KR20120125119A - Wind-induced wind and solar power generation devices - Google Patents

Abstract

PURPOSE: A wind and solar power generator is provided to guide wind so that the win force for generating electricity increases. CONSTITUTION: As to a wind and solar power generator, a rotary blade slantly protrudes at a constant interval. A discharge section(110) protrudes downward, and wraps a second inlet and a support wall(168) by a jacket(121). The second inlet is formed toward a lower part of a solar plate. The discharge section comprises a first inflow block(136), and protrudes toward the lower part of the rotary blade.

Description

Wind-induced wind and photovoltaic devices

The present invention relates to a wind-induced wind power and photovoltaic device, and more particularly, in a large area such as a field or a coastal area, in conjunction with the upper portion of the solar heating plate or photovoltaic power plate provided as a speech of the wind power generator. By providing an induction block in which wind power is guided in the direction of the rotary blade, the wind power blowing to the outer section of the surroundings relates to a power generation apparatus provided to reinforce the rotational force.

In general, the installation of the wind generator provided to be interlocked with the solar power plate, the rotation axis is formed so as to match the interval between the partition wall formed at both ends of the upper section of the solar power generation plate to form a predetermined area in most windy area By having a plurality of diaphragms at equal intervals in the outer section so that the drum-shaped rotorcraft coupled on the basis of the rotation axis to rotate by the wind, it is provided to be rotated by the resistance of the blowing wind, attached drawings It is to be used to provide a wind power and solar tube power generation apparatus is provided with a generator and a motor and a control device not shown.

In addition, due to the phenomenon of warming, the demand for large-scale renewable energy generation equipment is increasing. Therefore, it is required to install coastal area or offshore wind power system to install large-scale power generation facilities, and the size of wind power generation equipment is 100m in height. To the extent that the development of the use of large capacity.

In addition, because most of the weather is sunny, the sunlight is providing the optimum requirements for solar power generation, thereby providing for power generation.

However, most of the wind blowing in the space where the solar panel is installed is blown by moving in the horizontal direction according to the wind zone.

Therefore, in order to reinforce the rotational force of the rotor blades against the wind blowing on the photovoltaic panel, possible wind blowing between the sections between both ends of the photovoltaic panel is installed in a horizontal state so as to be provided between the sections. In order to provide power generation to reinforce the rotation of the wind turbine due to the induction of wind in the entire section of the drum-shaped rotor blades.

Most solar panels use as much light as possible to attract a lot of sunlight, which causes resistance to strong winds, so you need to provide a strong support structure that is more than necessary to safely protect your wind. Patent Application No. 10-2011-0013960 to provide a rotary structure for the solar power plate coupled firmly with the rotating means addressed in the support pillar for the wind turbine.

In addition, the structure of the propeller that is rotated by the wind is composed of a rotary blade projecting in the outward direction toward the wind blowing direction, or in the circumferential direction on the outer surface of the drum-shaped cylindrical rotor formed in a predetermined size It is provided to rotate using wind resistance in the groove section between the rotor blades protruding obliquely while maintaining equal spacing.

However, as described above, the movement of the wind power is equally directional in the surroundings, that is, in the upper and lower sections, in which the solar power plate is formed, and the present invention provides the movement of the wind in the upper and lower sections as described above. As the wind blowing the surrounding space is induced, it is to be configured to provide to blow intensively in the section blowing the wind.

Therefore, the space of the stable section is provided with a photovoltaic generator in sunny weather sunny day, when the weather is cloudy or night time, the blowing wind is provided with a separate wind induction block, the movement of the wind This is to perform as a reinforcement role of the occurrence of convection phenomena provided to guide the movement to the rotary blades.

Accordingly, the present invention provides solar heating or photovoltaic power generation in sunny weather, and induces convection in windy winds to direct the blowing direction to the air, thereby blowing space of caution. The state is intended to provide wind guidance.

In addition, since the height of the support pillar of the wind power generator constructed according to the development of technology, etc. is about 60-100 m in height and the reinforcement structure for the supporting strength, the area and the installation cost of the space occupied by the high structure are Minimizing the economic value and improving the economic value, and also to install new renewable power generation facilities in the edge of the city buildings, rivers and valleys.

In the frame installed by the rotating device protruding the support pillar for the wind turbine is installed wind turbine provided in the present invention, provided with a solar power plate and a rotor blade for wind power, the upper, lower periphery of the solar power plate By inducing wind blowing in the space of the, to provide a period to induce the effect of reinforcing the rotational force on the rotor blades.

In addition, by using the wind power to blow into the space of the wind zone where the surrounding wind is mainly passed along with the roof of the building, and the sunlight to shine, to provide the wind power as described above, and to provide a solar power generating device for natural rotational structure. This is to reinforce economics.

