KR20130019328A - Residential facilities with wind and solar power blocks - Google Patents

Abstract

PURPOSE: Residential facilities equipped with a wind force and photovoltaic generation block is provided to reinforce generation capability by effectively inducing wind in a wide wind generation farm and to provide residence, job and power generation facilities in a poor region. CONSTITUTION: Residential facilities equipped with a wind force and photovoltaic generation consists of connecting the bottom plane of a middle floor and the rooftop bottom plane in the upper part of a bottom plane(60), having a residential block(120) between the floors, forming residence or farming region in the residential block, symmetrically convexly forming photovoltaic power generation plate(105') in the rooftop bottom plane of the residential block and forming a horizontal type wind power generator(130) in the convex part of the photovoltaic power generation plate.

Description

Residential facilities combined with wind and solar power blocks {omitted}

The present invention relates to a residential facility combined with a wind and photovoltaic block, and more specifically, in a dry area such as a desert or a coastal area such as a wetland, wind power provided by a speech And it is a residential facility provided to be provided in a multi-layer structure on the bottom surface of the solar panel block, and relates to a power generation device provided to provide a stable energy generation with the expansion of the residential area and work facilities.

In general, the configuration of a photovoltaic device that is provided as a projecting beam at the edge of a frame or a floor formed of a support beam that is interlocked with a support pillar for a wind turbine is mostly used for ventilation or sunlight in a large area of sea, ridge or coastal areas. By using most of the high scanning area, the installation cost caused by the difficulty of the installation area, and also the situation of high demand in the plain area or coastal area where people live.

The installation of the wind power and the photovoltaic device is to form a rotating shaft to match the interval between the partition wall formed at both ends of the upper section of the solar panel forming a predetermined area in the windy area, the rotation axis The drum-type rotor blade coupled to each other is provided with a plurality of diaphragms at equal intervals in the outer section so as to be rotated by the wind power, and is provided to be rotated by the resistance of the blowing wind power, the generator and motor not shown in the accompanying drawings. And it is to use having a wind power and solar tube power generation apparatus provided with a control device.

However, in most cases, the installation area of the solar power generation or wind power generation device is huge, but in terms of the area where the wind and photovoltaic power generation blocks are installed as described above, practical environment is almost impossible to use. It is.

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. It is developed to the trend that large capacity is used.

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 collect a lot of sunlight, which creates resistance to strong winds, so you must provide a strong support structure that is more than necessary to safely use them. Solar light coupled firmly with the rotating means to the pillar 140 protruding while being fixed at the edge of the bottom surface 160 formed as a frame block addressed by the support pillar for the wind power generator by 10-2011-0008588 To provide a rotating structure for the power plate.

In addition, the configuration for the wind and photovoltaic complex, in the section of the bottom surface 160 to the photovoltaic plate 105 is coupled to each of the rotating means 150 to the pillars 140 are provided in a plurality at the edge. By connecting the power generation block 100 provided to be interlocked with each other in a large area, by configuring the edge of the bottom surface 160 to be connected to the connection path 146 for symmetrical connection to each other, a large area of power generation block 100 was provided.

In addition, the bottom surface 140 described above is provided at a predetermined height in the ground 111, thereby providing a role as a connection for movement for maintenance or management due to long-term operation.

However, in the modern society, due to the development of technology according to the development of industry, the use of the available ground 111 is high, which adds a lot of cost to install the power generation device 100, and also for housing or farming or working. The demand for space is a very high reality.

In addition, the configuration of the rotor blade for the wind power generator 130 is applied to the solar power generation plate 105, according to the 2011 patent application No. 43713 of the applicant, according to the width section of the solar power generation plate 105 It is provided with a plurality of rotary blades 134 at equal intervals on the outer surface of the rotary drum 133 is assembled to the integrated rotary shaft 135, the wind is entered and exited on both sides so that the rotary section of the rotary blade 134 is formed The inlet and outlet 131 and 132 of the inverse trumpet shape are formed in accordance with the length section of the rotating drum 133 so that the cross section is convex in the section between the mouth and the outlet 131 and 132. By forming a), the wind is introduced from the inlet 131 and then discharged to the outlet 132 while rotating the rotating drum 133 in the rotating section, it was provided to the wind power generation by a generator not shown.

