KR20120018850A - Diamond-shaped multi-directional fixed tracking methods solar cells system streetlight and the manufacturing method - Google Patents

Abstract

PURPOSE: A diamond-shaped multi-directional fixed tracking type solar cell system and a manufacturing method thereof are provided to obtain a high generation efficiency of over 40% by receiving sunlight around a flange. CONSTITUTION: A circular solar module(10) receives sunlight in all directions. A lamp(20) is turned on at night after receiving stored power. The solar module is installed on the upper side of a streetlight pole(30). An inspection unit(31) checks generation status and abnormalities. An angle frame is combined with the lower side of the circular solar module and a body.

Description

Diamond-shaped multi-directional fixed tracking methods solar cells system streetlight and the manufacturing method

The present invention relates to a diamond-shaped multi-directional fixed-tracking solar cell system street lamp and a method of manufacturing the same, and as a result of monitoring the generation of solar cells by computer for 365 days a year, in more detail, the conventional flat panel solar cell The present invention relates to a diamond-shaped multi-directional fixed-tracking solar cell system street lamp that provides power generation efficiency of up to about 40% higher than street lamps, and a method of manufacturing the same.

Recently, you can see a lot of solar street light with solar cells. The solar street light is to generate electricity by generating solar power, and does not require any electric work and has the advantage that it can be used semi-permanently without constant power supply.

However, a solar cell used in a conventional solar street light is a flat plate, and as described below with reference to FIG. 1B attached below, shadow shadows caused by tropospheric clouds are cast on the surface of the solar cell during or around the day of solar light. If shadow shading 602 is formed by trees, mountains, buildings, etc., the mining opportunity is lost and power generation is not performed or power generation efficiency drops sharply. When shadow shading 602 is formed for a long time, hot spot phenomenon occurs in the solar cell 601. It eventually causes solar cell failure.

In addition, since a fixed flat panel solar cell is generally used in one direction, it cannot be expected to generate power when clouds are generated in a time zone that can collect the most sunlight. In order to compensate for the shortcomings of such fixed solar cells, a solar tracking model in which solar cells are axially rotated to track the moving sun is also produced, but the solar tracking type is also a flat panel solar cell and a rotational joint is applied to rotate the solar tracking model. Due to the radius of the joint, a wide space, constant power consumption, and various failures occur in each mechanical part and tracking controller.

FIG. 1A is a perspective view of a solar street lamp to which a conventional fixed flat panel solar cell is applied, and FIG. 1B is an exemplary view of a shadow partially generated on the surface of the solar cell.

The present invention has been made to solve the above-mentioned problems of the prior art, even if shadow shading is formed on the whole or part of the solar cell by the cloud in the troposphere, maximize the power generation efficiency by scattering radiation and reflection solar radiation and the sun in any direction It aims to provide light generation efficiency, especially in cloudy rainy seasons or short winter seasons, providing a higher generation efficiency of more than about 40% in total for up to one year than flat type.

In order to achieve the above object, the present invention, the electric power generated by the circular circular facet photovoltaic module composed of the upper circular facet photovoltaic module formed of the solar cell of 24 sides and the lower circular facet photovoltaic module formed of the 48 facet to the energy harvesting circuit It is characterized by consisting of a structure that is charged and discharged through the charging unit to collect as a storage battery.

The present invention has an advantage of reducing the installation area, and also reducing the installation area limitation and having a high power generation efficiency of up to about 40% or more due to a long lighting condition structure, non-directional scattering radiation, and reflection solar radiation than a flat panel solar cell.

Hereinafter, with reference to the accompanying Figure 1c as follows.

Circular photovoltaic module 10 is configured in eight directions with a 360 ° around the flange 110 located on the top, it is possible to light even if sunlight shines in any direction. In other words, it is possible to mine during the daytime according to the movement of the sun without a tracking device from sunrise to sunset.

In addition, when the shadow shade 602 by the outside is cast on the circular solar module 10, the corresponding individual solar module of the eight is the power generation is lowered to become a low efficiency power generation 604, but the shadow shade 602 is cast The remaining individual photovoltaic modules are not capable of normal power generation (603).

Figure 1c is an illustration of the shadow partially generated on the surface of the circular solar module.

