WO2014136597A1 - Windmill for power generation - Google Patents

Abstract

[Problem] To provide, for a windmill for which a large installation space cannot be obtained and which constantly responds to the wind direction, a vertical shaft windmill for power generation wherein the support means is lightweight even though the windmill blades are solar panels, and which easily rotates at a high speed by capturing slight breezes, thereby making it easy to obtain electricity by means of a generator, and which, in combination with solar power generation, has excellent power generation efficiency. [Solution] A windmill for power generation for which wind-catching plate blades are arranged, by means of upper and lower support bodies, at the same position with respect to a vertical shaft that rotationally drives a generator, wherein both support bodies are wire spoke wheels for which multiple intersecting wires are interposed between a boss (fitted onto the vertical shaft) and a rim on the outside thereof, and the plate blades establish a framework for solar panels, and are provided with pockets that are attached to the rim at one end of the framework and additionally catch wind at the vertical frame at that one end.

Description

Windmill for power generation

The present invention relates to a wind turbine for power generation provided with a solar panel so that power can be generated using not only wind power but also sunlight.

Currently, there is an urgent need to develop renewable energy such as wind, solar, geothermal, and hydropower from a future perspective. Among them, wind turbines are used for wind power, but most are so-called propeller type wind turbines of the horizontal axis type, and the vertical axis type in which the blades are arranged around the vertical axis is hardly seen. This is a result of development investment concentrated on the horizontal axis at once, and the vertical axis is not inferior, and it is rather advantageous in the Japanese climate where the wind direction is not fixed. It is said. In that sense, it can be said to be an undeveloped field. *

On the other hand, for solar power, solar panels are used, and the technological progress is remarkable. However, because it requires a large installation area in terms of capturing sunlight, it is necessary for small-scale power generation such as private power generation. Although the roof is used effectively, it is not suitable for use because the panel area is taken up on the rooftop or small garden.

The use of wind power and solar light is greatly affected by the climate and weather, and there is a problem that wind power cannot be obtained in the windless state, and solar power cannot be obtained at night or in winter. Therefore, in order to obtain the stability of power generation by complementing both, the present applicants have developed a wind turbine with a solar panel blade in a vertical wind turbine. However, since the weight of the solar panel equipment is increased, and particularly a heavy heavy member is used for the support structure, the rotation becomes dull and there is a problem that desired power cannot be obtained by the generator. *

In view of the above circumstances, the present invention is a vertical wind turbine that does not take up an installation area and always corresponds to the wind direction, and the support means is lightweight even though the blades of the wind turbine are solar panels. Therefore, it is an object of the present invention to provide a wind turbine for power generation that captures a breeze and easily rotates at a high speed, so that it is easy to obtain electric power from a power generator and has good power generation efficiency combined with solar power generation.

In order to solve the above problems, the present invention provides a wind turbine for power generation in which a vertical axis for rotationally driving a generator and plate blades of a wind receiver are arranged equidistantly from the axis via upper and lower supports. Both supports are wire spoke wheels in which a large number of wires intersect each other between a boss fitted on the vertical axis and an outer rim, and the plate blades frame a solar panel. Thus, a wind turbine for power generation is provided, which is fixedly attached to a rim at one end of a frame, and additionally provided with a pocket for receiving wind in a vertical frame at one end thereof. *

Since the wind turbine for power generation is configured as described above, the wind force received by the plate blades is transmitted to the vertical axis through the lightweight and strong support of the wire spoke wheel, thereby stably driving the generator. The In addition to this light weight, the plate blades are well accelerated because they receive wind from the pockets as well as the blades.

As described above, according to the present invention, in the vertical type wind turbine that does not take an installation area, the support body that supports the wind turbine blade is a strong wire spoke wheel even though the blade of the wind turbine is a solar panel. It has a light-weight structure, and the blades are easy to receive wind force and have additional pockets. It captures the breeze and rotates lightly at high speed. There is an excellent effect that a stable electric power can be obtained by the sum of.

It is a perspective view which shows the windmill for electric power generation which concerns on this invention. It is a front view of the windmill. It is the top view which looked at the principal part of the windmill from the top. It is a front view which shows the plate blade | wing of the same windmill. FIG. 5 is an enlarged sectional view taken along line AA in FIG. 4. It is sectional drawing corresponding to FIG. 5 which shows another Example. It is perspective explanatory drawing which shows the crossing state of a spoke in the wire spoke wheel utilized for this invention.

In the present invention, the support 18 of the plate blades 9, 9,... Arranged around the longitudinal axis 17 is a wire spoke wheel, which can be replaced by a wheel such as a bicycle or a rickshaw. In any case, when the wire spokes 23, 23,... Are arranged, the light transmittance is nearly 100%, and the solar panel 27 is also provided on the back surface (claim 2). Becomes higher. *

Moreover, in the case of a wire spoke wheel, the strength of the support body is highly enhanced by the vertical crossing of the spokes 23 and 23 at different heights or the horizontal crossing of the circumferential direction depending on the connection position with the boss 22. Obtained by using wheels such as bicycles and rickshaws. Further, in the case of a wheel, the rib rim 24 has a groove-shaped cross section so that the tire can be fitted into the wheel, so that the overall weight is reduced and the blade 9 can be supported firmly.