In this case, the wind power is blown to the area of the inclined photovoltaic generator 105 having a large area, and thus the induced wind power is provided to be the reinforcement of the power generation as the reinforcement of the moving force introduced into the inlet 131.

However, in the present invention, it is an invention for reinforcement to blow more intensively the movement force of the wind induced by the photovoltaic generator 105 described above.

In addition, if the solar panel is inclined to shine on the wall of the building to shine on the more inclined photovoltaic panel, the temperature of the shaded rear area than the module area that generates power by shining sunlight on the solar panel As it is lowered, it is to reinforce the generating power of the wind power generator installed in a horizontal structure by forming the movement force of the wind formed.

However, as described above, the movement of the wind power is equally directional in the surroundings, that is, the upper and lower sections, in which the solar panels are formed, and the present invention provides a lower side in which the wind power generator is provided in the upper and lower sections. By inducing the wind blowing the area, that is, the surrounding space, it is to be configured to provide to blow intensively in the section of the wind blowing.

In addition, since the height of the support pillar of the wind power generator constructed with the development of technology, etc. is about 60-100 m in height and the reinforcement structure for the supporting strength, the area of the space occupied by the high structure is It is intended to enhance economic value by installing residential facilities, and to install renewable energy generation facilities in dry areas such as rivers and valleys and deserts in the city center.

The bottom surface formed of a frame protruding the support pillar for the wind power generator provided with the wind power generator provided in the present invention is formed in a multi-layered structure, provided in the bottom surface of each floor as well as farming or working space, etc. It is composed of a residential block for the purpose, and also to provide a wind and photovoltaic power block for each predetermined section on the upper side of the residential block.

It is also to provide a multipurpose power block to provide housing, production, and development in the same building, which is an important requirement of modern society.

In addition, by using the wind power blowing in the surrounding space as well as the rooftop of the building, and the solar panel to shine, the economical efficiency of the solar power generating device combined with a natural rotating structure for the induction of the wind as described above. To reinforce.

Therefore, in a structure installed at a high level as described above, the structure of the solar panel having been heated by the sun by reclining at an angle is reinforced by reinforcing the wind due to the difference in the temperature of the wind. For installation for reinforcement.

While having a bottom surface 160 that protrudes in a rectangular shape while being fixed to the support pillar 145 on which the wind turbine 130 is installed, the pillar 140 is formed at the corners of the bottom surface 160. The inclined photovoltaic panel 105 is installed to connect the rotating means 150 provided on the upper side of the pillar 140 with a connecting beam, and the wind induced by the photovoltaic panel 105 is wind power. It is provided with a power generation block 100 is configured to blow into the power generation device 130, from the corner of the bottom surface 160 to the connection path 146 so that the power generation block 100 is coupled and reinforced in a continuous alternating shape. In the power generation block 101 is configured to be connected,

In the upper section of the floor 160, the middle floor floor 161 and the rooftop floor 162 are each provided with a housing block 120 between floors, and the residential block 120 has a housing 155 thereon. Or to form a farming area (151),

By connecting each of the connecting passages 146, 146 'connecting the edges of the intermediate floor bottom 161 and the roof bottom 162 to the edges of the floor between the floors alternately, Forming a wind moving section 125 between the residential block 120 section,

On the pillar 140 'protruding from the rooftop surface 162, the solar power plate 105' is formed to protrude to an upper side of the auxiliary pillar 142 connected to the rotating means 150 'by the protrusion. give,

The inlet cover 166 is provided between the upper and lower sections of the photovoltaic plate 105 ', and the moving paths 179' and 179 " are fixed to each other, and both ends of the inlet cover 166 are provided. Induction rib 174 is fixed to the section,

To form the guide plate 178 to the lower side of the lower section of the photovoltaic plate 105 'as a protrusion,

In the bottom section in which the outlet 132 is formed, a separate inlet 131 ′ is provided to form an inlet inlet 131 ′ that is introduced by being guided by a curved line.

