TWM574635U - Hydraulic auto-circulation power generation system - Google Patents

Abstract

The utility model relates to a hydraulic automatic cycle power generation system, which mainly comprises a first water storage tank and a second water storage tank in a water storage base, and a first water tank device is arranged between the two water storage tanks, and the first The water tanker device is respectively coupled with a first generator, a second generator, and a hydrodynamic pumping device, and the two generators are respectively electrically connected with a power regulating device, and the first waterwheel device can receive the first storage. The water flow in the water tank is driven to rotate, and the two generators are rotated to generate electric power, and the electric power is outputted by the electric power regulating device, and the hydrodynamic pumping device is driven by the first waterwheel device to drive A turbine blade rotates to transport the water stream to the first water storage tank, and then flows to the first water tank device via a first drain pipe. Through the above process, the creation can generate the effect of circulating power generation through the water flow.

Description

Hydraulic automatic circulation power generation system

A hydraulic automatic circulation power generation system, in particular, a hydraulic automatic cycle power generation system capable of generating electricity through a water circulation.

Green energy power generation is the direction of future human life reserve power. It can avoid pollution to the environment and be more environmentally friendly. The most widely accepted green energy power generation today is solar power and wind power. However, regardless of green energy The power generation efficiency, solar power and wind power, have inevitable defects, which means that they will be limited by day and night changes or weather changes. The source of energy is very unstable. Once it is night or cloudy, solar power is It is impossible to store electricity. When there is no wind, wind power cannot be operated. Therefore, there is a need for a natural energy generation method that can be stably operated 24 hours a day, which can be prevented from being changed by day and night or weather changes, thus creating In addition to the above-mentioned solar and wind power generation, nuclear power generation is the most widely used method of generating electricity through water circulation. However, in recent years, disasters caused by nuclear power generation and environmental and human-induced hazards have been frequently reported. Also constantly looking for the ability to replace nuclear energy Other ways of generating electricity to avoid harm to the environment and people. However, thermal power generation also pollutes the environment, so it is not the best way to generate electricity. Therefore, how to create a water level that can be generated by continuous circulation of hydraulic power Change and control the waterwheel to drive the generator to repeat the power generation, let the generator generate electricity 24 hours a day, without huge construction and maintenance, reduce the overall cost and risk, and improve the power generation efficiency. It will be actively exposed by the creative office. Where.

In view of the above problems, the creator has researched and analyzed the equipment and processes required for hydrocycling power generation based on years of experience in hydropower generation related processes and equipment design, and developed physical products to solve the above problems; Therefore, the main purpose of this creation is to provide a hydro-automatic cycle power generation system that can generate electricity through circulating water.

In order to achieve the above purpose, the present invention mainly forms a first water storage tank and a second water storage tank in a water storage base, and a first water tank device is disposed between the two water storage tanks, and the first The water tanker device is respectively coupled with a first generator, a second generator, and a hydrodynamic pumping device, and the two generators are respectively electrically connected with a power regulating device, and the first waterwheel device can receive the first storage. The water flow in the water tank is driven to rotate, and the two generators are rotated to generate electric power, and the electric power is outputted by the electric power regulating device, and the hydrodynamic pumping device is driven by the first waterwheel device to drive a turbine blade rotates to bring water The flow is sent to the first water storage tank, and then flows to the first water tank device via a first drain pipe. Through the above process, the creation can generate the effect of circulating power generation through the water flow.

In order for your review board to have a clear understanding of the purpose, technical features and effectiveness of this work, please refer to the following instructions for illustration.

10‧‧‧Hydraulic automatic cycle power generation system

101‧‧‧Sink base

102‧‧‧First water wheel device

1011‧‧‧First storage tank

1021‧‧‧Rotating blades

1012‧‧‧Second water storage tank

1022‧‧‧First driving gear

1013‧‧‧ accommodating space

1023‧‧‧Second driving gear

1014‧‧‧First drain

1024‧‧‧third driven gear

1015‧‧‧Valve switch

104‧‧‧second generator

103‧‧‧First generator

1041‧‧‧ Third relative drive gear

1031‧‧‧First relative drive gear

1042‧‧‧The third driving chain

1032‧‧‧First driving chain

106‧‧‧Power control device

105‧‧‧Hydraulic pumping device

108‧‧‧Second drain

1051‧‧‧ into the sink

1052‧‧‧Water pipes

1053‧‧‧Second relative drive gear

1054‧‧‧Second driving chain

1055‧‧‧First body

1056‧‧‧Second body

1057‧‧‧Steering gear

1058‧‧‧ relative steering gear

1059‧‧‧ turbine blades

107‧‧‧Second water wheel device

1072‧‧‧Fourth driven gear

1073‧‧‧5th driven gear

1074‧‧‧Fourth driving chain

1075‧‧‧ third generator

1076‧‧‧fourth relative drive gear

1077‧‧‧Fixed chain

1078‧‧‧fourth generator

1079‧‧‧ fifth relative drive gear

109‧‧‧Water level detector

109’‧‧‧Water level detector

Figure 1 is a schematic diagram of the structure of the creation (1).

