KR20120133729A - Solar Panel Cooling System - Google Patents

Abstract

PURPOSE: A cooling apparatus for a solar power generation board is provided to effectively cool a power generating element of a solar power generation board by discharging cold air supplied to a hose to a buffer space through an exhaust outlet. CONSTITUTION: A power generating element is arranged on the surface of a solar power generation board(30). The solar power generation board is fixed to a rooftop of a building or an underground support pillar. A horse(20) is fixed to one side of transparent vinyl(25) in a zigzag type. The transparent vinyl is formed to be fitted to a total area of the solar power generation board. The solar power generation board is cooled by supplying keeping cold air to the hose.

Description

Chiller for solar panels {omitted}

The present invention relates to a cooling device for a solar power generation plate, and more particularly in a residential area, while providing an efficient power generation while fixing to a high position as a support for easy use, in particular, the heated phenomenon of the power generation plate of the cold weather is too much By doing so, the phenomenon of photovoltaic power generation efficiency is lowered. Therefore, the present invention relates to the invention for measuring the power generation efficiency by cooling the appropriate temperature as possible, and also for the insulation of the freezing wave generated in cold weather.

In general, power generation panels that absorb solar heat or sunlight for heating or power generation by using sunlight are used by exposing to the outside while being provided to move in the direction in which the sun moves, in order to provide effective absorption of sunlight. .

In addition, a wind power generator that generates power by moving wind of wind is being used.

In the present invention, the main purpose of the present invention is to provide an efficient solar power generation mainly in a pleasant weather such as the heat conditions such as the summer season when the strong sunlight shines or a dry area such as a desert area.

In addition, the indoor or the object to keep warm, but the hot water pipe is built to keep warm, the outer surface of the hot water pipe is to be used to wrap with a transparent vinyl or glass plate with high transmittance of sunlight.

The driving device for the power generation plate has been provided to various power generation devices by the inventor's invention application (2008 No. 78236, 2009 No. 51444).

This is to be installed in the highest position of the air in order to take good quality sun, but the sun shining sun moves to the rotation of the earth, according to a separate motor and gear to rotate in the direction of the heat collecting plate, As the drive of the control device provided, the sun shining in the inclined direction of the morning or afternoon is reconsidered the efficiency of heating.

In addition, due to the sun's role, it is mainly provided by using solar power or solar heating.

However, it is possible to feel warm temperatures in sunny places while avoiding cold winds, and the explanation for this is that in a room where the insulation against the outside and insulation is good, the warm temperature is provided in the section where the sun shines through the window. Will be.

In addition, the power generation efficiency for the widely used photovoltaic panel is a significant difference occurs due to the difference in power generation efficiency and the sunlight transmittance to the dust in the air by the temperature according to the change of the season.

Therefore, the installation of the solar panel is to install in a clean area as possible, and also the problem of periodically cleaning the dust is raised.

In addition, as described in the wind power and photovoltaic device disclosed in the application of the invention of the present invention, the movement force of the wind is provided to be guided by the inclination of the photovoltaic panel, but in the present invention the ejection provided for the cooling By inducing the air in the direction of the rotor blades, in order to provide a reinforcement for the generation of wind power even in the case of a breeze.

In the present invention, when the air is blown out at a high pressure in the movement of air, the low-temperature shape is generated in the decompression section generated here, and as an embodiment thereof, it is used as a refrigerator or a non-rotating fan.

Accordingly, an object of the present invention is to provide a cooling device for efficiently lowering a high temperature of a power generation plate heated by direct sunlight in the sun without putting a lot of manpower, thereby helping to generate high profits of power generation.

In addition, while providing a low-temperature wind induced by the moving force of the air is separated in order to cool the power generation plate, in order to reinforce the rotational force of the rotor blades in the case of a breeze.

In addition, by simply cleaning the transparent vinyl and the hose that isolates the dust, such as air pollution falling on the power generation board by the exchange, there is an object to provide an economical cost of management in the long run.

