WO2017173677A1 - Integrated fluid energy enlargement and regeneration device - Google Patents

Abstract

An integrated fluid energy enlargement and regeneration device. The energy enlargement and regeneration device comprises a water tank (1), a lift pipe (2), a water column a (4), a water column b (5), an electric water pump, a gas pressure conversion box (23), an energy collection box (26) and a regulation and control box (44). The device optimally utilizes levels of positive pressure and negative pressure by means of using natural atmospheric pressure and accurate mechanical control. The device pumps water to a desired position using an existing conventional water pump, then recovers and amplifies the energy again during the water pumping process. The generated energy is reused to reduce the energy consumed by the water pump whilst greatly improving the effect of water pumping.

Description

Integrated fluid energy increasing regeneration device Technical field

The present invention relates to an energy recovery device, and more particularly to an integrated fluid energy increase regeneration device.

Background technique

With the development of society, the demand for energy is increasing, and some unfavorable energy consumption pollution is also becoming more and more serious, causing tremendous harm to people. Traditional pumping technology consumes a lot of energy. In the development of pumping water technology in the past few decades, Manufacturers use a number of different ways to reduce energy consumption and improve pumping and water transfer technology. There are many energy-saving pumps in the prior art, but they are always energy intensive during use.

Summary of the invention

In order to solve the above existing problems, the present invention discloses an integrated fluid energy increasing regeneration device.

An integrated fluid energy increasing regeneration device comprising a water tank, a lift pipe, a water column a, a water column b, an electric water pump, a gas pressure conversion box, an energy collection box and a regulating box, wherein the water column b The lower end is connected to the energy collecting box through the circulation pipe a. The upper end of the water column b is provided with a flow regulating device b and an exhaust valve b, and the upper end thereof is connected to the energy collecting box through the circulating pipe d, and the lower end of the water column a passes The water pipe is connected to the electric water pump, the upper end is provided with a flow regulating device a and an exhaust valve a, and the upper end thereof is connected to the energy collecting box through the circulating pipe c, and the energy collecting box is connected to the regulating box through the circulating pipe b The control box is respectively connected to the water tank and the lift pipe, and the control box valve d is further disposed between the control box and the water tank, and the upper end of the lift pipe is provided with a flow regulating device c and an exhaust valve d, and The upper end is also connected to the upper end of the water intake pipe through the traction pipe.

Further, the circulation pipe a and the circulation pipe b are respectively provided with a valve a and a valve b, and the water intake pipe is respectively connected to the water tank and the circulation pipe a through a thin water pipe, wherein the water pipe and the water pipe are connected to each other. The valve f, the thin water pipe and the circulation pipe a are connected to the valve e.

Further, the regulating box comprises a water pipe a, a water pipe b and a valve, and the water pipe a and the water pipe b are both connected to the circulation pipe b and the water tank, and the water pipe b is also connected to the water pipe.

Further, the electric water pump is vertically placed, and the outlet pipe at the lower end of the independent water pump outlet pipe penetrates into the lower drain pipe, and the top of the lower drain pipe is connected with a pressure regulating pipe, and the upper end of the pressure regulating pipe and the gas pressure conversion box Turning on, the gas pressure conversion box is provided with an exhaust valve c, and a lower end of the gas pressure conversion box is also connected with a booster tube, and a lower end of the booster tube is inserted into the lower drain pipe, and the lower end of the lower drain pipe is The energy collection tank is switched on or taken out separately, and the energy collection tank is also connected to the water tank via a water conduit.

Further, the pressure regulating tube is provided with a water quantity regulating valve, and a valve c is disposed on the water pipe between the energy collecting box and the head tube.

Further, the electric water pump may be placed horizontally or obliquely, and a valve e is disposed on the outlet pipe at the lower end of the electric water pump.

Further, the energy collection box includes a water wheel a, a water wheel b, a water wheel c, a gear converter a, a gear converter b, a gear converter c, a kinetic energy transfer link, and a guide rail, and the gear converter a, The gear converter b, the gear converter c, and the kinetic energy transfer link are all connected in series on the guide rail, and the water wheel a is connected to the gear converter c through a connecting rod, and the water wheel b is connected to the gear converter b through the connecting rod The water wheel c is connected to the gear converter a via a connecting rod.

