KR100491104B1 - Air feeder for feed water to pump - Google Patents

Abstract

The present invention relates to an air supply device of a pneumatic water supply using a pump, and more particularly, by installing an air supply using a pressure difference in the pneumatic water supply, the air is automatically introduced into the pressure tank even during operation and stop of the pump so that the set pressure is increased. It relates to an air supply device of a pneumatic water supply using a pump to be maintained.

According to the present invention, one side of the pressure tank is connected to a predetermined shape, and an air suction induction pipe is installed to allow air to be sucked therein, and an air opening and closing part is installed in communication with the air suction induction pipe to introduce air, and air and water are moved. The air supply device includes a valve body having a flow path formed therein, and a conical air supply tank which is coupled to the other side of the valve body and stores sucked air.

Description

Air supply device for pneumatic water supply using a pump {AIR FEEDER FOR FEED WATER TO PUMP}

The present invention relates to an air supply device for a pneumatic water dispenser using a pump, and more particularly, to install an air supply device using a pressure difference of the pneumatic water supply, and to automatically introduce air into the pressure tank during the operation and stop of the pump to set the pressure. It relates to an air supply device of a pneumatic water supply using a pump to be maintained.

As shown in FIG. 6, the water supply device includes an underground reservoir 1, and a pump 3 is installed in parallel with the reservoir water supply pipe 2, and a water supply pipe 2 ′ is connected to the inlet side of the pump 3. Connected to the pressure tank (6) and each generation, and the supply pipe (8) is connected to the upper side of the water supply pipe (2 '), the air supplement tank (4) is installed in the supply pipe (8) and the air supplement tank (4) A solenoid valve 5 for allowing air to flow into the upper portion of the air supply tank is connected, and a connecting pipe 9 having a solenoid valve 9 'installed at the lower supply pipe 8 of the air supplement tank 4 is connected to the water storage water supply pipe 2. It is connected and installed.

The air supplement device used in the water supply device is installed in the air supplement tank (4) higher than the underground reservoir tank (1) so that water is supplied by the water level of the reservoir through the air supplement tank (4).

When water is supplied from the pressure tank 6 and the solenoid valve 9 'is opened and closed, water is moved downward along the supply pipe 2' to the supply pipe 8 by a level difference (gravity difference). The installed solenoid valve 5 is opened and closed so that air is replenished to the air filling tank 4 and the replenished air is pushed into the pressure tank 6 as water is supplied by the operation of the pump 3. By this repeated operation, the pressure in the pressure tank 6 is kept constant.

In addition, by using the expansion force of the air in the pressure tank (6), water is supplied to each residential generation, if the water is supplied in a certain amount or more, if the set pressure of the pressure tank (6) falls below the pump (3) Will continue to supply water.

 However, when water is continuously supplied to each generation, air is not supplied to the pressure tank 6 while the pump 3 is in operation, and thus, the air tank is insufficient in the pressure tank 6, and thus, the pressure tank 6 ) Was not available, so the efficiency of the water supply device 7 was lowered.

In addition, the air replenishment tank 4 installed in the water supply device 7 has to be installed higher than the reservoir in which water is stored, so that air is supplied to the pressure tank.

The present invention for solving the above problems is to install an air supply device using a pressure difference between the water tank and the water reservoir water supply pipe to maintain the set pressure by automatically supplying air to the pressure tank during the operation or stop of the pump The purpose of the present invention is to provide an air supply device for a pneumatic water dispenser using a pump that can be installed in any water supply facility while improving the efficiency of the pneumatic water dispenser and being free from installation sites.

According to the present invention, a valve body having a predetermined shape and having a passage penetrated therein and connected to a pressure tank, an air suction guide pipe installed inside the valve body to suck air, and communicated with the air suction guide pipe It is characterized in that the air opening and closing portion to be introduced or blocked, and the air supply tank is installed in the lower portion of the valve body and the air intake opening is opened by the air suction induction pipe is stored intake air.

