KR20110094168A - Photovoltaic Power Plants Addressed to Wind Power Generators - Google Patents

Abstract

PURPOSE: A photovoltaic power generation apparatus installed in a wind power generator is provided to improve generation efficiency by effectively guiding wind. CONSTITUTION: A photovoltaic power generation apparatus installed in a wind power generator comprises a support beam(129'), a block, a post, a photovoltaic power generation plate(100), and a wind power generation device(195). The support beam is fixed to the bottom side of a support post(198). The block comprises an auxiliary beam(129''). The post is installed in the edge of the block. The photovoltaic power generation plate is inclinedly installed in the post. The wind power generation device is installed on a sea(170) and has a vane(197) for guiding wind.

Description

Solar generators addressed to wind turbines

The present invention is a wind power plant using wind blowing in a wide area, such as a field or coastal area, fixed to the support pillars for forming each wind generator to a photovoltaic device that is addressed between the buffer section between the wind generators It is about.

In general, the installation of the wind power generator is to use each wind power generator while maintaining a predetermined interval in the windy area.

The space between the support pillars of the wind turbine is a stable space for the wind and the convection formed due to the rotation of the rotor blades against the wind gives a safe recovery for the rotor blades provided later Safety intervals are required.

In addition, the space of the stable section is provided with a photovoltaic generator in sunny weather sunny day, to serve as a wall surface for inducing the inclined photovoltaic power plate for tracking the sun.

In the case of typhoons blowing in coastal areas, windbreak forests are formed to prevent wind seas, thereby directing the direction of strong winds into the air, thereby reducing damage to the wind seas.

In addition, solar power generators form a large-scale power generation board to take up as much sunlight as possible to reinforce the power of generation, and also move to rotation in accordance with the movement of the sun to increase the direct sunlight, thereby reinforcing efficiency for power generation. Power plate for performing photovoltaic power generation in the support beam fixed integrally to protrude in the circumferential direction in the space outside the support pillar for wind power generators fixed on the ground and protruding from the ground, and the gears and the adjustment accordingly In order to provide the assembly and the like.

Therefore, the present invention is to provide a photovoltaic power generation in sunny weather, and also to provide a wind blowing direction toward the air in the wind blowing wind wind, thereby providing a prevention of damage to the wind.

The purpose is to provide reinforcement of generating power by constructing the wind induced in the air to be guided by the rotor blades of the wind turbine.

In addition, the support column described above is provided with a moving section and a ladder of the worker for the maintenance of the power generation device at any time while forming a moving section of the equipment and the operator in the inner space of the support pillar while supporting a high-weight power generation device Therefore, while being provided with a large diameter (for example, about 5 to 10m in diameter), it tends to gradually decrease toward the upper side.

In order to induce the effect of the wind blowing in the lower section of the rotating device protruding the support pillar for the wind turbine is installed in the wind turbine provided in the present invention, while providing a solar generator using the sunlight reflected on the lower section This is to reinforce the rotational force of the rotor blades in the wind direction continuously by induction of wind blowing.

This is because the wind turbine needs a safe rotation space of the rotary blade,

Photovoltaic power generation at the edge of the block comprising a support beam and an auxiliary beam, which are fixed to the support pillar and extended in an outward direction and fixed in the support pillar in a lower space of the support pillar supported by the rotation space. By providing the pillars 125 for the plate 100 as protrusions and assembling the beams to the cams formed on the rear surface of the photovoltaic panels, the solar power blocks are installed so as to perform rotational driving due to the movement of the sun. This is to reinforce the usability of the space.

Therefore, the solar power generators which are fixed to the support pillars are formed in the idle spaces between the wind power generators in the wind farms that are provided while maintaining a predetermined distance from the sea in wide fields or coastal areas.

In the wind turbine 195 is provided to rotate the rotor blades 195 in the support pillar 198,

While protruding in the outward direction while being fixed to the lower section of the support pillar (198) to project each of the support beams (129 ') in the upper and lower sections; Form a block that connects and secures the section between the projecting upper and lower support beams 129 ′ with the auxiliary beam 129 ″, and at the edge of the block, a pillar 125 for the photovoltaic panel 100. ) As a protrusion,

The pillar 125 is provided with an inclined photovoltaic plate 100, and is configured to guide wind power to the rotary blades 197 of the wind power generator 195 sequentially installed on the sea 170.

In addition, in the upper section of the pillar 125 to the cover 124 assembled to be driven to rotate by the motor 128 and the gear 130,

On the back of the photovoltaic panel 100, the cover 141 protruded to the assembly caps 147 and 147 'provided at the upper and lower sides, respectively, on the upper side of the pillar 125. It is an invention that is configured to drive the photovoltaic plate 100 in accordance with the movement of the sun by having it coupled to 124.