Further, the energy collection box may further include only the water wheel b, the water wheel c, the gear converter a, the gear converter b, and the guide rail. The water wheel b is connected to the gear converter b through a connecting rod, and the water wheel c is connected to the gear converter a through a connecting rod, and the water collecting pipe is provided with a pressure reducing auxiliary water wheel, and the pressure reducing auxiliary water wheel is Rail connection.

Advantageous Effects: The present invention utilizes the atmospheric pressure in nature and accurate mechanical control to maximize the positive and negative pressure levels, and utilizes the existing conventional water pump to pump water to an ideal place, and in the process of pumping water, the recovery is increased again. Energy, the energy generated is used again, used to reduce the energy consumption of the bottom pump, and greatly improve the pumping and water transfer efficiency.

DRAWINGS

Figure 1 is a schematic view of a first embodiment of the present invention;

Figure 2 is a schematic view of the second form of the present invention;

3 is a schematic view of an energy collection box in the first form;

Figure 4 is a schematic view of the interior of the control box.

Among them, 1, water tank, 2, lift pipe, 3, water pipe, 4, water column a, 5, water column b, 6, circulation pipe a, 7, circulation pipe b, 8, circulation pipe c, 9, circulation pipe d, 10, pressure regulating tube, 11, booster tube, 12, electric pump motor, 13, pump impeller, 14, traction tube, 15, drain pipe, 16, regulating valve, 17, exhaust valve a, 18, exhaust valve b, 19, valve a, 20, valve b, 21, valve c, 22, control box valve d, 23, gas pressure conversion box, 24, exhaust valve c, 25, exhaust valve d, 26, energy collection box , 27, water wheel a, 28, water wheel b, 29, water wheel c, 30, gear converter a, 31, gear converter b, 32, gear converter c, 33, kinetic energy transfer link point, 34, guide rail , 35, water outlet, 36, valve e, 37, valve f, 38, flow regulating device a, 39, flow regulating device b, 40, flow regulating device c, 41, step-down auxiliary water wheel 42, water pump outlet pipe, 43, valve e, 44, control box, 45, water pipe a, 46, flow pipe b.

detailed description

The invention will be further described in detail in conjunction with the drawings.

As shown, an integrated fluid energy increasing regeneration device includes a water tank 1, a lift pipe 2, a water column a4, a water column b5, an electric water pump, a gas pressure conversion box 23, and an energy collection box 26. And a regulating tank 44, the lower end of the water column b5 is connected to the energy collecting box 26 through a circulation pipe a6, the upper end of the water column b5 is provided with a flow regulating device b39 and an exhaust valve b18, and the upper end thereof passes through the circulating pipe d9 and energy The collecting box 26 is connected, the lower end of the water column a4 is connected to the electric water pump through the water collecting pipe 3, the upper end is provided with the flow regulating device a38 and the exhaust valve a17, and the upper end thereof is connected to the energy collecting box 26 through the circulating pipe c8. The energy collection box 26 is connected to the regulation box 44 through a circulation pipe b7, and the regulation box 44 is respectively connected to the water tank 1 and the lift pipe 2, and the control box 44 and the water tank 1 are further provided with a control box valve d22. The upper end of the head pipe 2 is provided with a flow regulating device c40 and an exhaust valve d25, and the upper end thereof is further connected to the upper end of the water collecting pipe 3 through the traction pipe 14, and the circulating pipe a6 and the circulating pipe b7 are respectively provided with valves A19 and valve b20, the water intake pipe 3 and the water tank 1 and the water pipe respectively The pipe a6 is connected, wherein a valve f37 is provided at the junction of the water pipe 3 and the water pipe, and a valve e36 is provided at the connection of the water pipe and the circulation pipe a6. The control box 44 includes a water pipe a45, a water pipe b46 and a valve. The water flow pipe a45 and the water flow pipe b46 are both connected to the circulation pipe b and the water tank 1, and the water flow pipe b46 is also connected to the lift pipe 2, the electric water pump is vertically placed, and the lower end of the independent water pump outlet pipe 42 is discharged. The water pipe penetrates into the lower drain pipe 15, and the top of the drain pipe 15 is connected to the pressure regulating pipe 10, and the upper end of the pressure regulating pipe 10 is connected to the gas pressure conversion box 23. An exhaust valve c24 is disposed on the gas pressure conversion box 23, and a booster tube 11 is further connected to the lower end of the gas pressure conversion box 23. The lower end of the pressurizing tube 11 penetrates into the lower drain pipe 15, and the lower drain pipe The lower end of the 15 is connected to the energy collecting box 26 or is separately connected. The energy collecting box 26 is also connected to the water tank 1 through a water pipe. The pressure regulating tube 10 is provided with a water regulating valve 16, an energy collecting box 26 and a head. A valve c21 is disposed on the water pipe between the pipes 2, and the electric water pump can also be placed horizontally or obliquely. The outlet pipe 42 at the lower end of the electric water pump is provided with a valve e43, which includes a water wheel a27 and water. Wheel b28, water wheel c29, gear converter a30, gear converter b31, gear converter c32, kinetic energy transfer link and guide rail 34, said gear converter a30, gear converter b31, gear converter c32, kinetic energy transfer link The points are connected in series on the guide rail 34, and the water wheel a27 is connected to the gear converter c32 via a connecting rod, the water wheel b28 is connected to the gear converter b31 via a connecting rod, and the water wheel c29 is converted by the connecting rod and the gear The a30 is connected, and the energy collecting box 26 is further It may include only the water wheel b28, the water wheel c29, the gear converter a30, the gear converter b31 and the guide rail 34, which is connected to the gear converter b31 via a connecting rod, the water wheel c29 passing through the connecting rod and the gear The converter a30 is connected, and the water intake pipe 3 is provided with a pressure reducing auxiliary water wheel 41, and the pressure reducing auxiliary water wheel 41 is connected to the guide rail 34.

