WO2012019356A1 - Cycle power generation device - Google Patents

Abstract

A cycle power generation device includes a frame body (10), an upper waterwheel module (20), a lower waterwheel module (30), a water-drawing pipe (40), at least one power generation module (50) and a water-pumping device. The frame body (10) is divided into hermetical upper and lower chambers (12, 13) by a partition board. On the partition board is provided a water outlet opening (14) communicated with the upper and lower chambers (12, 13). The upper waterwheel module (20) is arranged in the upper chamber (12). The lower waterwheel module (30) is arranged in the lower chamber (13) and corresponds to the water outlet opening (14). The water-drawing pipe (40) has a water-drawing port (41) and a water outlet port (42). The water-pumping device can apply a pressure to the water-drawing pipe (40), so that water in the lower chamber (13) is drawn to the water outlet port (42) to discharge. The water-drawing port (41) is located at the bottom of the lower chamber (13). The water outlet port (42) is arranged in the upper chamber (12) and corresponds to the upper waterwheel module (20). The power generation module (50) is driven to generate electricity by the rotation of at least one of the upper and lower waterwheel modules (20, 30).

Description

 Circulating power generation device

 The present invention relates to a cycle power generation device, and more particularly to a cycle power generation device utilizing the principle of air pressure difference and gravity potential drive. Background technique

 One of the keys to the prosperity of today's society is the abundant supply of energy. However, the natural resources of the earth are limited. When natural resources, such as oil, are depleted, how to effectively use alternative energy is an important indicator of economic power.

 At present, common renewable energy sources, such as solar power, wind energy, water power and other power generation devices, but the above-mentioned power generation devices have their technical bottlenecks and limitations, in that the above-mentioned power generation devices need to be installed outdoors, such as solar power generation devices need to be set at dawn ^ Benefits, wind power generation devices need to be located in the wind and the wind speed needs to reach a certain level, hydropower generation needs to cooperate with the water flow, and more in the riverbed, near the reservoir.

 In this way, the above-mentioned power generation device is not only set in strict conditions, but also susceptible to weather conditions, resulting in unstable power generation efficiency. In addition, long-term wind and sun exposure also leads to rapid depreciation and overall low economic efficiency, which is considered to be "expensive." Renewable energy".

 In view of this, how to provide another effective power generation method is a problem that people in the field need to work hard. Summary of the invention

 SUMMARY OF THE INVENTION A primary object of the present invention is to provide a cycle power generating apparatus which is provided with a wide range of conditions and is not affected by weather.

The cycle power generation device provided to achieve the above object includes a frame body, a water tanker module, a water tanker module, a water pipe, at least one power generation module, and a water pumping device. The frame is provided a partition, the partition partitions the chamber into an upper chamber and a lower chamber, wherein at least the lower chamber is closed, and the partition has a water leakage opening connecting the upper and lower chambers. The waterwheel module is disposed in the upper chamber, the water truck module is disposed in the lower chamber, and the water truck module corresponds to the water leakage port, the water pipe has a water outlet and a water outlet, the water outlet is located The bottom of the lower chamber, the water outlet is located in the upper chamber and corresponds to the water tank module, and the pumping device starts the pressurization when the air pressure of the lower chamber is not compressed by the liquid drop. The liquid in the lower chamber is taken from the water outlet to the upper chamber, so that the power generation module is driven to generate electricity by the rotation of at least one of the upper and lower waterwheel modules.

 Wherein, the upper and lower chambers are filled with liquid, and the liquid located in the upper chamber accumulates at the bottom of the upper chamber, and is leaked from the water leakage port to the lower chamber by gravity, and drives the water tank module to rotate, and then accumulates in the lower portion. At the bottom of the chamber, at this time, due to the increase of the air pressure in the lower chamber and the action of the pumping device, the liquid at the bottom of the lower chamber is driven by the air pressure and is drawn from the water outlet to the water outlet, and drives the water tanker module to rotate. Thereby, the cycle power generation device is cycled to generate electricity. DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective perspective view of a cycle power generating apparatus of the present invention.

Figure 2 is a cross-sectional view showing a cycle power generating apparatus of the present invention.

Figure 3 is a cross-sectional view showing the state of use of the automatic face-lifting device of the present invention.

 [Main component symbol description]

 10: Frame 1 1 : Partition 12 : Upper chamber 1 3 : Lower chamber

14: Water leak 20: Water tanker module 30: Water tanker module 40: Water drain pipe 41: Water drain 42 : Water outlet 50: Power generation module 51 : Gear

 60: pumping device

The detailed description and technical contents of the present invention will be described below in conjunction with the drawings. Please refer to Figure 1 and Figure 2. In a preferred embodiment of the present invention, the cycle power generation device includes a frame 10, a water tanker module 20, a water tanker module 30, a water tube 40, and a power generation module 50.

