KR200471112Y1 - Light Concentrating Member for Solar Cell Module - Google Patents

Abstract

A light collecting member for a solar cell module, comprising a plurality of side coupling portions, a plate, and a plurality of collecting lenses. The side coupling portion is face coupled to the side portion of the solar cell module. The plate extends from the top of the side coupling portion, is spaced a predetermined distance from the top surface of the solar cell module, and has a plurality of through holes. The condenser lens includes a lens portion protruding upward and a locking portion protruding laterally from a lower edge of the lens portion. The lens portion is inserted into the through hole of the plate and protrudes upward, and the locking portion is coupled to the lower surface of the plate.

Description

Light concentrating member for solar cell module {Light Concentrating Member for Solar Cell Module}

The present invention relates to a light collecting member for a solar cell module, and more particularly, to a light collecting member for a solar cell module having a plurality of light collecting lenses.

The solar module usually connects solar cells of a certain size (e.g. 125 mm x 125 mm) in series to form a unit solar string, which in turn connects a certain number of solar strings in series or in parallel It is connected to produce the required power.

For example, in the case of a flat panel solar cell module, the irradiated sunlight is converted into electricity by the solar cell. The electricity generated in this way is a direct current, which may be directly used or converted to AC power using an inverter.

Solar cells with an area of 125 mm x 125 mm in crystalline silicon (Si) material have an open-circuit voltage at standard conditions (air mass of 1.5, solar radiation of 1000 W / m2, solar cell surface temperature of 25 ° C). About 0.6 V, the short-circuit current is about 3-6 A, and the maximum output produces about 1.2-2.5 W depending on the efficiency of the solar cell. If the efficiency of the planar solar module is approximately 15 (± 5)%, the planar solar module with an area of 1 m 2 of solar cells will produce about 150 ± 50 W of power under standard conditions.

By the way, the solar cell which comprises a flat panel solar cell module uses silicon (Si) which is expensive material, and installation cost is quite high. Therefore, a method of reducing the unit cost of the solar cell module, reducing the use area of the solar cell for the same output, or increasing the amount of sunlight reaching the solar cell module has been devised.

As a method of increasing the density of sunlight reaching the solar cell module, there are provided a plurality of condenser lenses on top of the solar cell module. By the way, the conventional solar condensing member using a condenser lens is integrated with a solar cell module, and it is difficult to use it for other solar electronic modules.

In addition, the conventional solar light collecting member has a complicated structure and takes a lot of time to manufacture, and the manufacturing cost is also formidable.

As a result, although the solar light collecting member can increase the power output of the solar cell module by 2 to 3 times, cost recovery takes a long time, and thus the conventional solar light collecting member is not widely utilized.

The present invention is to solve the problems of the prior art,

First, it can be directly applied to a standardized and commercially available solar cell module,

Secondly, it is easy to combine with the solar cell module,

Thirdly, an object of the present invention is to provide a light collecting member for a solar cell module, which enables easy coupling of a light collecting lens in the manufacture of the light collecting member and enables low cost production.

The light collecting member for a solar cell module of the present invention for achieving the above object includes a plurality of light collecting lenses coupled to the top of the case and the case of the rectangular shape.

The rectangular case consists of four side couplings and an upper plate.

Four side couplings are face coupled to each side of the solar cell module.

The plate extends in a plane on top of the four side couplings. The plates are spaced apart from each other by a predetermined interval on the top of the solar cell module, and are configured to be parallel to the upper surface of the solar cell module. In addition, the plate is provided with a plurality of through holes to which the condenser lens can be coupled.

The condenser lens is composed of a lens portion and a locking portion, and each condenser lens is coupled to a plate. The lens portion is configured to protrude upward, and the locking portion is configured to protrude laterally along the lower edge of the lens portion. The lens unit is inserted into the through hole of the plate and protrudes upward, and the upper surface of the engaging portion is coupled to the lower surface of the plate.

In the light collecting member for a solar cell module according to the present invention, the through hole of the plate may have a stepped portion along an inner surface thereof. The engaging portion of the condenser lens is inserted and coupled to the stepped portion of the plate.

In the light collecting member for a solar cell module according to the present invention, the bottom surface of the plate and the lower surface of the light collecting lens may be further provided with a second plate to prevent the light-converging lens is separated from the bottom.

Another embodiment of the light collecting member for a solar cell module according to the present invention includes a separation preventing portion which is coupled to the engaging portion and the plate of the light collecting lens at the same time so that the light collecting lens is not separated downward. In this case, the second plate is not necessary.

Another embodiment of the light collecting member for a solar cell module according to the present invention may include a second plate having an insertion groove. The second plate has a plurality of insertion grooves that are opened upwards, and the engaging portion of the condenser lens is inserted and coupled to the insertion groove. The second plate is coupled to the lower portion of the plate on which the through-hole is formed, and prevents the lower deviation of the condenser lens.