Example: Taking the shape one as an example, as shown in Fig. 1, setting the height of the pumping water of the mechanical device, filling the fully sealed integrated mechanical device with liquid, taking water as an example, and then opening the valve at the bottom of the device, for example: regulation The tank valve d22 flows out part of the excess liquid, so that the whole device is in a state of negative pressure static state, and the electric water pump is turned on to take water from the top chamber of the water collecting pipe 3, and at the same time, the valve c21 is opened, and the traction pipe 14 forms a pressure difference with the lift pipe 2 to help the electric water pump. Pumping water is sent into the drain pipe 15, and the sum of the force generated by the pressure regulating pipe 10 and the pressurizing pipe 11 at the same time is formed, and the positive thrust of the free fall body falls to the energy collecting box 26, passes through the water wheel c29, and then Flowing into the water tank 1, while connecting the mechanical structure device, the water at the bottom of the water column a4 is discharged, the water inside the water pipe is gravity-sinked, and the negative pressure at the top of the water column a4 is increased, and the pressure difference between the circulating pipe c8 reaches the self-priming automatic water supply pipe. A4. The circulation pipe a6 absorbs water from the bottom of the water column b5, and automatically replenishes water to the circulation pipe c8 through the energy collection box 26. The water at the bottom of the water column b5 is discharged, and the water inside the water pipe sinks by gravity, which causes the negative pressure at the top of the water column b5 to increase, and the pressure difference between the circulation pipe d9 and the water is automatically supplied to the water column b5. The circulation pipe b7 takes water from the water tank 1, and automatically replenishes water to the circulation pipe d9 through the energy collection box 26. The circulation function structure of the water column a4 and the water column b5 can use the same method on the same unit, and more water columns are established at the same time. Circulation tube and energy collection point. The potential energy generated by the continuous fluid power cycle is converted into new energy by the energy collection box 26 to achieve energy saving and energy recovery and reuse. For example, the buck auxiliary water wheel 41 in the second form uses the circulating kinetic energy of the device to weaken the pressure difference caused by the head and create a better pumping condition for the electric water pump.

The basic principles and main features of the present invention and the advantages of the present invention are shown and described above, and those skilled in the art should understand that the present invention is not limited by the above embodiments, and that the above embodiments and descriptions are merely illustrative of the present invention. The present invention is susceptible to various modifications and improvements without departing from the spirit and scope of the inventions. The book and its equivalents are defined.

