TWM632392U - Water tank power generation system built on a slopeland - Google Patents

Abstract

A closed water tank power generation system constructed on a sloping land comprises at least a water circulation device and a power generation component, the water circulation device has an upper raw water tank and a lower raw water tank, the level of the upper raw water tank is higher than the lower raw water tank, and the upper raw water tank is higher than the lower raw water tank. The water tank and the lower raw water tank are connected by two pipes, each pipe is provided with a control valve, one of the pipes is equipped with a water pump, and the power generation component has a water turbine, which is installed in the other. On one of the pipelines, the water turbine is electrically connected to an accumulator, and the water in the upper raw water tank automatically flows to the lower raw water tank through the pipeline, and electricity can be generated through the water turbine.

Description

Water tank power generation system built on sloping land

This creation is about a water tank power generation system constructed on a sloping land.

Electricity is one of the indispensable energy sources in human life. With the continuous growth of population, industry and technology in China, power consumption has been increasing year by year. In recent years, electricity consumption has become even more urgent. Frequent transmission, thus causing a lot of inconvenience, if additional electricity can be obtained from the existing resources, it will be able to effectively alleviate the domestic electricity crisis.

Hydropower is one of the common renewable energy sources in China. It uses the drop of water level to make the water flow to drive the turbine to rotate and drive the generator to generate electricity. However, hydropower often has drifts and impurities in the water, which will affect or even destroy the generator. operation, thereby reducing costs and performance.

Taiwan is rich in mountains, forests and water resources. It effectively utilizes sloping terrain and abundant water resources. The creators have designed a power generation system that can be easily constructed on sloping land to increase domestic power supply sources and effectively control water sources. In order to avoid the existence of flotsam and impurities in the water and ensure the efficiency of power generation.

The water tank power generation system constructed on the sloping land in this creation includes at least a water circulation device and a power generation component. The water circulation device has an upper raw water tank and a lower raw water tank. The water trough is constructed at the lower part of the slope, so that the level of the upper raw water trough is higher than the lower raw water trough. The upper raw water trough and the lower raw water trough are connected by two pipes, each of which is set on There is a control valve, a water pump is installed on one of the pipelines, and an auxiliary pipeline connected between the upper raw water tank and the lower raw water tank can be arranged beside the water pump, and a control valve is also set on the auxiliary pipeline. An auxiliary water turbine is installed on the auxiliary pipeline, and the auxiliary water turbine is electrically connected to the water pump. The power generation component has a water turbine, and the water turbine is installed on the other pipeline, and the water turbine is electrically connected to an accumulator.

In a preferred embodiment, the accumulator is electrically connected to a power collecting station, so that the electric energy in the accumulator can be transferred to the power collecting station.

In a preferred embodiment, multiple sets of the power generation component and the matching pipeline system are installed.

In a preferred embodiment, the upper raw water tank and the lower raw water tank can be respectively closed, semi-closed or open tanks.

In a preferred embodiment, the Uehara water tank introduces and filters an external water source through a water inlet pipe, and the external water source is a reservoir, a water tower, a lake, a river or tap water.

In a preferred embodiment, the lower raw water tank introduces and filters an external water source through a water inlet pipe, and the external water source is a reservoir, a water tower, a lake, a river or tap water.

Other technical contents, features and effects of the present invention will be clearly presented in the detailed description of each preferred embodiment shown below with reference to the drawings.

Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

As used herein, the articles "a," "an," and "any" refer to grammars that refer to one or more than one (ie, at least one) item without specifying a specific quantity. For example, "an element" means one element or more than one element.

As used herein, the term "bottom" describing the location of a structure does not refer exclusively to the bottom-most face or end of the structure, but refers to the bottom-most face or end of the structure, as well as the various surfaces adjacent to the bottom-most surrounding. location, but not beyond the horizontal center of the structure.

As used herein, the term "proximity" to describe the location of a structure refers to a relatively close location between two target structures.

As used herein, the term "electrically connected" to describe a structural combination relationship refers to a combination that is energized using any means of wire, circuit board, or electromagnetic induction.

Please refer to Figures 1-2, which are the first embodiment. As shown in the figures, the water tank power generation system constructed on the slope of the present invention includes at least a water circulation device 1 and a power generation component 2 .

Please refer to FIG. 1 , the water circulation device 1 has a sealed upper raw water tank 11 and a lower raw water tank 12 , the upper raw water tank 11 is constructed at a height 31 on a slope 3 , and the lower raw water tank 12 is constructed on the slope 3 . The lower part 32 of the upper raw water tank 11 makes the level of the upper raw water tank 11 higher than that of the lower raw water tank 12. The upper raw water tank 11 and the lower raw water tank 12 are connected by two pipes 13, and each of the pipes 13 is connected with A control valve 131 is provided, a water pump 14 is installed on one of the pipes 13, and the control valve 131 of the pipe 13 where the water pump 14 is installed is close to the upper water tank 11, and a water pump 14 can be installed next to it. The auxiliary pipeline 15 connected between the upper raw water tank 11 and the lower raw water tank 12 is also provided with a control valve 151. The control valve 151 of the auxiliary pipeline 15 is also close to the upper raw water tank 11. An auxiliary water turbine 16 is installed on the auxiliary pipeline 15 , and the auxiliary water turbine 16 is electrically connected to the water pump 14 .

