KR20030044728A - Method of pumping by weight of water and apparatus thereof - Google Patents

Abstract

PURPOSE: A pumping method and a pumping device are provided to generate positional energy by pumping the water contained in the cylinder while applying pressure to the water when the piston is lowered by the weight of the water contained in the piston. CONSTITUTION: A support(3) is mounted at the bottom of a cylinder(2), and a packing is arranged on a circular protrusion of a drain pipe(4) connected to the bottom of the cylinder. A valve with a handle is inserted into the packing. A packing(42) is mounted on a circular protrusion(41) of a water inlet pipe(40) connected to the bottom of the cylinder, and a handle of a valve(44) is inserted into the packing. A double-sided U-shaped packing(11) is fitted into the groove formed at the outer surface of the lower end of a piston(10) connected to a water tank(54). The piston is mounted in the cylinder, and a hole(12) is formed at the bottom of the piston. A cap(15) having a U-shaped packing(14) and an edge(16) is mounted onto a circular protrusion(13). Restraint plates(20,20'') are arranged at the lower ends of vertical rods(19,19'') which are mounted to bearings(23,23'') arranged along the circumference of the upper inner wall of the piston. Horizontal rods(21,21'') have ends mounted between a pull plate(49) and a push plate(50), and a float(22) is coupled to the screw arranged at the top of a pulling rod(51). The float is disposed in a protective plate(52) having a hole(53), and horizontal rods(27,27'') of the lever are mounted between a float(28) and a push plate(56).

Description

Method of pumping by weight of water and apparatus thereof

The present invention relates to a "method and apparatus for pumping by weight of water" invented for pumping water flowing down from a dam, waterfall or high place by the weight and buoyancy of water to obtain potential energy or to recycle this water.

The present invention relates to a "method and apparatus for pumping by weight of water" invented for pumping water flowing down from a dam, waterfall or high place by the weight and buoyancy of water to obtain potential energy or to recycle this water.

The conventional pumping method consumes a lot of energy because water is pumped by a pump using electric power or oil.

In order to fundamentally improve many of these problems, the present invention introduces water flowing from a dam, a waterfall, or a high place into a piston, and pressurizes the water in a high pressure place by applying pressure to the water in the cylinder by the weight thereof. To pump.

The two pistons, which are connected by strings through the axle wheels, do this, releasing the water in them to reduce the weight, and then the water descends into the raised piston and the piston descending by that pressure pressurizes the water in the cylinder. It is to repeat the work to be described in detail by the accompanying drawings as follows.

1 is a perspective view of the present invention

2 (a) is a longitudinal cross-sectional view and principle of operation of the present invention

Figure 2 (b) is a longitudinal cross-sectional view and principle of operation of the present invention

As shown in Figs. 1 (a) and 2 (a), the pedestal 3 is mounted on the bottom of the rust-free and rigid cylinder 2 having the groove 1 formed on the upper side thereof. The height can be adjusted arbitrarily by turning, but O-ring treatment is performed to prevent water from leaking to this part.

The packing 6 is placed on the plane of the annular jaw 5 of the inner wall of the drain pipe 4 connected to the lower end of the cylinder 2, and the bag 7 of the valve 8 is inserted downward to prevent water from flowing backward. Instead of (8), a valve ball may be placed on the packing 6 to prevent backflow of water.

And the drain pipe (4) to use a large one at the end to connect the other drain pipe or hose arbitrarily adjust the length and hole while constructing a convenient water pumping to a high or far place.

The packing 42 is placed on the upper surface of the annular jaw 41 formed on the inner wall of the water inlet pipe 40 connected to the lower end of the cylinder 2, and the bag 43 of the valve 44 is put thereon. When the cylinder (2) is in a vacuum state while absorbing water, water is absorbed from the end of the hose connected to the inlet pipe (40), and when the pressure is applied to the cylinder (2), the valve (44) is sealed while the inlet pipe (40) To prevent water from being discharged.

