KR101932259B1 - water pressure generator - Google Patents

Abstract

According to an embodiment, there is provided a water pressure generator which includes: first and second gravity tanks provided to be able to descend by the weight of water supplied to an inside through water supply means, and provided at a low portion with drain means to be opened at a lowered position and closed at the time of ascending, such that the first and second gravity tanks are arranged to move up and down relative to each other; a storage tank for storing the water drained from the first and second gravity tanks; a pump device for performing a pumping operation in both directions through a first pumping rod provided below the first and second gravity tanks to suck and pump the water in the storage tank; a first wire connecting between the first gravity tank and one end of the first pumping rod to move the first pumping rod in one direction by a pulling force according to a descending operation of the first gravity tank; a second wire connecting between the second gravity tank and the opposite end of the first pumping rod to move the first pumping rod in the opposite direction by a pulling force in accordance with a descending operation of the second gravity tank; and an amplifying device having a fixed pulley and a moving pulley for amplifying pulling force of the first and second wires.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The disclosed invention relates to a hydraulic pressure generating device which is capable of effectively introducing low water level water by introducing the principle of a hoisting machine.

Generally, water with a low depth of water is difficult to make a turbine or aberration because it is difficult to form a large head even if the water is abundant, and it is difficult to pump the water unless a pump driven by a separate external power is used.

The use of a water hammer pump to pump water at low water depth without external power may be conceivable, but a water hammer pump having a large volume as compared with the pumping capacity is not preferable in terms of space utilization, It was difficult to expect.

In order to solve such a problem, Korean Patent Registration No. 10-1283939 filed and filed by the applicant of the present application discloses a hydraulic pressure generating device using a lever capable of obtaining high-pressure water with flowing water having a depth of less than 1 m by using a lever, However, in the case of the hydraulic pressure generating device disclosed in the prior art, since the length of the lever is excessively long in order to obtain a higher pressure water, it is difficult to reduce the size of the device in comparison with the efficiency of the high-pressure water.

Provided is a water pressure generating device capable of efficiently pumping water at a lower depth of water to a higher position by using its water pressure and also realizing a small size of the device.

The water pressure generating device according to one embodiment is installed so as to be able to descend by the weight of water supplied to the inside through the water supply means, and the drain means provided at the lower portion is opened at the lowered position, closed at the rising position, A first gravity tank and a second gravity tank provided; A storage tank for storing water drained from the first and second gravity tanks; Wherein the first gravity tank and the second gravity tank are located below the first gravity tank and the second gravity tank to pump water in the storage tank, A first wire connecting between the first gravity tank and one end of the first pumping rod to move the first pumping rod in one direction by a pulling force according to a descending operation of the tank; A second wire connecting between the second gravity tank and the other end of the first pumping rod to move the first pumping rod in the other direction by a pulling force in accordance with a descending operation of the second gravity tank; And an amplifying device having a fixed pulley and a moving pulley to amplify the pulling force of the first wire and the second wire.

The amplifying device comprising: a first amplifying device for amplifying the pulling force of the first wire; And a second amplifying device for amplifying the pulling force of the second wire, wherein the first amplifying device comprises: a first fixing part; A plurality of first fixed sheaves mounted on the first fixed portion; A first moving part provided at a lower portion of the first fixed sheave; And a plurality of first moving sheaves mounted on the first moving unit, wherein the first wire is connected to an upper portion of the first gravity tank and has a plurality of first fixed sheaves and a first moving sheave, A first amplifying wire to which the other end is fixed to the first fixing part in a state of alternately winding the first fixed sheave and the first moving sheave; And a first connecting wire connecting the first moving part and one end of the first pumping rod, wherein the second amplifying device comprises: a second fixing part; A plurality of second fixed sheaves mounted on the second fixing portion; A second moving part provided at a lower portion of the second fixed sheave; And a plurality of second moving sheaves mounted on the second moving part, wherein the second wire has one end connected to the upper part of the second gravity tank, and the plurality of second fixed sheaves and the second moving sheave A second amplifying wire whose other end is fixed to the second fixing part in a state of being alternately wound in accordance with the second fixed sheave and the second moving shear order; And a second connecting wire connecting the second moving part and the other end of the first pumping rod.

The pumping device comprising: a first pump having the first pumping rod to pump water in the storage tank in both directions; And a second pump for pumping water pumped through the first pump in both directions by driving the first pump.

