KR840001305Y1 - Water pump - Google Patents

Abstract

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Description

Simple pumping pump

The drawings show an embodiment of the present invention, and FIG. 1 and FIG. 2 are cross-sectional views of the entire part, respectively.

The present invention relates to a simple pumping pump, which does not require any power, and aims to pump in deep wells, tanks, and rivers by manpower.

Normally, with a hand pump, pumping is only possible at wells of depths of about 7-8 m, and in deeper wells, water has to be sucked into the motor. For this reason, if a power failure occurs due to a disaster or the like, the well of the electric motor cannot be used, and the water cannot be used to pump water in a place where electricity cannot be obtained, such as a desert.

The present invention is characterized in that it is possible to easily pump up the deep well water by removing the conventional drawbacks.

Referring to the embodiment of the present invention by the drawings, the interior of the cylinder (1) sealed up and down is divided into a compartment 3 and a chamber (4) by the partition wall (2), the hole ( The first and second pistons (7) (8) are attached to both ends of the rod (6) supported by the top and bottom of the rod (6) to divide the inside of the chamber into (3a) and (3b). It divided into (4a) and (4b). 15 and 16 are the first and second hoses made of hard resin such as nylon, and the lower end of the first hose 15 is connected to the lower part of the chamber 3b, and the other end of the first pump 20 is located on the ground. The upper end of the second hose (16), which is connected to the upper end of the base (4a), is filtered to the grounded second pump (21), and the first and second pumps (20) and (21) First and second driving pistons 22 and 23 were attached, respectively. 25 is a hard hose squeezing hose made of Tetron, nylon, etc., having a first suction port 26 at the tip, and connected to the first communication port 9 installed at the bottom of the basement 4b. A second suction port 28 is also formed at the tip of the branch hose 27 split in the middle of the resin hose 25, and is connected to the second communication port 10 provided above the chamber 3a. . (30) is a first check valve installed between the first suction port (26) and the first communication port (9), (31) is formed between the resin hose (25) and the first communication port (9) (2) The second check valve (32) is a third check valve installed between the second suction port (28) and the second communication port (10), and (33) the branch hose (27) and the second communication port (10). The 4th non-return valve installed between).

The resin hose 25 and the first and second hoses 15 and 16 were connected to the first and second communication pipes 11 and 12 through the fifth and sixth check valves 34 and 35. In addition, the first and second hoses 15 and 16 and the resin hose 25 are those of a strength that is not deformed by the pressure of the first and second driving pistons, and the first and second hoses 15 and 16 are used. When the water is filled in the cylinder 1 and the hose 25, the water in the resin hose and the head in the first and second hoses through the first and second pistons 7 and 8 in the cylinder on the principle of siphon. Is maintained at the same level.

In addition, although a cylinder and a piston are used in a present Example, you may use a diaphragm, a bellows, or a rubber bag. In addition, since the hose is made of a resin pipe, it has flexibility and is easy to handle. Thus, placing both feet on the first and second driving pistons 22 and 23, and first pushing the first driving piston 22 down as shown in Fig. 1, the pressing pressure is applied to the inside of the first hose 15. After passing through the chamber 3b and pushing up the first piston 7, the water in the chamber 3a is pushed up by the first piston 7, and the second communication port 10 is opened. (33), and passes through the branch hose 27 into the resin hose (28). Since the second non-return valve 31 in the resin hose is closed, water flows out of the discharge port 37. In this case, since the third non-return valve 32 is closed, the second intake port is closed. When the first piston 7 is pushed up, the second piston 8 integrally formed by the rod 6 also rises, the pressure in the base 4b decreases, and the second backflow prevention valve 31 is closed. The first non-return valve 30 is opened, and water is received in the base 4b through the first communication port 9 through the first suction port 26. As the second piston 8 is pushed up together by pushing down the first driving piston 22 and pushing up the first piston 7, water in the chamber 4a is pushed past the second hose 16. The second drive piston 23 is pushed up and ready to go down next.

Next, as shown in FIG. 2, when the second driving piston 23 is pushed down, the water is injected into the chamber 4a through the second hose 16, and when the second piston 8 is pushed down, the first check valve ( 30 is closed and the second non-return valve 31 is open, so water flows out of the outlet 37 through the hose 25. In this case, the fourth non-return valve 33 is closed and the third non-return valve 28 is open, so that it does not flow into the branch hose 27 from the hose 25. Water in the well is sucked into the chamber 3a from the second suction port 28.

In addition, as time passes, the water in the first and second hoses 15 and 16 may leak and become less. In this case, when the first and second driving pistons are pulled up by the attraction force, the water in the hose 25 is removed. The 1st and 2nd hoses 15 and 16 are supplemented through the 5th and 6th non-return valves 34 and 35, and the 1st and 2nd driving pistons 22 and 23 raise to the original position.

The device uses the principle of siphon, which pushes down the driving piston, so that the pressure does not require a force to lift the weight of the water, which has a height of 50 m and the inner area of the hose, even if the depth of the well is 50 m. The power to win is enough. In addition, the pump does not need to be installed in a deep well as in the prior art, and can be used sufficiently even if it is separated from the water source.

In addition, the water contained in the first and second hoses and the upper and lower sides of the cylinder is sealed, and only the reciprocating movement is carried out, and the well water is sucked into the cylinder 1 at the first and second intake openings 26 and 28 and the hose ( 25) flows through the branch hose 27 to the outlet 37.

In addition, it can be easily performed by changing the diameter of the driving piston in order to adjust the required manpower and the sharpness height.

As described above, the present invention does not require any power, and the siphon principle does not require a valve, and by moving the pistons by force, the deep well water can be easily pumped up and the driving piston is pushed alternately to make water almost continuous. At the same time, the driving piston can be lifted alternately by hydraulic power, so it can be operated with relatively small force without requiring any return spring, etc. And the pump can pump water very efficiently even when it is far from the water source. It is advantageous feature that we can work to raise, and to be effective when power cannot be obtained in desert or disaster away from authorization.

Claims (1)

The inside of the cylinder 1 sealed up and down is divided into an upper chamber 3 and a lower chamber 4 by partition walls, and the first and second ends of the rods axially movable in a hole drilled in the center of the partition wall 2 so as to be movable up and down. 2 Pistons (7) and (8) are fixed to each other to divide the inside of the upper and lower compartments, respectively, the first pump having a lower end of the loss and the first driving piston to the first hose, the lower end and the second drive of the basement The second pump having a piston is connected to the second hose, and the first non-return valve 30 is connected between the first communication port 9 provided at the base of the cylinder 1 and the first suction port opened to the outside. The first communication port (9) connects the outlet port to the other end of the hose (25) connected through the second check valve (31), and the branch hose and the cylinder lost in the middle of the hose (25). The second communication port installed in the valve is connected through the fourth non-return valve, and the second suction port opened to the outside and the second communication port are connected to the third non-return valve. A connection through, and simple water pump that is connected to the first and second hose and the hose 25 in the first and second communicating tubes 11 and 12 respectively, through the first check valve 5 and 6 as Bounty.