KR100383397B1 - Conveying device for fluid using air-pressure - Google Patents

Abstract

The present invention relates to a fluid transfer apparatus using air pressure, and more particularly, to provide a fluid transfer apparatus capable of transferring various fluids using air pressure supplied from an air compressor.

That is, according to the present invention, the main tank 11 is connected to the inside of the casing 4 in which the filter 8 is installed at the outer edge and the plurality of water inflow holes 7 having the check valve 7a are formed. A plurality of discharge holes 14a which are divided into sub tanks 12 and having a check valve 14b for selectively transferring water flowing into the main tank 11 and the sub tank 12 on the diaphragm 10. A fluid discharge pipe (14) having a) is connected to the fluid transfer hose (3), and the diaphragm (10) is provided with an air inlet pipe (13) connected to the air supply hose (2), the air inlet pipe (13) install a rotary feed pipe (16) having air inlets (18a, 18b) rotatable on and selectively communicated with the main tank (11) and the sub tank (12), and the left and right of the rotary feed pipe (16). The end is configured to selectively discharge air on the air discharge pipe 20 having an air discharge hole 20a formed in the casing 4 by the universal joint 19. Connected to the air discharge pipe 21 having the air discharge hole (21a), the tartan of the spiral spring 25 is fixed to the air inlet pipe 13 and one end of the float 22 is freely rotated on one side of the rotary supply pipe (16) And the float 22 connects one end of the connecting pin 23 to the pin coupling hole 22b to connect the other end of the connecting pin 23 to the flange 24 formed on the rotary supply pipe 16. It is to be coupled to the arc-shaped long hole (24a), and the vortex preventing plate (9) is provided in front of the inlet hole (7) of the main tank 11, the fluid transfer device using the air pressure provided by the present invention affects the suction height The water can be sucked and discharged without receiving the air compressor, and the air compressor can be installed at a designated place where the durability can be doubled and the ease of installation can be provided. And when transporting various corrosive liquids, the risk of safety accidents can be greatly reduced, and the handling is easy, and the device does not come in direct contact with the rotating part of the fluid, so the failure rate is small, and the advantage of being particularly easy for high lift .

Description

Conveying device for fluid using air-pressure

The present invention relates to a fluid transfer apparatus using air pressure, and more particularly, to provide a fluid transfer apparatus capable of transferring various fluids using air pressure supplied from an air compressor.

In general, a pump or a pump is used to transfer or pump various fluids. The conventional fluid transfer device as described above is mainly produced in a large capacity and a small capacity. They are also burdensome, and they also have many problems such as complicated construction and installation on the ground rather than underwater, so that the fluid can be transported by the driving means, resulting in extremely low fluid transfer efficiency and high failure rate. will be.

Therefore, the present invention is to provide a fluid transfer device using air pressure that can solve all the problems of the existing fluid transfer means, the fluid transfer device provided in the present invention, in particular, the air compressor for supplying air and the like separately on the ground The transfer device which can be installed and transfer the fluid by the air supplied from the air compressor has completed the present invention with the technical problem of the present invention to provide a fluid transfer device that can be installed and used in water.

1 is a perspective view of a partially broken state showing a preferred embodiment of the present invention

2 is a cross-sectional view of the present invention

3 is an enlarged cross-sectional view of an air control means that is an essential part of the present invention;

4 is an enlarged perspective view of the air control means which is an essential part of the present invention in exploded

5,6 is a front view showing an operating state of the present invention

■ Explanation of symbols used in main part of drawing ■

1: fluid transfer device 2: air supply hose

3: fluid transfer hose 4: casing

5: Fixed Edition 6: Fixed Means

7: inlet hole 7a: check valve

8: Filter 9: Vortex Baffle

9a: support plate 10: plate

11: Main tank 12: Sub tank

13: Air inlet pipe 14: Fluid discharge pipe

14a: outlet 14b: check valve

15: air control means 16: rotary supply pipe

17: plate 18a, 18b: air inlet hole

19: Universal joint 20: Air exhaust pipe

20a: air exhaust 21: air exhaust pipe

21a: air discharge hole 22: float 22a: connection ring 22b: pin coupling hole

23: connecting pin 24: flange

24a: long hole 25: spiral spring 26: bearing bush

1 is a perspective view showing a preferred embodiment of the present invention, Figure 2 is a cross-sectional view, etc. showing a preferred embodiment of the present invention, through which the preferred embodiment of the present invention will be described in detail.

