KR20030050370A - a device for controlling quantity of water in tank - Google Patents

Abstract

The present invention relates to a water level control device that can automatically control the inflow constant according to the water level in the water storage tank, and to provide a water level control device having a simple two-stage control means of the opening and closing operation with a simple structure. .

The present invention is characterized in that it is configured to simultaneously block and open the primary control valve and the secondary control valve by using the buoyancy of the buckle provided in the tank.

As the present invention is operated using the buoyancy of the buckle provided in the tank, it can be operated without the need of a separate power supply, and its structure is simple and simple, so there is little worry of trouble, and the manufacturing cost can be drastically reduced. It works.

Description

Water level control device of water storage tank {a device for controlling quantity of water in tank}

The present invention relates to a valve opening and closing system for supplying purified water to a water storage tank of a water purifier, comprising a primary valve and a secondary valve to more reliably supply and shut off the purified water supplied to the water storage tank and at the same time the water level in the tank. It relates to a water level control device of the reservoir tank to automatically open and close according to the.

In general, the water level control device of the water storage tank opens and closes the inflow pipe to the water storage tank by using the water level recognized by various means (for example, beret, electric resistance value, etc.) for sensing the water level in the tank. The decommissioning controls the water level in the tank by actuating a solenoid valve.

However, such a conventional water level control device frequently suffers from a failure of the solenoid valve, and also causes a problem in that the normal solenoid valve is difficult to operate due to a short circuit.

The present invention has been made in order to solve the above-mentioned conventional problems, the structure is simple to control the purified water flowing into the tank at the same time to automatically control the purified water in accordance with the water level in the reservoir tank, while the reliability of the opening and closing operation It is an object of the present invention to provide a water level control device capable of more accurately controlling the inlet water by having a high two-step control means.

In addition, an object of the present invention is to provide a level control device that can be operated without the need of a separate power supply by operating by using the buoyancy of the buckle provided in the tank.

Furthermore, the present invention is to provide a level control device to detect the flow rate of the purified water flowing into the tank to control the water pump to easily fill the purified water to a predetermined level in the tank even in a low water pressure of the purified water. For the purpose of

In order to achieve the above object, the water level control device of the water storage tank of the present invention has a valve control part 10a located at the outside of the tank, and the opposite operation part 10b is located at the inside of the tank. 10); A buckle 20 which is movable up and down along the sliding surface of the outer case of the operation part 10b of the primary control valve; A secondary control valve 30 which is operated in contact with the friction surface 21 provided on one side according to the synergism of the beret; It is provided in the valve seat portion 10a of the primary control valve, the inlet pipe side of the primary control valve 10 by a micro S / W (41) for detecting the flow rate of the fluid passing through the primary control valve It characterized in that it comprises a flow rate detection unit 40 for increasing the inflow flow rate by starting the water supply pump provided in.

1 is an operating state of the water level control apparatus according to the present invention in a low water level state

Figure 2 is an operating state of the level control device according to the present invention in the state of full water level

Figure 3 is an exploded perspective view illustrating the relationship between the operating portion and the beret of the primary control valve according to the present invention

Figure 4 is an exploded cross-sectional view of the flow rate detection unit according to the present invention

5 and 6 are cross-sectional views showing a second embodiment of a secondary control valve of the present invention

<Description of Symbols for Major Parts of Drawings>

1: reservoir tank 10: primary control valve

10a: primary control valve seat 10b: primary control valve actuator

11a: inlet line 11b: outlet line

12: sheet portion body 13: operating portion body

13 ': Actuator bracket 14: Sealing

15: Diaphragm 16: Rubber Packing

17: Plunger 18: Spring

19: sliding surface 20: bure

21: contact plate 22: magnetic receiving plate

23: permanent magnet 24: fastener

30: secondary control valve 31: secondary control valve inlet

32,32 ': secondary control valve rod 33: secondary control valve packing

35: hinge point 36: pivot link

40: flow rate detection part 41: micro S / W

42: Diaphragm Guide 43: Switch Diaphragm

A: water purification outlet

Hereinafter, described in detail by the accompanying drawings of the present invention.

1 is a cross-sectional view showing an operating state of the water level control device according to the present invention in a low water level state, Figure 2 is a cross-sectional view of the water level control device according to the present invention in a full water level state. Figure 3a is an enlarged cross-sectional view of an enlarged primary control valve according to the present invention, Figure 3b is an exploded cross-sectional view of the primary control valve.

1 to 2 is a water level control device according to an embodiment of the present invention shown in Figure 1 is largely the primary control valve 10, the beret 20 rising and falling in accordance with the water level in the tank, and shut off when the beret is raised And, it is made of a secondary control valve 30 that is opened when descending.