Figure 1a is a perspective view of a solar street lamp applying a conventional fixed flat panel solar cell.
Figure 1b is an illustration of the shadow partially generated on the surface of a conventional solar cell.
Figure 1c is an illustration of the shadow partially generated on the circular faceted solar module surface.
Figure 2 is a diamond perspective multi-directional fixed tracking solar cell system street lamp full perspective view.
Figure 2a is a side cross-sectional view of a circular angular solar module.
Figure 2b is a planar cross-sectional view of a circular angular solar module.
3 is a cross-sectional perspective view of a circular faceted solar module.
Figure 3a is a perspective view of part of the upper circular solar module partially separated.
Figure 3b is a perspective view of the bottom circular solar module partially separated.
Figure 3c is a side cross-sectional view of an individual solar cell coupling.
Figure 3d is a cross-sectional plan view of an individual solar cell combined.
Figure 3e is a top circular angular photovoltaic module junction box assembly configuration.
Figure 3f is a lower circular face solar module junction box assembly configuration.
Figure 4a is a top-up junction box structure diagram.
Figure 4b is a top-bottom junction box structure diagram.
4c is a bottom-up junction box structure diagram.
Figure 4d is a bottom-bottom junction box structure diagram.
5 is a view of the flange and the body and the angle frame coupling.
6 is a battery enclosure structure diagram.
7 is a schematic diagram of a diamond-shaped multi-directional fixed-tracking solar cell system street lamp circuit.
Figure 8a is a schematic plan view of a circular angular solar module.
8B is an individual solar module wiring diagram.
8c is an individual solar cell configuration diagram.

The present invention is a circular faceted solar panel consisting of an upper circular faceted photovoltaic module 100 composed of 24 individual solar cells 12 and a lower circular faceted photovoltaic module 200 composed of 48 individual solar cells 13. It is a system that generates power to the optical module 10, collects power through the energy harvesting circuit 71, and accumulates the battery through the control of the controller 72, and illuminates the light using the lamp 20 at night.

Hereinafter, a diamond-type multi-directional fixed-tracking solar cell street light according to the present invention will be described in detail with reference to the accompanying drawings.

The configuration of the present invention, as shown in Figure 2, is composed of a circular facet photovoltaic module 10, a street lamp column 30 and the lighting fixture 20, and finally the photovoltaic power generation in the circular facet photovoltaic module 10 It is a system that illuminates the light fixture 20 at night, and is configured to check the power generation state and the presence of abnormality through the check opening (31).

As shown in FIG. 3, the circular facet photovoltaic module 10 includes an upper circular facet photovoltaic module 100, a lower circular facet photovoltaic module 200, and a body 400, and an upper circular facet. The hole 122 formed in the flange 120 coupled to the lower portion of the solar module 100 and the hole 212 formed in the flange 210 coupled to the upper portion of the lower circular face solar module 200 coincide with each other. The upper circular facet photovoltaic module 100 and the lower circular facet photovoltaic module 200 are coupled to the bolt 50 and the nut 51.

In addition, the body 400 is composed of a fixed pipe 401, the side plate 402 and the lower plate 403, the angle frame 500 is configured to be coupled to the lower plate 403, the fixed pipe 401 The bolt 404 attached to it is configured to fix the circular solar modules 10 by tightening the bolt 404 when coupled to the top of the street lamp 30.

In addition, the lower plate 402 is provided with a battery box 60, the circuit box 70 is coupled.

As shown in FIG. 3A, a screw hole 111 and an air hole 112 are formed in the flange 110, and a screw hole (below) of the upper circular angular solar module 100 is formed. The glass fixture 130 having the 131 formed thereon, and the frame 150 having the screw groove 153 formed thereon are coupled to the coupling screw 170.

In addition, the individual solar cell 12 is inserted into the detachable groove 152 formed in the coupled frame 150, the glass fixing body 140 is formed with a screw hole 141 under the frame 150, The flange 120 in which the screw hole 121 is formed is coupled to the coupling screw 180.

Here, the air hole 112 formed in the flange 110 has a circular faceted solar module 10 included in the diamond-type multi-directional fixed-tracking solar cell system street light according to the present invention has been installed on the top of the street lamp 30 It is configured to minimize the influence of wind pressure due to wind blowing from below.

The lower circular facet photovoltaic module 200 is also the same as the upper circular facet photovoltaic module 100. When the configuration is improved, as shown in FIG. 3B, a screw hole 211 is formed in the flange 210. The glass fixture 230 having the screw hole 231 formed under the flange 210 and the frame 250 having the screw groove 253 are sequentially coupled with the coupling screw 270.

In addition, the solar cell 13 is inserted into the detachable groove 252 formed in the coupled frame 250, the glass fixing body 240 is formed with a screw hole 241 under the frame 250, The flange 220 having the screw hole 221 is coupled to the coupling screw 280.

