KR101557697B1 - Photovoltaic panel for wind induction from wind power generator - Google Patents

Abstract

The present invention relates to a solar power generating plate for wind power generation in a wind power generator, and more particularly, to a solar power generating plate for inducing wind power in a wind power generator, And to induce a wind force generated by convection generated in a direction of a rotating blade of the wind power generator.

Generally, installation of a wind turbine generator is provided with each wind turbine generator while maintaining a predetermined interval in a windy area. As a result,

A cooling pipe (not shown) is connected to the rear surface of the solar power generation plate 101 for solar power generation to show the shade of the solar power generation plate 101, A control unit for the photovoltaic power generation device is provided with a module 228 and a module 210 fixed on the front surface of the photovoltaic power generation device while maintaining a spacing interval 207, In the photovoltaic panel in which the section 208 is formed,

A feed port 202 provided through the cross section 208,

A cooling pipe 228 fixed to the back surface of the supply port 202,

And a regulating pin 215 for discharging cooling air or cooling water from a cooling pipe 228 fixed to the supply port 202.

A horizontal rotating device 195 having a rotating blade 166 'of a rotating drum 165' is fitted in an upper end section of the solar cell plate 101, An outer wall 144 is provided to provide a supporting wall 168 and an inlet 141. The guider wall 145 is enlarged externally so as to induce induction air along with the formation of a rotation section, The pipe 240 having the jet port 230 is formed on the lower side or the middle side of the power generation board 101 and the shaft for the power generator 155 and the shaft for the generator 185 are cut And the side edges of the spindle 175 are fixedly provided at the ends of the separated rotary shaft 160 'and the shaft for the generator 185, respectively.

The rotary shaft 152 for rotating the rotary shaft of the power generator 155 coupled to the upper end of the support column 112 rotates to support the wind power generator 150 or the support shaft 152 for the vertical rotary device 151, A support beam 130 connected to the semicircular housing 125 for fixing the semicircular bearings to upper and lower sections of the support frame 112 and upper and lower fixed caps 160 A wheel 127 for supporting the support beam 130 while protruding downward from the support beam 130 and a second power plate 105 formed on the rear surface of the wheel 127, A rotation means for providing rotational driving in accordance with the direction of the wind force or the direction of sunlight; A photovoltaic power generation block 100,

A solar cell module according to an embodiment of the present invention includes a solar cell module including a solar cell module including a plurality of module modules, (152), the solar power generating block (100) comprising:

The first power generation plate 105 is divided into upper and lower sections a and b while the lower section b is formed into a section of the first power generation plate 105, The second partition plate 117 and the moving section 110 are formed in an alternating fashion and the second partition plate 117 is provided at the upper end of the partition wall 117 and the second partition plate 117 is provided through the intersection section 208 And the supply port 202 is provided with an adjusting pin 215.

The first and second power generating plates 105 and 115 are arranged at the lower cooling air temperature in the supply port 202 of the solar cell plate 101 provided in the upper and lower sections a and b, Thereby forming a convection phenomenon in the solar power generation plate 101,

An assembly groove 188 is formed in the second power generation plate 115,

The rotary vane 152 'is provided on the rotary shaft 160' extending from the power generating device 155 coupled to the upper end of the support column 112 so that the rotary vane 152 ' And the rotation is reinforced by the wind force blowing to the separate rotary vane 152 '

And the outer wall guide plates 118 and 118 'are protruded from both ends of the first and second power generating plates 105 and 115 to the outer side.

A spring 220 provided at a lower side of the supply rod 225 and a supply port 227 through the body of the supply rod 225. The cap 222 And an inlet 170 between the guide walls 177 is formed in an outer section of the vertical rotator 151 and an end 170 of the moving section 110 of the solar power generating block 100 is provided, (155) so as to be guided to one side of the inlet (170).

In addition, a horizontal rotating device 195 may be provided on an upper jointed section for providing the solar power generation plates 101 so as to face each other. An end portion of the movement section 110 of the solar power generation plate 101 And a supporting wall 168 is provided on both sides of the horizontal rotating device 195 so as to be aligned with the rotating wall of the guiding wall 165 ' 145 of the movable section 110 are connected to each other so that the end of the moving section 110 is connected to the inlet 141 and the first power generation plate 105 is divided into upper and lower sections a and b, The section b is formed as a section of the first power generation plate 105 and the partition section 117 and the movement section 110 are formed in an alternating manner in the upper section a, The second power generation plate 115 may be provided at an end portion thereof,

A feed opening 202 penetrating a crossing section 208 where a spacing section 207 of the module 210 installed on the front face of the first and second power generation plates crosses in a lattice form is drilled, 202 is provided with a regulating pin 215 to provide it.