Insert the double-sided U-packing 11 with U-packing on the upper and lower sides in the outer circumferential groove at the bottom of the piston 10 to which the water tank 54 with the space 9 is connected, and then attach the piston 10 to the cylinder 2. When the piston 10 moves up and down inside the cylinder 2, the piston 10 prevents water from leaking by the double-sided U-packing 11, but drills a hole 12 in the bottom of the piston 10 and annular jaws 13 The U-packing 14 is placed on the upper surface of the bottom), and then a stopper 15 having a frame 16 formed therein is placed in the periphery of the plurality of guide rods 45 formed at the bottom of the U-packing 14, thereby opening the hole 12 ) Can be opened and closed.

And a lower limit plate (19) (19 ") of the lever lowered by the shaft (24, 24") in the plurality of bearing (23) (23 ") formed around the upper end of the inner wall of the piston (10) 20 " 20 " are formed, and the ends of the horizontal sections 21 and 21 " of the lever are mounted between the pull plate 49 and the push plate 50 formed at the lower end of the push rod 51, 51 is coupled to the upper screw of the upper end of the screw 22, the steamer 22 is configured to move up and down by buoyancy of water in the protective plate 52 having a hole 53 formed on the bottom of the top plate (29).

And the end of the horizontal section (27) (27 ") of the lever formed by the shaft (47) (47 ') on the bearing (48) (48') formed on the bearing (23) (23"), It is mounted between the contact plates 56, and the hooks 26 and 26 "

The top plate 29 of the bucket 54 coupled to the piston 10 is connected to a well-strung strong string 30 and then the piston 10 pumps water while moving up and down inside the cylinder 2. A pumping device A is configured.

The top plate 29 'of the piston 10' of the pumping device B configured in the same manner as the pumping device A configured as described above is connected with a string 30, and the string 30 is connected to the shaft plate on the fixed plate 31. When the piston 10 of the pumping device A ascends through the axial wheels 32 and 32 'laid out by 33) (33'), the piston 10 'of the pumping device B is configured to descend, When the piston 10 of the pumping device A descends, the piston 10 'of the pumping device B rises.

Then, as shown in FIG. 1A, a drain hole for supplying water flowing from a dam, a waterfall, or a high place to the piston 10 of the pumping device A or the piston 10 'of the pumping device B ( 34 is mounted on the support plate 38 formed with the shaft 37, the shaft 37 is inserted into the hole in the bottom of the guide aberration 35, and the top surface of the guide aberration 35 The induction aberration 35 is configured to rotate left and right while the string 30 moves to the left and right when the piston 10, 10 ′ moves up and down by connecting the string 30 to the shaft 39. .

That is, when the piston 10 is lowered, the string 30 of the guided aberration 35 moves the string 30 to the left side along the piston 10 through the shaft wheels 32 and 32 '. When moved along the drain 34 is configured to move to the upper portion of the piston (10 ') to supply the water flowing in the dam or waterfall, or high to the piston (10').

When the piston 10 'is lowered, the shaft 30 of the guided aberration 35 is the string 30 as the string 30 moves to the right along the piston 10' through the axle wheels 32 and 32 '. When moved along the drain 34 is configured to move to the upper portion of the piston 10 to supply the piston 10 with water flowing from the dam or waterfall, or high.

As shown in FIG. 2B, the aberration 57 is directed toward the piston 10 so that all the water flowing from the drain 34 of the induced aberration 35 is supplied to the piston 10, 10 ′. The aberration 59 is directed toward the piston 10 ', and the branch point 58 is fixed at the center of the two pistons 10 and 10'.

As described above, the principle of operation of the present invention is to move the drain 34 of the induced aberration 35 toward the pumping device A as shown in FIGS. 1A and 2B. When it is introduced, water is accumulated in the space 9 of the piston 10 and the piston 10 is lowered toward the bottom of the cylinder 2 due to the increase in the weight thereof.