The present invention is to reinforce the power generation by effectively inducing wind in a wide range of wind farms, and also to provide a photovoltaic power generation by sunlight, provided by utilizing the idle space of the support pillar, economic and practicality is reinforced Invention.

In addition, in case of strong winds, the wind is directed to the air to reinforce the wind power and to provide damage to prevent wind damage.

The present invention is to provide an apparatus for effectively generating solar and wind power according to the weather conditions by being effectively provided in the surrounding space in the support column is provided with a rotary blade in the support pillar of the wind turbine is installed,

Hereinafter, with reference to the drawings to describe the preferred embodiment of the present invention will be described in detail for the practice of the present invention.

The main purpose of the present invention is to provide a power plant by forming a power plant by continuously installing it at predetermined intervals in a wide coastal area, sea level, mountainous area, or the like.

Therefore, in the description of one embodiment of the present invention is intended to be described based on the installation at the sea level described above.

That is, Figure 1 is a partial cross-sectional view of the use state for the present invention, Figure 2 is a partially enlarged perspective view of the main portion in Figure 1, Figure 3 is a separate partial perspective view of the main portion in Figure 2, Figure 4 is in Figure 2 5 is an enlarged cross-sectional view of the main portion of the use for the present invention, FIG. 6 is a cross-sectional view of the main portion for the present invention, and FIG. 7 is an enlarged cross-sectional view of the BB line in FIG.

The main purpose of the present invention is to provide a power plant by forming a power plant by continuously installing it at predetermined intervals in a wide coastal area, sea level, mountainous area, or the like.

Therefore, in the description of one embodiment of the present invention is intended to be described based on the installation at the sea level described above.

That is, when the wind farm is formed on the sea surface such that it is formed in a large area in a wide section such as the sea 170, the provision of the photovoltaic generator 100 at the middle of the support pillar 198 arc-shaped cap 163 ' ) By connecting a plurality of arc bearings (169) to each other and wound around the outer periphery of the support column (198), but fixed to the outer periphery section of the support column (198) to the arc-shaped bearing (169) In the combined arc 켑 163 ′, the auxiliary beam 129 ″ is spaced apart from each other while the support beam 129 ′ protruding to the outer circumferential section of the support pillar 198 is spaced symmetrically upward and downward. It is desirable to provide a block structure of a certain area by fixing to a) so that a predetermined area of the block to rotate in accordance with the movement of the sun.

However, in the present invention, by providing a separate rotation structure on the upper side of each of the pillars 125 protruding from the solid block structure, it is coupled to the arc-shaped bearing (169) coupled to the outer surface of the support column 198 described above By providing to replace the rotating structure by arc 켑 163 ′, to provide a more strongly combined reinforcement structure.

Therefore, the solar panel 100 is an invention for stably providing the rotor blades 197 of the wind turbine 195, which is the outer circumferential section of the support pillar 198, in accordance with the section around the rotation of the wind. This is to reinforce the stability of the strong wind solar panel 100 installed in the wind power generator (195).

Wherein the support beams (198) to be fixed to the lower section to protrude in the outward direction, so as to project each of the support beams (129 ') in the upper and lower sections at a predetermined spaced interval; By forming and providing a three-dimensional block for connecting and fixing the interval between the projected upper and lower spaced support beams (129 ') with the auxiliary beam (129 "), and a pillar protruding for each section described below In addition to the load of the photovoltaic panel 100 is provided to prevent damage such as strong winds.

Therefore, in the section of the outer circumference of the block in which the support beam 129 'is provided as a protrusion, a plurality of pillars 125 (eg, about 3 to 4 or more) are projected so as to maintain equal spacing. The pillar 125 is an invention that provides a solar panel 100 to be installed.

Here, each of the assembly caps 147 and 147 'is provided at the upper and lower sides of the rear surface of the solar power generation plate 100, respectively, and the beams protruding from the assembly caps 147 and 147' are coupled to each other. 129 is an invention configured to drive the photovoltaic plate 100 in accordance with the movement of the sun by combining the rotation induction device 130 is assembled to the upper edge of the pillar 125.

It is provided with a plurality of support pillars 198 continuously maintaining the same spacing, so as to maximize the rotational force of the rotary blades by blowing wind while building the wind farm in the installed sea 170, respectively In the space between the sections between the wind turbine 195 is installed, the rotor blades 197, it is preferable to provide according to the structure of the construction site as a section for the photovoltaic power generation as well as the induction function of the wind power (Fig. 1, Fig. 1). 5)

Therefore, a plurality of photovoltaic panels 100 are provided in an upper section in which a predetermined safety section for moving in a wave or sea surface formed by movement of wind, which is a predetermined section, is provided at an outer edge of the support pillar 198. It is an invention to make.

