KR20200004955A - Low-velocity river hydroelectric power generation system capable of producing ammunition and electricity - Google Patents

Abstract

The present invention is installed in a river or river with a low flow rate, supplying the agricultural water to the adjacent farmland while also supplying the electric power required in the surrounding area, and when the flow rate is low, the smooth supply of agricultural water by operating only one of the generator and the water pump is It is, of course, to provide low-flow river hydropower that can pump and generate electricity that can also supply the necessary power.

Description

Low-velocity river hydroelectric power generation system capable of producing ammunition and electricity

The present invention relates to a low-flow river hydroelectric power generation, and more particularly, it is installed in a river or river with a low flow rate to supply agricultural water to adjacent farmland, as well as to supply power to nearby areas, pumping and electric power. It is about low flow type hydroelectric power generation that can be produced.

Hydroelectric power is used to construct large drop facilities along with large dams and use them to convert the potential energy of water into electrical energy, or to add water to induce rapid flow rates in rivers or rivers with abundant water. It is a power generation method that produces electricity. Although hydroelectric power generation is very inexpensive, since there are not many places with natural drop-offs, the area where power plants can be constructed is limited. Therefore, the construction of large-scale dams is enormous. In addition to the cost of construction, large areas of land are submerged, which causes social problems and delays in natural water flow, causing ecosystem destruction and various environmental problems. Are strictly restricted.

Therefore, in recent years, many technologies related to small-scale hydroelectric power generation using water flow rates of rivers or rivers have emerged, rather than large-scale hydroelectric power generation. For example, patent registration No. 1003296 "aberration and hydroelectric structure using the same" has been developed around a rotating shaft. It is a technology configured by arranging a plurality of rotary blades radially to arrange the axis of rotation horizontally or vertically. In addition, patent registration No. 1390608 "hydraulic aberration using a hydraulic power" is fixed to the rotating drum on the rotating shaft, a plurality of rotating bars are disposed radially around the rotating drum, by placing a rotary blade at the tip of the rotating bar It is a composed technology.

However, in addition to the above patents, many hydroelectric power plants that have appeared so far have the biggest problem that they cannot operate when the water depth is low or the flow rate is low due to the small quantity of rivers or rivers, and the position of the power generator is fixed. Because of this, there is a problem that it is not able to actively cope with changes in the quantity of rivers or rivers, and considering that the flow rate of most rivers or rivers is very low, less than 1m / sec, supplying agricultural water to farmland adjacent to rivers or rivers. There is a problem in that it cannot supply the necessary power in the neighborhood.

Applicant (inventor) of the present invention, as a result of a lot of research and development on hydropower to solve the above problems, Patent Registration No. 1634637 "Hydroelectric power generator equipped with a guide vane and a hybrid power generator using the same", Patent registration No. 1676695 "Multi-hydraulic power generation system using guided waterway", Patent registration No.1567319, "Assembly type hydroelectric power generation device of cylindrical structure", patented and installed in actual products, and solved the problems of hydropower generation The present invention has been achieved by continuing research and development to solve the problem.

The present invention has been made to solve the above problems, the object of the present invention is to install in rivers or rivers with low flow rate, supplying agricultural water to the adjacent farmland, and also supply the power required in the surrounding area, When the flow rate is low, only one of the generator and the water pump can be operated to provide a smooth supply of agricultural water as well as to provide a low-flow river hydropower capable of pumping and generating electricity.

Another object of the present invention is to form a cross-sectional shape of the outer peripheral surface of the turbine shaft in a regular polygon, which makes the transport, assembly and maintenance of the blade very easy and convenient, and the installation site can be easily changed as necessary. It is to provide low flow type hydroelectric power generation capable of pumping and generating electricity.

The low-flow type river hydroelectric power generation capable of pumping and generating electricity according to the present invention includes a pair of installations along the river at regular intervals, the first and the first of which are fixedly connected to each other by a pair of connecting members. 2 buoys; A central axis installed over the upper part of the first and second buoys, a shaft which is installed around the central axis and whose cross section of the outer circumferential surface is a regular polygonal shape, and protrudes radially on every surface of the polygonal outer circumferential surface of the shaft; An arm provided at regular intervals along the longitudinal direction of the shaft, a blade provided by connecting the ends of the arms installed on the same outer peripheral surface of the shaft, and a fixed rotating plate fitted to the outer peripheral surface of the shaft to fix the arm. A turbine installed between the pair of connecting members and the first and second portions; A water pump installed on the first portion and provided with a water pump; A first gearbox fixedly installed on the first portion and fixedly installed at an end of the central shaft and connected to a rotating shaft of the water pump to speed up the water pump; A generator to be generated by the rotation of the turbine; The second part is fixedly installed on the end of the central axis is fixedly installed on, and is connected to the generator, characterized in that configured to include a second speed increaser for increasing the generator.