At this time, water is accumulated in the space 9 of the piston 10 in a state in which the stopper 15 having the rim 16 is in close contact with the U-packing 14, but since the water is not accumulated up to the tub 22, The lower end of the vertical sections 19, 19 "is placed on the top of the frame 16, and the limiting plates 20, 20" are caught by the inner wall of the frame 16 while the lower portion 22 is lowered by its weight. Therefore, while the lower end of the vertical sections 19, 19 "is stably seated on the top of the frame 16, the stopper 15 cannot be opened and closes the hole 12.

Therefore, the water or air in the cylinder (2) is subjected to high pressure by the piston (10) and the stopper (15) and the double-sided U-packing (11), pushing the valve (8) of the drain pipe (4) and drain pipe (4) Is discharged.

Water continues to flow into the space 9 even while the piston 10 is lowered, so that water that accumulates in the piston 10 reaches the bottom of the cylinder 10 when the piston 10 approaches the bottom of the cylinder 2. At the same time, the buoyancy floats 22 due to its buoyancy, so that the lower end of the vertical section 19 moves about the shaft 24 and moves inwardly of the rim 16, separated from the top of the rim 16. Therefore, when the stopper 15 is pushed up from the bottom, the state can be opened.

However, because there is a lot of water on the stopper 15, the stopper 15 is lowered with the piston 10 closed and the stopper 15 is brought into contact with the pedestal 3 so that the stopper 15 is the total weight of the piston 10. And the piston (10) is lowered and the steamer (28) (28 '), which is still immersed in the water, tries to float due to the buoyancy of the water, but the hook (26) (26') is attached to the outer wall of the frame (16). Due to the hanging, the moxibustion tube 28 (28 ') is not injured, but the stopper 15 opens and the hook (16) is pushed up and the hook (28) (28') is injured in the water when the rod is pushed up. 26) 26 'enters the bottom of the stopper 15, so the bottom of the stopper 15 is hooked to the hooks 26, 26' so that the stopper 15 continues to open.

Therefore, the water in the piston (10) is discharged to accumulate in the cylinder (2).

In this case, since there is no water in the piston 10, the steam trough 28 descends by its weight while the hooks 26 and 26 'are separated from the bottom of the stopper 15, so the stopper 15 also falls by weight. Plug the hole 12.

At this time, the lower limit of the vertical section 19 (19 "), which has already pushed the inner wall of the frame (16) by the lowering of the steam container (22), is placed on the top of the frame (16). Since the stopper 15 is stably stopped at the inner wall of the frame 16, the stopper 15 is completely closed and closed so that it cannot be opened.

Such a condition can be achieved in the state where the piston 10 is lowered to its lower limit or in the process of ascending, which can be done at the lower limit when there is no water in the cylinder 2, and when there is water in the cylinder 2, the piston ( Since the water of 10) cannot be discharged, it is so in the process of raising the piston 10.

In the state where the piston 10 is lowered to its lower limit, the induction aberration 35 mounted on the support plate 38 as shown in FIG. 1 (a) is moved while the string 30 moves to the left along the piston 10. The water coming out of the drain 34 in the state rotated counterclockwise around the center 37 enters the piston 10 'of the water pump B through the aberration 59.

In this case, water is removed from the piston 10, and water is accumulated in the piston 10 '. As the weight of the piston 10' is increased, the piston 10 'is lowered and the piston 10 is raised. Is operated when the weight of the entire piston 10 ′ is greater than the weight of the entire piston 10.

As the weight of the piston 10 'is increased, the piston 10 is raised, and water or air in the cylinder 2' is lowered from the piston 10 'and the stopper 15' and the amount of the piston 10 'when the piston 10' is lowered. Under the pressure of the U-packing 11 ', the valve 8' of the drain pipe 4 'is pushed and discharged. The overall principle of operation of the pumping device B is the same as that of the pumping device A. Omit.