The primary control valve is fixed to the fastening portion formed between the bottom and the upper surface of the tank, the valve seat portion 10a is located outside the tank, the opposite operation portion 10b is located inside the tank. .

The bure 20, which is stored in the water storage tank 1 and is elevated according to the water level of the purified water, is provided with a pair of magnet receiving plates 22 parallel to the bottom surface of the operation portion 10b of the primary control valve. It is configured to fit the sliding surface 19 of the outer case. Reference numeral 24 shows a mounting hole into which the operating portion 10b of the primary control valve can be inserted into the bottom of the barrel. Figure 3 shows an exploded perspective view of the operation portion 10b of the bridle 20 and the primary control valve.

Since the plunger 17 and the spring 18 provided with the rubber packing 16 at the front end are provided in the operation part of the said primary control valve, the sliding surface of the outer body 13 of the operation part 10b ( When the beret 20 moves up and down along 19, the pair of magnet receiving plates 22 integrally provided with the beret are elevated, and the plunger is driven by the magnetic force of the permanent magnet 23 inserted and installed therein. The primary control valve is operated by moving 17 backward or restoring by the force of the spring 18. Reference numeral 15 denotes a diaphragm.

As the water level in the tank rises, the secondary control valve 30 contacts the contact plate 21 provided on one surface of the buckle 20 so that the valve is closed. It is configured to be installed in a position higher than 10, consisting of a valve rod 32 and the packing 33 of the front end of the valve rod of the secondary control valve by the contact plate 21 at the time of the rise of the bridle 20 It is characterized in that it is configured to block the inlet 31 which is directed downward in the storage tank (1) by pushing (32).

Furthermore, the present invention provides a flow rate detection S / W for detecting the flow rate of the fluid passing through the primary control valve to the valve seat portion 10a of the primary control valve in order to properly control the flow rate flowing into the primary control valve Further provided with (31), it further comprises a flow rate sensing unit 40 for enabling to start the water pump (not shown) provided on the inlet pipe (11a) side of the primary control valve 10 It features.

4 is an exploded cross-sectional view of the flow rate sensing unit of the present invention, in which an intermediate member 44 in direct contact with a fluid and a switch diaphragm 43 provided on the left side thereof are inclined to move in accordance with the flow velocity of the fluid. And a guide 42 for turning on / off the contact point of the micro S / W 41 according to the fine movement of the switch diaphragm 43, the case 45 being fastened to the valve seat body 12 outside thereof. And a cap 46.

In the present invention, the configuration of the secondary control valve may be configured in the form of another embodiment as shown in Figs.

That is, the inlet 31 of the secondary control valve is configured to be inserted into the water storage tank horizontally, and the valve rod 32 'for opening and closing the end is configured to be horizontal, but by the rise of the The link 36 pivoted around the hinge point 35 is integrally formed with the primary control valve so that the link 36 presses the end of the valve rod 32 'to achieve the object of the present invention. It may be.

Referring to the operation and effects of the water level control device of the present invention described above are as follows.

First, FIG. 1 illustrates an operation state of the primary control valve 10, the bure 20, and the secondary control valve 30 when the water level of the purified water stored in the water storage tank 1 is low. Since the lower part 20 is spread over the operating portion (10b) of the primary control valve. At this time, since the plunger 17 provided inside the operating portion 10b is positioned on the center line of the permanent magnet 23 inserted into the magnet receiving plate 22 integrally formed on the bottom of the bridle, The plunger 17 is moved backwards (in the permanent magnet direction) by the magnetic force of the permanent magnet 23 in spite of the elastic force of the spring 18.

By this operation, the rubber packing 16 at the tip of the plunger 17 holding the diaphragm 15 is released, and the fluid flows to the outlet pipe 11b, and the fluid passing through the primary control valve is secondary controlled. The purified water flows into the water storage tank 1 through the inlet 31 and the discharge hole 34 of the valve.

FIG. 2 is a view illustrating an operating state of the primary control valve 10, the buckle 20, and the secondary control valve 30 when the purified water stored in the water storage tank 1 is in full water. As the water level in the inner portion increases, the beret 20 gradually increases, and thus the position of the permanent magnet is also gradually moved away from the plunger 17, so that the magnetic influence of the permanent magnet on the plunger 17 is weak. By the restoring force of the spring 18 provided at the rear end of the plunger 17, the plunger is gradually moved (advanced) in the direction of the valve seat portion 10a to block the flow path of the primary control valve.