Wherein the second pump comprises a second pumping rod moving in both directions, the pumping device interlocking with the second pump by means of the second pumping rod, each pumping water in the storage tank in both directions And a third pump which is connected to the second pump.

The water pressure generating device according to one aspect can continuously improve the pumping pressure efficiency of the water by amplifying the force according to the principle of the hoist machine so that water at a low water depth can be effectively Can be pumped.

Also, the hydraulic pressure generating device using the principle of the hoistway is compared with the case of employing a lever such as the registered patent application No. 10-1283939 filed by the present applicant and entitled " Hydraulic pressure generating device using lever) , It is possible to reduce the size of the apparatus even if the intensity of the high pressure water obtained is made larger, so that it is possible to reduce the cost of installing and manufacturing the apparatus.

1 is a front view showing a structure of a water pressure generator according to an embodiment, and is a front view showing a state in which a first gravity tank rises and a second gravity tank is lowered.
2 is a side view showing the structure of the amplifying device of the water pressure generator according to the embodiment in the state of FIG.
3 is a front view showing a structure of a pressure generator according to an embodiment, and is a front view showing a state in which the first gravity tank is lowered and the second gravity tank is raised.
4 is a side view showing the structure of the amplifying device of the water pressure generator according to the embodiment in the state of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

1 to 4, a water pressure generating device according to an embodiment includes a first gravity tank 10 (see FIG. 1) installed to be able to descend by the weight of water supplied to the inside through water supply means 31 and 32, And a second gravity tank (20).

The first and second gravity tanks 10 and 20 are installed on the lift frames 1 and 2 so as to be able to move up and down. A frame 1 and a second lifting frame 2 for installing the second gravity tank 20. [

The first and second gravity tanks 10 and 20 are rotatably supported on the lift frames 1 and 2 through guide rollers 11 and 21 provided on both sides of the lift frames 1 and 2, And can be smoothly moved up and down.

The water supply means 31 and 32 include a first water supply means 31 arranged on one side of the upper part of the first lift frame 1 and a second water supply means 32 arranged on the other side of the second lift frame 2, . ≪ / RTI > The water supply means (31) can be connected to a water supply source such as a river having a low water depth.

At the lower portions of the first lifting frame 1 and the second lifting frame 2 are provided stoppers 1a and 2a for holding the gravity tanks 10 and 20 in order to limit the descending range of the gravity tanks 10 and 20 .

The first and second gravity tanks 10 and 20 each have drain means 12 and 22 at the bottom portion thereof. The drain means 12 and 22 may include a drain port and a valve for opening and closing the drain port.

The first and second gravity tanks 10 and 20 are connected to the first and second gravity tanks 10 and 20 so as to stop the water supply operation of the water supply means 31 and 32 when the water is filled in the first and second gravity tanks 10 and 20, A water level sensor (not shown) for detecting the water level can be installed, respectively.

The gravity tanks 10 and 20 or the lifting frames 1 and 2 are provided with position sensors (not shown) for detecting the positions of the gravity tanks 10 and 20, 20 may be opened at the lowered position of the gravity tanks 10, 20 and closed at the rising of the gravity tanks 10, 20 depending on the position of the gravity tanks 10, 20.

The first gravity tank (10) and the second gravity tank (20) can be connected through the interlocking wire (41). The interlocking wire 41 can be connected between the gravity tanks 10 and 20 in a state where both ends of the interlocking wire 41 are coupled to the upper portions of the first and second gravity tanks 10 and 20. The interlocking wire 41 between the first and second gravity tanks 10,20 can be supported on the guide pulleys 42,43 and 44 and the guide pulleys 42,43,44 can be supported on the gravity tank 10.20, And may be formed in a plurality of units including those provided on the upper portion.

Accordingly, the first gravity tank 10 and the second gravity tank 20 can move up and down in opposite directions. That is, when the first gravity tank 10 is lowered by the weight of the water supplied through the first water supply means 31, the second gravity tank 20 is closed in the state where the drain means 22 is closed, And the lowered first gravity tank 10 is opened by the drainage means 12 to discharge the inside water to the outside. As the elevated second gravity tank 20 receives water through the second water supply means 32, the weight of the first and second gravity tanks 10, 20 is reversed, The drainage means 22 of the first gravity tank 10 is closed and the drainage means 22 of the first gravity tank 10 ascends to an empty state without water, Water is supplied from the means (31). As the operation progresses repeatedly, the first and second gravity tanks 10 and 20 can mutually and successively perform the ascending and descending operations.