In addition, by forming a section of the main pillar 141 protruding downward from the corner of the bottom surface 160, to provide a buffer space 153,

The rotating shaft 135 is provided between the inner side of the upper section of the photovoltaic panel 105 ', so that the rotating shaft 135 is provided with a rotating section in which the rotating drum 133 with the rotor blade 134 is rotated. In the section between the inlet and outlet 131, 132 provides a wind generator 130 formed of a curved convex jacket 121 to provide,

Carbur block 166 to fit the entire section of the photovoltaic panel 105 'is formed by the cover plate 170, the support rods fixed by protruding from both ends of the photovoltaic plate 105' 175 in the upper and lower sections, respectively,

The support rod 168 and the bearing 169 are connected to the width section of the photovoltaic plate 105 'in the upper support rod 175, and the photovoltaic plate is provided in the lower support rod 175'. By driving the upper and lower sections of the lower side of the 105 'to control the influx of strong typhoons to the inlet 131 section,

The guide plate 178 and the guide inlet 131 ′ are driven by the respective hinges 176 to prevent damage to the typhoon.

By integrating the support rod 168 through the carver plate 170, the inlet 131 is an invention that allows the opening and closing of the section to be controlled.

In addition, the guide plate 178 is formed to protrude to the lower side of the lower section of the photovoltaic plate 105 ',

Protrudes the curved cover 167 to the lower side of the inflow cover 166, the guide plate 178 to form a side wall photovoltaic plate 106 to be provided to enter the inlet 179 ,

The solar panel 105 'is symmetrically convex on the rooftop 162 section of the residential block 120, but the convex section of the solar panel 105' Giving a balanced wind power generator 130,

The induction hole 179 section is provided with an induction hole 179 'formed of a separate support wall 117' and a guide plate 118 to block the high temperature generated by heating in the photovoltaic plate 105 ' Induction port 179 is an invention provided to be reinforced with the inflow of wind power.

The present invention reinforces the power generation by effectively inducing wind in a wide range of wind farms, and the wind power generation in addition to the solar power generation by sunlight in houses or workshops and rooftops for multi-layer construction of the sections of the extensive wind farms In order to provide a power generation block equipped with a comprehensive residential and power generation facilities.

In particular, in order to provide housing, jobs and power generation facilities in areas with very poor living conditions, such as underdeveloped underdeveloped areas and arid areas, it is possible to provide economic utilization by utilizing the idle spaces of the support pillars in the extensively installed power generation blocks. And invention in which practicality is reinforced.

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 partial perspective view of a conventional wind and photovoltaic device, Figure 2 is a perspective view of the main portion of the present invention, Figure 3 is a perspective view of the present invention with the main portion of Figure 2, Figure 4 is a view It is AA sectional drawing in 3, FIG. 5 is BB sectional drawing in FIG. 3, and FIG. 6 is CC sectional drawing in FIG.

7 is an enlarged partial perspective view of another main portion of the present invention, Figure 8 is a perspective view of an embodiment of the present invention for application to the main portion in Figure 7, Figure 9 is a perspective view DD applying the main portion of the present invention in Figure 7 10 is a cross-sectional view of the working state with respect to FIG. 9, FIG. 11 is a cross-sectional view of the operating state with respect to the recessed portion in FIG. 10, and FIG. 12 is a partially cutaway partial perspective view of the recessed portion in FIG. 7.

FIG. 13 is a perspective view of the embodiment of the main part of FIG. 8, FIG. 14 is a partially cut away partial perspective view of the main part of FIG. 8, FIG. 15 is a sectional view taken along line EE of FIG. 13, and FIG. 16 is another embodiment of FIG. 13. A partially absolute perspective view of an example, and FIG. 17 is a partial cross-sectional view of the FF line in FIG.