At the same time, when the beret 20 is raised, the contact plate 21 formed on one surface of the beret pushes up the lower half of the valve rod 32 of the secondary control valve 30, the packing provided at the front end The inlet 31 at 33 is also gradually blocked.

The closing operation of the primary control valve 10 and the secondary control valve 30 is performed by adjusting the installation position of the two valves 10, 30, the size of the burette, the position of the contact plate 21, and the like. For example, it is desirable to operate in parallel at about the same time.

By doing so, it is possible to automatically control the purified water flowing in accordance with the water level in the water storage tank 1, and the two-stage control with high reliability of the opening and closing operation is enabled. In addition, the present invention does not require a separate power supply because only the buoyant force acting on the beret is used as the operating power of the valve.

Furthermore, the water level control device of the water storage tank according to the present invention, the switch diaphragm 43, which varies according to the pressure of the fluid in the seat portion 10a of the primary control valve, the micro S / W (41) The guide 42 to be delivered to the) and the micro S / W (41) for outputting the electrical signal of the ON / OFF by the movement of the guide 42 to the amount of fluid passing through the valve (10) By further detecting the flow rate detection unit 40, if the flow rate is small by operating the water pump (not shown) installed on the inlet line (11a) side of the primary control valve 10 By constructing so that the purified water can be filled in the tank 1 within time, its practicality can be further improved.

As shown in Figures 5 and 6, the secondary control valve of the present invention converts the vertical upward movement of the beret 20 in the horizontal direction by the rotating link 36 that rotates around the hinge point (35) By doing this, the secondary control valve can be changed into a straight line.

In this configuration, when one end of the link 36 is rotated in contact with the operation plate 21 of the bridle 20, the other end of the present invention by pushing the valve rod 32 'located horizontally You will be able to achieve your purpose.

Although the detailed description of the invention has been described with reference to the preferred embodiments of the invention, modifications are made in various forms by those skilled in the art to which the invention pertains without departing from the concept of the invention. Or of course, it can be changed.

As described above, the present invention has the effect of automatically controlling the inlet water purification according to the water level in the water storage tank 1, and at the same time, by providing two-step control means with high reliability of opening and closing operation. have. In particular, the present invention is operated by using the buoyancy of the buckle provided in the tank can be operated without the need for a separate power supply, as well as its structure is simple and simple, there is little worry of failure, and can significantly reduce the manufacturing cost It works.

Furthermore, the present invention is an industrially useful invention that can detect the flow rate of purified water flowing into the tank to control the water pump so that the purified water can be easily filled to a predetermined level in the tank even in a low water pressure environment.

Claims (3)

In the water level control device for opening and closing the inlet pipe in order to maintain a constant water level in the storage tank (1), A valve control part 10a is located outside the tank, and an opposite operation part 10b is located inside the tank; A buckle 20 movable up and down along the sliding surface 19 of the body 13 of the actuating portion 10b of the primary control valve; In accordance with the synergism of the beret made of a secondary control valve 30 which is operated in contact with the friction surface 21 provided on one side, In the operating portion 10b of the primary control valve 10, a diaphragm 15, a plunger 17 and a spring 18 having a rubber packing 16 at the front end thereof are provided in the operating portion body 13. Equipped, The bottom surface of the bridle 20 is provided with a pair of parallel magnet receiving plate 22, the sliding surface 19 is sandwiched therebetween to be moved up and down, and one side of the bridle The contact plate 21 is formed integrally with the operating portion for operating the control valve, The secondary control valve 30 is installed at a position higher than that of the primary control valve 10, and is composed of a valve rod 32 and a packing 33 at the front end thereof so as to contact the plate 21 of the buckle 20. Water level control device for a storage tank, characterized in that configured to block the inlet 31 by). The method of claim 1, In the valve seat portion 10a, the switch diaphragm 43 and the switch diaphragm 43 are provided on the left side of the intermediate member 44 in direct contact with the fluid, and the center surface of the valve seat 10a is microscopically moved according to the flow velocity of the fluid. 43 is composed of a guide 42 for turning on and off the contact of the micro S / W 41, the flow sensing unit consisting of a case 45 is engaged with the valve seat body 12 outside Water level control device for a storage tank, characterized in that further comprises (40). The method according to claim 1 or 2, The secondary control valve 30 is configured such that the inlet 31 and the valve rod 32 'are straight and horizontal, and rotates around the hinge point 35 by the rise of the bridle 20. The water level control device of the storage tank, characterized in that configured to press the valve rod (32 ') by the vertical upward movement of the buckle (20) by the rotating link (36).