The water pressure generating device further includes a storage tank 50 for storing water drained from the first and second gravity tanks 10 and 20 and a storage tank 50 for sucking and pumping water from the storage tank 50 And a pump device (60) provided thereon.

The storage tank 50 may store water discharged from the lowered position of the first and second gravity tanks 10 and 20 at a lower position of the lowered position of the first and second gravity tanks 10 and 20. A drain port 51 and a drain valve 52 may be provided at one side of the bottom of the storage tank 50 so that water in the storage tank 50 can be discharged to the outside if necessary.

The pump device 60 may be provided to perform a pumping operation in both directions through the first pumping rod 72 moving in both directions.

More specifically, the pump device 60 includes a first pump 70 having a first pumping rod 72 to pump the water in the storage tank 50 to pump in both directions, and a second pump 70, A second pump 80 having a pumping rod 82 for pumping water pumped through the first pump 70 in both directions by driving the first pump 70 and a second pump 80 for pumping water pumped through the second pumping rod 82, And a pair of third pumps (90, 100) interlocked with the second pump (80) by suction of the water in the storage tank (50) and pumping water in both directions.

The first pump 70 includes a first pumping rod 72 and a first cylinder 71 through which the first pumping rod 72 penetrates and a first pumping rod 72 inside the first cylinder 71, And a first piston (73) provided on the piston.

The second pump 80 includes a second cylinder 81 provided on the first cylinder 71, a second pumping rod 82 installed on the second cylinder 81, a second pumping rod 82 And a second piston 83 installed in the second cylinder 81 through the second piston 83. The first piston (73) and the second piston (83) can be arranged to perform a pressing action in mutually opposite directions.

The pair of third pumps 90 and 100 include third and fourth cylinders 91 and 101 disposed on both sides of the second cylinder 81 and third pumping rods 92 and 102 installed on the third cylinder 91 and 101, And third pistons 93 and 103 installed in the third cylinders 91 and 101 through the rods 92 and 102, respectively.

Both sides of the first cylinder 71 and the pair of third cylinders 91 and 101 are connected to the pair of third pumps 90 and 100 so that the first pump 70 and the pair of third pumps 90 and 100 can suck the water in the storage tank 50 And may be connected to the storage tank 50 through the suction pipes 130 and 140 of the storage tank 50.

The pair of suction pipes 130 and 140 may be divided into a first suction pipe 130 and a second suction pipe 140. The first and second suction pipes 130 and 140 may be provided with check valves 160 respectively. The check valves 160 of the first and second suction pipes 130 and 140 are configured such that the water in the storage tank 50 is discharged to the first and third cylinders 71 and 9110 according to the movement of the first and third pistons 73, The water in the first and third cylinders 71, 91, and 101 may be prevented from flowing into the storage tank 50 while allowing the water to be sucked into the inside.

The first cylinder 71 and the second cylinder 81 are connected to each other through a pair of connection pipes 151 and 152. The connection pipes 151 and 152 are connected to the first connection pipe 151 and the second connection pipe 152, . The first and second connection pipes 151 and 152 are respectively provided with check valves 160 so that the flow of water can be allowed only in the direction from the first cylinder 71 to the second cylinder 81.

A pair of discharge pipes 110 and 120 may be connected to the second cylinder 81 and the pair of third cylinders 91 and 101, respectively. The pair of discharge pipes 110 and 120 can be divided into a first discharge pipe 110 and a second discharge pipe 120 and a check valve 160 is installed in each of the first discharge pipe 110 and the second discharge pipe 120 . The check valves 160 provided in the first and second discharge pipes 110 and 120 are provided in the discharge pipes 110 and 120 while allowing the water in the second cylinder 81 and the third cylinders 91 and 101 to be discharged into the discharge pipes 110 and 120, The water in the first and second cylinders 81, 91 and 101 can be prevented from flowing back to the second and third cylinders 81,

The outlets of the first and second discharge pipes 110 and 120 extend above the water supply means 31 and 32 and the water discharged through the first and second discharge pipes 110 and 120 can be stored in the pumping tank.

A pair of third pumps 90 and 100 are provided to be interlocked with the second pump 80 in order to increase the pumping capacity. The second pumping rod 82 includes a pair of third pumps 90 and 100, The first and second pumping rods 92 and 102 can be integrally connected to the pair of third pumping rods 92 and 102, respectively. Accordingly, the third piston (93, 103) can perform the pushing operation in the same direction as the second piston (83).

