KR101373629B1 - Concentrating photovoltaic module panel having stiffness and concentraing photovoltaic system including the same - Google Patents

Abstract

The present invention relates to a light condensing solar cell module panel and a light condensing photovoltaic power generation system having the same and, specifically, to a light condensing solar cell module panel which has stiffness in itself and can be easily manufactured and assembled, and to a light condensing photovoltaic power generation system having the same to minimize a frame structure for maintaining the stiffness and to simplify the entire constitution. The light condensing solar cell module panel according to the present invention comprises: a frame consisting of a side plate and a lower plate; carriers which have solar cells and are mounted at regular intervals in the upper part of the lower plate; and a lens plate which is installed in the upper part of the frame to condense incident light to each solar cell, wherein the side plate includes a horizontal plate and a vertical plate longer than the horizontal plate, and the vertical plate has a plurality of ribs to improve stiffness. Therefore, the light condensing solar cell module panel according to the present invention has the ribs on the vertical plate which has a long length to form the side plate of the frame, thereby having the stiffness in itself and minimizing a separately necessary support structure.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a condensing type solar cell module panel having rigidity, and a condensing type solar cell power generation system having the same. [0002]

The present invention relates to a light concentrating solar cell module panel and a light concentrating solar power generation system including the same, and specifically, a light concentrating solar cell module panel having stiffness and easy to manufacture and assemble, and having rigidity therewith. It relates to a condensing photovoltaic power generation system that can simplify the overall configuration by minimizing the frame structure for maintenance.

Recently, photovoltaic (PV) devices using solar light have been widely used. In particular, photovoltaic devices using silicon solar cells are mainly used.

However, due to the breakthrough of high efficiency III-V compound semiconductor solar cell (multi-junction solar cell), it has been concluded that a multi-junction solar cell uses a low-cost condensing device to concentrate solar light (Concetrating Photovoltaic, CPV) devices have been actively studied.

Multi-junction solar cells have a higher energy conversion efficiency than silicon solar cells. In general, multi-junction solar cells have more than 35% energy efficiency, while silicon solar cells have about 20% efficiency Respectively. Particularly under concentration, some multi-junction solar cells currently have an energy efficiency of more than 40%.

The condensing solar cell module using the multi-junction solar cell includes a solar cell, a primary lens for condensing sunlight primarily, and a secondary lens for condensing light condensed from the primary lens to the solar cell. The solar cell is mounted on a cell mount such as a circuit board or a receiver as disclosed in Korean Patent Laid-Open No. 10-2010-0135200.

In addition, the condensing photovoltaic power generation system is composed of a plurality of condensing photovoltaic modules in an array form on the support frame, so that the solar cell module is orthogonal to the sun to improve the efficiency of the multi-junction solar cells. A tracking device for rotating the solar cell module array is provided.

An example of such a light-collecting type solar power generation system is disclosed in Korean Patent No. 10-1003539 (hereinafter referred to as "prior art"), which discloses a "ground solar cell array".

1 and 2, the prior art photovoltaic power generation system according to the prior art includes a central support body 1, a support frame 2, (2), a plurality of solar cell subarrays or panels (3), actuators for rotating the central support (1) and the support frame (2) so as to keep the solar cell array orthogonal to the sunlight, The panel 3 is constituted by laminating the module 4.

2, it is not easy to manufacture and assemble the sub-array or panel 3 in that the sub-array or panel 3 is constructed by stacking a plurality of modules 4, The module 5 located outside the plurality of modules 4 on the basis of the support frame 2 may be deflected due to the weight of the module 5 itself. As a result, the support frame 2 There is a problem that the module 5 is not perpendicular to the sunlight.

In order to solve such a problem, although not described in the prior art, a sub-array or panel 3 formed by stacking a plurality of modules 4 is provided with a module 5 located outside the support frame 2 The supporting frame 2 supporting the horizontally continuous panel 3 also has a problem that the rigidity of the panel 3 is not sufficient, There arises a problem that the structure must be complicated for maintenance. The overall structure of the light-collecting solar power generation system becomes complicated and the weight of the actuator to be driven increases due to an increase in the overall weight. Therefore, a problem that the manufacturing cost is increased due to the use of a larger capacity actuator .

SUMMARY OF THE INVENTION The present invention provides a light collecting type solar cell module panel which has stiffness and is easy to manufacture and assemble itself.

Further, the present invention provides a condensing type solar cell power generation system that has a condensing type solar cell module panel having its own rigidity, and can minimize the frame structure supporting the panel to simplify the overall configuration.

Condensing solar cell module panel according to the present invention comprises a frame consisting of a side plate and a lower plate; A carrier having a solar cell and a predetermined distance above the lower plate; And a lens plate provided at an upper portion of the frame to focus incident light to the respective solar cells, wherein the side plate includes a horizontal plate and a vertical plate longer than the horizontal plate. Multiple ribs can be protruded to improve stiffness.