The fluid transfer device 1 using the air pressure provided by the present invention is connected to an air compressor (not shown) and the like, and the connection means is connected to a flexible connection hose or the like.

The connection hose is composed of an air supply hose (2) for receiving air and a fluid transfer hose (3) carried by the supplied air.

The fluid transfer device 1 includes a casing 4 made of a generally cylindrical shape, a fixing plate 5 for fixing or securing the casing 4 to a bottom surface, and a fixing means capable of fixing an anchor bolt or a pin type ( 6) has

The fixing means 6 can be configured to be detachably integrally or prefabricated with the casing (4).

The casing 4 is formed with an inlet hole 7 having a plurality of check valves 7a along the outer circumferential surface, and the outer surface of the inlet hole 7 filters foreign substances in the inflowing fluid or particles larger than the standard are not introduced. The filter 8 which blocks so that it may block | blocks is combined, and the main tank 11 mentioned later in the inside of the casing 4, ie, the inside of the casing 4, the vortex which consists of a rough arc shape for preventing the vortex of the water which flows in. The prevention plate 9 is to be installed by using the support section 9a.

And the inside of the casing 4 is divided into a diaphragm 10 to form a main tank 11 and the sub tank 12, the air inlet can be selectively performed to the main tank 11 and the sub tank 12. The T-shaped air inlet pipe 13 and the fluid discharge pipe 14 having a plurality of discharge holes 14a so that the fluid discharge can be selectively installed so as to be located in the center of the diaphragm 10. A check valve 14b is also provided on the fluid discharge pipe 14 to prevent backflow of water.

The air inlet pipe 13 is provided with an air control means 15 that can control not only the inflow of air but also the discharge of air at the same time.

The air control means 15 is inserted into the rotary supply pipe 16 rotatably on the air inlet pipe 13, as shown, and the air supply pipe 13 is connected to the inner edge of the rotary supply pipe 16 To form a diaphragm 17 with an inclined portion to allow air inlet holes 18a and 18b to be selectively communicated with the air inlet tube 13 on the rotary supply pipe 16 respectively corresponding to the upper and lower portions of the diaphragm 17. Form.

And the left and right ends of the rotary supply pipe 16 using the universal joint 19, the air discharge hole that can be selectively communicated with the air discharge hole (20a) on the air discharge pipe 20 formed on both sides of the casing (4) The air discharge pipe 21 having the 21a) is pivoted so as to have an angle, and on one side of the rotary supply pipe 16 located on the main tank 11 side, that is, on one side of the air inlet pipe 13 formed in a rough T-shape. A float 22 connected to the connection ring 22a coupled to the angular motion by the bearing bush 26 is installed, and one side of the pin coupling hole 22b formed in the connection ring 22a of the float 22. Float 22 is angular range of arc-shaped hole 24a by connecting the other connecting pin 23 so as to move along the arc-shaped hole 24a on the flange 24 fixed to the rotary supply pipe 16. It allows free angular movements within, and at both ends of the arc-shaped hole (24a) Rotating the supply pipe 16 and to be able to operate.

The connection ring 22a portion of the float 22 is connected to the air inlet pipe 13 and one end of the spiral spring 25 fixed to the other end, so that the restoration operation of the spiral spring 25 is restored according to the water level. It is to be done.

The present invention, which can be configured as described above, is capable of discharging various fluids using air pressure, and a process of transferring fluids using the fluid transfer device 1 of the present invention will be described in more detail below.

An air compressor (not shown) is connected to the air supply hose 2 from the ground, and the casing 4 of the present invention is fixed to the bottom surface of the place where water is to be pumped using the fixing means 6 on the fixing plate 5. Install it.

Then, when the air compressor is operated to supply high pressure air through the air supply hose 2, the air supplied through the air supply hose 2 is supplied through the air inlet pipe 13, wherein the casing of the present invention ( 4) The inside is divided into the main tank 11 and the sub tank 12 by the diaphragm 10, the air inlet pipe 13 is the upper and lower air of the rotary supply pipe 16 is divided by the diaphragm 17 One of the inlet holes 18a and 18b is supplied with air, and air is selectively introduced into the main tank 11 or the sub tank 12. In the case of FIG. 5, the air inlet holes 18a and 18b are also used. In the case 3, the air inlet hole 18b located at the lower side is opened. In this case, water is first filtered through the filter 8 attached to the outer edge of the casing 3 and then flows into the main tank 11 through the inlet hole 7 and the check valve 7a. Since the float 22 may malfunction due to the vortex caused by the incoming water, etc., the vortex prevention plate 9 blocks the vortex in advance. The float 22 rises according to the water level.