1, when the first pumping rod 72 is driven in one direction (the right direction in the drawing) and the first piston 73 performs a pushing action to the right, the pressure of the first cylinder 71 The second piston 83 is cut to the second cylinder 81 through the first connection pipe 151 and the second piston 83 performs a pressing action to the left so that the third pumping rods 92, (93, 103) are also pressed to the left. At this time, the water in the storage tank 50 is sucked into the first and third cylinders 71, 91, 101 through the first suction pipe 130 and the discharge pressures of the second and third cylinders 81, 91, 1 discharge pipe (110).

3, when the first pumping rod 72 is driven in the other direction (the left direction in the drawing) and the first piston 73 performs the pushing action to the left, the pressure of the first cylinder 71 The second piston 83 is moved to the right to perform the pressing action so that the third pumping rods 92 and 102 are coupled to the right side While the third pistons 93 and 103 perform a pressing action to the right. At this time, the water in the storage tank 50 is sucked into the first and third cylinders 71, 91, 101 through the second suction pipe 140, and the discharge pressures of the second and third cylinders 81, 91, 2 discharge pipe (120).

Accordingly, the pumping device 60 performs the pumping action in both directions through the first discharge pipe 110 and the second discharge pipe 120 in a state where the pumping force of the first pump 70 is increased.

The hydraulic pressure generating device may further include a first pumping rod 72 connected to the first gravity tank 10 and the first pumping rod 72 to move the first pumping rod 72 in one direction by the pulling force of the first gravity tank 10, A first wire 170 connecting between the first gravity tank 20 and the second gravity tank 20 so as to move the first pumping rod 72 in the other direction by the pulling force of the lowering action of the second gravity tank 20, And a second wire (180) connecting between the other ends of the first pumping rod (72).

Accordingly, the first gravity tank 10 and the second gravity tank 20 are sequentially supplied with water from the water supply means 31 and 32 and are alternately raised and lowered to discharge water to the storage tank 50, The first amplifying wire 171 of the first wire 170 and the second amplifying wire 181 of the second wire 180 are simultaneously pulled alternately to move the first pumping rod 72 in both directions, 60 are driven.

The water pressure generating apparatus also includes a first wire 170 for driving the first pumping rod 72 and an amplifying device 200 or 300 for amplifying the pulling force of the second wire 180. The amplifying device 200, 210 and 310 and moving pulleys 220 and 320 to amplify the pulling force of the wires 170 and 180 according to the principle of the hoisting machine.

The amplifying devices 200 and 300 may include a first amplifying device 200 amplifying the pulling force of the first wire 170 and a second amplifying device 300 amplifying the pulling force of the second wire 180.

The first amplifying device 200 includes a first fixing part 230, a plurality of the first fixed sheaves 210 installed on the first fixing part 230, And a plurality of the first moving sheaves 220 installed on the first moving part 240 so as to move integrally with the first moving part 240. [

The first wire 170 may include a first amplifying wire 171 and a first connecting wire 172. The first amplifying wire 171 has one end connected to the upper portion of the first gravity tank 10 and has a first fixed sheave 210 and a second fixed sheave 210 connected to the first fixed sheave 210 and the first movable sheave 220, The other end may be fixed to the first fixing part 230 while being alternately wound in the moving pulley 220 sequence. The first connecting wire 172 may be provided to connect one end of the first moving part 240 and one end of the first pumping rod 72.

The second amplifying device 300 includes a second fixing part 330, a plurality of the second fixed sheaves 310 installed at the second fixing part 330, A second moving part 340 and a plurality of the second moving sheaves 320 installed on the second moving part 340 so as to move integrally with the second moving part 340.

The second wire 180 may include a second amplifying wire 181 and a second connecting wire 182. The second amplifying wire 181 has one end connected to the upper portion of the second gravity tank 20 and the second fixed sheave 310 and the second fixed sheave 310 are connected to the second fixed sheave 310 and the second moving sheave 320, And the other end may be fixed to the second fixing part 330 while being alternately wound in the order of the moving pulley 320. [ The second connecting wire 182 may be provided to connect the other end of the first pumping rod 72 with the second moving part 340.