Preferably, the clutch is further provided at a portion where the first accelerator and the water pump are connected to be configured to turn on / off the clutch.

Preferably, the blade is a drag force type having a J cup shape in cross section so that the blade can be applied even when the flow velocity is low, and 5 to 8 blades are provided.

Low-flow type hydroelectric power generation according to the present invention is installed in a river or a river with low flow rate, and by installing a clutch at a portion where a water pump and a speed increaser are connected, the clutch can be turned on / off to block power transmission. At this low time, only one generator and water pump can be operated selectively, so that the agricultural water can be smoothly supplied to adjacent farmland without overloading hydropower, and adequate power can be supplied to neighboring areas.

In addition, since the cross-sectional shape of the outer circumferential surface of the turbine shaft is formed into a regular polygon, and the arm to which the blade is coupled is fixed to the surface of the outer circumferential surface of the shaft in a radial manner, the arm (blade) is a fixed rotating plate fitted to the shaft. It is easy and easy to assemble, transport and maintain the blades of the turbine because it can be easily centered, and the installation location can be easily changed as needed because the hydroelectric power is installed on the top of a pair of buoys. .

1 is a perspective view showing hydroelectric power generation according to the present invention.
2 is a view showing a turbine installed in hydroelectric power generation.
3 is a view showing a shaft and a fixing jig for fixing the blade.

Technical features of the low-flow type steel hydroelectric power generation according to the present invention, by installing a clutch in the connection portion between the water pump and the speed increaser to operate only one of the generator and the water pump when the flow rate is low, and the shaft of the turbine By using a polygonal shape of the outer peripheral surface is that the assembly of the blade is very easy and convenient.

Hydroelectric power generation according to the present invention is suitable for installation in rivers or rivers with agricultural land in a nearby area and low flow rate, and because water pumps 27 and generators 28 are installed, supply agricultural water to agricultural land. Of course, it is particularly suitable for areas that need to supply power to nearby areas. In addition, when the flow rate is 2 m / sec or more, the water pump 27 and the generator 28 may be operated at the same time. When the flow rate is 1 m / sec or less, and the water pump 27 and the generator 28 are operated together, hydroelectric power generation is performed. Since the overload is applied, for example, it is preferable that only the water pump 27 is operated during the day to supply agricultural water, and only the generator 28 is operated at night to supply power.

Since hydroelectric power is installed in a river or river, a pair of buoys (10.10 '), a connecting member 11 connecting them together, a water pump 27 and a generator 28, and a pair of ramps for increasing them Shorthand 272 and 281 and the turbine 20 for power generation are provided with a basic structure.

Buoy is a configuration for floating the hull (like a kind of rubber boat) on the water after fixing it to the bottom of the river or river using a rope, and to mount the equipment or equipment necessary for hydroelectric power thereon, in the present invention The first and second buoys 10 and 10 'are provided in pairs along the river at predetermined intervals, and the upper part of the first and second buoys 10 and 10' is provided as a pair of connecting members 11. Are fixedly connected to each other. In addition, since the hydroelectric apparatus and equipment are installed between the upper portion of the pair of buoys and the pair of connecting members 11 connecting them, the installation site can be moved as much as necessary.

The turbine 20 includes a central shaft 21 provided over the upper portions of the first and second buoys 10 and 10 ', and a shaft having a regular polygonal cross section of the outer circumferential surface and installed around the central shaft 21. (22) and the arm (24), which is installed to protrude radially for each surface of the polygonal outer circumferential surface of the shaft 22 and are provided at regular intervals along the longitudinal direction of the shaft (22), the same of the shaft (22) The blade 25 provided by connecting the front-end | tip of the arm 22 provided in the outer peripheral surface, and the fixed rotating plate 23 which fits in the outer peripheral surface of the shaft 22 and fixes the arm 24 are comprised.

One of the structural features of the present invention is that, as shown in Fig. 3, the cross section of the outer peripheral surface of the shaft 22 is a regular polygonal shape. It is very convenient and easy to center the arms 24 and the blades 25 by inserting them), so that the assembling work is quick and easy and the robustness is greatly improved. In addition, the fixed rotary plate 23 is a kind of coupling jig formed in the center of the polygonal hole with the same shape as the outer peripheral surface of the shaft 22, the fixed rotary plate 23 is fitted to the shaft 22 at regular intervals, the arm 24 ) Is coupled to each of the outer circumferential surface of the shaft 22 of the polygonal shape is also coupled to the fixed rotating plate 23 is fixed.