Wind power generator, supply port, moving pipe

Description

Wind power generation solar power generation plate from wind power generator {omitted}

The present invention relates to a solar power generating plate for wind power generation in a wind power generator, and more particularly, to a solar power generating plate for inducing wind power in a wind power generator, And to induce a wind force generated by convection generated in a direction of a rotating blade of the wind power generator.

Generally, installation of a wind turbine generator is provided with each wind turbine generator while maintaining a predetermined interval in a windy area.

In addition, due to the phenomenon of global warming, the demand for large-capacity renewable energy generation equipment is increased. Therefore, it is required to install coastal area or offshore wind power equipment for installing large capacity power generation facilities, It is a trend that large capacity is used.

Most modules of the photovoltaic panel are mainly composed of semiconductors. This is because the spacing maintaining the predetermined interval is repeatedly installed while being crossed with each other. This is because the proper temperature for power generation is mainly low temperature Thereby enhancing the power generation capability.

Therefore, the area where large-scale photovoltaic power generation facilities are installed is favored by the windy areas where many winds are blowing and roofs.

This is because, when the weather is mostly sunny, there is almost no wind generation, and sunlight provides optimal conditions for generating electricity. However, the heating temperature of sunlight heated by the sun for solar power generation is inefficient .

Also, it is a reality that the rotational force of the rotating blades in the wind power generator needs a reinforcing device which generates rotational force even in the case of a breeze as much as possible.

Therefore, in the present invention, in the case of breeze, it is possible to provide rotation for power generation of the wind power generator due to possible induction of wind.

Most photovoltaic solar panels use a large area of collecting plate as much as possible to cope with a lot of sunlight, which causes resistance to strong winds. Therefore, The application 10-2011-0013690 provides a rotating structure for the solar power plate which is rigidly coupled with the rotating means spanned by the support column for the wind power generator.

Further, the structure of the spool feller which rotates by the wind force is constituted by a rotary blade protruding outwardly while facing the direction of the wind force, or alternatively, on the outer surface of the drum-shaped cylindrical rotor formed in a predetermined size, And was provided to rotate by using the resistance to wind force in the groove section between the rotor blades projecting obliquely while maintaining equal spacing.

However, since the above-mentioned propeller is mostly provided in a vertical shape, an effective rotation reinforcement device is provided according to the applicant's specification 10-2010-43991, 48747 to induce wind force from the outer edge thereof.

Therefore, the space of the stable zone is provided with a solar generator in the sunny weather, and the surrounding air is heated by the temperature of the inclined solar PV array for tracking the sun, This is done to reinforce the occurrence of the convection phenomenon provided to induce the movement to the rotating blades of the wind power generator.

However, since the heated solar photovoltaic panel leads to a decrease in power generation in proportion thereto, it is necessary to install the solar PV panel in a windy direction. It is used to spray coolant and clean at the same time.

Accordingly, the present invention provides solar heating and solar power generation in a sunny weather, and also provides a convection phenomenon in a windy breeze so that the direction of wind blowing is directed toward the air, This is to give you a blow.

Therefore, the surrounding air is heated by the heated power generation plate, thereby causing a difference in the specific gravity of the air, thereby causing a convection phenomenon.

In addition, since the supporting column of the wind power generator constructed according to the development of technology and the like has a height of about 60 to 100 m and a reinforcing structure for supporting strength thereof, If there is a difference in the temperature of the air present, it will induce the convection phenomenon. In addition, the supporting pillars described above support the power generating device of a high weight, and at the same time form a moving section of the equipment and the worker in the inner space, and include an elevator and a ladder for moving the worker for maintenance of the power generating device from time to time (Eg, the diameter is about 5 to 10 m), and it tends to gradually decrease gradually while being directed toward the upper side.

In order to induce the effect of the wind force blowing from the lower side of the rotating device protruding in the direction of the outer edge in the supporting column for the wind power generator provided with the wind power generator provided in the present invention, To provide solar power and to induce convection by the applied solar heat to provide solar power as well as wind power.

