KR20110021030A - Generator using solar energy and wind power energy - Google Patents

Abstract

PURPOSE: A generator using solar energy and wind power energy, capable of energy integration and energy efficiency increase using wind energy, is provided to maximize energy efficiency by storing and charging energy even in night and bad weather. CONSTITUTION: A generator using solar energy and wind power energy composes a first power generation fan(130), a plurality of rail type generators(140), a fixing plate(160), a plurality of angle control cylinders(180), an actuation plate(190), a reflector(210), a plurality of heat energy concentrating panels(230), a fixing post(120) and a propeller type second power generation fan(150). The rail type generator is respectively installed in the upper and lower area of the first power generation fan and converts spin energy into electrical energy. The fixing plate is fixed to the base plate through a plurality of supports. The angle control cylinder is fixed to the upper side of the fixing plate. The actuation plate is connected to the upper end of the angle control cylinder. The reflector of cupola-shape is connected to the upper side of the actuation plate to a plurality of fixed bars. The heat energy concentrating panel is fixed to the top of the reflector to be supported and is filled with water. The fixing post vertically passes through the center of the first power generation fan, the fixing plate, the actuation plate, and the reflector. The fixing post comprises the generator. The propeller type second power generation fan is installed on the upper end of the fixing post and is connected to the generator.

Description

GENERATOR USING SOLAR ENERGY AND WIND POWER ENERGY}

The present invention relates to a power generation device using solar energy and wind energy, and more particularly, to improve solar energy and wind energy in order to maximize the light integration degree of solar energy as well as maximize the power generation efficiency by using wind energy in combination. It relates to a power generator used.

In general, the solar energy generating device uses solar light, and refers to a device that converts solar energy, which is infinite and pollution-free, into electrical energy through a solar cell.

At this time, the solar cell is composed of a PN junction semiconductor, when solar light is irradiated, free electron-hole pairs are generated by the light energy, free electrons and holes are moved to move the current across the N and P layers photovoltaic power The photovoltaic effect generates electromotive force and induces electricity to flow current to an externally connected load.

As such, in a solar energy generator using a solar cell, a condensing technology capable of intensively irradiating sunlight to the solar cell is very important. The light density varies according to the condensing technology. Because it is determined.

Recently, along with the fossil energy damage and accelerated research on environmentally friendly energy sources, a number of related technologies have been disclosed.

For example, there are a number of patented technologies, including Patent No. 0466257, 'Condensing Lens and Condensing Device for Photovoltaic Power Generation', Patent Publication No. 2007-0088221, 'Condensing Device for Solar Power Generation', and the like.

However, in the related arts disclosed in the related art, it is merely a level of efficiently disposing a known flat solar collector, and technologies for increasing the light collection efficiency while varying to correspond to the altitude of the sun have been disclosed, but these technologies are only used. There is a limit to not being able to accumulate or accumulate energy sufficiently when the weather conditions deteriorate, such as cloudy, rainy or snowy, because only sunlight is available.

The present invention was created in view of the above-mentioned problems in the prior art, and has been created to solve the above problems, and improves the light condensing structure to improve the light condensing efficiency, as well as to make energy integration more efficient by using wind energy. The main problem is to provide a power generation device using solar energy and wind energy to further increase the added value as an alternative energy source by implementing a power generation device for efficient energy conversion.

The present invention is a means for achieving the above object, the base plate fixed to the mounting surface; A first power fan installed on an upper surface of the base plate; A plurality of rail-type generators installed at upper and lower ends of the first power fan for converting rotational energy into electrical energy; A fixing plate installed on an upper portion of the first fan, and fixed to the base plate through a plurality of supports; A plurality of angle adjusting cylinders fixed to an upper surface of the fixing plate; An operating plate connected to an upper end of the angle adjusting cylinder; A hemispherical reflector plate fixed to an upper surface of the operating plate by a plurality of fixing bars; A plurality of heat collecting plates inclined by a support rod on the upper part of the reflecting plate and filled with water therein; A fixed post fixed to a center of an upper surface of the base plate, vertically penetrating through a center of the first fan, a fixed plate, a working plate, and a reflecting plate, and having a generator; It is installed on the top of the fixed post, and provides a generator using a solar energy and wind energy, characterized in that configured to include a propeller-type second generation fan connected to the generator.