Figure 2 is a schematic diagram of the structure of the creation (2).

Figure 3 is a schematic diagram of the structure of the creation (3).

Figure 4 is a schematic diagram of the implementation of the creation.

Figure 5 is another embodiment (1) of the present creation.

Figure 6 is another embodiment (2) of the present creation.

Please refer to "Figure 1". The figure shows the structural composition of the creation (1). The hydraulic automatic cycle power generation system 10 shown in the figure mainly has a water storage base 101 and a water storage tank. The base 101 is formed with a first water storage tank 1011 and a second water storage tank 1012 in an upper and lower opposite shape. The two water storage tanks (1011, 1012) are normally used for storing water, and the two water storage tanks (1011) , 1012) is formed with an accommodation space 1013, and A first drain pipe 1014 is connected below the first water storage tank 1011, and the first drain pipe 1014 is provided with a valve switch 1015 for opening or closing the water flow of the first drain pipe 1014. A first water wheel device 102 is disposed at In the second water storage tank 1012 of the accommodating space 1013, the first water wheel device 102 is provided with a plurality of rotating blades 1021 (not shown) having the same distance, and one of the first driving gears 1022 is disposed on one side of the space. A second driving gear 1023, and the other side group is provided with a third driving gear 1024 (not shown); a first generator 103, after rotating, can generate electric power, wherein one side is opposite to the first driving gear 1022 A first opposite driving gear 1031 is disposed, and a first driving chain 1032 is connected between the first driving gear 1022 and the first opposite driving gear 1031. A second generator 104 is rotated to generate electric power, wherein one side is opposite to the other. The third driving gear 1024 is provided with a third opposite driving gear 1041, and a third driving chain 1042 is connected between the third driving gear 1024 and the third opposite driving gear 1041; a hydrodynamic pumping device 105, The bottom is provided with a water inlet 1051. The water inlet 1051 is connected to the first water storage tank 1011 through a water suction pipe 1052, and one side of the hydrodynamic pumping device 105 is provided with a second relative to the second driving gear 1023. The driving gear 1053, between the second driving gear 1023 and the second opposite driving gear 1053, is connected with a second driving chain 1054; a power regulating device 106, respectively, with the first generator 103 and the second generator 104 An electrical connection is formed, and the electric power generated by the two generators (103, 104) can be regulated and output.

Please refer to "Figure 2", which shows the structure of the creation. Schematic (2), the first water wheel device 102 shown in the figure is provided with a plurality of rotating blades 1021 having the same distance, and the first driving gear 1022 and the second driving gear 1023 are set in the first One side of the water wheel device 102 and the third driving gear 1024 are disposed on the other side. As can be seen from the figure, the first driving gear 1022 is flush with the first opposite driving gear 1031 of the first generator 103. The first driving gear 1032 is connected between the first driving gear 1022 and the first opposite driving gear 1031, so that the first driving gear 1022 can pass through the first driving chain 1032 to drive the first relative driving gear 1031 to rotate. The second driving gear 1023 is in the same side shape as the second opposite driving gear 1053 of the hydrodynamic pumping device 105, and the second driving chain 1054 is connected between the second driving gear 1023 and the second opposite driving gear 1053. The second driving gear 1023 can transmit the rotation of the second opposite driving gear 1053 through the second driving chain 1054, and the third driving gear 1024 is the same side of the third opposite driving gear 1041 of the second generator 104. , The third drive chain 1042, a third line connected between the third drive gear 1024 and the gear 1041 drives opposing, the third drive gear 1024 may be driven by a chain 1042 passes through the third, the third drive gear 1041 to drive the relative rotation is generated.