Further, blowing air for cooling so as to perform reinforcement of the generating power and cleaning, etc., in the whole section of the solar power generation plate is caused by the heating temperature of the sunlight applied to the generator plate, So that the convection-shaped moving air can be blown in the direction of the rotating blade of the power generator.

A cooling pipe (not shown) is connected to the rear surface of the solar power generation plate 101 for solar power generation to show the shade of the solar power generation plate 101, A control unit for the photovoltaic power generation device is provided with a module 228 and a module 210 fixed on the front surface of the photovoltaic power generation device while maintaining a spacing interval 207, In the photovoltaic panel in which the section 208 is formed,

A feed port 202 provided through the cross section 208,

A cooling pipe 228 fixed to the back surface of the supply port 202,
And a regulating pin 215 for discharging cooling air or cooling water from the cooling pipe 228 fixed to the supply port 202.

A horizontal rotating device 195 having a rotating blade 166 'of a rotating drum 165' is fitted in an upper end portion of the solar cell plate 101, and the horizontal rotating device 195 An outer wall 144 is provided to provide the support wall 168 and the inlet 141. The guider wall 145 is extended to the outside so that induction air is introduced along with the formation of the rotation section, A pipe 240 having a jet port 230 is formed on a lower side or a middle side of the plate 101,

The cutter is provided with a cut interval between the rotary shaft 160 'for the power generator 155 and the shaft for the generator 185. The rotary shaft 160' (175) are fixedly provided on both side edges thereof.

delete

The rotary shaft 152 for rotating the rotary shaft of the power generator 155 coupled to the upper end of the support column 112 rotates to support the wind power generator 150 or the support shaft 152 for the vertical rotary device 151, A support beam 130 connected to the semicircular housing 125 for fixing the semicircular bearings to upper and lower sections of the support frame 112 and upper and lower fixed caps 160 A wheel 127 for supporting the support beam 130 while protruding downward from the support beam 130 and a second power plate 105 formed on the rear surface of the wheel 127, A rotation means for providing rotational driving in accordance with the direction of the wind force or the direction of sunlight; A photovoltaic power generation block 100,

A solar cell module according to an embodiment of the present invention includes a solar cell module including a solar cell module including a plurality of module modules, (152), the solar power generating block (100) comprising:

The first power generation plate 105 is divided into upper and lower sections a and b while the lower section b is formed with a section of the first power generation plate 105,

The second partition plate 117 is provided with the second power generation plate 115 in correspondence with the upper end of the partition wall 117 while forming the partition wall 117 and the movement section 110 in an alternating manner,

A feed opening 202 provided through the intersection section 208 is punctured,

The supply port 202 is provided with an adjusting pin 215.

The first and second power generating plates 105 and 115 are arranged at the lower cooling air temperature in the supply port 202 of the solar cell plate 101 provided in the upper and lower sections a and b, Thereby forming a convection phenomenon in the solar power generation plate 101,

An assembly groove 188 is formed in the second power generation plate 115,

The rotary vane 152 'is provided on the rotary shaft 160' extending from the power generating device 155 coupled to the upper end of the support column 112 so that the rotary vane 152 ' And the rotation is reinforced by the wind force blowing to the separate rotary vane 152 '
And the outer wall guide plates 118 and 118 'are protruded from both ends of the first and second power generating plates 105 and 115 to the outer side.

A spring 220 provided at a lower side of the supply rod 225 and a supply port 227 through the body of the supply rod 225. The cap 222 ),
The vertical rotation device 151 is provided with an inlet 170 between the induction walls 177 and an end of the movement section 110 of the solar power generation block 100 is connected to the inlet 170 And an induction rod 155 is provided so as to be guided to one side.

A horizontal rotating device 195 may be provided on an upper joining section provided to face the solar power generating plates 101 so that the ends of the moving section 110 of the solar power generating plate 101 may be provided with a number Is fitted to the rotor blade 166 'of the rotary drum 165' of the balancer rotating device 195 and the supporting wall 168 is provided on both sides of the horizontal rotating device 195, The end portion of the moving section 110 is connected to the inlet port 141 and the first power generation plate 105 is divided into upper and lower sections a and b, (b) is formed as a section of the first power generation plate 105 and the partition wall 117 and the movement section 110 are formed in an alternating manner in the upper section a, The second power generation plate 115 is provided,

A feed opening 202 penetrating a crossing section 208 where a spacing section 207 of the module 210 installed on the front face of the first and second power generation plates crosses in a lattice form is drilled, 202 is provided with a regulating pin 215 to provide it.