 The frame body 10 is provided with at least one partition 11 which partitions the chamber of the frame body into an upper chamber 12 and a lower chamber 13 (or more than two chambers are separated). The upper chamber 12 of the embodiment disclosed in the drawings is a closed chamber closed at the top end (of course, it can also be an open chamber with a top end, and the best is that the two chambers are closed), the lower chamber 1 3 is also a closed chamber. A water leakage port 14 (which may also be a hollow pipe body extending a predetermined length toward the lower chamber) is disposed on the partition plate 11; the partition plate may be a flat plate, but preferably The partition 11 has a funnel shape, and the water leakage opening 14 is located at the bottom of the partition 11.

 The water truck module 20 is disposed in the upper chamber 12, the water truck module 30 is disposed in the lower chamber 13 , and the water truck module 30 corresponds to the water leakage port 14; the foregoing upper and lower water tank modules 20, 30 By means of a spacer ring plate, several continuous storage areas are blocked.

 The water conduit 40 has a water outlet 41 and a water outlet 42 . The water outlet 41 is located at the bottom of the lower chamber 13 . The water outlet 42 is located in the upper chamber 12 and corresponds to the water tank module 20 . The opening area of the water outlet and the water outlet is smaller than the opening area of the water leakage opening 14, so that the liquid (such as water, oil, etc.) drops faster, and the small water outlet and the water outlet contribute to the pressure increase inside the tube. The water intake height and smoothness are greatly improved.

 The power generation module 50 is driven to generate power by rotation of at least one of the upper and lower waterwheel modules. Preferably, a transmission device, such as the gear set shown in the figure, is disposed between the upper and lower waterwheel modules and the power generation module. The annular circumference of the upper and lower waterwheel modules is provided with a plurality of tooth portions for engaging one of the gears 51 to form a rotational linkage relationship. Of course, in other possible embodiments of the present invention, the power generation module may be disposed at the axial center of the upper and lower waterwheel modules, or the other or the transmission device such as a belt or a chain may be used to connect the upper and lower waterwheel module axis or the circumference thereof. The power generation module is linked.

As shown in FIG. 3, the upper and lower chambers are filled with water (or a liquid such as oil, for convenience, the liquid of the following embodiment is exemplified by water), so that when used, the water in the upper chamber 12 is tired. It is accumulated in the bottom of the upper chamber 12, that is, above the funnel-shaped partition 11, and is leaked by the gravity from the water leakage port 14 to the loading area of the sewage truck module 30 of the lower chamber 13. After the loading area is filled with a certain water weight, The waterwheel module 30 is rotated by the self-weight, and then accumulated in the bottom of the lower chamber 13. At this time, the air pressure of the lower chamber 13 is increased (the air is squeezed due to the rising water level of the lower chamber) and the air pressure of the upper chamber 12 is lowered ( The water at the bottom of the lower chamber 13 is driven by the air pressure and is drawn from the water outlet 41 to the water outlet 42 and is contained in the holding area of the pair of water tanker modules 10, After the loading area is filled to a certain water weight, the water tanker module 20 is naturally driven to rotate, and the rotating process synchronously drives the power generating module 50 to operate, so that the rotating kinetic energy is converted into electric energy by the power generating module, so that the circulating power generating device of the present invention is repeated.

 In addition to utilizing the water flowing from the upper chamber to the lower chamber to squeeze the air, the other key for the water tube 40 to draw the water to the lower chamber to the upper chamber is to add a low electric loss through the lower chamber. The water pumping device 60 is used to smoothly squeeze air into the water in the water tube, pressurize and pump it to the water outlet of the upper chamber. Preferably, the lower chamber is provided with a pressure detecting unit to facilitate the pumping device 60 to start the pressurized pumping based on the insufficient pressure of the lower chamber, thereby avoiding the problem of excessive power consumption for continuous pumping for a long time.

 In addition, the power consumption of the water pumping device of the present invention must be smaller than the power generated by the power generating module, so that part of the power generated by the power generating module can still be supplied to other objects for power generation. Of course, the voltage source driven by the pumping device 60 is partially derived from the power generation module and partly from the external power, so that the power consumption of the pumping device is kept constant less than the power generation capacity of the power generation module.