FIG. 1 to FIG. 5 show an embodiment, and the wind turbine for power generation includes an upside-down outer U-shaped pipe 5 mounted on the installation base 1, and the wind turbine is mounted on the outer frame pipe 5. 3 and a reflecting mirror 4 as a sunlight reflecting device are accommodated up and down and supported. Further, a beam-type receiving base 10 on which the windmill 3, the reflecting mirror 4, and the generator 7 are placed is installed on the base 1. *

The outer frame pipe 5 is provided with a seat frame 11 made of a metal pipe, and stands upright in an inverted U shape on the seat frame 11 straddling the base 1. The seat frame 11 has an endless annular shape and is formed with inverted V-shaped rising slopes 15 and 15 at both left and right ends, and receives the inverted U-shaped lower end at its apex. *

The reflecting mirror 6 is a metal plate formed in a cylindrical shape of an inverted truncated cone, and the inner surface is a reflecting surface. And when the light which leaked from between the windmills 3 installed on the top and the spoke of the support body 18 hits an inner surface, it is designed so that reflected light is irradiated toward the back surface of the plate blade 9. *

The wind turbine 3 is configured by attaching vertical support bodies 18 and 18 to a vertical axis 17 and through which five plate blades 9, 9... Are arranged equidistantly from the center. The cradle 10 on the base 1 is provided with a lower bearing 21 that supports the lower end of the vertical axis 17 and an upper bearing 20 at the center of the upper end of the outer frame pipe 5. And the support bodies 18 and 18 are located and attached to the lower end part (upper end height position of the reflective mirror 6) and upper end part of the vertical axis | shaft 17. As shown in FIG. *

The supports 18 and 18 use the wheels of the wire spoke rim, and a large number of wire spokes 23, 23... Are arranged between the boss 22 and the rim 24 (FIG. 7). It has a structure having flanges 22a and 22a at both upper and lower ends of a cylindrical shape, and spokes 23 and 23 are connected to the upper and lower flanges 22a and 22a so as to intersect vertically (crossover) or intersect with the circumferential direction. It is a form to do (cross intersection). From this intersection, the strength to support the plate blades 27 is extremely high. *

The plate blade 9 is in a sandwich form in which two solar panels 27, 27 sandwich a glass plate 30 back to back in a rectangular frame 25 that is long in the vertical direction. A pocket 29 is provided. *

The frame 25 is composed of a combination of left and right vertical frames 31 and 32 and upper and lower frames 33 and 33 which are respectively extruded from aluminum, and the wind receiving pocket 29 is integrally formed by extrusion on the vertical frame 31 on one side. . *

Further, inside the frame 25, face retainers 28, 28 are fitted so as to sandwich the two solar panels 27, 27, and the face retainers 28 are formed in a lattice shape or a net shape. Reference numeral 35 denotes an inner casing that is integrally formed with each of the frames 31, 32, and 33, and projects the solar panel 27 and the face retainer 28. *

The vertical blade 31 on the wind receiving pocket 29 side is an attachment position, and the plate blade 27 is fixed to the rim 24 of the supports 18 and 18 at both upper and lower ends via a connecting tool. The attachment form such as the angle can be various, but the plate blade 9 extends in the tangent P direction of the circle (rim 24) at the fixed portion. *

The wind receiving pocket 29 has a semicircular channel shape that opens in the P direction along the outer surface of the plate blade 9, and the wind received by the plate blade 9 is additionally received by the pocket 29. Rapid rotation is guaranteed.

FIG. 6 shows another embodiment of the solar panel 27, in which the wind receiving pocket 29 is extruded and is fixed to the vertical frame 31 with a screw 36.

1 base 3 windmill 4 reflecting mirror as reflected light irradiation device 5 outer frame pipe 7 generator 9 plate blade 17 vertical axis 18 support 22 boss 23 spoke 24 rim 25 framework 27 solar panel 29 wind receiving pocket

Claims (3)

1. In a wind turbine for power generation in which the vertical blades for rotating the generator are arranged with the blade blades of the wind receiver equidistant from the shaft via the upper and lower supports, both supports are fitted on the vertical axes. This is a wire spoke wheel in which a large number of wires cross each other between the boss and the outer rim, and the blades are framed by a solar panel and attached to the rim at one end of the frame. A wind turbine for power generation, wherein a pocket for receiving wind is additionally provided in a vertical frame at one end thereof.
2. The wind turbine for power generation according to claim 1, wherein the plate blades are fitted with a solar panel so that the light receiving surfaces are on the front and back.
3. The wind turbine for power generation according to claim 2, further comprising a reflected light irradiation device for reflecting sunlight to a solar panel on the back side.

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