It is fixed on the roof 11 of the building 10 or the support pillars 14 of the underground 12 and rotated in the solar direction, so that the power generator 44 is provided on the surface thereof so as to generate power. In

To form a fixed to cover the hose 20 in a zigzag structure on one side of the transparent vinyl 25 to match the entire area of the photovoltaic panel 30,

The invention is configured to cool the photovoltaic plate 30 by supplying cold air to the hose (20).

In addition, the hose 20 is formed through the discharge port 23 through the power generator 44 formed in the buffer space 17 to be discharged, the hose 20 coupled to one side of the transparent vinyl 25 Is provided with a cylindrical vinyl (27),

Sealing the section between each of the hoses 20 which are inserted at both ends of the cylindrical vinyl 27 to overlap the upper, lower two layers, by fusion sealing,

The upper and lower vinyls of the cylindrical vinyl 27 are formed to form a fusion zone 32, and a moving part 37 is formed between the fusion zones 32, and the exhaust vinyl 23 is formed at the lower vinyl. ') Is an invention characterized by being provided with a perforation.

In the photovoltaic plate 30 is provided with a generator 44 on the surface to generate power by shining sunlight,

In the through-hole 21 penetrated at a predetermined interval in the photovoltaic panel 30 to form a blow-out pipe 33 fixed to the through-hole 21, the blow-out pipe 33 On one side of the expansion section 35 is provided with a supply ring pipe 36 and the ejection opening 38 to the outside, and protrudes the inlet pipe 39 protruding downward from the inner section of the supply ring pipe 36 Equip it,

The supply pipe 41 connected to the supply ring pipe 36 is provided with an enlarged section 35 through, and is provided in the supply pipe 41 so as to be ejected from the supply ring pipe 36 connected to the supply pipe 41. The blowing air supplied from the pressurizer is an invention provided so that the air cooled by the pressure reduction phenomenon formed in the inner section of the inlet pipe (39) by the output of the blower pipe (33).

In addition, the spout pipe 41 is fixed to the elbow pipe 45 by inserting,

While fixed to both edges of the photovoltaic panel 30 is provided on one side with a cover portion 39 having a convex for ejection,

The invention is provided so that air is ejected to the rotary blade 49 by forming the ejection zone 39 'in the ejection convex portion of the carver (39).

In addition, the vinyl film 39 is formed of a wind power derivative 48,

The locking ribs 43 are provided at both edges of the photovoltaic panel 30,

The locking rib 43 is assembled to the assembly rib 47 of the wind power derivative 48 by inserting,

The wind conductor 48 is an invention provided by forming cross sections loosely overlapping each other by the inclination of each other.

The present invention is to prevent freezing by blocking the inflow of cold air temperature by the cold outside in the solar light collecting device, and also equipped with solar power generation and wind power generation device to diversify the power generation for the sunlight and wind power In order to solve the problem, it is an invention for reinforcing energy production and providing practicality as an eco-friendly invention by providing various heating and cooling devices at the use site. In the present invention, when used for a long period of time as described above, it is possible to clean simply by replacing the inexpensive vinyl film, and also to maintain proper temperature by cooling air flowing through the cooling device at the surface temperature in the heat wave of the heat of the season. It is an economic invention.

Therefore, the configuration according to the preferred embodiment for the field construction of the present invention in detail based on the accompanying drawings, Figure 1 is a partial perspective view of a conventional photovoltaic plate, Figure 2 is a main part of the present invention FIG. 3 is a partial perspective view showing the assembled state in FIG. 2, FIG. 4 is a cross-sectional view taken along line AA in FIG. 3, and FIG. 5 is a partial perspective view of the embodiment in FIG. Figure 6 is a partial perspective view of an embodiment of the main portion of the present invention, Figure 7 is a state of use of the main portion assembled in Figure 6, Figure 8 is a cross-sectional view taken along line BB in Figure 7, Figure 9 is a view of the main portion in Figure 7 A partially cut away partial perspective view of an embodiment, FIG. 10 is a cross-sectional view taken along line CC in FIG. 9, and FIG. 11 is a partially enlarged perspective view of the main portion in FIG.