The present invention improves the power generation by effectively inducing wind in a wide range of wind farms. In addition, in order to reinforce the generation power in the solar power generation plate which is sunlight-like solar power generation, Is provided to induce a convection phenomenon due to temperature by spraying at a temperature different from the upper and lower sides, thereby enhancing economical efficiency and practicality by providing power to the photovoltaic panel while reinforcing the power.

In addition, in case of strong winds, the movement of the wind is guided to the air to prevent damage to the wind.

The present invention is an invention for effectively reinforcing a device for generating sunlight and wind power according to climate conditions by effectively providing a high space where a rotary blade is provided in a support column of a preinstalled wind power generator,

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings, and specific details for carrying out the present invention will be described.

1 is a sectional view taken along the line AA in Fig. 1, Fig. 3 is a perspective view of an embodiment of the present invention, and Fig. 4 is a sectional view taken along line BB in Fig. 3 .

5 is a perspective view of another embodiment of the present invention, FIG. 6 is a perspective view of the recess in use in FIG. 5, FIG. 7 is a partial cross-sectional view of an embodiment of the recess in FIG. 6, 6 is an enlarged cross-sectional view of the CC line.

9 is a partial cross-sectional view of an embodiment according to another embodiment of the present invention in Fig. 6, Fig. 10 is a cross-sectional view taken along line DD in Fig. 9, Fig. 11 is a partial cross-sectional view of an embodiment of the present invention, FIG.

13 is a perspective view showing the use state of the concave portion of the present invention, FIG. 14 is a sectional view taken along the line EE of FIG. 13, FIG. 15 is a perspective view showing another use state of the concave portion of the present invention, 15 is a cross-sectional view taken along the line FF of Fig.

The present invention is based on the idea that the arrangement of the solar power generation blocks 100 for power generation as described above can be applied to the installation of the wind power cooling structure as well as the effective number of sunshine, A cooling pipe 228 is installed on the back of the photovoltaic power generating solar power generating device which is sloped and fixed while being supported by a support 111 fixed to the ground 106 in the area to be installed (Hereinafter, referred to as a module) 210 is continuously and repeatedly installed on the front surface of the solar power generator, and a control device and a battery 113 for the power generator are provided, The photovoltaic panel according to the present invention comprises a photovoltaic panel 101 including a crossing section 208 formed in a grid shape by intersecting predetermined spacing sections 207, Judoe by drilling a supply port 202 which is provided with the through-cross-section 208 of the shape,

Preferably, the supply port 202 is provided with a regulating pin 215 for regulating the ejection, and is provided with cooling air or a pump (not shown) so as to spray the cooling water.
In this case, the cross section of the cooling pipe 228 is provided in a semicircular shape, and both end portions formed in the semicircular shape are fixed to the back surface of the solar cell plate 101 with fixing pins (not shown) The cooled air supplied from the formed cooling pipe 228 is jetted to the supply port 202 to be supplied to the front surface of the solar cell plate 101.

This is because the use condition of the photovoltaic generation plate 101 that is used for outdoor exposure in the long term is required to periodically clean impurities that are scattered by dust and yellow dust scattered in the air, It is required to periodically manage the generation of the power by engaging the cooling water.

Therefore, it is preferable that the solar cell module 101 is installed in the solar cell module 101 in such a manner that the module modules 210 installed in the solar cell module 101 are arranged in a lattice- It is preferable to provide cooling air for inducing a convection phenomenon to be cooled by connection to a cooling pipe connected to the backside as well as control of a pump (not shown) and a control device 113 for managing the pump.

It is preferable to provide a weather instrument, a sensor, a timer, a power storage device, and the like, as well as a control device according to the present invention.

As described above, by using the wall and the roof provided in a building or a structure having a high amount of wind blowing with a high sunlight, i.e., a high building, as described above, As shown in FIGS. 3 to 4, the solar cell 100 is provided with a solar cell plate 101 having a substantially vertical inclination on one side wall of the building 195, The solar cell module according to claim 1, wherein the solar cell module is a solar cell module, and the solar cell module is a solar cell module. It is preferable that the rotating device 195 and the rotating drum 165 'provided in the horizontal rotating device 195 are provided in such a manner as to be fitted to the rotating blade 166'

The outer wall 144 is provided in the outer side of the section where the wind force flows in the horizontal rotating device 195 to provide the supporting wall 168 and the inlet 141 so that the rotation of the rotary drum 165 ' The guider wall 145 is extended to the upper side of the photovoltaic power generation plate 101 so that the wind power that moves from the surface of the photovoltaic generation plate 101 to the convection is introduced into the rotation section And is rotated by the resistance due to the protrusion of the plurality of rotor blades 166 'in the circumferential direction from the outer surface of the rotary drum 165', so that the generator 185 is preferably provided to generate power as rotation .