According to the light collecting member for a solar cell module of this invention which has such a structure, it can be easily combined with the commercially available solar cell module, and can apply immediately. In addition, when manufacturing the light collecting member, it is possible to easily combine the plate and the light collecting lens to enable low-cost production.

1 is an exploded perspective view illustrating a solar cell module and a light collecting member according to the present invention.
2 shows a first embodiment of a light collecting member according to the present invention.
3 shows a second embodiment of a light collecting member according to the present invention.
4 illustrates a third embodiment of a light collecting member according to the present invention.
5 shows a fourth embodiment of a light collecting member according to the present invention.
6 shows a fifth embodiment of a light collecting member according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view illustrating a solar cell module and a light collecting member according to the present invention.

As shown in FIG. 1, the light collecting member 200 of the present invention incorporates a solar cell module 100 therein.

The solar cell module 100 is inserted and inserted below the light collecting member 200. The solar cell module 100 includes, for example, opposing upper and lower substrates, and includes a plurality of solar cells between the upper and lower substrates. The solar cells are connected in series or in parallel with a conductor ribbon and a fill is filled between the upper and lower substrates. The edge of the solar cell module 100 is sealed with a sealing material, the sealing material is surrounded by a metal sheath. The solar cell module 100 to which the light collecting member 200 of the present invention can be applied is not limited to its specific structure as long as it is standardized in a square shape.

The light collecting member 200 may include four side coupling parts S21 and S22 and two side coupling parts constituting the side of the rectangular case, a plate 221, and a plurality of light collecting lenses coupled to the plate 221. 210).

Four side coupling portions S21 and S22 and two side coupling portions are surface-coupled to each side surface S11 and S12 of the solar cell module 100 and the remaining two sides are not shown. The upper surface and side of the built-in 100. Here, the light collecting member 200 and the upper surface of the solar cell module 100 are spaced apart by a predetermined interval. The interval between the top surface of the light collecting member 200 and the solar cell module 100 may be appropriately selected in consideration of the light condensing degree, the light converging ratio and the electricity production ratio of the light condensing lens 210.

The plate 221 is coupled to the top of the four side coupling portions (S21, S22, two side coupling portions not shown), and is spaced apart from the upper portion of the solar cell module 100 by a predetermined interval. The plate 221 is configured in parallel with the upper surface of the solar cell module 100. In addition, the plate 221 may include a plurality of through holes into which the condenser lens 210 is inserted and coupled, and the through holes may be configured in an array form at regular intervals.

The condenser lens 210 may be configured as a convex lens protruding upward, and the inside thereof may be filled. The condenser lens 210 is coupled while being inserted from the bottom of the plate 221 to the top.

2 shows a first embodiment of a light collecting member according to the present invention.

As shown in FIG. 2, the side coupling parts S21 and S23 of the light collecting member 200 are surface coupled to the side surface of the solar cell module 100.

2, the light collecting member 200 includes one plate 221. The plate 221 has a plurality of through holes, and the condenser lens 210 is coupled to the through holes.

The condenser lens 210 includes a lens portion 211 and a locking portion 213. The lens portion 211 is configured as a convex lens protruding upward, and the locking portion 213 is configured to protrude laterally by a predetermined width along the lower edge of the lens portion 211.

The upper portion of the lens portion 211 is inserted into the through-hole of the plate 221 and protrudes upwardly, and the lower portion of the lens portion 211 faces the upper surface of the solar cell module 100.

The upper surface of the locking portion 213 is coupled to the lower surface of the plate 221, and the lower surface of the locking portion 213 faces the upper surface of the solar cell module 100. The upper surface of the locking portion 213 and the lower surface of the plate 221 may be bonded with an adhesive.

3 shows a second embodiment of a light collecting member according to the present invention.

In the second embodiment, unlike the plate 221 of the first embodiment, the shape of the plate 223 is configured differently.

3, the light collecting member 200 includes one plate 223, a plurality of through holes are formed in the plate 223, and the light collecting lens 210 is inserted into and fixed to each through hole. It is.

The through hole formed in the plate 223 has a step P formed along the lower edge thereof. Stepped step P may be composed of several stages, but one stage is sufficient. The height of the step P may be configured to be equal to the height of the locking portion 213 of the condensing lens 210. When the condenser lens 210 is inserted into the through hole of the plate 223, the lower surface of the condenser lens 210 and the lower surface of the plate 223 may form the same plane.