Pumping device (B) and pumping device (A) is repeatedly pumped by the water is continuously discharged to the drain pipe (4) (4 ') by the above-described action.

Location and width of the branch point 58 when water from the drain 34 enters the piston 10 'of the pump B or the piston 10 of the pump A through the aberrations 59 and 57 The two pistons (10, 10 ') to fulfill the role, while adjusting the must be adjusted to match the rise and fall.

When the pistons 10 and 10 'rise and the inside of the cylinders 2 and 2' is in a vacuum state, water is sucked from the hose connected to the ends of the water intake pipes 40 and 40 ', and the pistons 10 and 10' When the inside of the cylinder (2) (2 ') becomes high pressure as the valve lowers, the valves (44) and (44') of the intake pipes (40) and (40 ') are closed and water is pumped into the drain pipes (4) and (4'). do.

According to the present invention, water flowing from a dam, a waterfall, or a high place is introduced into a piston, and when the piston descends by its weight, the water in the cylinder is pumped while pumping the water in the cylinder to obtain potential energy or vary. It is effective to utilize.

Claims (2)

A pedestal 3 for adjusting the height is mounted on the bottom of the cylinder 2 on which the groove 1 is formed on the upper side, and the packing is formed on the plane of the annular jaw 5 of the drain pipe 4 connected to the lower end of the cylinder 2. 6) put the valve (8) or the ball formed with the bag (7) thereon, and put the packing (42) on the upper surface of the annular jaw 41 of the inlet pipe (40) connected to the lower end of the cylinder (2) Put the bag 43 of the valve 44 thereon, and insert the double-sided U-packing 11 into the outer circumferential groove at the bottom of the piston 10 to which the bucket 54 with the space 9 is connected, and then the piston ( 10) is embedded in the cylinder (2), the hole 12 is drilled in the bottom of the piston 10, the U-packing (14) on the upper surface of the annular jaw (13) inside the guide rod 45 formed around the Vertically of a lever placed on a stopper 15 having a frame 16 formed thereon and arranged with shafts 24 and 24 " on a plurality of bearings 23 and 23 " formed around the upper end of the inner wall of the piston 10; Under the liver (19) (19 "), type the limiting plate (20) (20") The horizontal ends 21 and 21 ″ of the lever are mounted between the pull plate 49 and the push plate 50 formed at the bottom of the push rod 51, and the hot tub 22 is attached to the top screw of the push rod 51. And the trough 22 is in a protective plate 52 with a hole 53 formed at the bottom of the top plate 29, and the bearings 48 and 48 'below the bearings 23 and 23 ". ), The horizontal ends 27 and 27 "ends of the levers formed on the shafts 47 and 47 'are mounted between the steam trough 28 and the pressing plate 56, and the vertical ends 25 and 25" ends. Piston 10, which forms hooks 26 and 26 " and connects string 30 to top plate 29 of bucket 54, is lifted by cylinder A by means of pumping device A. A method and apparatus for pumping water by weight of water, characterized in that water is pumped. The same pumping device (B) as the pumping device (A) of claim 1 is fixed and arranged vertically in parallel, and then the piston (10 ') of the piston (10) top plate (29) of the pumping device (A) and the pumping device (B). ) When the piston 10 is lowered by hanging the string 30 connecting the top plate 29 'to the axle wheels 32 and 32' arranged on the fixed plate 31 with the shafts 33 and 33 '. 10 'rises, and the two pistons 10 and 10' are suspended on the axle wheels 32 and 32 'so that the piston 10 can rise when the piston 10' is lowered. 10) Mount aberrations 57 and 59 with branches 58 above 10 'and insert the shaft 37 of the support plate 38 into the hole in the bottom of the induced aberration 35 with the drain 34. And, the pumping method and apparatus applied to the weight and buoyancy of water, characterized in that the string 30 is connected to the shaft 39 of the upper surface of the induced aberration (35).