Please refer to "Fig. 3", which shows the structure of the creation (3). Please refer to "1". For example, the hydrodynamic pump unit 105 shown in the figure has a water inlet at the bottom. A pumping pipe 1052 is connected between the 1051 system and the first water storage tank 1011. The water pumping pipe 1052 connects the first water storage tank 1011 and the water inlet tank 1051, and the hydrodynamic pumping device is connected. The inner portion of the 105 is provided with a first rod body 1055 and a second rod body 1056. The two rod bodies (1055, 1056) are perpendicular to each other, and one end of the first rod body 1055 is provided with a second portion. The opposite gear 1053 is provided with a steering gear 1057 at the other end, and the second shaft 1056 is provided with a relative steering gear 1058 at one end of the steering gear 1057. The steering gear 1057 is engaged with the opposite steering gear 1058. The other end of the second rod body 1056 is provided with a turbine blade 1059. The turbine blade 1059 is disposed in the water inlet tank 1051. Referring to FIG. 1 and the figure, the first water wheel device 102 is shown. When the second driving gear 1023 rotates, the second driving chain 1054 can be linked to drive the second relative driving gear 1053 to rotate. When the second opposite driving gear 1053 rotates, the steering gear 1057 of the first rod 1055 is relatively rotated due to the steering gear. The 1057 is in a meshing shape with the opposite steering gear 1058. Therefore, when the steering gear 1057 rotates, the steering gear 1058 can be rotated in conjunction with the second shaft 1056 to rotate the turbine blade 1059.

Please refer to "Fig. 4", which shows the implementation of the creation. Please refer to "2nd" to "3rd". When the creation is implemented, the first water storage tank 1011 and the second water storage tank 1012 is pre-stored with a certain amount of water, and the water inlet 1051 of the hydrodynamic pumping device 105 must be lower than the water level plane of the second water storage tank 1012 to ensure that water can flow into the water tank 1051; When the water storage tank 1011 is filled with a certain amount of water, the water flow will flow out from the first drain pipe 1014 to the second water storage tank 1012. Since the plurality of rotating blades 1021 of the first water wheel device 102 are located below the outflow port of the first drain pipe 1014, Therefore, when the water flow flows out of the first drain pipe 1014, it is a homeopathic The plurality of rotating blades 1021 are circulated, and the plurality of rotating blades 1021 are cyclically rotated to rotate the first driving gear 1022, the second driving gear 1023, and the third driving gear 1024 on both sides to rotate, when the driving gears (1022, 1023) are driven. When the 1024) is rotated, the first driving chain 1032, the second driving chain 1054, and the third driving chain 1042 are respectively driven to further rotate the first relative driving gear 1031, the second opposite driving gear 1053, and the third relative driving gear 1041. Thereby, when the first relative driving gear 1031 is rotated in linkage, the first generator 103 can be driven to rotate to generate electric power, and when the third opposite driving gear 1041 is rotated in linkage, the second generator 104 can be driven. Rotating to generate electric power, the electric power generated by the two generators (103, 104) can be transmitted to the power regulating device 106 for power adjustment and output; when the second relative driving gear 1053 is rotated and linked, The steering gear 1057 of the first rod 1055 is relatively rotated, and since the steering gear 1057 is engaged with the opposite steering gear 1058, the steering gear 1057 During the movement, the relative steering gear 1058 can be rotated to rotate the second shaft 1056 to rotate the turbine blade 1059. When the turbine blade 1059 rotates, the water in the water inlet 1051 can be subjected to the rotation of the turbine blade 1059, and further pumped. The water pipe 1052 flows into the first water storage tank 1011, and the water flowing into the first water storage tank 1011 flows to the first water wheel device 102 via the first drain pipe 1014, whereby the above process steps can be utilized to achieve utilization. The water source cycle drives the waterwheel to drive the generator to generate electricity.

Please refer to "Figure 5", which shows another embodiment (I) of this creation. In order to further increase the amount of power generation, the creative department is further in the first store. A second water wheel device 107 is disposed in the water tank 1011. The second water wheel device 107 is provided with a plurality of rotating blades (the same structure as the first water wheel device), and a fourth driving gear 1072 is respectively disposed on both sides thereof. A fifth driving gear 1073, the fourth driving gear 1072 is connected to a fourth opposite driving gear 1076 of a third generator 1075 through a fourth driving chain 1074, and the fifth driving gear 1073 is transmitted through a fifth driving chain. 1077, forming a connection with a fifth opposite driving gear 1079 of a fourth generator 1078, and the two generators (1075, 1078) are respectively electrically connected with the power regulating device 106, and one end of the pumping pipe 1052 is connected with a first The two drain pipes 108, and the water outlet of the second drain pipe 108 is opposite to the plurality of rotating blades, whereby when the water pipe 1052 outputs the water flow, the plurality of rotating blades can be impacted through the second drain pipe 108 to make the first The process in which the second water wheel device 107 rotates, and the third power generator 1075 and the fourth power generator 1078 are driven to generate electric power is as described above, and will not be described herein.