Please refer to FIG. 1, the power generation assembly 2 has a water turbine 21, the water turbine 21 is installed on the other pipe 13, the control valve 131 of the pipe 13 where the water turbine 21 is installed is close to the lower raw water tank 12. The water turbine 21 is electrically connected to an accumulator 22 .

Referring to FIG. 2, when the control valves 131 and 151 are opened, the water in the upper raw water tank 11 can automatically flow to the lower raw water tank 12 through the pipeline 13 and the auxiliary pipeline 15 due to the high terrain, and after passing through the lower raw water tank 12. The water turbine 21 and the auxiliary water turbine 16 generate electricity. The electrical energy produced by the water turbine 21 is stored in the accumulator 22, and the electrical energy produced by the auxiliary water turbine 16 is provided to the water pump 14 for use, so that the water pump 14 can The water in the lower raw water tank 12 is pumped back to the upper raw water tank 11, and is continuously circulated for continuous and efficient power generation.

Please refer to FIG. 2 , the upper raw water tank 11 is introduced through an inlet pipe 111 to filter external water sources (such as reservoirs, water towers, lakes, rivers or tap water, etc.) Introduce and filter external water sources to avoid drift and impurities in the water.

Please refer to FIG. 1 , the accumulator 22 can be electrically connected to a power collection station 23 , so that the electric energy in the accumulator 23 can be transferred to the power collection station 23 for sale or other power supply needs.

Please refer to FIG. 3 , the water pump 14 and the pipeline 13 can be installed in multiple sets. Each time a water pump 14 is added, a corresponding pipeline 13 is added to increase the overall power generation.

Please refer to FIG. 1, in this embodiment, the upper raw water tank 11 is set as a closed type, and the lower raw water tank 12 is set as a semi-closed type. In fact, the upper raw water tank 11 and the lower raw water tank 12 are both It can be set as closed, semi-closed or open tank.

This creation has been disclosed above through the above-mentioned embodiments, which are only the preferred embodiments of this creation, but are not intended to limit the creation. Features and embodiments, and equivalent changes or modifications made without departing from the spirit and scope of this creation, still fall within the scope of this new model, and the scope of patent protection of this creation shall be defined by the claims attached to this specification. whichever shall prevail.

1: water circulation device 11: Uehara Sink 111: Water inlet pipe 12: Under the original sink 121: water inlet pipe 13: Pipes 131: Control valve 14: Pump 15: Auxiliary piping 151: Control valve 16: Auxiliary turbine 2: Power generation components 21: Turbine 22: accumulator 23: Collector's Office 3: Slope 31: Heights 32: low

[Picture 1] is a schematic diagram of the system configuration of the water tank power generation system constructed on the slope. [Picture 2] is a schematic diagram of the overall structure and configuration of the water tank power generation system constructed on the slope. [Picture 3] is another system configuration diagram of the water tank power generation system constructed on the slope of this creation.

1: water circulation device

11: Uehara Sink

111: Water inlet pipe

12: Under the original sink

121: water inlet pipe

13: Pipes

131: Control valve

14: Pump

15: Auxiliary piping

151: Control valve

16: Auxiliary turbine

2: Power generation components

21: Turbine

22: accumulator

23: Collector's Office

3: Slope

31: Heights

32: low

Claims (7)

A water tank power generation system constructed on a sloping land, which is constructed on a sloping land, comprises at least: A water circulation device has an upper raw water tank and a lower raw water tank, the upper raw water tank is constructed on the high part of the slope, and the lower raw water tank is constructed on the low part of the slope, so that the level of the upper raw water tank is higher than the The lower raw water tank, the upper raw water tank and the lower raw water tank are connected by two pipelines, each of which is provided with a control valve, one of the pipelines is equipped with a water pump, and a water pump can be installed beside the water pump. An auxiliary pipeline connected between the upper raw water tank and the lower raw water tank, a control valve is also provided on the auxiliary pipeline, an auxiliary water turbine is installed on the auxiliary pipeline, and the auxiliary water turbine is electrically connected to the water pump; and A power generating assembly has a water turbine, the water turbine is installed on the other pipe, and the water turbine is electrically connected to an accumulator. The water tank power generation system constructed on the slope of claim 1, wherein the accumulator is electrically connected to a power collection station, so that the electric energy in the accumulator can be transferred to the power collection station. The water tank power generation system constructed on a slope as claimed in claim 1, wherein multiple sets of the power generation components and the mutually matched pipelines are installed. According to the water tank power generation system constructed on the slope of claim 1, the upper raw water tank and the lower raw water tank can be respectively set as closed, semi-closed or open tanks. The water tank power generation system constructed on a slope as claimed in claim 1, wherein the Uehara water tank introduces and filters an external water source through a water inlet pipe. The water tank power generation system constructed on a slope as claimed in claim 1, wherein the lower raw water tank introduces and filters an external water source through a water inlet pipe. The water tank power generation system constructed on a slope as claimed in claim 5 or 6, wherein the external water source is a reservoir, a water tower, a lake, a river or tap water.

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