Preferred embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

1 is a schematic view of a state in which an air supply device is installed in a pneumatic water supply device of the present invention, FIG. 2 is a perspective view in a state in which the air supply device of the present invention is coupled, and FIG. 3 is a cross-sectional view in a state in which the air supply field of the present invention is coupled, and FIG. 3 is a perspective view of a state in which the air supply device of the present invention is separated, and FIGS. 5 and 6 are cross-sectional views illustrating a state in which air is supplied to the pressure tank by the air supply device of the present invention.

1 to 6, the present invention is provided with an underground reservoir 200, the pump 300 is installed in parallel to the reservoir water supply pipe 52 and the water supply pipe 52 on the inlet side of the pump 300 Is connected to the pressure tank 400 and each generation, the air in the pressure tank 400 to maintain the set pressure in the pressure tank 400 in the operating and stopped state of the pump 300 The supply device 100 is installed.

The air supply device 100 has a predetermined shape and a passage through the inside of the valve body 10 is connected to the pressure tank, and the air suction induction pipe 20 to allow the air to be sucked into the valve body (10) Is installed and is in communication with the air suction induction pipe 20, the air opening and closing portion 40 is formed to enter or block the air, is installed in the lower portion of the valve body 10 by the air suction induction pipe 20 The air opening and closing part 40 is configured to be an air supply tank 30 in which the sucked air is stored.

A water supply solenoid valve 50 connected to the drain solenoid valve 51 and the pump 300 is installed in the lower connection pipe 53 of the air supply tank 30, and air is replenished in the pressure tank 400. The air supply completion sensor 54 for controlling the drain and water supply solenoid valves 50 and 51 is provided.

The valve body 10 has a predetermined shape, a flow path 12 is formed therein, a groove 15 is formed in the flow path 12, and a coupling hole 14 is formed at a lower portion of the groove 15. Silver 11 is formed on the outer circumferential surface is fastened to the supply pipe 57 connected to the pressure tank 400 and the other side is formed with a female screw 13 therein is fastened with the air supply tank 30.

The air suction induction pipe 20 has an inlet 21 through which the inside penetrates and the inner diameter gradually decreases from the front surface, and a horizontal tube 26 having a constant inner diameter is extended to the inlet 21. A predetermined length is formed, and the expansion pipe 22 having an inner diameter is sequentially formed integrally with the horizontal pipe 26, and the locking jaw 24 is formed on the outer circumferential surface thereof so that the outer circumferential surface and the locking jaw ( 24 is installed in the groove 15 of the valve body 10 to form a predetermined space portion 16, the expansion portion 22 is a plurality of through-holes so that air can be introduced from the space portion (16) 23) is formed.

The air opening and closing part 40 of the body 45 and the body 45 is formed with a screw is formed on the upper outer peripheral surface and has a seating groove 41 on the inner side and a through portion 44 formed in communication with the seating groove 41 The stamp 42 is coupled to the seating groove 41 and the penetrating portion 44 so as to be able to move up and down.

The stem 42 has stepped portions 43 formed at both sides, and one side passes through the valve body 10 and the air suction induction pipe 20 while the stepped portion 43 is coupled to the seating groove 41. The stamp 42 rises and falls by the internal pressure of the space 16 to allow air to flow in or out.

And the air opening and closing part 40 is coupled to the coupling hole 14 of the valve body 10, the O-ring 70 is provided so that the air opening and closing part 40 is sealed.

The air supply tank 30 has a flange 35 formed at one end thereof to have a conical shape, and a hopper part 31 inclined at a predetermined angle is formed, and a protrusion 33 extending to the hopper part 31 is formed. Screws are formed in the through hole 32 and the outer circumferential surface penetrated inside the protruding portion 33 so that the upper and lower sides are provided symmetrically, and the O-ring 70 is inserted between the flange 35 and the flange 35 to form a bolt. It is fixed by the nut and has a predetermined space inside.

The upper protrusion 33 of the air supply tank 30 is coupled to the female screw 13 of the valve body 10 and the lower protrusion 33 is coupled to the connecting pipe 53.