Here, looking at the bar shown in Figures 3c to 3d, between the glass fixture 130 (230) and the individual solar cells 12, 13 formed with protrusions 132, 232, 142, 242 on the front side Silicon packing 290 is provided in the silicon packing around the frame 150, 250 and the individual solar cells 12, 13, the removable grooves 152, 252 and the protrusions 151, 251 are formed. 290 is provided, the provided silicon packing 290 is a glass fixture 130, 140, 230, 240 and the frame 150 coupled to the individual solar cells 12, 13 and up, down, left and right It is configured to increase the adhesion with the (250), and to act as a buffer according to the expansion and contraction of the low iron tempered glass 40 contained in the individual solar cell 12.

Looking at the assembly configuration of the junction box included in the upper circular facet photovoltaic module 100, as shown in Figure 3e, the female thread on the upper rear of the frame 150 included in the upper circular facet photovoltaic module 100 ( 154 is formed, the junction box 310 formed with the fixing hole 314 and the female thread 315 is fixed to the female thread 154 formed on the frame 150 by the fixing bolt 312, the box cover ( The coupling hole 316 is formed in the 311 and is fixed to the coupling bolt 313 to the female thread 315 formed in the junction box 310.

In addition, a female thread 155 is formed at a lower rear side of the frame 150, and a junction box 320 having a fixing hole 324 and a female thread 325 is formed in the frame 150. It is fixed to the fixing bolt 322, the coupling hole 326 is formed in the box cover 321 is fixed to the coupling bolt 323 to the female thread 325 formed in the junction box 320.

In addition, the junction box assembly configuration included in the lower circular facet photovoltaic module 200 is also the same as the assembly configuration of the junction box included in the upper circular facet photovoltaic module 100. The female thread 254 is formed on the upper rear side of the frame 250 included in the lower circular face solar module 200, and the junction box 330 having the fixing hole 334 and the female thread 335 is formed. The fixing bolt 332 is fixed to the female thread 254 formed in the frame 250, and a coupling hole 336 is formed in the box cover 331 to be coupled to the female thread 335 formed in the junction box 330. The bolt 333 is fixed.

In addition, a female thread 255 is formed at a lower rear surface of the frame 250, and a junction box 340 having a fixing hole 344 and a female thread 345 is formed in the frame 250. It is fixed to the fixing bolt 342, the coupling hole 346 is formed in the box cover 341 is fixed to the coupling bolt 343 to the female thread 345 formed in the junction box 340.

Here, looking at the bar shown in FIG. 4B, the junction box 310 has a triangular shape, and a ribbon inlet 350 is formed inside the junction box 310, and the terminal block is formed at an upper end of the ribbon inlet 350. 355 is formed, the ribbon line passage 351 is formed so that the ribbon line can pass easily, the hole 314 and the female thread 315 is formed, the removable groove 352 to be inserted into the frame When the box cover 311 is coupled, the protrusion 354 is formed upward to prevent rainwater from flowing into the junction box 310.

In addition, the box cover 311 is formed of a triangular surface, a hole 316 is formed, the protrusion 353 is formed to seal the sides of the junction box 310 to seal.

Looking at the bar shown in Figure 4b the junction box 320 is made of a triangular shape, the ribbon line inlet 360 is formed inside the junction box 320, the terminal block 365 to the lower end of the ribbon line inlet 360 ) Is formed, a ribbon line passage 361 is formed so that the ribbon line can easily pass, a hole 324 and a female thread 324 is formed, and a removable groove 362 is formed to fit in the frame. When the box cover 321 is coupled, a protrusion 364 is formed upward to prevent rainwater from flowing into the junction box 320.

In addition, the box cover 321 is formed of a triangular surface, a hole 326 is formed, and the protrusion 363 is formed to close and seal the sides of the junction box 320.

Looking at the bar shown in Figure 4c the junction box 330 is made of a hexagonal shape, a ribbon line inlet 370 is formed inside the junction box 330, the terminal block 375 to the top of the ribbon line inlet 370 Is formed, a ribbon line passage 371 is formed so that the ribbon line can easily pass, a hole 334 and a female thread 335 are formed, and a removable groove 372 is formed to be inserted into the frame. Protruding portion 374 is formed upward when the box cover 331 is coupled to prevent rainwater from flowing into the junction box 330.

In addition, the box cover 331 is formed of a hexagonal surface, a hole 336 is formed, and the protrusion 373 is formed to close and seal both sides of the junction box 330.