In other words, an embodiment of the invention for the construction of an embodiment for reinforcing the effective efficiency for photovoltaic power generation in a region where the temperature is very high while the temperature is very clear, when explaining the embodiment for the field construction, Figure 1 In the description of the conventional solar panel 30 provided,

The solar power plate 30 is provided with a power generator 44 on the surface of the building 10 to be fixed to the roof 11 or the support pillar 14 of the underground 12 to generate power by shining sunlight. It is provided to use.

However, the structure of the provided photovoltaic plate 30 is provided with a power generator 44 while being formed in a large area functioning to enlarge the commitment to the sun on the ground or rooftop by the support pillar 14, etc. Will be.

However, the provided photovoltaic plate 30 is particularly a high temperature phenomenon for solar heat heated in the heat of the cold season, the power generation efficiency for the power generator 44 is connected to the lowering, in the present invention, as pointed out above, 44 is an invention for providing a device of high economical efficiency and easy management, as shown in the accompanying Figures 2 to 5, the total area of the photovoltaic panel 30 for receiving sunlight To form a fixed to cover the hose 20 in a zigzag structure on one side of the transparent vinyl 25 to fit in,

The solar panel is a cooling device configured to cool the photovoltaic panel 30 by supplying cold air to the hose (20).

That is, it is repeatedly covered with the transparent vinyl 25 and provided with a hose 20, which is provided in a predetermined size and length in a zigzag continuously, a buffer space 17 is provided in the gap between the hose 20 It will be formed.

Therefore, the hose 20 is connected to the connection pipe 19 by a separate freezer, which is not shown. When the cooled cool air is circulated, the solar panel 30 heated by the sun is cooled. It is an invention which provides the divergent invention to be cooled to an appropriate temperature as cooling.

Here, the material of the hose 20 and the transparent vinyl 25 described above is generally used as a synthetic resin material having good transparency and durability.

In addition, the assembly of the photovoltaic plate 30 and the transparent vinyl 25 is tied to each other in a suitable structure and fixed to each other, and the bonding of the transparent vinyl 25 to the hose 20 is combined as an appropriate structure such as fusion or assembly. It is desirable to provide as possible.

In addition, as an embodiment for reinforcing the cooling power by the hose 20 described above, by providing a plurality of outlets 23 through the intermittently to the body of the hose 20, the hose (described above) 20 is an invention provided to effectively cool the generator 44 of the photovoltaic panel 30 by being blown into the buffer space 17 while the cooling air supplied to the outlet 23 passes through.

Here, the cooling air jetted into the buffer space 17 is preferably discharged to the outside by forming a part of a spaced state from the transparent vinyl 25 coupled to the magnetic field of the photovoltaic panel 30.

Therefore, the hose 20 is formed so as to discharge the power outlet 44 formed in the buffer space 17 by forming the outlet 23 through.

In addition, the description of one embodiment of the hose 20 coupled to the transparent vinyl 25, which is the main part of the present invention, as shown in Figures 6 to 11,

The hose 20 coupled to one side of the transparent vinyl 25 is provided with a cylindrical vinyl 27, the size of the cylindrical vinyl to assemble with each other to match the width of the photovoltaic panel 30 to be cooled. It is desirable to have. Each of the hoses 20 inserted into both ends of the cylindrical vinyl 27 by overlapping the upper and lower sides of the cylindrical vinyl 27 to cover the entire area of the solar panel 30 while covering the flat plate structure. Seal the interval between them by fusion,

A plurality of fusion zones 32 are formed intermittently in the upper and lower sections of the cylindrical vinyl 27, and a moving unit 37 is provided between the fusion zones 32.

Here, by overlapping the above-described cylindrical vinyl 27 in two layers, the outlet 23 formed in the hose 20 inserted into both ends to cover the flat plate structure is a moving part of the cylindrical vinyl 27. Forming in section 37 allows the cooled air to be effectively supplied and purified only to the section of the moving unit 37, thereby cooling the photovoltaic plate 30, which is an object of the present invention.