The rotary shaft 160 'and the generator 185 are connected to each other by a rotating shaft 160' and a generator 185. The rotary shaft 160 ' The end portions of both side edges of the spring 175 are fixed to the spaced end portions between the axes 186 so as to provide a space for loosely rotating the spring 175 by the stress of the spring 175, And the resistance against rotation is rolled by the spring 175 itself to minimize the resistance due to the initial operation.

A description will be made of an embodiment of the supply port 202 provided through the intersection section 208 described above. The cooling air supplied from a pump (not shown) to the surface of the solar cell plate 101 A pipe 240 is provided between both ends of the solar cell plate 101 in a lower side section and a middle side section of the solar cell plate 101 so that the air is sprayed, It is preferable to provide a plurality of air outlets 230 through the air outlets 230 so as to be blown out toward the upper surface of the solar power generation plate 101. This is because the cooling effect of the solar power generation plate heated by the sunlight It is to provide reinforcement of power generation.

In this case, it is preferable that the arrangement of the modules 210 is arranged to be enlarged in the interval of the interval so as to prevent damage to the power generation due to the shade by the pipes 240.

(1)

(Eg, about 50 to 100 meters) at the ground 106 or at the sea level 108 to reinforce the wind force on the rotary vane 152 in the wind power generator 150, In order to reinforce the effective generation of sunlight or wind power in a space for a high section of the support pillars 112 to be installed at the high height as described above, A supporting column 152 for the wind power generator 150 that provides wind power by rotating the rotary blade 152 at the rotary shaft of the power generator 155 coupled to the upper end of the support column 112 112 and the semi-circular housing 125 for assembling the semicircular bearings in the upper and lower sections of the upper and lower fixed caps 112, (160) The support beams 130 and the wheels 127 protrude downward from the support beams 130 and are driven by the circumferential rails 140 for driving the wheels 127, In the solar power generation block 100 having the solar power generation plate 101 coupled to the rotation means for rotating the solar power according to the direction of the sunlight or the direction of the sunlight, the first power generation plate 105 is divided into upper and lower sections (a) and (b), a cooling water supply device, a control device for controlling the power generation device, and a battery are provided on the rear surface, and the lower section b is formed as a section of the first power generation plate 105 And a support plate extending from the first power generation plate 105 is formed in the upper section a so that the partition 117 and the movement section 110 are formed in an alternating pattern, ) Of the wind force.
In addition, the second power generation plate 115 is provided in correspondence with the upper end of the partition 117 to provide solar power generation, and at the same time, the module 210 is continuously and repeatedly installed on the front surface of the solar power generation plate In the solar photovoltaic panel 101 including the intersection sections 208 in which the spacing sections 207 between the rotating blades 152 are formed by the convection phenomenon generated by the heating of the solar heat during the solar power generation, The present invention relates to a wind-induced solar energy generating plate (101) provided so as to be slanted so as to reinforce wind blowing.

The modules 210 formed on the areas of the first and second power generation boards 105 and 115 which are upper and lower sections a and b as the entire section of the solar power generation board 101 are spaced apart from each other, (202), which is provided through the through hole (208)

The supply port 202 is provided with a regulating pin 215 to blow cooling air or cooling water to provide a cooling effect on the surface of the solar cell plate 101 as well as cleaning, Lt; / RTI >
Here, the description of one embodiment of the structure of the regulating fins 215 is provided for fixing the inserting hole 202 to the feed port 202 as shown in FIGS. 11 and 12, The adjustment pin 215 has a structure in which a plurality of supply holes 227 are formed through the body of the supply rod 225 for providing the spring 220 as a lower section, And the side portion is formed with a protrusion 222 so as to cover the supply port 227. The cooling air supplied from the cooling pipe 228 is supplied in a pressurized state by the cooling device (not shown) to the spring 220 by the pressure supplied to the supply port 227 of the supply rod 225, So that the cooled air supplied to the cooling pipe 228 is ejected from the supply port 227 provided in the body of the supply rod 225 And the cooling air is blown out in a horizontal state to the surface section of the solar cell plate 101.