And the inside of the air supply tank 30 is provided with a float 34 to move the float 34 up and down while the air and water is introduced and discharged into the air supply tank 30 to the through hole 32 Is to prevent).

The buoy 34 may be provided in a circular or elliptical shape so as to block the inner through hole 32 of the air supply tank 30.

A connecting pipe 53 is installed at the lower portion of the air supply tank 30, and a branch pipe 56 is connected to the connecting pipe 53 so that the branch pipe 56 has a water supply solenoid valve 50. It is installed in the water supply pipe 52, the drain solenoid valve 51 is installed in the lower portion of the connection pipe 53, the first and second valves 55 are installed on both sides in the lower portion of the drain solenoid valve 51, one side The first valve 55 is connected to the reservoir water supply pipe 52.

Referring to the operation of the water supply solenoid valve 50 and the drain solenoid valve 51, when the drain solenoid valve 51 is opened, the feed solenoid valve 50 is closed, and when the feed solenoid valve 50 is opened, the drain solenoid valve ( 51) is closed.

When the air supply completion sensor 54 is installed in the lower connection pipe 53 of the air supply tank 30 and the set pressure in the pressure tank 400 receives the signal by the pressure sensor the air supply completion sensor 54 Detects and closes the water supply solenoid valve 50 and the drain solenoid valve 51.

The pressure tank 400 is a diaphragm tank having a space capable of filling a certain amount of water and air therein, and a pressure sensor, a water level sensor, a level gauge, a safety valve, and a pressure switch are formed on an outer circumferential surface thereof.

Referring to the operation and effect of the air supply device of the pneumatic water supply using the pump of the present invention as described above, when the use of water in each generation surges and the pressure in the pressure tank 400 drops, the pump 300 is operated by the pressure tank ( Water is added to 400 to raise the water level and some continue to supply water to each generation.

As such, when the water level in the pressure tank 400 rises, the set pressure is lowered. When the drain solenoid valve 51 is opened, the pressure in the pressure tank 400 is high and the water supply pipe connected to the drain solenoid valve 51 ( The pressure of the 52 is relatively lowered so that the water is moved along the supply pipe 57 by the pressure of the pressure tank 400, and the inner inlet 21, the horizontal pipe 26 of the air suction induction pipe 20, The pressure of the space 16 is drastically reduced due to the Venturi effect that the flow velocity proceeds rapidly while passing through the expansion pipe 22.

Thereafter, the stamp 42 of the air opening and closing portion 40 is raised by the pressure difference between the space portions 16 so that outside air flows into the air opening and closing portion 40, and the space portion 16 and the through hole 23 are formed. As it flows into the expansion pipe part 22 of the air suction induction pipe 20 and flows into the inside of the air supply tank 30 through the flow path 12, the float 34 is an air supply tank 30 The inner lower through hole 32 is blocked to fill with water and air.

When the air supply tank 30 is filled with a predetermined amount of air and water, the flow rate of the water moving along the flow path 12 decreases so that the stamp 42 of the air opening and closing portion 40 automatically descends and the stamp 42 The stepped 43 of) blocks the seating groove 41 so that no more air is introduced.

As such, when a certain amount of air is filled in the air supply tank 30, the drain solenoid valve 51 is closed.

Subsequently, when the water supply solenoid valve 50 is opened, water having a predetermined pressure in the water supply pipe 52 of the pump 300 passes through the air supply tank 30 through the water supply solenoid valve 50. Air and water are introduced into the pressure tank 400 while pushing up the opening 34 blocking the opening, and the opening 34 blocks the upper through hole 32 inside the air supply tank 30 so that water is no longer present. It does not flow in. And when a predetermined amount of air is introduced into the pressure tank 400, the pressure inside the rises.

When the set pressure of the pressure tank 400 is reached in such a repetitive operation, the air supply completion sensor 55 senses and the drain solenoid valve 51 and the feed water solenoid valve 50 are closed.