Referring to FIG. 4D, the junction box 340 has a hexagonal shape, and a ribbon inlet 380 is formed in the junction box 340, and the terminal block 385 is formed on the upper edge of the ribbon inlet 380. Is formed, a ribbon line passage 381 is formed so that the ribbon line can easily pass, a hole 344 and a female thread 345 are formed, and a detachable groove 382 is formed to be inserted into the frame. When the box cover 341 is coupled, a protrusion 384 is formed upward to prevent rainwater from flowing into the junction box 340.

In addition, the box cover 341 is formed of a hexagonal surface, a hole 346 is formed, and the protrusion 383 is formed to block and seal both sides of the junction box 340.

Referring to FIG. 5, the body 400 includes a fixing pipe 400 formed of a hole 406, a nut 405 attached thereto, and a bolt 404 coupled to the nut 405, and a side plate ( 402 and the lower plate 403 in which the holes 407 are formed.

In addition, an angle frame 500 having holes 501 and 502 formed on side and upper surfaces thereof is coupled to the lower plate 403, the bolt 505, and the nut 506 included in the body 400.

In addition, the protrusion 222 is formed on the side of the flange 220, the hole 223 is formed in the protrusion 222, the bottom surface of the flange 220 is the upper surface of the lower plate 403 and the angle frame 500 The hole 223 formed in the flange 220 and the hole 501 formed in the angle frame 500 coincide with each other in concentric circles and are coupled to the bolt 503 and the nut 504.

In addition, the upper surface of the fixed pipe 401 included in the body 400 is welded to the bottom surface of the flange (110).

As illustrated in FIG. 6, the battery enclosure 60 includes a keying device 68 at both sides, and forms an empty space in an edge thereof to form a thermal insulation urethane foam 63 incorporating a battery lower enclosure 62. And, the same as the battery lower enclosure 62, the locker device 68 is provided on both sides and forms an empty space inside the rim, the battery upper enclosure 61 with a built-in insulating urethane foam (63), and storage batteries on both sides A storage space 66 is formed to store the storage battery 75, and a lower battery storage space is formed on both sides of the lower styrofoam insulation material 65 having the storage space 67 at the center, and the same as the lower styrofoam insulation material 65. And it is composed of the upper styrofoam insulation 64 is formed in the center.

Accordingly, the lower styrofoam insulation 65 is inserted into the battery lower enclosure 62, and the upper styrofoam insulation 64 is coupled to the lower styrofoam insulation 65, and the battery upper enclosure 61 is disposed on the battery lower enclosure 62. ) Is coupled and configured to lock with the locking device 68 on both sides.

The configured battery enclosure 60 is for the purpose of preventing the increase of the internal atmospheric temperature in the hot summer season and for the purpose of preventing the decrease of the internal atmospheric temperature in winter. In other words, the battery has the best voltage efficiency when the ambient temperature is 25. If the ambient temperature of the battery becomes high and low temperature, the efficiency of the battery decreases.

As shown in FIG. 8B, the individual solar module 11 includes three individual solar cells 12 included in the upper circular facet photovoltaic module 100 and the lower circular facet photovoltaic module 200. It consists of six individual solar cells 13 included, and the ribbon line 44 and the power supply line 45 is composed of 72 solar cells 42 in series wiring.

Here, the layer configuration of the solar cell, as shown in Figure 8c, the EVA sheet 41 is located on the back of the low iron tempered glass 40, the solar cell 42 is located on the back of the EVA sheet 41 The solar cell is serially wired by a ribbon line 44, and an EVA sheet 41 is positioned at the rear of the solar cell 42, and a back sheet 43 is formed at the rear of the EVA sheet 41. Is positioned, and the solar cell is produced by heating vacuum compression using the laminator.

In addition, as shown in Figure 8a, the individual photovoltaic module 11 is arranged in a circular shape, as shown in Figure 7, the power generation is produced in each of the eight individual photovoltaic module 11 to harvest energy In the circuit 71, the eight kinds of power are collected as one power and charged to the storage battery 75 through the controller 72. At night, the luminaire 20 uses the power stored in the storage battery 75 by the controller 72. ) Is configured to illuminate the light.