Therefore, the present invention is constructed wind turbine 130 protruding while being buried in the underground 111 of the wind and wind blowing areas in the desert and cold areas, such as urban areas such as riverbeds and dry areas difficult to wind a lot The bottom surface 160 is formed by the support beam 158 that is fixed to the support pillar 145 to be installed and protrudes outward in a rectangular shape.

Here, by forming a section of the main pillar 141 protruding downward from the edge of the bottom surface 160, a predetermined buffer space 153 to expand the use for very difficult areas such as cold or desert area It is preferable to form and provide.

This means that the buffer space 153, when provided in the desert area, by providing a bottom surface 160 to a predetermined height from the ground, to provide a space of sand breeze or other movement path,

In addition, in the case of the sea to form a predetermined height for the surface to provide a safe space for movement against waves or wind power.

Here, by connecting the rectangular edges of the bottom surface 160 to each other, to be connected to each other fixedly, and to connect to the corner of one side of each floor surface 160 in order to install the movement or workplace passageway during the residence ( 146).

In addition, in order to form an upper space of the floor surface 160 described above as a multi-layer residential block 120 and a farm block 120 ', an intermediate layer bottom surface 161 as an upper section of the floor surface 160. And the roof floor 162 to the floor to provide a residential block 120 between each floor, the residential block 120 is provided with a housing 155 or a farming area 151, the worker who dwells It is desirable to provide the appropriate size and scale according to the working environment.

Here, one embodiment of the setting of the residential area 155 or the farming area 151 will be described. However, one side may be provided with a residential house, and the other side may be provided with farming or a workplace.

Here, it is preferable to provide a handrail 137 at the edge of the bottom surface for the safety of the residential 155 or the farming area 151 formed in the multilayer structure.

In addition, while the upper section of the floor 160, the middle floor floor 161 and the rooftop floor 162 is provided with a work section between the floor, each of the speech, the work zone 155 or farming area (151) In addition to the space for the circulation of the outside air to the housing and the workplace in the housing block 120 having a) is installed in the protrusion while being fixed on the intermediate floor bottom surface 161, that is, the power generation block 100 described below To facilitate the supply of wind power for

By connecting each of the connecting passages 146, 146 'connecting the edges of the intermediate floor 161 and the roof bottom 162 to the edges of the floor between the floors alternately, It is preferable to provide by forming the wind power moving section 125 in the interval between the residential block 120 interval between alternately repeated alternately.

In addition, according to the height of the residential block 120 in the section of the intermediate layer bottom surface 161 may be formed as a middle layer bottom surface 161 of a multi-layer structure.

Here, the connection section between the connecting passage 146, 146 'formed as a protrusion in the corner section of the edge of the rooftop surface 162 to fit the installation space of the power generation block 100 is provided with a predetermined size and height. It is preferable to provide and install the power generation block 100 in one side section of the connection path 146 to give. (See FIGS. 2 to 3).

The connection paths 146 connecting the edges of the bottom surface 160 are coupled to each other by connecting the edges of the bottom surfaces of the floors to each other, as well as providing the movement path of the residents in the section of the overall power block complex 101. It is to provide a reinforcement to reinforce the binding force between the power generation block (100).

The solar light installed below while protruding while being fixed to the rooftop surface 162 so as to efficiently generate wind and photovoltaic power generation by properly allocating the space of the rooftop slab area that is the rooftop surface 162 described above. The rotating means 150 'is provided with a motor and a control device not shown so that the inclined area of the power generation plate 105' is directed toward the sun or in the wind when the wind is blowing. 140 ') is provided in the upper section, and each of the auxiliary pillars 142 to be fixed to the coupling means in the rotating means 150', and the inclined photovoltaic power generation on one side of the auxiliary pillar 142 Rotating means 150 'provided on the upper side of the pillar 140' so that the solar cell plate 105 'is provided with a beam fixed by a connection from a cam that is extended to the rear so that the plate 105' is installed. Not shown rotation In the process of controlling by the fishing gear is preferably provided in conjunction with the rotation means (150 ') to match the direction of the movement of the sun or the blowing of the wind.