In addition, if the cooling air flowing in the moving section 37 is provided to be directly ejected to the surface of the photovoltaic plate 30, to provide a more effective power generation effect, an embodiment for solving the problem Preferably, the lower vinyl formed in the cylindrical vinyl 27 is provided with a perforated exhaust port 23 '.

(Example 1)

Rotational force on the rotor blades by blowing the wind blown out while cooling the high heat generated in the heat of the solar power plate which is the main part of the present invention to the wind power generator () provided in the upper section of the photovoltaic plate 30 As an invention for providing to reinforce the wind power generation, and to provide a reinforcement of the wind power generation, the solar power plate (30) of a large area, as provided in his prior invention applications 10-2008-51444, 10-2011-43713, etc. By blowing the wind induced by) into the rotor blades of the wind generator, it was to provide a wind and photovoltaic device.

However, in the above-mentioned neglect, power generation is performed only by sunlight on a sunny day, and the surface temperature rises due to the sunlight shining on the photovoltaic panel, especially in a dry desert area or in a summer heat season. The problem of low efficiency for power generation is on the rise.

Therefore, the present invention blows the wind for the slow cooling of the heated photovoltaic plate, and at the same time by inducing the blown wind to the rotary device of the wind power generator, especially at the same time as wind power even in the summer season only breeze or sunshine It is an invention to provide for carrying out development.

Therefore, the description of the cooling apparatus of the solar panel for an embodiment to meet the actual situation of the construction site while effectively providing the above object, when described in detail based on the accompanying drawings, Figure 12 is the main part of the present invention 12 is a perspective view of another assembled state of the main part in FIG. 12, FIG. 14 is a sectional view taken along line DD in FIG. 13, and FIG. 15 is an enlarged view of line EE in FIG. Fig. 16 is an enlarged perspective view of the main part in Fig. 15, Fig. 17 is a sectional view taken along the line FF in Fig. 16, Fig. 18 is an enlarged cross sectional view taken on the line GG in Fig. 14, and Fig. 19 is a main part in Fig. 18. Is an enlarged exploded view of a partially cut away portion of FIG. 20, FIG. 20 is a partial perspective view of the main portion of FIG. 14, FIG. 21 is a partial perspective view of another portion of FIG. 14, and FIG. 22 is a partial cross-sectional view of the used state of FIG. 23 is a line HH in FIG. 24 is a sectional view showing the state of use of the embodiment of FIG. 21, and FIG. 25 is a sectional view taken along the line I-I in FIG.

The solar panel 30 is provided with a generator 44 on the surface of the building 10 to be fixed on the roof 11 of the building 10 or the support pillar 14 of the underground 12 to generate power by shining sunlight. The invention is provided to reinforce the rotational force for the rotor blade 166 'for the wind power generator 40 provided in the upper section of the.

Referring to one embodiment of the wind power generator 40 described above, as shown in the accompanying Figures 12 to 17, generally disposed on the roof 11 or underground 12 of the building 10 The solar power plate provided by the support pillar 14 which protrudes and is provided with the rotation means 55 which drive by the rotation apparatus, such as a worm gear and a motor, to drive the photovoltaic plate 30 in accordance with the movement of the sun. By providing the wind power generator 40 in accordance with the upper section of the 30, it was provided to further rotate the rotor blades 166 'for the wind power induced by the solar panel.

Therefore, the detailed description of the wind power generator 40 described above, the end of the moving section 110 of the wind power formed on the solar panel 30, the rotary drum 165 ′ of the horizontal rotary device 190 Provided to be guided in accordance with the rotor blades (166 ') of,

Each side section of the horizontal rotary device 190 is provided with a support wall 168 and the inlet 141, respectively, at the upper end of the photovoltaic plate 30 so that the introduced wind power to reinforce the rotational force According to the length section, it is preferable to provide a guide section 168 and the inlet port 141 by rotating the guide section 145 is formed so as to be repeatedly fixed in succession alternately.