 In other words, the internal power generation device of the present invention is an independent operation system, which is naturally operated by the principle of gravity and pressure difference, and is combined with a simple pumping device, so that it can be used in any unused space. Moreover, since the circulating power generation device does not have to be installed outdoors, the sun and rain can be avoided to a considerable extent, thereby reducing the depreciation speed and improving the economic efficiency.

In addition, the cycle power generation device of the present invention, for the frame 10, in the upper and lower chambers or At the room, depending on the situation, a door should be added to facilitate the replacement of parts such as the waterwheel module or the access during maintenance.

 In addition to the above embodiment, the cycle power generation device of the present invention uses the upper and lower waterwheel modules to be installed in the upper and lower chambers to generate power, and may also use a water tank module alone, and select a lower chamber disposed at a corresponding position of the water leakage port, or correspondingly It is installed in the upper chamber of the water outlet and is equipped with a power generation module. It can also automatically generate electricity by circulating water in the upper and lower chambers.

 In conclusion, it is only a preferred embodiment of the invention, and is not intended to limit the scope of the invention. That is, the equivalent changes and modifications made by the scope of the patent application of the present invention are covered by the scope of the patent.

Claims

Claim

 A cycle power generation device comprising:

 a frame having at least one partition therein, the partition partitioning at least one upper chamber and the lower chamber for containing the liquid, and the partition has a water leakage connecting the upper and lower chambers Port; at least the water tank module is set in the lower chamber;

 a water pipe having a water outlet and a water outlet, the water outlet being located at the bottom of the lower chamber, the water outlet being located in the upper chamber;

 a pumping device provides an auxiliary pressure to draw the liquid from the water outlet to the water outlet; and a power generation module driven by the water tank module to generate electricity;

 Wherein, the upper and lower chambers are filled with liquid, and the liquid located in the upper chamber accumulates at the bottom of the upper chamber, and is leaked from the water leakage port to the lower chamber by gravity, and drives the water pump module to rotate, and even The power generation module operates to generate electricity, and then accumulates at the bottom of the lower chamber. At this time, due to the increase of the pressure in the lower chamber and the pressure assist of the pumping device, the liquid at the bottom of the lower chamber is driven by the air pressure and is drawn from the water outlet to the water outlet. Finally, the circulation flows into the upper chamber, thereby allowing the liquid to be recycled between the upper and lower chambers to generate electricity.

 The cycle power generating apparatus according to claim 1, wherein a transmission is provided between the water pumping module and the power generating module, and the transmission is a gear set.

 The circulating power generation device according to claim 2, wherein a plurality of tooth portions are provided on an annular circumference of the water pumping module, and the tooth portions are configured to mesh with one of the gears of the gear set to rotate and close

The cycle power generating apparatus according to claim 1, wherein the partition plate has a funnel shape, and the water leakage port is located at the bottom of the partition plate.

 The circulating power generation device according to claim 3, wherein the upper chamber corresponds to the water outlet, and a water tanker module and a power generation module driven by the water tanker module are further provided.

6. A kind of circulating power generation device, comprising: a frame having at least one partition therein, the partition partitioning at least one upper chamber and the lower chamber for containing the liquid, and the partition has a water leakage connecting the upper and lower chambers a water tank module, located in the upper chamber;

 a water pipe having a water outlet and a water outlet, the water outlet being located at the bottom of the lower chamber, the water outlet being located in the upper chamber;

 a pumping device provides an auxiliary pressure to draw the liquid from the water outlet to the water outlet; and a power generation module driven by the water tank module to generate electricity;

 Wherein, the upper and lower chambers are filled with liquid, and the liquid located in the upper chamber accumulates at the bottom of the upper chamber, and is leaked from the water leakage port to the lower chamber by gravity, and then accumulates at the bottom of the lower chamber. Due to the increase of the pressure in the lower chamber and the pressure assist of the pumping device, the liquid at the bottom of the lower chamber is driven by the air pressure and is drawn from the water outlet to the water outlet to drive the water tanker module at the water outlet to rotate, thereby driving The power generation module operates to generate electricity, and after the waterwheel module rotates due to the power action, the contained liquid is finally circulated into the upper chamber, thereby allowing the liquid to be recycled between the upper and lower chambers to generate electricity.

 The cycle power generation device according to claim 6, wherein a transmission device is provided between the water pumping module and the power generation module.

 8. The cycle power plant of claim 7, wherein the transmission is a gear set.

The cycle power generating device according to claim 8, wherein a plurality of tooth portions are provided on an annular circumference of the water tanker module, and the tooth portions are configured to mesh with one of the gears of the gear set to rotate and close

The cycle power generating apparatus according to claim 6, wherein the partition plate has a funnel shape, and the water leakage port is located at the bottom of the partition plate.