Hydroelectric power of the present invention is installed in a river or river with a low flow rate, it is preferable to use a lifting type drag and a drag type drag type blade rather than a lifting type blade. Here, 'lift type blade' refers to a blade that generates lift when rotating due to the streamlined shape of the cross section of the blade, and it is suitable when the flow rate is 1 m / sec or more because it must be able to rotate only by the flow rate. It refers to a blade that generates drag force by moving only the back side of the blade, such as a C-shaped cup or a J-shaped cup or J-shaped, and rotates by the flow rate and the pushing force of the water in the cup, so the flow rate is 1m / sec. It is suitable when:

The blade 25 used in the present invention uses a lifting drag type in which a lifting type and a drag type are mixed. As shown in FIG. 2, the blade has a J-shaped cross section as a whole, and thus a tip end portion is formed. J-cup shape is provided in the part. The number of blades 25 is preferably 5 to 8, and it is preferable that the shaft 22 also has a regular pentagon to regular octagonal shape in accordance with the number of blades 25.

The water pump 27 is installed on the first buoy 10, and is provided with a water pump 271, and is connected to the first decelerator 272. The first decelerator 272 is fixedly installed on the first buoy 10 and fixedly installed at an end of the central shaft 21 of the turbine, and is connected to the rotational shaft of the water pump 271 so that the water pump ( 271). The first speed reducer 272 and the water pump 27 are connected by a gear or a belt.

The generator 28 is configured to generate electricity by the rotation of the turbine. The generator 28 is connected to the second speed increaser 281. The second speed increaser 281 is fixed to the second portion 10 'and installed in the turbine. It is fixedly installed at the end of the central shaft 21, connected to the generator 28 is to increase the generator 28. The second speed reducer 281 and the generator 28 are connected by a gear or a belt.

One of the characteristic features of the present invention is to provide a clutch 273 to cut off the power transmitted, the clutch 273 is connected to the first accelerator 271 and the water pump 27 If the flow rate is not sufficient, the clutch 273 can be turned off to allow only idling without operating the water pump 27.

The above description illustrates the present invention by way of example, and the embodiments disclosed in the specification are not intended to limit the technical spirit of the present invention, but to describe the present invention, so that those skilled in the art to which the present invention pertains can understand the present invention. Various modifications and variations will be possible without departing from the spirit of the technology. Therefore, the protection scope of the present invention is to be interpreted by the matter described in the claims, it should be interpreted that the technical matters within the scope equivalent to that included in the scope of the present invention.

10, 10 ': first and second buoy 11: connecting member
20 turbine 21 central axis
22: shaft 23: fixed rotating plate
24: Arm 25: Blade
27: water pump 271: water pump
272: first accelerator 273: clutch
28 generator 281 second gearbox

Claims (3)

In hydroelectric power generation installed in rivers of low flow rate,
The hydro power generation,
A pair of first and second buoys having a predetermined interval along the steel and having an upper portion fixedly connected to each other by a pair of connecting members;
A central axis installed over the upper part of the first and second buoys, a shaft which is installed around the central axis and whose cross section of the outer circumferential surface is a regular polygonal shape, and protrudes radially on every surface of the polygonal outer circumferential surface of the shaft; Arms provided at regular intervals along the longitudinal direction of the shaft, blades installed by connecting the ends of the arms installed on the same outer peripheral surface of the shaft, and a fixed rotating plate fitted to the outer peripheral surface of the shaft to fix the arms A turbine configured to be provided between the pair of connecting members and the first and second portions;
A water pump installed on the first portion and provided with a water pump;
A first gearbox fixedly installed on the first portion and fixedly installed at an end of the central shaft and connected to a rotating shaft of the water pump to speed up the water pump;
A generator to be generated by the rotation of the turbine;
A second speed increaser fixedly installed on the second portion and fixedly installed at an end of the central shaft and connected to the power generator to increase the speed of the power generator;
Low-flow type hydroelectric power generation capable of pumping and power generation, characterized in that configured to include.
The method of claim 1,
A low speed type hydroelectric power generation capable of pumping and power generation, characterized in that the clutch is further installed in the portion where the first accelerator and the water pump are connected to be configured to turn on / off the clutch.
The method of claim 1,
The blade is a positive drag type having a J-cup shape cross section so that it can be applied even when the flow rate is low, low-flow-type strong hydropower capable of pumping and power production, characterized in that 5 to 8 are installed.

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