As such, the set pressure is maintained in the pressure tank 400 so that water is smoothly supplied from each pressure tank 400 to each generation, thereby reducing the operation of the pump 300 connected in parallel, thereby reducing the use of oil. There is this. And the set pressure is maintained constant in the pressure tank 400 has the advantage of improving the efficiency of the air pressure water supply.

In addition, the set pressure is maintained in the pressure tank 400, even after the pump 300 is stopped, after a certain time, the air is dissolved in water, the amount of air is reduced, the water level of the water in the pressure tank 400 is high and the inside When the pressure is lowered, the air is automatically supplied to the pressure tank 400 by the above-described automatic air supply device 100 to maintain the set pressure so that water can be smoothly supplied to each generation of the pump 300. Minimize startup.

Since the pressure difference is used in the air pressure water dispenser, regardless of the installation place, there is an advantage that can be used simply by replacing any water supply equipment.

The present invention can automatically supply air to the pressure tank during the operation or stop of the pump to maintain the set pressure to smoothly supply water for each generation, reducing the operation of the pump has the effect of increasing the efficiency of the air pressure water supply.

In addition, since the air supply device installed in the air pressure water supply unit supplies air to the pressure tank using a pressure difference, there is an advantage that the installation is not restricted.

In addition, since it can be installed in any water supply equipment, the compatibility is excellent.

Figure 1 is a schematic diagram of the air supply apparatus installed in the pneumatic water supply of the present invention

Figure 2 is a perspective view of the air supply device of the present invention is coupled

3 is a perspective view of a state in which the air supply of the present invention is separated

Figure 4 is a cross-sectional view of the air supply device of the present invention is coupled

5 and 6 are cross-sectional views showing a state in which air is supplied to the air supply tank by the air supply device of the present invention.

7 is a schematic diagram of a state where a conventional air filling tank is installed

-Brief description of the major symbols in the drawings-

10: valve body 11: screw 12: euro

13: Female thread 14: Engagement hole 15: Groove

20: air suction induction pipe 21: pipe inlet 22: expansion pipe

23: through air 30: air supply tank 31: hopper section

32: through-hole 33: protrusion 34: ball

40: air opening and closing part 41: seating groove 42: stamp

43: step 44: through part 50: water supply solenoid valve

51: drain solenoid valve 52: water supply pipe 53: connection pipe

54: air supply completion sensor 100: air supply device 200: reservoir

300: pump 400: pressure tank

Claims (6)

A valve body 10 formed at an inner side thereof and connected to the pressure tank 400; An air suction induction pipe 20 installed to suck air into the valve body 10; Is in communication with the air suction induction pipe 20, the seating groove 41 is formed therein and a through portion 44 is formed to communicate with the seating groove 41, the seating groove 41 and the through portion ( An air opening / closing portion 40 coupled to the stamp 42 to inflow or block air; The pump is characterized in that it comprises a air supply tank 30 is installed in the lower portion of the valve body 10 is the air opening and closing portion 40 is opened by the air suction induction pipe 20 to store the sucked air Air supply device of the pneumatic water dispenser used. delete The method of claim 1, The air supply device of the pneumatic water supply using a pump, characterized in that the step is provided at the top and bottom of the stamp, respectively. The method of claim 1, The air supply tank 30 has a hopper portion 31 formed with a flange 35 at one end and inclined at a predetermined angle, and a protrusion 33 extending to the hopper portion 31 is formed and the protrusion 33 is formed. Through-holes 32 are formed in the inner side of the upper and lower sides are symmetrically fixed, and the inside of the air supply apparatus of the pneumatic water supply using a pump, characterized in that the buckle 34 is provided therein. The method of claim 1, The drain solenoid valve 51 and the water supply valve 50 are respectively installed in the lower connection pipe 53 of the air supply tank 30, and the drain and the water supply solenoid valve are completely supplied with air from the pressure tank 400. Air supply device for a pneumatic water supply using a pump, characterized in that the air supply completion sensor is installed to control the. The method of claim 4, wherein The buoy 34 is a pneumatic water supply device using a pump, characterized in that formed in a circular or oval.