10: circular solar module 11: individual solar module 12, 13: individual solar cell
20: luminaire
30: street light Note 31: check hole
40: low iron tempered glass 41: EVA sheet 42: Cell 43: back sheet 44: ribbon line
45 power line
50: bolt 51: nut
60: battery enclosure 61: battery upper enclosure 62: battery lower enclosure
63: insulation urethane foam 64: upper styrofoam insulation 65: lower styrofoam insulation
66: storage battery storage space 67: storage space 68: locking device
70: circuit box 71: harvesting circuit 72: controller 73: bolt 74: female thread 75: storage battery
80: diode 81: capacitor
90: street light basis 91: the sun
100: upper circular solar module 101: installation angle
200: lower circular solar module 201: installation angle
110, 120: flange 111, 121, 131, 141: screw hole 112: air hole
122: bolt hole
130, 140: glass fixture
132, 142, 151: protrusions
150: frame 152: removable groove 153: screw groove 154, 155: female thread
160: low iron tempered glass
170, 180: Combined screw
190: Binding bolt 191: Binding nut
210, 220: flange
211, 221, 231, 241: screw hole
222, 232, 242, 251: protrusion
212, 223: hall
230, 240: glass fixture
250: frame 252: removable groove 253: screw groove 254, 255: female thread
260: low iron tempered glass
270, 280: coupling screw
290: Silicone Packing
310, 320, 330, 340: junction box
311, 321, 331, 341: box cover
312, 322, 332, 342: fixed bolt
313, 323, 333, 343: coupling bolt
314, 316, 324, 326, 334, 336, 344, 346: bolt hole
315, 325, 335, 345: female thread
350, 360, 370, 380: Ribbon line inlet 351, 361, 371, 381: Ribbon line passage
352, 362, 372, 382: Detachable grooves 353, 363, 373, 383: protrusions 354, 364, 374, 384: protrusions
355, 365, 375, 385: terminal block
400: body 401: fixed pipe 402: side plate 403: bottom plate 404: bolt 405: nut
406, 407: hall
500: Angle frame 501,502: Hole 503, 505: Bolt 504, 506: Nut
600: flat panel solar module 601: solar cell 602: shadow 603: normal power display
604: low efficiency power generation display

Claims (14)

