has an inlet port 29a supplied with raw water such as tap water, and the other end of the raw water. The outlet 29b for supplying the filter to the filter (not shown) is provided through.

In addition, the lower side of the storage tank 15 is provided with a purified water outlet 30 for supplying purified water introduced through the inlet 22a to the purified water tank 16.

Therefore, the tap water introduced through the faucet 10 and the water supply pipe 11 is maintained at a predetermined pressure in the pressure reducing valve 12, and then the human body in the filter 14 through the head 29 and the water level sensor 13. After each harmful component harmful to the removal is introduced into the storage tank 15, the purified water introduced into the storage tank 15 is stored in the purified water tank 16 and then discharged through the cock (17) It is possible.

At this time, the purified water flowing into the storage tank 15 is maintained in the water level in the purified water tank 16 by the purified water outlet (30).

That is, when the amount of water introduced into the storage tank 15 is below a certain amount, the bub 24 is lowered, and the shaft holder 25 and the shaft 26 are lowered together with the shaft pin 23 descending. Accordingly, the shaft pin 23 opens the inlet port 22a so that water is introduced into the storage tank 20 so as to have a predetermined height. For convenience, the shaft pin 23 has a height from the bottom of the storage tank to the purified water outlet 30. When the water is supplied to the purified water tank 16 through the purified water outlet (30).

When the water level in the purified water tank 16 is higher than the height at which the purified water outlet 30 is installed, water is not supplied from the storage tank 15 to the purified water tank 16, which is stored in the storage tank 15. When the buckle 24 rises due to the buoyancy of water, the shaft holder 25 and the rotating shaft 26 rise together with the shaft pin 23 to lift the water inlet 22a by closing the inlet port 22a. This is blocked and the purified water supplied through the purified water outlet 30 is blocked at the same time.

However, such a conventional water level control valve operates a shaft pin in accordance with the operation of the shaft lift and the operation of the shaft, and supplies purified water to the purified water outlet through the operation of the shaft pin. Since the level of water that can be stored is determined, there is a problem in that the level control valve must be manufactured to enable compact and precise operation.

In addition, since the final purified water is transferred to the purified water tank through the water level control valve, there is also a problem that may be contaminated again.

The present invention is to solve the above problems, by adjusting the position of the water level adjustment water inlet 32 of the storage tank 15 higher than the paper, the amount of purified water stored in the purified water tank 16 is significantly improved It is to provide a level control valve.

It is another object of the present invention to provide an improved non-powered water level control valve which allows clean water which has undergone all water purification processes to be stored in the water purification tank immediately without further processing.

As a preferred embodiment of the non-power level controller according to the present invention for achieving the above object

Water purification tank 16 is stored purified water therein,

A storage tank 15 installed at an upper portion of the purified water tank 16;

Is installed in the storage tank 15, the purified water tank 16 is provided with an inlet port 33 for controlling the inflow of the purified water,

Water level control water inlet 32 to allow the purified water from the purified water tank 16 to be used as the water level control water to the upper portion of the storage tank 15,

And buckle 24 which is elevated in accordance with the amount of water stored in the storage tank 15,

The storage tank 15 is hingedly coupled to the rotating shaft 26 which is rotated in conjunction with the lifting operation of the buckle 24,

The rotating shaft 26 has a shaft pin 23 for selectively opening or closing the purified water flowing in the inlet body 33 in accordance with the height of the bridle (24) and

A portion of the lower portion of the storage tank 15 allows water in the storage tank 15 to flow into the purified water tank 16, while water in the purified water tank 16 prevents inflow into the storage tank 15. It is characterized in that the storage tank outlet 34 in which the check valve 31 to cut off is installed.

1 is a schematic diagram showing the flow of water in a typical water purifier.

2 is a cross-sectional view showing a water level control valve of a conventional water purifier.

Figure 3 is a side view showing the outlet of the water level control valve of the conventional water purifier.

Figure 4 is a sectional view showing a non-power level control device of the present invention.

Figure 5 is a side view showing the inlet and outlet of the non-power level control device of the present invention.

<Description of the symbols for the main parts of the drawings>

10: faucet 11: water supply pipe

12 pressure reducing valve 13 sensor

14 filter 15 storage tank

16: water purification tank 17: cock

20: water level control valve 21: cover

22: inlet 22a: inlet

23 shaft pin 24 bure

25 shaft holder 26 rotating shaft

27 magnet 28 plunger

28a: spring 28b plunger stopper

29: head portion 29a: inlet

29b: outlet 30: purified water outlet

31: check valve 32: level adjustment water inlet

33: inlet port 33a: purified water outlet

33b: water purification inlet 34: storage tank outlet

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, the description of components having the same reference numerals and functions as in the prior art will be omitted.