Therefore, in the structure installed in the high-rise as described above, by providing a structure for the sun's commitment to bevel obliquely inclined, in a multi-layered inclined structure, for the installation of wind power or photovoltaic reinforcement.

Each of the photovoltaic plate 105 and the fixed plate 140 are provided to be inclined to protrude to rotate in a fixed manner, the curved plate 145 is provided so that the rotating section 115 is formed in the fixed plate 140 section. The inlet 141 and the outlet 171 are formed at each end of each side, and the rotating shaft 160 is provided at both ends of the rotation section 115 with a partition wall 117. In the wind power and photovoltaic device provided by projecting the rotor blades 166 inclined at equal intervals to the outer surface section of the length section of the rotary drum 165 coupled around the rotation shaft 160,

Each of the photovoltaic plate 105 and the fixed plate 140 are inclined to protrude to be fixed to the frame 130 interlocked with the rotating means 150 coupled to the upper end of the pillar 175, respectively. In addition, the inlet 141 and the outlet 171 are formed at both end portions of the fixing plate 140 having the curved portion 145 so that the rotation section 115 is formed, and the rotation section 115 is provided. At both ends of the rotary shaft 117 is provided with a rotating shaft 160, while finishing with the partition wall 117, the rotor blade 166 to the outer surface section of the length section of the rotary drum 165 is coupled around the rotation shaft 160 In the wind and photovoltaic device provided by protruding obliquely at equal intervals,

Between the partition wall 117 is projected downward while the second inlet 151 and the support wall 168 formed in the lower direction of the photovoltaic panel 105 wrapped around the jacket 121, the branch section is guided by curvature The first inflow block 136 is formed by fixing the outlet 110 to the lower section of the outlet 171, and is configured to be ejected to the lower section of the rotor blade 166.

In addition, a section of the third inlet 161 and the support wall 168 ′ is fixed to the upper portion of the guider wall 145 by the jacket 121 ′ such that the section 146 and the fixing plate 140 are bent downward. By providing a second inflow block 136 ′ formed by the moving tube 111 protruding, the invention is configured to eject into the lower section of the rotor blade 166.

In addition, protruding the guide bar 178 in both end portions of the photovoltaic plate 105,

A second inlet block 136 ′ having a moving pipe 111 fixed therethrough is provided in the ejection section 110 of the first inlet block 136.

The solar power panel is provided by inclining the wind power generation block 100 having the first inflow block 136 and the second inflow block 136 ′ in the frame 130 protruding with a differential height. The invention is configured to reinforce photovoltaic power for 105.

The present invention is to reinforce the power generation by effectively inducing the wind in a wide range of wind farms, and also configured to provide as a guide to the solar power generated by sunlight and convection caused by solar heat, such as sunlight, support pillar The invention is to reinforce economics and practicality by providing to utilize the idle space of the.

In addition, in case of strong wind, it is to provide wind to guide the movement of air to prevent damage of wind and sea.

The present invention is to guide the wind power blowing while maintaining the horizontal direction in the upper and lower sections of the pre-installed photovoltaic generator to the drum-type rotary blade installed in the upper section of the solar panel, reinforce the rotational force for the section of the rotor blades It is about the invention to provide to give.

Therefore, the following describes the preferred embodiments of the present invention with reference to the drawings to describe the specific content for the practice of the present invention.

That is, Figure 1 is a partially cut perspective view of a conventionally provided wind turbine, Figure 2 is a perspective view of the main portion of the present invention, Figure 3 is a perspective view of the present invention acting on the main portion of Figure 2, Figure 4 3 is a cross-sectional view taken along line AA in FIG. 3, FIG. 5 is a perspective view of an embodiment of the main portion in FIG. 3, and FIG. 6 is a cross-sectional view taken along line BB in FIG.

7 is a perspective view of another main part of the present invention, FIG. 8 is a perspective view of an embodiment in which the main part of FIG. 7 is applied to FIG. 1, FIG. 9 is a cross-sectional view taken along line CC of FIG. 8, and FIG. 3 is a perspective view of one embodiment acting on FIG. 3, FIG. 11 is a perspective view of an embodiment of the main part in FIG. 10, FIG. 12 is a sectional view taken along line DD in FIG. 10, and FIG. 13 is a perspective view of another embodiment of FIG. 10. 14 is a cross-sectional view taken along the line EE of FIG. 13.

Therefore, the present invention provides abundant wind power from the rooftop of a building constructed in a windy windy area where a lot of wind blows on the edge of a river or a road such as a downtown area, or abundantly, or high sunlight irradiation amount. As an invention for providing a large amount of power generation in the region, by rotating the rotation means in the wind blowing direction by the wind blowing in the night or cloudy weather combined with the rotating means 150 to rotate by the sun, The inclination of the inclined power generation plate for the photovoltaic device 105 is not shown to drive the rotary means 150 provided to be guided to the inlet 141 section of the wind power generator 100 as a separate control device We will equip.