That is to protrude the auxiliary pillar 142 fixed by the connection to the rotating means (150 '), the wind-induced wind power from the photovoltaic plate 105' provided above the auxiliary pillar 142 is wind power generation And a power generation block 100 configured to blow into the device 130, from the corner of the rooftop surface 162 to the connection path 146 to couple and reinforce the power generation block 100 in a continuous alternating manner. The power generation block 101 is configured by connecting.

Here, a brief description for driving the photovoltaic plate 105 'coupled to the upper side of the maneuver 140' protruding while being fixed to the corner section of the roof is preferentially not shown in the direction in which sunlight shines. It is provided to rotate based on the device, in the case of the wind blowing in the night or weather cloudy lanes, the inclined photovoltaic panel 105 'by the drive of the control device not shown is wind power By rotating in the blowing direction, the induced wind is rotated by rotating the rotating drum 133 formed in the entire section of the wind turbine 130 to be described later, so that the efficiency of wind power is reinforced.

Originally, the power generation of the wind turbine 130 is concentrated in the wind blowing around the wind turbine flows into the inlet 131, so that the more powerful rotational reinforcement of the more powerful rotating drum is essential. Therefore, in the present invention, to provide the reinforcement device as described above, as shown in the accompanying Figures 9 to 9, when explaining an embodiment of the main part of the present invention,

On the pillar 140 'protruding from the rooftop surface 162, a solar power plate 105' is formed to be inclined to an upper side of the auxiliary pillar 142 connected to the rotating means 150 '. Note, in order to provide a separate induction device,

Since it is inserted to fit the entire section of the photovoltaic panel 105 ', the inlet cover 166 is provided so that the moving paths 179', 179 "are formed between the upper and lower sections, and both end sections. By forming an induction rib 174, to reinforce the movement force of the wind for the heated module section,

The guide plate 178 is formed to protrude to the lower side of the lower section of the photovoltaic panel 105 ', thereby inducing wind to blow into the lower section of the photovoltaic panel 105'. To guide you to

The lower section of the outlet 132 is provided to guide the wind blowing into the lower section of the power generation block 100 by forming an induction inlet 131 'which is introduced by a separate wind is guided by the curvature. Invention.

[Example 1]

Referring to the embodiment according to the accompanying drawings in the reinforcement structure for the induction to the wind in the photovoltaic generator 105 inclined toward one side of the wind turbine 130 described above, In order to provide the rotational force for the rotor blades of the wind turbine 130 to the maximum of the wind induced in the width section of 105 '), as previously filed in accordance with the prior invention filed 10-2011-0043713,

The rotating shaft 135 is installed between the inner end section at both ends of the upper section of the photovoltaic panel 105 ', and the rotating drum 133 is provided with a rotary blade 134 is fixed to the rotating shaft 135 However, in order to provide a rotating section in which the rotating drum 133 rotates, the wind generator 130 formed by the curved convex jacket 121 is provided in the section between the inlet and the outlet 131 and 132 to provide Note, provided that the inlet, outlet 131, 132 described above is provided by the structure of the wind power generator 130 that is provided to facilitate the inlet and outlet of the wind by forming a cross-shaped inverse trumpet shape.

In addition, while being fixed in the inlet 131 section of the wind generator 130 is provided with an inclined protrusion, the solar power plate protrudes to a predetermined inclined length to induce the wind power to blow and at the same time to achieve solar power generation ( 105 ').

In addition, the induction inlet 131 is formed in a blowing direction of the wind to be curved to induce a wind blowing in the lower section of the wind turbine 130 in the lower section of the outlet 132 to reinforce the rotational force for the rotor blades 134. ') To reinforce the power generation by driving the auxiliary jacket 136 fixed.

Therefore, the present invention provides a power generation block 100 formed of a photovoltaic generator 105 'integrally protruded obliquely from the wind power generator 130 described above.

Therefore, Figure 7 is provided with an embodiment of the present invention to provide to reinforce the power of the wind turbine 130 while guiding the wind blowing to the inclined area of the photovoltaic plate 105 'described above as much as possible As shown in FIG.