Wherein the wind turbine introduced into the moving section 110, coupled to the rotating shaft 160 'coupled to the generator coupled to one side of the rotating shaft 160' for rotation in the horizontal rotary device 195 By providing a housing to be provided, the invention for the purpose of providing a horizontal rotary device 195 and a generator not shown by the wind power.

Therefore, in the section between the rotary shaft 160 ′ and the generator, the blowing force of the wind power to the inlet 141 is combined with the wind pipe 33 and the wind inductor 48 provided in the photovoltaic plate 30. In order to provide economical power generation by performing wind power generation with cooling wind power in the cold heat.

In order to provide cooling to flow through the wind for the solar panel 30 through,

In the through hole 21 penetrating the photovoltaic panel 30 at a predetermined interval, the plurality of through holes 21 are drilled while maintaining a predetermined interval in the area of the photovoltaic panel 30. The injection pipe 33 is fixed to each of the through-holes 21 to be described above by inserting, but the supply ring ball 36 to the expansion section 35 to the outside on one side of the blow-out pipe 33 ) And a spout 38 is provided, and protrudes the inlet pipe 39 protruding downward from the inner section of the supply ring pipe 36.

Here, the description of the supply ring pipe 36 and the outlet 38 in the enlarged section 35 described above, the supply ring provided in the enlarged section 35 further extended to the outer section of the diameter of the inlet pipe 39 The ejection of the high pressure air to the old pipe (36) is connected to the supply pipe (41) by connecting the air pressurized by a high pressure pump (not shown) to the ejection pipe (33), and the inlet flows by the output of the ejected air In the inner section of the pipe (39), the air of the temperature is provided in a reduced pressure shape.

Here, the supply pipe 41 connected to the supply ring pipe 36 is provided with an enlarged section 35 through, but is assembled at a predetermined interval in the entire area of the photovoltaic plate 30 as described above. It is preferable to be provided by connecting to each supply ring section 36, where it is to be connected by passing through one side of the enlarged section 35 to assemble the supply ring pipe 36.

Therefore, the blowing air supplied from the separate pressurizer is supplied to the supply pipe 41 so as to be ejected from the supply ring pipe 36 connected to the supply pipe 41 in the inner section of the inlet pipe 39 by the ejection output of the ejection pipe 33. Wind blown out by cooling by combining the air cooled by the formed pressure reduction phenomenon to the assembly rib 47 of the cover cover 39 to the locking rib 43 formed at the edge of the photovoltaic plate 30, the rotor blade 166 The invention is provided to blow in the ') direction.

Here, it is preferable to set the section between the through holes 21 described above so that the power generator module is provided.

Here, the wind blown out of the blow-out pipe 33 described above is directed to the rotary blade 166 'provided in the upper section of the photovoltaic panel 30 to reinforce the elbow pipe 45 in the blow-out pipe 33. ) Is fixed by inserting.

Here, while being fixed to both side edges of the photovoltaic panel 30, one side is provided with a carver (39) provided with a convex for ejection,

By forming the ejection zone 39 'in the convex portion for ejection of the carver (39), it is preferable to provide wind to the bladder-type rotary blade 49 provided on the upper side of the support pillar (14).

That is, the structure of the wind turbine 40 'is as shown in Figure 21, 24 to 25, the rotary blade 49 in the upper section of the support pillar 14 protruding while buried in the same ground as the ground (12) The structure having the wind power generator 40 ′ provided is widely used.

Therefore, one embodiment of the carver stand 39, which is the main part of the present invention, will be described, the ejection section 39 'connected to the ejection section of the carver stand 39 in the rotation section of the rotary blade 49 is rotated It is a preferred invention to be provided to guide the rotation section of the blade (49).

In this case, when the permanent cover 39 is applied to the power generation section provided with the generator 44 of the photovoltaic power generation plate 30, as shown in FIG. 24, the lower section of the photovoltaic power generation plate 30 is used. By using the high pressure air supplied from the blow-off pipe 33 to penetrate, the invention is to reinforce the rotational force of the rotary blade (49).