In the case where the solar light and the wind are generated at the same time, it is preferable that the solar power generating device 105 is driven to preferentially wind in the winter season and the solar light in the summer season.

Therefore, each solar panel is fixed to the frame 190 to be fixed to the frame 130 linked to the rotating means 150 coupled to the upper end of the pillar 175 protruding to be fixed on the ground 190 to maintain a predetermined height Each of the 105 and the fixing plate 140 is provided with an appropriate inclination angle for photovoltaic power generation at a predetermined angle, and a rotation shaft 160 installed through the rotation section 115 between the partition wall 117, which is a main part of the present invention. Protruding fixed plate 140 inclined so as to fix the wind power generation block 100 formed by the guider wall 145 between the inlet 141 and the outlet 171 section for the rotation of the rotating drum 165 is coupled. Equipped with.

Therefore, the fixed plate 140 is formed in the inlet 141 and the outlet 171 at each end of each side having a guider wall 145 so that the rotation section 115 is formed in the section and the rotation section 115 Rotating blades (166) are provided on both sides of the outer end of the lengthwise section of the rotary drum 165 coupled to the center of the rotary shaft 160 while being finished with the partition wall 117. It is provided by making it protrude obliquely at equal intervals.

In the moving section for the wind power that is the height section of the inlet 141 and the outlet 171 described above, by providing a plurality of inlet 141 by providing a plurality of support wall 168 at a predetermined interval, It is desirable to provide strong wind or long term durability.

A second inlet 151 and the second inlet is provided so as to be directed in the direction in which the wind blowing in the lower section of the photovoltaic panel 105 while fixing in the lower section between the partition wall 117 section The length of the inlet 151 is fixed to the plurality of support walls 168 at equal intervals, but while the jacket 121 is wrapped around the outlet section which is guided by the curvature of the outlet section 171 The invention is provided to have a first inlet block 136 formed by fixing with a fixed plate 140.

The installation provided to fix the jetting section 110 described above is provided by fixing the jetting section 110 to a fixed plate 140 which is a lower section of the outlet 171, the wind blown from the jetting section 110 Is, the invention is provided so as to be ejected to the lower section of the rotor blade 166 to rotate by the wind, to further reinforce the rotational force to rotate by the wind.

That is, the lower section of the rotary blade 166, which is blown by the wind induced by the jet section 110, is formed as an exception section in the rotary section applied to the wind. In the present invention, by providing a wind blowing for the exception section, to provide a more reinforced power generation.

Example 1

By inducing the blowing force to the upper section of the photovoltaic device 105, which is the main part of the present invention, as shown in Figures 7 to 9 attached to the invention to reinforce the rotation force is further reinforced, As the invention for inducing the blowing wind while maintaining the horizontal direction in the upper space of the power generating device 105, to provide to the lower section of the outlet 171 of the rotor blade 166 described above, The third inlet 161 and the support wall 168 'at equal intervals so as to be set at the upper section of 105), that is, to be installed in the upper section, which is a section between both end portions of the guider wall 145. The section provided to be formed is fixed to the curved portion 146 and the jacket 121 'bent downward to the fixing plate 140, as well as protruding the moving tube 111 from the curved end, By providing a second inlet block 136 ′ configured to be fixed to the fixed plate 140 installed in the lower section of the sphere 171, it is preferable to be configured to be ejected to the lower section of the rotor blade 166 as described above. .

Here, between the outlet 171 described above and the curved portion 146 downwardly curved, the discharge section 118 discharged to the outside by the wind discharged from the outlet 171 is fixed to the fixed beam 142. It is desirable to provide.

Example 2

By inducing a blowing force to the upper section of the photovoltaic device 105, which is the main part of the present invention, as described in the attached Figures 10 to 14 as an invention for reinforcing a further reinforced rotational force, as described above As described above, the induction stand protruding outwardly in a section of the upper and lower lengths of the inclined power generation plate for the photovoltaic device 105 having a large area to reinforce the photovoltaic power by being formed in a predetermined width ( 178) is an invention configured to protrude, which means that when the wind hits a large area of the power generation plate, some of the wind will lead to the ejection to both sections, the wind of the wind blowing to the inlet 141 is the intended purpose This is to provide for preventing the loss.

In addition, the description of the embodiment of the present invention for providing so that at the same time, the upper and lower sections of the photovoltaic device 105 provided in the present invention to spout the rotational force for the wind blowing at the same time,

In the partition wall 117 provided at both sides between the inlet 141 and the outlet 171 which are both end sections of the photovoltaic plate 105, respectively.