It is also preferable to provide the wind power generator 150 to be blown in the direction in which the wind power generator 150 described above is provided.

Here, the inclined frame 131 is inclinedly projected from the upper fixed cap 160 to provide a connection to the rear side of the supporting beam 130, so that the inclined sheet reinforces the stability of the solar power generating block 100 desirable.

(Example 2)

As an invention for promoting convection due to a heated temperature during sunlight leaking in a solar cell plate 101 having a large area inclined,

A moving wind is generated due to a difference in the air temperature (temperature) due to the temperature rise of the solar photovoltaic plate heated in the wide area area of the solar photovoltaic plate 101 originally.

Accordingly, in the present invention, the inclined solar cell plate 101 is divided into the upper and lower sections a and b, and the temperature of the air blown from the upper and lower sections a and b is If the temperature of the upper section a is divided into a higher temperature (hereinafter referred to as a differential temperature) or a differential temperature than the temperature of the lower section b, So that the cooling effect of the photovoltaic panel is reinforced by using the convection phenomenon generated.

An explanation of one embodiment of this is that the formation of wind blows in the temperature difference between the sun and the shade between valleys and buildings.

Therefore, the supply port 202 formed in the solar cell plate 101 blows air, which is blown by the differential cooling of the respective cooling devices not shown in the upper and lower sections (a) and (b) Thereby forming a phenomenon.
It is preferable to reinforce the convection phenomenon by providing the solar power generation plate 101 with a higher air temperature blown from the upper and lower sections a and b to the lower section b.

6 and 7, which illustrate one embodiment of the solar power generation plate 101 provided in the present invention, one embodiment for site construction will be described.
The first and second power generating plates 105 and 105 are provided with a separate rotary vane 152 'extending the rotation axis 160' of the power generating device 155 coupled to the upper end of the support column 112, And the rotation is reinforced by a wind force blowing a separate rotary vane 152 '

The outer wall induction plates 118 and 118 'are protruded from the both ends of the first and second power generation plates 105 and 115 to the outer side to enlarge the power generation power and to reinforce the wind force .

Here, a description will be made as to an embodiment of the supply port 202 provided through the crossing section 208 described above. Each of the lower sections provided in the first and second power generation plates 105 and 115, A pipe 240 for blowing cooling air supplied from a pump not shown horizontally in a middle section is provided in the upper part of the pipe 240, It is desirable to provide a plurality of spouts 230 penetrating the spiral duct 230. The purpose of the present invention is to provide a reinforcement of the power generation due to the cooling effect of the power generation plate heated by the sunlight.

The pipe 240 described above is fixed to the pipe 240 by a fixing pin or a fixture, which is a preferred structure widely used in accordance with the condition of the construction site.

In this case, water for cleaning is sprayed to the pipe 240, thereby enhancing cleanliness against dust and dust accumulated in the air.

In addition, in order to simplify the installation on the construction site or the sea surface 108 at the center of the support column 112 and to simplify the installation of the direction rotation means for the direction of sunlight shining direction or wind direction, 5 to 8, an assembly recess 188 is formed in the first power generation plate 105 so that the assembly recess 188 is formed in a section of the assembly recess 188, It is preferable that the support pillars 112 are inserted into the support pillars 112 and the rotary vanes 152 for the wind power generator 150 are rotated in a rearward direction.

As shown in FIGS. 9 to 10, when the wind turbine generator 150 is rotated by the vertical rotating device 151 An induction bar 155 is provided to guide the end of the movement section 110 of the photovoltaic generation block 100 to one side of the inlet port 170 between the guide walls 177, It is provided to reinforce rotation by blowing wind force.

That is, the power supply is reinforced by the wind force ejected to the induction rod 155 described above on one side of the inlet 170.

The detailed description of the vertical rotating device 151 described here is based on the assumption that the rotating structure of the rotating drum 165,

Fixing the upper and lower rotary plates to the rotary shaft (160); The rotating drum 165 is fixed to the edge of the section between the upper and lower rotating plates and the rotating blades are formed outside the rotating drum 165 at regular intervals.

Here, the interval between the induction walls 177 is equally spaced in the circumferential section between the upper and lower fixing rods so as to allow the wind force to flow while enclosing the outer circumference of the rotary drum 165 to the inlet port 170 And is used to reinforce the rotational force by introducing wind force blowing in a large space around the rotary drum 165 described above.