4 and 5 are cross-sectional views showing the non-power level control device of the present invention and a side view of the main portion thereof. As shown in the drawing, the present invention has an outlet port 33, a storage tank outlet 34, and a water level control water inlet 32 of the present invention as compared to the outlet port 22 and the purified water outlet 30 as shown in FIGS. It is different from each other that was added. As shown in the drawing, the conventional water level control valve 20 controls the operation of opening and closing the outlet body 22 by the operation of the buckle 24 so that the purified water supplied through the outlet port 22a into the storage tank 15. Inflow and eventually the purified water in the storage tank (15) through the purified water outlet 30 to the purified water by introducing the purified water into the tank 16, but the outlet body 33 of the present invention is purified water inlet ( 33b) and the purified water outlet 33a, and the shaft pin 23 for opening and closing the outlet 33 by the operation of the bridle 24, the upper one side of the storage tank 15 Water level control purified water inlet 32 is connected to the purified water tank 16 and the pipe can be purified water flows in, the storage tank outlet for the purified water flows into the purified water tank 16 again 34 is the storage tank (15) It is installed through one side of the lower side, the storage tank outlet 34, the water in the storage tank 15 flows to the purified water tank 16, while the water in the purified water tank 16 is the storage tank ( The check valve 31 which prevents flow to 15 is inserted. In addition, preferably when a plurality of rubber packings (not shown) of a predetermined interval is installed in the extended pipe of the water level adjustment water inlet 32 and the storage tank outlet 34 is connected to the water purification tank 16 It is good to prevent leakage.

Hereinafter, the operation of the non-power level controller according to an embodiment of the present invention will be described with reference to FIGS. 4 and 5.

4 and 5, the non-powered water level control device according to an embodiment of the present invention, when the plunger 28 is operated to raise the plunger plug 28b, raw water such as tap water is introduced through the inlet 29a. While being supplied to the filter stage (not shown) through the outlet 29b, the purified water is supplied to the outlet body 33 through the filter stage. In the initial state, since the purified water in the purified water tank 16 is empty, since there is no purified water flowing through the water level adjustment water inlet 32, the buckle 24 in the storage tank 15 does not float, so the rotating shaft 26 Is connected to the shaft pin 23 is opened to supply purified water to the purified water outlet (33a) of the outlet 33, into the purified water tank (16) connected to the purified water outlet (33a) Integer is supplied. A constant height, in the present invention, collectively referred to as the height from the bottom of the water purification tank 16 to the water level adjustment water inlet 32, if stored until the water purification through the water level adjustment water inlet 32 to the storage tank 15 It begins to be supplied. At this time, the storage tank outlet 34 in the storage tank 15 starts to store the purified water as it is without supplying the purified water supplied by the check valve 31. When a certain amount of water accumulates, the buckle 24 rises as the water level increases, and the shaft 25 and the rotation shaft 26 connected to the upper end of the buckle 24 rise, ultimately, the shaft pin 23. The purified water flowing through the purified water outlet 33a is cut off by pushing) and the purified water supplied to the purified water tank 16 is stopped. In this state, when the user lowers the water level using the purified water in the purified water tank 16, the water level in the storage tank 15 is also lowered through the check valve 31 according to the water level of the purified water tank 16. At the same time, the rotating shaft 26 which was blocking the shaft pin 23 while lowering the bure 24 is also lowered, so that the outlet opening 33 is opened to operate the water storage outlet 33a again. The tank 16 is operated again to supply water. By repeating such an operation, the purified water tank 16 is always resupplied at the same time by the amount of purified water consumed.

While the invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the spirit of the invention, and such modifications and variations belong to the appended claims.

As described above, the non-power level control apparatus of the present invention can improve the water level in the water purifier tank while improving the structure of the conventional water level control valve and at the same time precisely adjusting the water supply in the tank.

In addition, it can be configured as a simple structure that can be quickly supplied regardless of the amount of water used by opening or closing the inlet of the purified water tank by the operation of the rotating shaft in a simple structure.

On the other hand, in the present invention to prevent the secondary pollution by supplying the purified water directly to the purified water tank through the filter without going through the other process in the present invention to the hygiene concerns that can occur by passing the purified water through the storage tank as conventionally You can do it.

Claims (3)

The purified water tank 16 in which the purified water is stored therein, the storage tank 15 installed on one side upper portion of the purified water tank 16, and the storage tank 15 are installed in the purified water tank 16. In the inlet port 33 for controlling the inlet of the purified water is provided, in the non-power-level water level adjusting device provided with a bubbling which is elevated according to the amount of water stored therein, The storage tank 15 is hinged to the rotating shaft 26 is rotated in conjunction with the lifting operation of the buckle 24, the inlet body 33 in accordance with the height of the buckle 24 to the rotating shaft 26 A non-powered water level control device for a water purifier, characterized in that a shaft pin 23 is attached to selectively open or close the purified water flowing therein. According to claim 1, wherein the upper part of the storage tank 15 is a water level adjustment water inlet 32 is provided so that the purified water from the purified water tank 16 is used as the water level control water. Non-powered water level regulator of water purifier. According to claim 1, wherein a portion of the lower portion of the storage tank 15 to the water in the storage tank 15 to the purified water tank 16, while the water in the purified water tank 16 is the storage tank ( 15) The non-power level control apparatus of the water purifier, characterized in that the storage tank outlet 34 is further provided with a check valve 31 to block the inflow into.