Induced wind blowing in the entire section of the photovoltaic panel 105 'and at the same time, provided with an inlet cover 166 formed of a transparent body to provide power to the reflected solar light, the inlet cover Induction ribs (174) are provided at both ends of the (166), and fixed to both ends of the photovoltaic panel (105), the wind oil into a predetermined space on the surface of the solar panel 105 The tool 179 'is provided to be formed.

The wind power tool 179 ′ described above is a solar power generating plate 105 that is rotated in a direction in which wind is blown by the rotation means 150, in the lower section of the solar power generating plate 105. To provide the wind is guided to the inlet 131 is fixed to the upper section,

In addition, in order to reinforce the inflow of the wind power in the lower section of the photovoltaic panel 105 at the same time to the induction port (179 '), the induction plate protruding downward from the lower section of the photovoltaic plate 105 It is preferable to provide (178).

Therefore, induction holes 179 'are formed in the entire section of the photovoltaic plate 105', so that the induction rib 174 is provided at both ends of the inlet carburetor 166 by fixing it.

In addition, the induction ribs 174 are provided at both ends of the inflow cover 166 described above, and fixed to both ends of the photovoltaic panel 105 to the surface of the photovoltaic panel 105. When described in detail with reference to Figures 10 to 12 attached to another embodiment of the main portion of the present invention that provides a wind power tool (179 ') to be formed in a predetermined space, most of the wind turbine 130 In order to reinforce the rotational force against the wind is to install to expose the high position of the air.

Therefore, it is connected to the unevenness of the power generation sensitively to the change of wind power, and also in case of sudden strong winds, the failure or breakage occurs due to the limit of durability for the rotary device of the wind turbine.

Therefore, in the present invention, by providing an embodiment of the inlet cover 166, the installation of the wind inflow to the inlet 131 described above is to provide an effective control for light wind.

That is, by blocking the induction hole 179 'formed by the combination of the inflow carver 166 during strong wind blowing, in order to block the movement of the strong wind to the inlet 131 of the wind turbine 130, the The cover block 166 for the entire section of the photovoltaic plate 105 'is formed by a cover plate 170 having a bearing 169' at an intermediate portion thereof, and the photovoltaic plate 105 ' Support rods 175 fixed by protruding from both end portions of the upper and lower sections are formed as a combination, respectively,

A support rod 168 and a bearing 169 are provided to connect the width section of the photovoltaic plate 105 'to the upper support rod 175, and a chain not shown in the lower support rod 175' is provided. The typhoon is driven to the inlet 131 of the wind turbine 130 by driving the chain inclined upward and downward with respect to the support rod 168 by the drive of the chain by a control device connected to the device. It is an invention that provides to prevent the damage of the strong wind by providing to adjust the inflow of the.

In addition, it is preferable to form the guide plate 178 provided in the lower section of the photovoltaic plate 105 'to allow the wind to flow.

In addition, the wind power blowing the lower section of the outlet 132 of the wind turbine 130 is connected to the lower section of the outlet 132 to blow wind to the lower section of the rotary drum 133 of the wind turbine 130 Description of one embodiment for introducing the, as shown in the accompanying Figures 9 to 11, a separate hinge in the induction inlet 131 'section provided with a curvature from the lower section of the outlet 132 ( 176), by providing the auxiliary jacket 136 to be pushed by the strong winds, the invention is provided to reduce the damage to the strong winds.

Therefore, the guide plate 178 and the guide inlet 131 ′ are driven by the hinge 176 to prevent damage to the typhoon.

Since the carver plate 170 is inserted to be connected through, the upper and lower sections are provided to be driven to open and close, respectively.

Here, the upper and lower sections of the photovoltaic panel 105 may be provided to guide the wind to blow to the induction port 179 by forming induction ribs 174 at both end sections.