In addition, when explaining the embodiment of the cover unit 39 described above, as shown in Figure 20, 22 to 23, the rotary blade 49 for the wind turbine (40 ') is a power plant In the middle portion of the support pillar 14 provided to interlock with the teeth 42, the frame 31 protruding in the opposite direction of the rotary blade 49 is fixed to the upper and lower sides of the support pillar 14, respectively. In the upper and lower sections of the frame 31, the solar panel 30 is inclined inclination is fixed,

The frame 31 is provided in accordance with the inclination of the photovoltaic plate 30 is provided with a wind power and photovoltaic device composed of a rotating means 55 consisting of a bearing, a gear and a control device.

However, after cooling the solar panel 30 is heated by the sun, the invention to provide to blow out the rotary blade 49 for the wind turbine (40 '), in accordance with the accompanying drawings in detail In the following description, the wind turbine is connected to the upper end of the carver (39) provided in the section of the photovoltaic plate 30 while the wind blows to induce the jet to the rotating section of the rotary blade 49 (39) ') Is provided so as to protrude, wherein the structure of the ejection zone 39' described above is an invention that provides a rotational force of the rotary blade 49 is further reinforced when provided in a reverse trumpet shape. In addition, since the area of the cover unit 39 is almost the same as the area of the photovoltaic panel 30, it is provided with a bend in a predetermined section and fixed to the photovoltaic panel 30 with the fixing table 32 'for a long term. Durability is reinforced to use.

Here, the useful material for the cover member 39 described above will be within the technical scope of the present invention even if it is provided as a synthetic resin material having good transparency, or provided as a vinyl material having good transparency.

형이면서 경사지는 구조의 풍력 유도체(48)을 2이상의 다수개로 태양광발전판(30)의 면적 구간에 맞추어서 서로 겹쳐서 개폐하여 주도록 제공하는 발명이다.In addition, one example of the cover section 39 described above will be described in detail, as shown in Figures 20, 22 and 23, the cross section of the cover section 39

The invention provides a plurality of wind inductors 48 having a mold and inclined structure so as to be overlapped with each other in accordance with an area section of the photovoltaic panel 30 in a plurality of two or more.

In addition, the detailed description for coupling the wind conductor 48 to the photovoltaic plate 30 is provided with a locking rib 43 in the section of both edges of the photovoltaic plate 30,

The locking ribs 43 are coupled to the locking ribs 43 with assembly ribs 47 protruding outwardly to end portions of the wind inductors 48 that are formed at the ends of the wind inductors 48. By inserting as much as possible, if necessary for cleaning or management, such as moving to the upper and lower sections of the photovoltaic panel, the wind inlet 46 blowing into the outer space between the sections to be widened to open by movement In order to provide to form, the wind conductor 48 is an invention provided by forming so that the cross-section loosely overlap each other by the inclination of each other.

1 is a partial perspective view showing a conventional photovoltaic plate

Figure 2 is a partially cut away perspective view of the main portion of the present invention.

3 is a partial perspective view showing the assembled state in FIG.

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

FIG. 5 is a partial perspective view of the embodiment of the main portion in FIG.

Figure 6 is a partial perspective view of one embodiment of the main part of the present invention.

Figure 7 is a state diagram used in the main portion assembled in Figure 6

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

FIG. 9 is a partially cut away partial perspective view of the embodiment of the main portion in FIG.

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

Figure 11 is a partially enlarged perspective view of the main part in Figure 9;

Figure 12 is a perspective view of a use state of another embodiment of the main part of the present invention;

Figure 13 is another assembled view of the main part in Figure 12

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

Figure 15 is an enlarged cross sectional view taken along line E-E in Figure 12;

Figure 16 is an enlarged perspective view of the main part in Figure 15;

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

Figure 18 is an enlarged cross sectional view taken along the line G-G in Figure 14;

Fig. 19 is an enlarged state diagram exploded while partially cutting the main part in Fig. 18;

20 is a partial perspective view of the main portion in FIG.