The solar power generating block 100 according to an embodiment of the present invention is installed on a wall of a large building 195 so as to have a long height and a slope of the building 195, 13 to 16, the second power generation plates 115 are provided so as to be opposed to each other, and the end of the moving section 110 is connected to the rotary drum 165 'of the horizontal rotating device 195, And a guiding wall 168 and an inlet 141 are provided around the horizontal rotating device 195 so that the guider wall 145 can be guided to the outside The first portion of the first power generating plate 105 is connected to the upper end of the first power generating plate 105 and the first portion of the first power generating plate 105 is installed downward.

In addition, in the spacing interval between the rotary shaft 160 'and the generator 185, the both ends of the spring 175 are connected to each other so as to be fixed at both ends of the incised rotary shaft. to be.

A second power generating plate (not shown) having a solar power generating block 100 so as to be formed as a slope roof structure, that is, a facility for covering a roadway to provide a soundproof wall or a snow removing function in most of the buildings 195 or the road 143 115 are provided so as to be opposed to each other, and the partition 117 and the moving section 110 are continuously and continuously connected to the entire roof section at the lower end of the roof.

It is preferable that the first power generation plate 105 is provided so as to protrude downward from the lower end portion of the roof to a lower side portion, that is, a wall section.

The wind power generating block 200 is formed at the upper end portion formed to be convex so as to be opposite to each other so as to form the roof provided therein, the wind power generating block 200 being formed of a horizontal rotating device 190 so that end portions thereof are continuously and repeatedly aligned in the longitudinal direction It is an invention provided as a zoom.

The modules 210 formed on the areas of the first and second power generation boards 105 and 115 which are the upper and lower sections a and b as the entire section of the solar power generation board 101 are spaced apart from each other, The supply port 202 provided through the section 208 is punctured,

The supply port 202 is provided with an adjusting pin 215 to blow cooling air or cooling water in a direction in which the wind power generator 150 is provided so that the cooling effect on the surface of the solar power generating plate 101 In addition, by providing cleaning, it provides reinforcement of the power generation to the module.

The description of one embodiment of the supply port 202 provided through the crossing section 208 between the modules 210 in the wind turbine generator 150 described above is the same as that of the solar power generation panel 101 in the vertical direction and in the horizontal direction at the lower side or the intermediate side in accordance with the section of the solar cell plate 101. [

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-

2 is a sectional view taken along the line A-A in Fig. 1

Fig. 3 is a perspective view of an embodiment of the present invention

4 is a sectional view taken along the line B-B in Fig. 3

5 is a perspective view of another embodiment of the present invention

Fig. 6 is a perspective view of a used state of the concave portion in Fig. 5

Figure 7 is a partial cross-sectional view of an embodiment of the recess in Figure 6;

8 is an enlarged cross-sectional view taken along line C-C in Fig. 6

Figure 9 is a partial cross-sectional view of an embodiment of another recess in Figure 6;

10 is a sectional view taken along the line D-D in Fig. 9

11 is a partial cross-sectional view of an embodiment of the recess of the present invention

Figure 12 is an enlarged perspective view of the recess in Figure 11;

Fig. 13 is a perspective view showing the use state of the concave portion of the present invention

14 is a sectional view taken along the line E-E in Fig. 13

Fig. 15 is a perspective view showing another use state of the recess of the present invention; Fig.

16 is a sectional view taken along the line F-F in Fig. 15

Description of the Related Art [0002]

100: Solar power generating block 105: First power generating plate 110: Moving section

115: second power generation plate 117: partition wall 118: outer wall guide plate 119: opening / closing wall

127: Wheel 128: Outflow section

130: support beam 131: inclined frame 140: rail

141: inlet port 145: guider wall 150: wind turbine generator

151: vertical type rotary device 155: induction rod 160: fixed cap 160 ': rotary shaft

165: rotary drum 166: rotor blade 170: inlet port 175:

177: guide wall 180: passage section 185: generator 186: housing

190: horizontal rotating device 195: building 200: wind power block

202: supply port 205: supply pipe 208: intersection section 230:

Claims (6)