In addition, the description of one embodiment of the assembly of the arc-shaped cap 163 'and the arc-shaped bearing 169 fixed to the support block and the support pillar 189 described above, the edge of the support block described above In the cover 124 coupled to the upper side of the pillar 125 protruding from the projected by the rotating means according to the movement of each sun, fixed integrally on the outer surface of the support pillar 198 for the wind turbine 195 It is to be simplified to provide to give.

Therefore, a plurality of photovoltaic panels 100 are provided along the edges of the support beams 129 'which protrude into the outer edge sections while being fixed to the outer side of the support pillars 198 integrally with fixing bolts 126 and the like. It is an invention which is a range which belongs to the technical scope of this invention even if it provides and installs. (Figure 1)

This provides the induction of wind to the rotor blades 197 portion of the large area of the inclined photovoltaic power plate 100, and also in the case of sunlight and no wind, the support pillar 198 as described above The plurality of auxiliary beams 129 "are fixed at equal intervals between the wide sections of the block according to the size and support strength of the block between the upper and lower support beams 129 'so as to protrude outwards. According to the edge section of the block, which is a predetermined wide space where the support capacity is reinforced by zooming, the photovoltaic panel 100 installed in plurality performs power generation, thereby effectively providing photovoltaic power generation with sunlight shining in a large space. desirable.

As described above, a plurality of cams 147 and 147 ′ provided at both sides of upper and lower sides fixed to the rear surface of the solar light collecting plate 100 provided to be assembled to the pillars 125 may be provided. The cover 124 is provided at the upper edge of the pillar 125 to fit the beam 129 to the cam 147, 147 'described above.

It is fixed to the cover 124 provided as an assembly in the pillar 125, the cover 124 is provided to be coupled to the pillar 125 for the drive of the gear 130 and the motor 128.

Therefore, the motor 128 is rotated by the control device, not shown, and the solar power plate 100 is provided to rotate according to the direction of movement of the sun, thereby reinforcing the power generation purpose of the present invention. (Fig. 6,7)

In the wind turbine generator 195 provided to rotate the rotor blades 195 in the support column 198, the upper and lower sections are projected outwardly while being fixed in the middle section of the support column 198. To protrude each support beam 129 '; Form a block for connecting and fixing the section between the protruding upper and lower support beams 129 ′ with an auxiliary beam 129 ″, and the pillars 125 for the photovoltaic panel 100 at the edges of the blocks. ) As a protrusion,

The pillar 125 is provided with a cover 124, by connecting the beams 129 protruding from the cover 124 to the cams 147 and 147 of the solar panel 100, respectively. By providing the solar panel 100 inclined, it is an invention configured to guide the wind to the rotary blades 197 of the wind power generator 195 sequentially installed in the sea (170).

In the upper section of the pillar 125 in the cover 124 is assembled to rotate by the motor 128 and the gear 130,

In other words, a cover that covers the beam 129 protruding by coupling to the assembling caps 147 and 147 ′ provided on the rear and upper sides of the solar panel 100, respectively, on the upper side of the pillar 125. It is preferable to provide so that the photovoltaic plate 100 is driven in accordance with the movement of the sun by having to be coupled to (124).

1 is a partial cross-sectional view of the use state for the present invention

FIG. 2 is a partially enlarged perspective view of the main part of FIG. 1; FIG.

Figure 3 is an exploded partial perspective view of the main part in Figure 2

4 is an enlarged cross-sectional view of the A-A line in FIG.

5 is a main state diagram of use for the present invention.

6 is a cross-sectional view of the main portion of the present invention.

7 is an enlarged cross-sectional view of the B-B line in FIG.

<Code Description of Main Parts of Drawing>

100: solar power plate 125: pillar 129: beam

129 ': Support beam 129 ": Auxiliary beam 147,147': Cam

163 ': Arc shaped cap 169: Arc bearing

195: wind power generator 198: support pillar

Claims (2)

In the wind turbine 195 is provided to rotate the rotor blades 195 in the support pillar 198, While protruding in the outward direction while being fixed to the lower section of the support pillar (198) to project each of the support beams (129 ') in the upper and lower sections; Form a block for connecting and fixing the section between the protruding upper and lower support beams 129 ′ with an auxiliary beam 129 ″, and the pillars 125 for the photovoltaic panel 100 at the edges of the blocks. ) As a protrusion, The pillar 125 is provided with an inclined photovoltaic plate 100, and the speech to the wind generator is configured to guide the wind to the rotary blades 197 of the wind power generator 195 sequentially installed in the sea (170) Becoming photovoltaic device. The method of claim 1, In the upper section of the pillar 125 in the cover 124 is assembled to rotate by the motor 128 and the gear 130, On the back of the photovoltaic panel 100, the cover 141 protruded to the assembly caps 147 and 147 'provided at the upper and lower sides, respectively, on the upper side of the pillar 125. 124) by being coupled to the solar power generating device is addressed to the wind turbine is configured to drive the solar power plate 100 in accordance with the movement of the sun.

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