In this case, a plurality of solar panels are installed along the edge of the reflecting plate, and the solar panel is installed to be angle-adjustable in a folded and unfolded form.

In addition, a plurality of vertically installed along the edge of the reflecting plate, there is also characterized in that the heat collecting plate is further provided therein filled with water.

In addition, a condensing lens is further installed at an end of the support rod, and at least one preheating plate is further installed on the heat collecting plate to further increase heat collecting efficiency.

According to the present invention, the light collecting efficiency is excellent, high efficiency energy collection is possible, and because the wind power generation is connected at the same time, even when the weather conditions are uneven or during night storage, it is possible to obtain the effect of maximizing energy efficiency.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

1 is an exemplary perspective view of a power generation apparatus according to the present invention, Figure 2 is a front sectional view of the power generation apparatus according to the present invention, Figure 3 is an exemplary view showing another embodiment of the power generation apparatus according to the present invention, Figure 4 Is an exemplary view showing another embodiment of a power generation apparatus according to the present invention.

1 to 2, the power generation apparatus according to the present invention includes a base plate 110 is fixed to the mounting surface.

The base plate 110 is preferably in the form of a disk as a substantially plate-like member, and is provided to enable stable support while forming the base of the power generator of the present invention.

In addition, a fixed post 120 is installed at the center of the upper surface of the base plate 110, and the fixed post 120 is placed at the center of the base plate 110 without interference with the first fan for the first power generation. 130 is installed.

In addition, a plurality of rail-type generators 140 are respectively installed on the top and bottom of the first power fan 130, the rail-type generator 140 is the first power fan 130 by the wind When rotated, the wind energy is converted into electrical energy through the rail-type generator 140. Although not shown in detail, the electrical energy generated by the rail-type generator 140 is transferred to a capacitor (not shown) to be stored. It is converted into electric energy and made available.

 More specifically, the rail-type generator 140 is installed on the support plate 132 supporting the top and bottom of the first fan 130, the fan 130 is a conventional propeller type Many fans, not fans, are cross-flow fans that rotate in the lateral direction.

In addition, the top of the fixed post 120 is further provided with a propeller-type second fan 150, a portion of the fixed post 120 is provided with a generator not shown in the second power generation The wind energy obtained by the fan 150 is converted into electrical energy, and is configured to be stored by means such as a capacitor not shown in the first power generating fan 130 so as to utilize electric energy later.

In addition, a fixing plate 160 is provided on an upper portion of the first power fan 130.

The fixing plate 160 is firmly fixed by the plurality of supports 170, and the support 170 is vertically fixed on the base plate 110.

In addition, a plurality of angle adjustment cylinder 180 is installed on the upper surface of the fixing plate 160.

The angle adjustment cylinder 180 is disposed in the circumferential direction of the fixed plate 160 at intervals of about 90 ° to adjust the angle of the operating plate 190, which is a structure installed on top of at least one of the lifting or lowering. .

In addition, the hemispherical reflecting plate 210 is fixed to the upper portion of the operation plate 190 by a plurality of fixing bars 200.

At this time, a large number of heat collecting plates 230 supported by the support rods 220 are installed in place of the reflecting plate 210, and the heat collecting plate 230 is configured to heat the water.

In particular, four heat collecting plates 230 are preferably installed at intervals of 90 °, as shown in the example, and solar light reflected by the reflecting plate 210 is collected, and heated hot water is drawn out to be supplied to a required place. Can be.

In addition, the reflective plate 210 is provided with a plurality of solar cells (solar cells) to generate electrical energy from sunlight, which can be stored in the capacitor described above.

As another example, as illustrated in (a) of FIG. 3, a plurality of solar panels 240 may be further installed along the edge of the reflecting plate 210 to further increase the condensing efficiency. Of course, it can also be configured to be unfoldable or detachable.

In this case, the solar panel 240 is more preferably configured to be angle-adjustable when folded.

As another example, as illustrated in (b) of FIG. 3, by installing the plurality of heat collecting plates 230 'upright along the edge of the reflecting plate 210, using the sunlight reflected from the inside of the reflecting plate 210 Of course, it can be used as a more efficient hot water heating means.

Furthermore, the fixing post 120 described above should be disposed through the central portions of the fixing plate 160, the operation plate 190, and the reflecting plate 210.