Example 2

As described above, the air maintaining the predetermined stable buffer space 153 by the main pillar 141 protruding while being fixed in the underground 111 such as a coastal region 110 or a poor desert region or an extreme region such as the climate is poor. It is for effective development in the residential facilities 120 to be built in, and also effective solar light for the slab that is the roof section of the roof top 162 or the building 180 to provide cooling and heating effects for the residential environment. As an invention for explaining an embodiment for providing the power generation plate 105 ′ and thus the wind power generator 130, as shown in FIGS. 13 to 17, the rooftop surface 162 is provided. Wind power in the convex portion of the central region where the solar panel 105 'and the solar panel 105 are inclined so as to protrude convexly so that the entire section in the longitudinal direction is inclined to both sides. In the wind power electrical induction apparatus that 130 is in the power generation block 100 is installed, by introducing a blowing wind to cover the inlet cover 166, so that the oil tool 179 is guided to the forming into the inlet 121,

The induction plate 178 is formed as a sidewall photovoltaic plate 106 to be introduced into the induction port 179, and protrudes the curved cover 167 below the inflow cover 166. As the curved side that protrudes to the lower side of the inflow cover 166 described above in the process of moving the heated air in the upper side in the process of power generation by the sun shining on the side wall surface photovoltaic plate 106 is installed By the carber 167, the air flows into the induction port 179, thereby reinforcing the wind power flowing into the inlet 131 even in the daytime when the sun shines strongly, thereby reinforcing the power generated by the wind even in the breeze It is an invention provided to make.

This is to configure the photovoltaic panel 105 'symmetrically convex to each other in the rooftop surface 162 section of the residential block 120, so that the convex section is continuously fixed to each other by a frame 128 By providing a convex portion formed by having a wind generator 130 and the like described below to be installed, and by forming a horizontal wind generator 130 in the convex section of the photovoltaic plate 105 ' give,

An induction hole 179 'formed of a separate support wall 117' and a guide plate 118 is provided in a section of the induction hole 179 to block high temperature generated by heating in the photovoltaic plate 105 '. It is an invention that is provided so that the inflow of wind power to the induction port 179.

This is because the solar light reflected on the photovoltaic panels 105 'and 106 for power generation receives solar heat at the same time, which increases the surface temperature of the photovoltaic panels heated during the power generation process. The back or the shade is provided to induce the flow of air, that is, the generation of wind, rather by the shape of the temperature is lowered.

Therefore, the present invention is to provide an effective wind and photovoltaic power generation by using the above phenomenon.

Here, the control device and the auxiliary equipment for the photovoltaic or wind power generation facilities not shown in the drawings is an invention that can be used using the existing equipment, which is provided for the economic inventory of the residential facilities, It is an invention that reinforces the efficiency of the development of residential facilities or farming facilities for installation cost and space by providing a reduction in the space of a large area required in the facilities for the generation of renewable energy.

1 is a partial perspective view of a conventional wind and photovoltaic device

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

3 is a perspective view of the present invention in which the main portion of FIG.

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

5 is a cross-sectional view taken along the line B-B in FIG.

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

7 is an enlarged partial perspective view of another main portion of the invention.

8 is a perspective view of an embodiment of the present invention for application to the main part in FIG.

9 is a sectional view taken along the line D-D of the main part of the present invention in FIG.

10 is a cross-sectional view of the operating state of Figure 9 is a perspective view of another main portion of the present invention

FIG. 11 is a sectional view of an operating state of the main part in FIG. 10. FIG.

12 is a partially cut away perspective view of the main portion of FIG. 7;

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

14 is a partially cut away partial perspective view of the main portion of FIG.

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

16 is a partially absolute perspective view of another embodiment in FIG.

17 is a partial cross-sectional view taken along the line F-F in FIG.

<Code Description of Main Parts of Drawing>

100: power generation block 105,105 ': solar power plate 110: coastal area

111: underground 115: rotation section 116: moving path 117: bulkhead

118: information board 120: residential block 120 ': farming block 121: jacket

125: wind moving section 128: frame 130: wind power generator

131: entrance 131 ': induction entrance 132: exit

133: rotary drum 134: rotor blade 135: axis of rotation 137: railing

136: auxiliary jacket 140: pillar 141: main pillar 142: auxiliary pillar

145: support pillar 146: connection road 150: rotation means 151: farming area

155: dwelling place 158: support beam 160: floor 161: middle floor

165: roof top 166: inflow car 167: curved car 168: support rod

169: bearing 170: carver plate 171: wind guide

173: induction furnace 174: guide rib 175: support rod 176: hinge

178: guide plate 179: guide port 180: high-rise building

Claims (3)