At this time, the air discharge hole 20a on the air discharge pipe 20 formed at one side of the main tank 11 is maintained in a closed state, and the water introduced into the main tank 11 by the air pressure supplied from the air compressor is diaphragm 10 The transport discharge is made through the fluid discharge pipe 14 and the fluid transfer hose 3 through the discharge hole 14a and the check valve 14b of the fluid discharge pipe 14 installed on the).

When the water flows into the main tank 11 gradually by the air pressure, the float 22 continues downward angular motion by the restoration elasticity of the air inlet pipe 13 and the spiral spring 25 having one end fixed thereto. The inside of the arc-shaped long hole 24a of the rotary feed pipe 16 connected to the float 22 by the connecting pin 23 is moved on the end 24 of the long hole 24a. The rotation supply pipe 16 is rotated in a state so that the rotation supply pipe 16 has a fine width rotational movement, and in conjunction with the rotation operation of the rotation supply pipe 16, the air discharge pipe 21 connected to this and the universal joint 19 is also wide. Simultaneous rotational movement is such that the air discharge hole (21a) formed in the air discharge pipe 21 is in communication with the air discharge hole (20a) of the air discharge pipe 20 and the air inlet pipe ( 13 on the rotary feed tube 16 located above 13). The inlet 18a communicates with the air inlet pipe 13 to supply air to the sub tank 12 filled with the full water level, so that the water in the sub tank 12 is also on the diaphragm 10 by the air pressure. It is conveyed and discharged to the fluid discharge pipe 14 and the fluid transfer hose 3 via the several discharge holes 14a and the check valve 14b which were formed.

At this time, water is continuously introduced onto the main tank 11 on the opposite side, and when the float 22 rises upward, the rotary supply pipe 16 rotates again as before, and supplies air to the main tank 11 again to supply the air to the main tank 11. (11) to discharge the water flows into the main tank 11 and the sub-tank 12, the air is alternately supplied to continuously pumping and discharging a large amount of water by the air pressure can be pumped It is.

As described in detail above, the fluid transfer apparatus using the air pressure provided by the present invention divides the inside of the casing 4 into the main tank 11 and the sub tank 12 by the diaphragm 10, and the diaphragm ( 10, the fluid discharge pipe 14 for selectively transporting the water flowing into the main tank 11 and the sub-tank 12 is formed, the power source capable of transferring the fluid to the fluid discharge pipe 14 is air pressure By using the air control means 15 for supplying air to the main tank 11 and the sub tank 12 so that it can be used to suck and discharge water without being affected by the suction height, the air compressor It can be installed at the designated place to double the durability and can be provided with ease of installation.

In addition, the present invention can greatly reduce the risk of safety accidents and the like when transporting a variety of corrosive liquids, and the advantages are easy to handle, as well as the failure rate of the fluid is not directly in contact with the rotating part of the device, especially in high head It is a very useful invention that provides a number of effects, such as easy.

Claims (1)

The main tank 11 and the sub tank 12 are installed in the casing 4 with the filter 8 installed at the outer edge of the casing 4 having the plurality of water inflow holes 7 having the check valve 7a. Separated by, On the diaphragm 10, a fluid discharge pipe 14 having several discharge holes 14a having a check valve 14b for selectively transporting the water flowing into the main tank 11 and the sub tank 12 is provided. Form and connect with the fluid transfer hose (3), The diaphragm 10 is provided with an air inlet pipe 13 connected to the air supply hose 2, which is rotatable on the air inlet pipe 13 and selectively as a main tank 11 and a sub tank 12. A rotary feed pipe 16 having air inlet holes 18a and 18b communicating therewith; The left and right ends of the rotary supply pipe 16 are universal joints 19 and the air discharge holes 21a for selectively performing air discharge on the air discharge pipe 20 having the air discharge holes 20a formed in the casing 4. Is connected to the air discharge pipe (21) having; On the rotary supply pipe 16 on the main tank 11 side, a float 22 that is freely rotated is connected to the other end of the spiral spring 25 having the air inlet pipe 13 and one end fixed thereto, and the float 22 One end of the connecting pin 23 is connected to the pin coupling hole 22b, and the other end of the connecting pin 23 is coupled to the arc-shaped hole 24a on the flange 24 formed in the rotary supply pipe 16. ; A fluid transfer device using air pressure, characterized in that the vortex preventing plate 9 is installed in front of the inlet hole (7) of the main tank (11).