In the second embodiment, the upper surface of the locking portion 213 of the condensing lens 210 is coupled to the step surface of the step P, and the lower surface of the locking portion 213 is flush with the lower surface of the plate 223. To achieve the upper surface of the solar cell module 100. An upper surface or side surface of the locking portion 213 and the step surface of the step P may be bonded by an adhesive.

Meanwhile, in FIG. 3, the stepped P is configured in a stepped shape, but may be configured in a circle, an ellipse, a polygon, and the like.

4 illustrates a third embodiment of a light collecting member according to the present invention.

Unlike the second embodiment, the third embodiment further includes a second plate 231 under the plate 223.

4, the light collecting member 200 includes a plate 223, a plurality of through holes are formed in the plate 223, and a light collecting lens 210 is inserted into and fixed to each through hole. have. Each through-hole has a step P formed along a lower edge, and the step P has a height equal to that of the locking portion 213 of the condensing lens 210.

The second plate 231 is coupled to the bottom surface of the condenser lens 210 and the bottom surface of the plate 223. An adhesive may be coupled between the lower surface of the plate 223 and the upper surface of the second plate 231 through an adhesive. In this case, an adhesive may not be used between the upper surface or the side surface of the locking portion 213 of the condenser lens 210 and the step surface of the step P.

5 shows a fourth embodiment of a light collecting member according to the present invention.

The fourth embodiment is a modification of the first embodiment, and further includes a second plate 233 under the plate 221 in the first embodiment.

5, the light collecting member 200 includes a plate 221, a plurality of through holes are formed in the plate 221, and a light collecting lens 210 is inserted into each through hole. A locking portion 213 of the condenser lens 210 inserted into the through hole protrudes downward from the lower surface of the plate 221.

The second plate 233 has a plurality of insertion grooves R having a size corresponding to the size of the locking portion 213 protruding downward, the locking portion 213 is inserted and fixed to the insertion groove (R). The second plate 233 is surface-coupled to the bottom surface of the condenser lens 210 and the bottom surface of the plate 221.

An adhesive may be interposed between the lower surface of the plate 221 and the upper surface of the second plate 233. In this case, an adhesive may not be used for the condensing lens 210 and the plate 221 or the coupling surface of the condensing lens 210 and the second plate 233.

6 shows a fifth embodiment of a light collecting member according to the present invention.

The fifth embodiment is another modification of the first embodiment, and further includes a separation preventing coupling ring 240 in the lower portion of the plate 221 in the first embodiment.

6, the light collecting member 200 includes a plate 221, a plurality of through holes are formed in the plate 221, and a light collecting lens 210 is inserted into each through hole. A locking portion 213 of the condenser lens 210 inserted into the through hole protrudes below the plate 221.

One side of the coupling ring 240 is coupled to the bottom surface of the plate 221 and the other side is coupled to a portion of the bottom surface of the locking portion 213 of the condensing lens 210.

The coupling ring 240 and the plate 221 are coupled with an adhesive, but the coupling ring 240 and the locking portion 213 may not be bonded with an adhesive. In this case, the condenser lens 210 may rotate in the coupling ring 240.

Although the present invention has been described based on the embodiments, it is intended to illustrate the present invention and not limit the present invention. Those skilled in the art will appreciate that various modifications and changes may be made based on the embodiments described above. Accordingly, the scope of the present invention should be determined by the following claims, and such variations and modifications may be deemed to be within the scope of the present invention.

100: solar cell module 200: light collecting member
210: condenser lens 213: locking portion
223. 223: Plate 231, 233: Second plate
P: Step R: Insertion groove
240: coupling ring

Claims (5)

In the light collecting member for solar cell modules,
A plurality of side coupling parts coupled to side surfaces of the solar cell module;
A plate extending from an upper end of the side coupling part, spaced apart from the upper surface of the solar cell module by a predetermined interval, and having a plurality of through holes;
And a latch portion protruding laterally from a lower edge of the lens portion protruding upward, wherein the lens portion is inserted into the through hole of the plate and protrudes upward, and the latch portion is coupled to the lower surface of the plate. A light collecting member for a solar cell module, comprising a plurality of light collecting lenses. The method of claim 1,
The through hole of the plate has a step formed along the inner surface,
The light collecting member for the solar cell module, characterized in that the engaging portion of the condenser lens is coupled to the step of the through hole. 3. The method of claim 2,
And a second plate coupled to a lower surface of the plate and a lower surface of the condensing lens and preventing a lower detachment of the condensing lens. The method of claim 1,
The light collecting member for solar cell module, characterized in that it is coupled to the engaging portion and the plate of the condensing lens, to prevent the separation of the lower portion of the condensing lens. The method of claim 1,
A light collecting member for a solar cell module, comprising: a second plate having a plurality of insertion grooves on the upper surface into which the engaging portion of the condenser lens is inserted; .

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