A first amplifying wire 171 between the first fixed sheave 210 and the first gravity tank 10 and a second amplifying wire 171 between the second fixed sheave 210 and the second gravity tank 20 193, 193 to support the second amplifying wire 181 between the first amplifying wire 181 and the second amplifying wire 181, respectively. And a first connecting wire between the first moving part and the first pumping rod and a second connecting wire between the second moving part and the first pumping rod can be supported through the guide pulley 194, respectively.

The amplifying devices 200 and 300 are used to increase the pulling force of the first and second wires 170 and 180 using the principle of the hoistway. The plurality of fixed sheaves 210 and 310 constituting the first and second amplifying devices 200 and 300 20 and the moving pulleys 220 and 320 increase the lower force of the gravity tanks 10 and 20 in the direction opposite to the downward direction of the middle tanks 10 and 20 to thereby pull the first pumping rod 72 1 and the second wires 170 and 180 are increased.

The increase in pulling force of the first and second wires 170 and 180 increases the motive force of the first pumping rod 72 that drives the pump device 60 so that the hydraulic pressure generating device increases the pumping force of the pump device 60 So that the water of the water source, which is difficult to form a large free fall, can be efficiently pumped to a higher position.

1: first lift frame 2: second lift frame
1a: Stopper 2a: Stopper
10: first gravity tank 20: second gravity tank
31: first water supply means 32: second water supply means
41: interlocking wire 50: storage tank
60: Pump device 70: First pump
72: first pumping rod 80: second pump
82: second pumping rod 90, 100: third pump
110: first discharge pipe 120: second discharge pipe
130: first suction pipe 140: second suction pipe
160: check valve 170: first wire
171: first amplifying wire 172: first connecting wire
180: second wire 181: second amplified wire
182: second connection wire 200: first amplifying device
210: first fixed pulley 220: first movable pulley
230: first fixing part 240: first moving part
300: second amplifying device 310: second fixed pulley
320: second moving pulley 330: second fixing part
340: second moving part

Claims (4)

A first gravity tank provided so as to be able to descend by the weight of water supplied to the inside through the water supply means, and a drain means provided at a lower portion thereof opened at the lowered position and closed at the time of ascending, Tank;
A storage tank for storing water drained from the first and second gravity tanks;
A pumping device for pumping water in both directions through a first pumping rod provided below the first gravity tank and the second gravity tank to pump the water in the storage tank,
A first wire connecting between the first gravity tank and one end of the first pumping rod to move the first pumping rod in one direction by a pulling force according to a descending operation of the first gravity tank;
A second wire connecting between the second gravity tank and the other end of the first pumping rod to move the first pumping rod in the other direction by a pulling force in accordance with a descending operation of the second gravity tank; And
And an amplifying device having a fixed pulley and a moving pulley for amplifying a pulling force of the first wire and the second wire. The method according to claim 1,
Wherein the amplifying device comprises:
A first amplifying device for amplifying the pulling force of the first wire; And
And a second amplifying device for amplifying the pulling force of the second wire,
The first amplifying device includes:
A first fixing part;
A plurality of first fixed sheaves mounted on the first fixed portion;
A first moving part provided at a lower portion of the first fixed sheave; And
And a plurality of first moving sheaves mounted on the first moving part,
The first wire may be a wire,
Wherein the first fixed sheave and the first movable sheave are alternately wound on the first fixed sheave and the first fixed sheave in the order of the first moving sheave, A first amplifying wire fixed to the gate; And
And a first connecting wire connecting the first moving part and one end of the first pumping rod,
The second amplifying device includes:
A second fixing part;
A plurality of second fixed sheaves mounted on the second fixing portion;
A second moving part provided at a lower portion of the second fixed sheave; And
And a plurality of second moving sheaves mounted on the second moving part,
The second wire may include:
A second fixed sheave and a second movable sheave which are alternately wound on the second fixed sheave and the second fixed sheave in the order of the second movable shear, A second amplifying wire fixed to the gate; And
And a second connecting wire connecting the second moving part and the other end of the first pumping rod. The method according to claim 1,
The pump device
A first pump comprising the first pumping rod to pump water in the storage tank in both directions; And
And a second pump for pumping water pumped through the first pump in both directions by driving the first pump. The method of claim 3,
The second pump comprising a second pumping rod moving in both directions,
Wherein the pump device further comprises a pair of third pumps interlocked with the second pump by the second pumping rod, each of the third pumps sucking water in the storage tank in both directions.

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