While having a bottom surface 160 that protrudes in a rectangular shape while being fixed to the support pillar 145 on which the wind turbine 130 is installed, the pillar 140 is formed at the corners of the bottom surface 160. The inclined photovoltaic panel 105 is installed to connect the rotating means 150 provided on the upper side of the pillar 140 with a connecting beam, and the wind induced by the photovoltaic panel 105 is wind power. It is provided with a power generation block 100 is configured to blow into the power generation device 130, from the corner of the bottom surface 160 to the connection path 146 so that the power generation block 100 is coupled and reinforced in a continuous alternating shape. In the power generation block 101 is configured to be connected, In the upper section of the floor 160, the middle floor floor 161 and the rooftop floor 162 are each provided with a housing block 120 between floors, and the residential block 120 has a housing 155 thereon. Or to form a farming area (151), By connecting each of the connecting passages 146, 146 'connecting the edges of the intermediate floor bottom 161 and the roof bottom 162 to the edges of the floor between the floors alternately, Forming a wind moving section 125 between the residential block 120 section, On the pillar 140 'protruding from the rooftop surface 162, the solar power plate 105' provided to be inclined on the upper side of the auxiliary pillar 142 connected to the rotating means 150 'is formed as a protrusion. give, The inlet cover 166 is provided between the upper and lower sections of the photovoltaic plate 105 ', and the moving paths 179' and 179 " are fixed to each other, and both ends of the inlet cover 166 are provided. Induction rib 174 is fixed to the section, To form the guide plate 178 to the lower side of the lower section of the photovoltaic plate 105 'as a protrusion, The outlet section is formed in the bottom section is a separate inlet (131 ') is guided by a curving induction inlet (131') is provided to form an inlet inlet 131 'is provided with a residential building combined with a block for solar. The method of claim 1, By forming a section of the main pillar 141 protruding downward from the corner of the bottom surface 160, to provide a buffer space 153, The rotating shaft 135 is provided between the inner side of the upper section of the photovoltaic panel 105 ', so that the rotating shaft 135 is provided with a rotating section in which the rotating drum 133 with the rotor blade 134 is rotated. In the section between the inlet and outlet 131, 132 provides a wind generator 130 formed of a curved convex jacket 121 to provide, Carbur block 166 to fit the entire section of the photovoltaic panel 105 'is formed by the cover plate 170, the support rods fixed by protruding from both ends of the photovoltaic plate 105' 175 in the upper and lower sections, respectively, The upper support rod 175 is provided with a supporting rod 168 and a bearing 169 connecting the width section of the photovoltaic plate 105 ', and the lower support rod 175' on the photovoltaic plate By driving the upper and lower sections of the lower side of the 105 'to control the influx of strong typhoons to the inlet 131 section, The guide plate 178 and the guide inlet 131 ′ are driven by the respective hinges 176 to prevent damage to the typhoon. The carver plate 170 is coupled to the support rod 168 through the inlet 131 is provided with a block for wind and photovoltaic power generation block to provide the opening and closing is controlled. The method of claim 1, To form the guide plate 178 to the lower side of the lower section of the photovoltaic plate 105 'as a protrusion, Protrudes the curved cover 167 to the lower side of the inflow cover 166, the guide plate 178 to form a side wall photovoltaic plate 106 to be provided to enter the inlet 179 , The solar panel 105 'is symmetrically convex on the rooftop 162 section of the residential block 120, but the convex section of the solar panel 105' Giving a balanced wind power generator 130, An induction hole 179 'formed of a separate support wall 117' and a guide plate 118 is provided in a section of the induction hole 179 to block high temperature generated by heating in the photovoltaic plate 105 '. Residential facilities combined with wind and photovoltaic blocks that are provided to reinforce the inflow of wind to the induction port (179).

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