Please refer to "Figure 6", which shows another embodiment (2) of this creation. In order to avoid the water level in the two water storage tanks (1011, 1012) being too low to operate, the creative department is further in A water level detector (109, 109') is provided in the two water storage tanks (1011, 1012). When the water level of one of the water tanks (1011, 1012) is too low, the water level detector (109, 109') can be issued. For example, a warning tone or other reminder to inform the user that the two water tanks (1011, 1012) may have a low water level.

As can be seen from the above, the present hydro-automatic cycle power generation system, The main water wheel device is driven to rotate by the circulation of the water flow, so that the first water wheel device drives the first generator and the second generator to generate electric power, and then the water flow pump device is used to inject the water flow into the first The water wheel device is used to form a water flow cycle power generation mechanism; accordingly, the present invention can achieve the purpose of providing a hydraulic automatic cycle power generation system capable of generating electricity through the circulating water flow.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; any person skilled in the art can make equal changes and modifications without departing from the spirit and scope of the present invention. , should be covered by the scope of this creation patent.

In summary, the effectiveness of this creation is based on the patent requirements such as “industry availability,” “novelty,” and “progressiveness”; the applicant filed a new patent with the bureau in accordance with the provisions of the Patent Law. Application.

Claims (7)

A hydraulic automatic cycle power generation system, comprising: a water storage tank base, a first water storage tank and a second water storage tank are formed, and an accommodation space is formed between the two water storage tanks, and below the first water storage tank Connected to a first drain pipe; a first water wheel device is disposed in the accommodating space and located under the drain pipe, the first water wheel device has a plurality of rotating blades, and the first water wheel device One side of the group is provided with a first driving gear and a second driving gear; a first generator, wherein one side is provided with a first relative driving gear relative to the first driving gear set, and the first driving gear is A first driving chain is connected between the first opposite driving gears; a hydrodynamic water pumping device, a bottom water inlet is arranged at the bottom, a water suction pipe is connected between the water inlet and the first water storage tank, and the water inlet pipe is connected a turbine blade is disposed, the turbine blade and the second opposite driving gear are interlocked with each other, and a second driving chain is connected between the second opposite driving gear and the second driving gear; The control device is electrically connected to the first generator, and the power generated by the first generator is regulated and output; after the first water storage tank and the second water storage tank are filled with water, the water flow can be drained by the water a plurality of the rotating blades flowing to the first water wheel device, the plurality of rotating blades driving the water wheel device to rotate, thereby driving the first driving gear and the second driving gear, and transmitting the first driving chain ,and The second driving chain further drives the first opposing gear and the second opposing gear to rotate to generate electric power of the first generator; and when the second opposing gear is driven to rotate, the turbine blade can be linked to rotate Through the action of the turbine blade, the water flow in the water inlet tank is output from the water suction pipe to the first water storage tank, so that the water flow can flow to the first water wheel device via the first drain pipe. The hydraulic automatic circulation power generation system according to claim 1, wherein the hydrodynamic pumping device has a first rod body and a second rod body, and the rod bodies are perpendicular to each other, and the One end of a rod body is provided with the second opposite driving gear, and the other end group is provided with a steering gear. The second rod body is provided with a relative steering gear and one end group with respect to one end of the steering gear. The turbine blade is provided, and the steering gear is in a meshing shape with the opposite steering gear. The hydraulic automatic cycle power generation system of claim 1, wherein the other side of the first water wheel device is provided with a third driving gear, and the third driving gear transmits the second driving chain and the first A third opposite driving gear of the two generators forms a connection, and the second generator is electrically connected to the power regulating device. The hydraulic automatic cycle power generation system according to claim 1, wherein the drain pipe is provided with a valve switch. The hydraulic automatic cycle power generation system of claim 1, wherein the first water storage tank is provided with a second drain pipe, and the second drain pipe is connected with the water suction pipe and below the second water pipe a second water wheel device having a plurality of rotating blades, the second water wheel device The middle side group is provided with a fourth driving gear, and the fourth driving gear is connected to a fourth opposite driving gear of a third generator through a fourth driving chain, and the third generator and the power regulating device Form an electrical connection. The hydraulic automatic cycle power generation system according to claim 5, wherein the other side of the second water wheel device is provided with a fifth driving gear, and the fifth driving gear is movable through a fifth driving chain, A fifth opposite driving gear of the fourth generator forms a connection, and the fourth generator is electrically connected to the power regulating device. The hydraulic automatic cycle power generation system of claim 1, wherein the first water storage tank and the second water storage tank are respectively provided with a water level detector.