A cooling pipe 228 for cooling is installed on the back surface of the solar power generation plate 101 for solar power generation to provide a control device for the solar power generation device and the front surface of the solar power generation device is provided with a separation section 207 And a crossing section (208) intersecting each other in a lattice form is formed by installing a module (210) A feed opening 202 provided through the intersection section 208 is punctured, The supply port 202 is fixed to the cooling pipe 228 provided on the back surface of the penetrated solar cell plate 101, The supply port 202 is provided with a regulating pin 215 for discharging cooling air or cooling water from the cooling pipe 228, The method according to claim 1, A horizontal rotating device 195 having a rotating blade 166 'of a rotating drum 165' is fitted in an upper end section of the solar cell plate 101, and the horizontal rotating device 195 is supported The outer wall 144 is provided to provide the wall 168 and the inlet 141 so that the guider wall 145 is enlarged to the outside so as to form the rotation section and to introduce the induction air, A pipe 240 having a jet port 230 is provided on the lower side or middle side of the generator 101 and the shaft for the generator 185 and the shaft for the generator 185 are connected to each other through a cut- , And the end portions of the cut shaft (160 ') and the shaft for the generator (185) are fixedly provided with both side edges of the spring (175). The rotary pivots 152 are rotated on the rotary shaft of the power generator 155 coupled to the upper end of the support pillars 112 to rotate the upper and lower sections of the support pillars 112 for the wind power generator 150, A support beam 130 connected to a semicircular housing 125 for fixing each semicircular bearing and an upper and a lower fixed cap 160 connected to the support beam 130, A first power generation plate 105 formed of a plate 101 and a wheel 127 for supporting the support beam 130 downwardly and supporting the support beam 130 and a rail 140 for driving the wheel 127, A rotating means for rotationally driving the wind turbine in accordance with the wind direction or the direction of sunlight; In the solar power generating block 100, The first power generation plate 105 is divided into upper and lower sections a and b and the lower section b is formed by the first power generation plate 105. In the upper section a, A second power generation plate 115 is provided at an upper end of the barrier rib 117 so that the first and second power generation plates 105 and 105 And the module 210 is installed on the front surface of the rotary blade 152. The rotary blade 152 is provided with a crossing section 208 in which the spacing sections 207 between the modules 210 are installed on the front surface, Provide a steep slope to let the wind blow, A feed opening 202 provided through the intersection section 208 is punctured, Wherein the supply port (202) is provided with an adjusting pin (215). The method of claim 3, The temperature difference between the upper and lower sections a and b formed in the solar power generation plate 101 at a different cooling temperature in the supply port 202 provided by the first and second power generation plates 105 and 115 Air is blown to form a convection phenomenon in the solar cell plate 101, An assembly groove 188 is formed in the second power generation plate 115, The rotary vane 152 'is provided on the rotary shaft 160' extending from the power generating device 155 coupled to the upper end of the support column 112 so that the rotary vane 152 ' And the rotation is reinforced by the wind force blowing to the separate rotary vane 152 ' A pipe 240 having a jet port 230 is formed on a lower side or a middle side of the first and second power generation plates 105 and 115, And outer wall guide plates (118) and (118 ') are protruded from both ends of the first and second power generation plates (105, 115) as outer sections. The method of claim 3, The adjustment pin 215 is provided with a spring 220 provided at a lower portion of the supply rod 225 and a supply port 227 through the body of the supply rod 225, 222, The wind turbine generator 150 is provided as a vertical rotary device 151 and an inlet 170 between the guide walls 177 is provided in the outer side of the vertical rotary device 151, A wind power generator for wind power generation in a wind power generator provided with an induction stand (155) for guiding an end of a travel section (110) of a photovoltaic block (100) to one side of an inlet (170). The method of claim 3, A horizontal rotating device 195 may be provided on an upper joining section provided to face the solar power generating plates 101 so that the ends of the moving section 110 of the solar power generating plate 101 may be provided with a number And the supporting wall 168 is provided on both sides of the horizontal rotating device 195 so that the guider wall 145 is fitted to the guiding wall 165 ' The end portion of the moving section 110 is connected to the inlet port 141 and the first power generation plate 105 is divided into upper and lower sections a and b, (b) is formed as a section of the first power generation plate 105 and the partition wall 117 and the movement section 110 are formed in an alternating manner in the upper section a, The second power generation plate 115 may be provided in a manner such that the spacing interval 207 of the module 210 installed on the front surface of the first and second solar photovoltaic panels is lattice- By drilling a supply port 202 through the primary cross-section 208 that is judoe, the supply port 202, the solar plate for wind induced in the wind turbine to provide a zoom by having a control pin (215).

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