Figure 21 is a partial perspective view of another main part in Figure 14;

Figure 22 is a partial cross sectional view of the used state for Figure 20;

FIG. 23 is a cross-sectional view taken along the line H-H in FIG.

24 is a use state diagram of an embodiment of the main part of FIG.

FIG. 25 is a cross-sectional view taken along the line I-I in FIG. 24; FIG.

<Description of Major Symbols in Drawing>

10. Building 11. Rooftop 12. Underground 13. Rotator

14. Support column 15. Inner space 16. Body 17. Shock-absorbing space

19. Connector 20. Hose 21. Through hole 23. Outlet

24. Fusion table 25. Transparent vinyl 26. Sealing board 27. Cylindrical vinyl

28. Fixture 29. Induction Section 30. PV Panel 31. Frame

32. Fusion zone 33. Jet pipe 35. Expansion section 37. Moving unit

36. Supply ring pipe 38. Jet 39. Cover 39 '. Blowout

40. Wind power generator 41. Jet pipe 43. Jam rib 44. Power generator

45. Elbow 47. Assembly rib 48. Wind conductor 49. Rotary vane

Claims (5)

It is fixed on the roof 11 of the building 10 or the support pillars 14 of the underground 12 and rotated in the solar direction, so that the power generator 44 is provided on the surface thereof so as to generate power. In To form a fixed to cover the hose 20 in a zigzag structure on one side of the transparent vinyl 25 to match the entire area of the photovoltaic panel 30, Cooling device for a photovoltaic panel configured to cool the photovoltaic panel 30 by supplying cold air to the hose (20). The method of claim 1, In addition, the hose 20 is formed through the discharge port 23 through the power generator 44 formed in the buffer space 17 to be discharged, the hose 20 coupled to one side of the transparent vinyl 25 Is provided with a cylindrical vinyl (27), Sealing the section between each of the hoses 20 to be inserted at both ends to overlap the cylindrical vinyl 27 in two layers of upper, lower, by fusion sealing, The upper and lower vinyls of the cylindrical vinyl 27 are formed to form a fusion zone 32, and a moving part 37 is formed between the fusion zones 32, and the exhaust vinyl 23 is formed at the lower vinyl. Cooling device for photovoltaic panel, characterized in that provided ') provided with a perforation. In the photovoltaic plate 30 is provided with a generator 44 on the surface, In the through-hole 21 penetrating the photovoltaic panel 30 at a predetermined interval, The injection pipe 33 is formed to be fixed to the through-hole 21, provided on one side of the injection pipe 33, the supply ring inlet pipe 36 and the injection port 38 in the expansion section 35 to the outside And protruding the inlet pipe 39 protruding downward from the inner section of the supply ring pipe 36, Supply pipe 41 is connected to the supply ring pipe 36 is provided with an enlarged section 35 through, Blowing air supplied from a separate pressurizer is formed in the inner section of the inlet pipe (39) by the output of the blow-out pipe (33) to be ejected from the supply ring pipe (36) connected to the supply pipe (41). Cooling device for a solar panel provided to eject the air cooled by the pressure reduction phenomenon. The method of claim 3, The ejection pipe 41 is fixed to the elbow pipe 45 by inserting, While fixed to both edges of the photovoltaic panel 30 is provided on one side with a cover portion 39 having a convex for ejection, Cooling device for a photovoltaic power plate provided to blow out the air to the rotary blades (49) by forming a blower (39 ') for the convex portion for ejection of the cover (39). 5. The method of claim 4, It is fixed to the photovoltaic panel 30 with a fixing stand 32 'bent to the carver film 39, The carver film 39 is formed of a wind power derivative 48, The locking ribs 43 are provided at both edges of the photovoltaic panel 30, The locking ribs 43 are assembled to be inserted into the assembly ribs 47 protruding outward from the end portion that downwards the wall surface formed at the differential height at both ends of the wind power inductor 48, Coupling of the wind power guide 48 and the separate wind zone guide (48 ') is provided by forming the cross-section loosely overlap each other at intervals of the inclination of each other provided for the solar panel.

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