By providing a second inlet block 136 ′ through which the moving tube 111 is fixed to the ejection section 110 of the first inlet block 136, the lower section of the rotor blade 166 as described above. It is an invention provided to provide to give to the.

In addition, the direction in which the wind is blowing is a natural phenomenon that moves while forming a horizontal state, as the invention for reinforcing the effect for solar power as well as solar power generation,

The photovoltaic device is provided with each of the wind power generation blocks 100 including the first inflow block 136 and the second inflow block 136 ′ in a frame 130 protruding at an inclined angle. 105 is an invention configured to reinforce the wind power generation to the inclination of the photovoltaic panel by installing the power generation plate inclined for the reinforcement of the solar panel.

In addition, by installing the first inlet block 136 and the second inlet block 136 'in an interlocking manner in an upper section of the photovoltaic device 105 described above, by the resistance of the moving wind power, The photovoltaic device 105 is an invention that provides an advantage of providing a direction key effect for rotation to be inclined in the wind blowing direction.

Here, the control device not shown in the drawings and the auxiliary equipment for the electrical installation for solar power or wind power generation is an invention that may be used by using the existing equipment, which is required in the facilities for power generation for renewable energy. By providing savings for a large area of space, it is an invention that reinforces the installation cost and space efficiency.

1 is a partially cut away perspective view of a conventionally provided wind power generator

Figure 2 is a perspective view of the main part of the present invention

3 is a perspective view of the present invention acting on the main portion of FIG.

4 is a cross-sectional view taken along the line A-A in FIG.

5 is a perspective view of an embodiment of the main part in FIG.

Fig. 6 is a sectional view taken along the line B-B in Fig. 5

7 is a perspective view of another main portion of the present invention;

8 is a perspective view of an embodiment in which the main portion of FIG.

9 is a cross-sectional view taken along the line C-C in FIG.

10 is a perspective view of an embodiment in which the main part of FIG. 7 is applied to FIG. 3.

11 is a perspective view of an embodiment of the main part in FIG.

12 is a cross-sectional view taken along the line D-D in FIG. 10.

13 is a perspective view of another embodiment of FIG. 10.

14 is a cross-sectional view taken along the line E-E in FIG.

<Code Description of Main Parts of Drawing>

100: wind power generation block 105: solar power plate 110: ejection section

111: moving tube 115: rotating section 117: partition 118:

121,121 ': Jacket 128: 130: Frame 136: First inflow block

136 ': second inlet block 140: fixed plate 141: inlet

142: fixed beam 145: guider wall 146: curved portion 150: rotation means

151: second inlet 155: guide bar 160: rotary shaft 161: third inlet

165: rotating drum 166: rotor blade 168,168 ': support wall

171: outlet 175: pillar 178: guide stand 180: rooftop

185: generator 186: housing 190: ground 195: building

Claims (3)

Each of the photovoltaic plate 105 and the fixed plate 140 are inclined to protrude to be fixed to the frame 130 interlocked with the rotating means 150 coupled to the upper end of the pillar 175, respectively. In addition, the inlet 141 and the outlet 171 are formed at both end portions of the fixing plate 140 having the curved portion 145 so that the rotation section 115 is formed, and the rotation section 115 is provided. At both ends of the rotary shaft 117 is provided with a rotating shaft 160, while finishing with the partition wall 117, the rotor blade 166 to the outer surface section of the length section of the rotary drum 165 is coupled around the rotation shaft 160 In the wind and photovoltaic device provided by protruding obliquely at equal intervals, Between the partition wall 117 is projected downward while the second inlet 151 and the support wall 168 formed in the lower direction of the photovoltaic panel 105 wrapped around the jacket 121, the branch section is guided by curvature By having a first inlet block 136 is formed by fixing the 110 to the lower section of the outlet 171, the wind-induced wind power and photovoltaic device configured to be ejected to the lower section of the rotor blade 166 The method of claim 1, A section of the third inlet 161 and the support wall 168 ′ is fixed to the upper portion of the guider wall 145 by the jacket 121 ′ such that the section 146 and the fixing plate 140 are bent downward. Wind-induced wind power and photovoltaic device having a second inflow block (136 ') formed by protruding from the 111, to be ejected to the lower section of the rotary blade (166). The method of claim 1, A second inflow projecting the guide bar 178 in both end portions of the photovoltaic panel 105 and through which the moving tube 111 is fixed through the ejection section 110 of the first inflow block 136; Block 136 ', The solar power panel is provided by inclining the wind power generation block 100 having the first inflow block 136 and the second inflow block 136 ′ in the frame 130 protruding with a differential height. Wind-induced wind and photovoltaic devices configured to reinforce photovoltaic power for 105.

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