Claims (8)

1. An integrated fluid energy increasing regeneration device, characterized in that: the energy increasing regeneration device comprises a water tank (1), a lift pipe (2), a water column a (4), a water column b (5), an electric water pump, and a gas a pressure conversion tank (23), an energy collection tank (26) and a regulating tank (44), the lower end of the water column b (5) is connected to the energy collecting tank (26) through a circulation pipe a (6), and the water column b (5) The upper end is provided with a flow regulating device b (39) and an exhaust valve b (18), and the upper end thereof is connected to the energy collecting box (26) through a circulation pipe d (9), the water column a (4) The lower end is connected to the electric water pump through the water collecting pipe (3), the upper end is provided with the flow regulating device a (38) and the exhaust valve a (17), and the upper end thereof passes through the circulating pipe c (8) and the energy collecting box (26) Turning on, the energy collecting tank (26) is connected to the regulating box (44) through the circulating pipe b (7), and the regulating box (44) is connected to the water tank (1) and the lift pipe (2), respectively. A regulating box valve d (22) is further disposed between the regulating box (44) and the water tank (1), and the upper end of the head tube (2) is provided with a flow regulating device c (40) and an exhaust valve d (25) And the upper end is also connected to the upper end of the water intake pipe (3) through the traction pipe (14).
2. The integrated fluid energy increasing and regenerating device according to claim 1, characterized in that: the circulation pipe a (6) and the circulation pipe b (7) are respectively provided with a valve a (19) and a valve b ( 20), the water intake pipe (3) is connected to the water tank (1) and the circulation pipe a (6) through a thin water pipe, wherein the water pipe (3) and the water pipe are connected to a valve f (37), which is thin. A valve e (36) is provided at the junction of the water pipe and the circulation pipe a (6).
3. An integrated fluid energy increasing regeneration device according to claim 1, wherein said regulating tank (44) comprises a water pipe a (45), a water pipe b (46) and a valve, said water pipe Both a (45) and the water flow pipe b (46) are connected to the circulation pipe b and the water tank (1), and the water flow pipe b (46) is also connected to the lift pipe (2).
4. The integrated fluid energy increasing and regenerating device according to claim 1, wherein the electric water pump is vertically placed, and the outlet pipe at the lower end of the independent water pump outlet pipe (42) penetrates into the lower drain pipe (15). The top of the lower drain pipe (15) is connected to a pressure regulating pipe (10), and the upper end of the pressure regulating pipe (10) is connected to a gas pressure conversion box (23), and the gas pressure conversion box (23) is connected. An exhaust valve c (24) is provided, and a lower end of the gas pressure conversion box (23) is further connected with a booster tube (11), and a lower end of the booster tube (11) penetrates into the lower drain pipe (15). The lower end of the drain pipe (15) is connected to the energy collecting tank (26) or separately, and the energy collecting tank (26) is also connected to the water tank (1) through a water pipe.
5. The integrated fluid energy increasing and regenerating device according to claim 4, characterized in that: the pressure regulating pipe (10) is provided with a water quantity regulating valve (16), an energy collecting box (26) and a lift pipe ( 2) A valve c (21) is provided on the water pipe between the two.
6. The integrated fluid energy increasing and regenerating device according to claim 4, characterized in that the electric water pump can also be placed horizontally or obliquely, and the outlet pipe (42) at the lower end of the electric water pump is provided with a valve e (43). ).
7. An integrated fluid energy increasing regeneration apparatus according to claim 4, wherein said energy collecting tank (26) comprises a water wheel a (27), a water wheel b (28), and a water wheel c (29). ), gear converter a (30), gear converter b (31), gear converter c (32), kinetic energy transfer link and guide rail (34), the gear converter a (30), gear converter b (31), the gear converter c (32), the kinetic energy transfer link point are serially connected to the guide rail (34), and the water wheel a (27) is connected to the gear converter c (32) through the connecting rod Then, the water wheel b (28) is connected to the gear converter b (31) via a connecting rod, and the water wheel c (29) is connected to the gear converter a (30) through a connecting rod.
8. The integrated fluid energy increasing and regenerating device according to claim 1 or claim 6 or claim 7, wherein the energy collecting box (26) further comprises only the water wheel b (28) and the water wheel c ( 29) a gear converter a (30), a gear converter b (31) and a guide rail (34), the water wheel b (28) being connected to a gear converter b (31) via a connecting rod, the water wheel c (29) is connected to the gear converter a (30) through a connecting rod, the water intake pipe (3) is provided with a buck auxiliary water wheel (41), and the buck auxiliary water wheel (41) and the guide rail (34) connection.

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