As another example, as illustrated in FIG. 4, a condenser lens 222 is further provided at an end of the support rod 220, and the heat collecting plate 230 includes at least one preheating plate, preferably the primary preheating plate 232. ), The second preheating plate 234 and the third preheating plate 236 are sequentially installed to increase the heat collecting efficiency according to condensing, and also maximize the preheating efficiency through the plurality of preheating plates, thereby storing the inside of the heat collecting plate 230. The heating efficiency of water can also be drastically improved.

The present invention having such a configuration has the following operational relationship.

First, the wind generated in the place where the power generator of the present invention is installed, that is, the wind power, rotates a plurality of fans provided in the power generator of the present invention, that is, the first and second power generation fans 130 and 150, and the first and second power generation. As the fan 130 and 150 are rotated to operate the rail-type generator 140 installed at the bottom thereof, and thus, the rail-type generator 140 produces electric energy.

The electrical energy thus produced is collected by a separately provided capacitor (not shown), and the electricity can be taken out and used at the place of use.

Such wind power is very useful because it can generate electricity at any time, regardless of weather conditions, night or day.

At the same time, solar energy obtained from sunlight can be collected and converted into electrical energy during the day.

That is, the present invention can achieve a synergy effect because the solar energy and wind energy are used in combination.

In the process of converting solar energy into electrical energy, some of the sunlight emitted from the sun directly heats the heat collecting plate 230, and also the sunlight reflected through the reflecting plate 210 heats the heat collecting plate 230.

Therefore, the water stored in the heat collecting plate 230 is heated to an appropriate temperature, it can be taken out and utilized in the necessary place.

In addition, the sunlight irradiated to the reflector 210 is collected through a plurality of solar cells (not shown) installed in the reflector 210, and at the same time is converted into electrical energy according to the characteristics of the solar cell, the converted electricity Energy is stored in the capacitor, and this electrical energy is used for drawing out where it is needed.

In this process, the altitude of the sun, for example, the south mid-high altitude is changed, and according to the operation of the angle adjustment cylinder 180 to receive the sunlight most vertically according to the power generation device of the present invention can be adjusted to receive sunlight vertically. In addition, it is possible to further increase the light collecting efficiency.

As described above, the power generation device according to the present invention can easily convert the energy contained in the wind and sunlight into electrical energy, which is the necessary energy available, but is more efficient and does not significantly affect weather conditions at all times. It can be secured to maximize its usefulness.

1 is an exemplary perspective view of a power generation device according to the present invention;

2 is a front sectional view of a power generation device according to the present invention;

3 is an exemplary view showing another embodiment of a power generation device according to the present invention;

Figure 4 is an exemplary view showing another embodiment of the power generation apparatus according to the present invention.

♧ description of the symbols for the main parts of the drawing ♧

110: base plate 120: fixed post

130: fan for the first generation 140: rail generator

150: second fan 160: fixed plate

170: support 180: angle adjustment cylinder

190: operation plate 200: fixing bar

210: reflector 220: support rod

230: heat collecting plate 240: solar panel

Claims (4)

A base plate fixed to the installation surface; A first power fan installed on an upper surface of the base plate; A plurality of rail-type generators installed at upper and lower ends of the first power fan for converting rotational energy into electrical energy; A fixing plate installed on an upper portion of the first fan, and fixed to the base plate through a plurality of supports; A plurality of angle adjusting cylinders fixed to an upper surface of the fixing plate; An operating plate connected to an upper end of the angle adjusting cylinder; A hemispherical reflector plate fixed to an upper surface of the operating plate by a plurality of fixing bars; A plurality of heat collecting plates inclined by a support rod on the upper part of the reflecting plate and filled with water therein; A fixed post fixed to a center of an upper surface of the base plate, vertically penetrating through a center of the first fan, a fixed plate, a working plate, and a reflecting plate, and having a generator; Installed on the top of the fixed post, the generator using a solar energy and wind energy, characterized in that it comprises a propeller type second fan connected to the generator. The method according to claim 1; A plurality of solar cells and wind power generators are installed along the edge of the reflector, characterized in that the solar panel is further provided to be adjustable in the form of folding and folding. The method according to claim 1; A plurality of vertically installed along the edge of the reflecting plate, the interior of the power generation device using solar energy and wind energy, characterized in that the heat collecting plate is further provided with water. The method according to claim 1; A condenser lens is further installed at an end of the support rod, and at least one preheating plate is further installed on the heat collecting plate to further increase heat collecting efficiency.

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