Circular solar module 10 is coupled to the top of the street lamp 30, the diamond-shaped multi-directional fixed-tracking solar cell system street lamp and its characterized in that the lamp 20 is coupled to the top of the street lamp 30 Manufacturing method
The method of claim 1,
The lower end of the upper circular photovoltaic module 100 and the upper end of the lower circular photovoltaic module 200 are coupled, and the angle frame 500 coupled to the lower end and the body 40 of the lower circular photovoltaic module 200 is Combined, diamond-shaped multi-directional fixed-tracking solar cell system street light and its manufacture, characterized in that the battery box 60 coupled to the circuit box 70 is received on the lower plate 403 included in the body 40 Way The method of claim 2,
The glass holder 130 having the screw hole 131 and the protrusion 132 is coupled to the lower end of the flange 110 in which the air hole 112 is formed and the screw hole 111 is formed. At the bottom, a frame 150 having a protrusion 151, a detachable groove 152, and a screw groove 153 is coupled, and the individual solar cell 12 is inserted into the detachable groove 152 formed on the frame 150. And a diamond-shaped multi-directional fixed-tracking solar cell system street light and a method of manufacturing the same, wherein the silicon packing 290 is inserted around the individual solar cell 12. The method of claim 2,
A glass fixture 230 having a protrusion 232 and a screw hole 231 is coupled to a lower end of the flange 210 on which the screw hole 211 and the hole 212 are formed, and a protrusion at the bottom of the glass fixture 230. 251 and the detachable groove 252 and the frame 250 formed with the screw groove 253 is coupled, the individual solar cell 13 is inserted into the removable groove 252 formed in the frame 250, Diamond-shaped multi-directional fixed-tracking solar cell system street light and a manufacturing method, characterized in that the silicon packing 290 is inserted around the battery 13 The method of claim 2,
A triangular shape in which a female thread 154 is formed on an upper portion of the frame 150 included in the upper circular solar module 100, and a bolt hole 314 and a female thread 315 are formed in the female thread 154. The junction box 310 is coupled, the triangular box cover 311 is formed with a bolt hole 316 is coupled to the female thread 315, the female thread 155 is the lower portion of the frame 150 And a junction box 320 having a triangular shape in which a bolt hole 324 and a female thread 325 are formed in the female thread 155, and a bolt hole 326 is formed in the female thread 325. Diamond-shaped multi-directional fixed-tracking solar cell system street light and a method of manufacturing the same, characterized in that the three-sided box cover 321 is coupled The method of claim 2,
Hexagonal shape in which a female thread 254 is formed on an upper portion of the frame 250 included in the lower circular solar module 200, and a bolt hole 334 and a female thread 335 are formed in the female thread 254. The junction box 330 is coupled, the hexagonal box cover 331 having a bolt hole 336 is coupled to the female thread 335 is coupled, the female thread 255 in the lower portion of the frame 250 And a junction box 340 having a hexagonal shape in which a bolt hole 344 and a female thread 345 are formed in the female thread 255, and a bolt hole 346 is formed in the female thread 345. Diamond-shaped multi-directional fixed-tracking solar cell system street light and manufacturing method, characterized in that the hexagonal box cover 341 is coupled The method according to claim 2, wherein
Junction box 310 formed with ribbon line inlet 350, terminal block 355, ribbon line passage 351, detachable groove 352, protrusion 354, hole 314 and female thread 315, Diamond-shaped multi-directional fixed-tracking solar cell system street light characterized by a box cover 311 formed with a 316 and the protrusion 353 and a manufacturing method thereof The method according to claim 2, wherein
The junction box 320 formed with the ribbon line inlet 360, the terminal block 365, the ribbon line passage 361, the detachable groove 362, the protrusion 364, the hole 324 and the female thread 325, and the hole. Diamond-shaped multi-directional fixed-tracking solar cell system street light characterized by a box cover 321 formed with a 326 and the protrusion 363 and a manufacturing method thereof The method according to claim 2 to 6,
The junction box 330 formed with a ribbon line inlet 370, a terminal block 375, a ribbon line passage 371, a detachable groove 372, a protrusion 374, a hole 334, and a female thread 335. Diamond-shaped multi-directional fixed-tracking solar cell system street light and manufacturing method characterized by a box cover 331 formed with a 336 and the protrusion 373 The method according to claim 2 to 6,
A junction box 340 formed with a ribbon wire inlet 380, a terminal block 385, a ribbon wire passage 381, a detachable groove 382, a protrusion 384, a hole 344, and a female thread 345; 346 and diamond shaped multi-directional fixed-tracking solar cell system street light characterized by a box cover 341 formed with a protrusion 383 and a method of manufacturing the same The method of claim 2,
Holes 406 are formed at upper and lower ends, and nuts 405 are attached to the holes, and lower plates having holes 407 formed at lower ends of the fixing pipes 401 to which the bolts 404 are coupled. An angle frame 403 is attached, and the side plate 402 is attached to the fixing pipe 401 and the lower plate 403 perpendicularly to each other, and holes 502 and 501 are formed at the lower side of the lower plate 403. 500 is coupled to the upper surface of the lower plate 403 and the upper surface of the angle frame 500 is formed with a protrusion 222 to the side is a flange 220, the hole 223 is formed in close contact, Side surface of the protrusion 222 and the angle frame 500 is coupled, the diamond-shaped multi-directional fixed-tracking solar cell system street light and a manufacturing method, characterized in that the flange 110 is attached to the top of the fixed pipe 401 The method of claim 2,
The locking device 68 is provided at both sides, and the locking device 68 is provided at both sides at the upper end of the battery lower enclosure 62 in which the insulating urethane foam 63 is built in the inside of the frame. The lower styrofoam insulating material 65 having the lower end of the battery upper enclosure 61 having a foam 63 built therein and having a battery storage space 66 and a storage space 67 formed at both sides in the battery lower enclosure 62. Is inserted, the diamond-shaped multi-directional fixed-tracking solar cell system street light and its manufacture, characterized in that the upper styrofoam insulation 64 is formed in the storage battery storage space and the storage space on both sides of the battery upper enclosure 61 is inserted. Way The method of claim 1,
The circular photovoltaic module 10 is composed of eight individual photovoltaic modules 11, each of which is connected to a power line from the individual photovoltaic module 11 to an energy harvesting circuit 71, and the energy harvesting circuit 71. Power line is connected to the controller 72 in the), the power line is connected to the storage battery 75 and the luminaire 20 in the controller 72 diamond-shaped multi-directional fixed-tracking solar cell system street light and The manufacturing method The method according to claim 1, wherein
The individual solar cells 12 composed of six solar cells 42 arranged in series with the ribbon lines 44 are composed of three individual solar cells 12 composed of nine solar cells 42 arranged in series with the ribbon lines 44. The battery 13 is composed of six, characterized in that the three individual solar cells 12 and the six individual solar cells 13 are arranged in series with the power line 45 is composed of the individual solar module (11). Diamond-type multi-directional fixed-tracking solar cell street light and its manufacturing method

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