Accordingly, the light concentrating solar cell module panel according to the present invention may have rigidity by itself by forming a plurality of ribs on a vertical plate having a long length forming the side surface of the frame, thereby minimizing a separately required supporting structure.

Preferably, the rib is at least one of a heat dissipating rib protruding on the outer surface of the vertical plate, a reflective rib protruding on the lower inner side of the vertical plate and a support rib protruding on the inner surface of the vertical plate. It may include.

On the other hand, the condensing photovoltaic device according to the present invention is a condensing photovoltaic system including a condensing photovoltaic module panel having a stiffness, the condensing photovoltaic module panel having a stiffness A condensing photovoltaic power generation system comprising: a support member; A support frame rotatably supported on the support member; A solar cell module panel which is made long in the longitudinal direction and has stiffness by itself and is arranged in one direction and supported by the support member; A bracket for fixing the solar cell module panel to the support frame; And a tracking device for rotating the support frame to keep the solar cell module panel orthogonal to the sunlight from the sun, wherein the solar cell module panel comprises: a frame comprising a side plate and a lower plate; A solar cell is provided, and a carrier provided at predetermined intervals on the lower plate; And a lens plate provided at an upper portion of the frame to focus incident light to the respective solar cells, wherein the side plate includes a horizontal plate and a vertical plate longer than the horizontal plate. Multiple ribs can be protruded to improve stiffness.

Preferably, the bracket is provided with a support frame coupling portion formed on one side, and a panel coupling portion formed on the other side, the coupling rib groove is formed, the rib is formed to protrude on the outer surface of the vertical plate the coupling rib groove is It may include a coupling rib fitted to engage.

The rib may include at least one of heat dissipation ribs protruding from the outer side of the vertical plate, reflective ribs protruding from the lower side of the inner side of the vertical plate, and support ribs protruding from the inner side of the vertical plate. It may include.

The light-condensing solar cell module panel according to the present invention having the above-described structure is long in the longitudinal direction (or longitudinal direction), and a plurality of light-collecting solar cell modules are integrally formed in one frame having its own stiffness So that the sagging phenomenon can be prevented while the overall structure is simplified.

In addition, the light concentrating solar cell module panel according to the present invention can be manufactured integrally by extrusion molding the side plate and the bottom plate of the frame having a structure having a stiffness, the side produced integrally by extrusion molding There is an effect that the plate and the lower plate can be easily and simply assembled.

Further, the light-condensing solar power generation system according to the present invention includes the light-gathering solar cell module panel having its own rigidity, so that the support frame structure for supporting the panel can be minimized, so that the overall configuration can be simplified .

In addition, the light concentrating photovoltaic system according to the present invention can easily fix the light concentrating solar cell module panel having rigidity by being coupled to the support frame by a bracket, so that the overall assembly can be easily and simply made. have.

FIG. 1 and FIG. 2 are views showing a condensing type solar power generation system according to the prior art,
3 is a perspective view illustrating a light collecting type solar cell module panel according to an embodiment of the present invention,
FIG. 4 is a vertical cross-sectional view of the condensing type solar cell module panel according to FIG. 3,
FIG. 5 is an exploded perspective view for explaining the combination of the lower plate and the vertical plate of the condensing type solar cell module panel according to FIG. 3,
FIG. 6 is a partial cross-sectional view of a lower plate of the condensing type solar cell module panel according to FIG. 3,
FIG. 7 is a perspective view showing a fragmented lower plate constituting a lower plate,
8 is a perspective view showing a carrier frame,
9 is a partial cross-sectional view of a bottom plate showing a light-collecting type solar cell module panel including a secondary optical component,
10 is a partial vertical cross-sectional view in the horizontal direction of a light collecting solar cell module panel according to another embodiment of the present invention;
FIG. 11 is a partial vertical cross-sectional view in the vertical direction of the light collecting solar cell module panel of FIG. 10.
FIG. 12 is a view schematically illustrating a state in which carriers are arranged on a lower plate of the light collecting solar cell module panel of FIG. 10.
FIG. 13 is an enlarged view of a portion 'A' of FIG. 11;
14 is a view schematically showing a light collecting solar power system according to an embodiment of the present invention,
15 is a cross-sectional view schematically showing a state in which the light collecting solar cell module panel of FIG. 14 is fixed to a support frame by a bracket;
FIG. 16 is a perspective view illustrating a light collecting solar cell module panel of FIG. 14.
FIG. 17 is a cross-sectional view schematically illustrating a light collecting solar cell module panel fixed to a support frame by a bracket according to another embodiment.

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

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. Rather, the intention is not to limit the invention to the particular forms disclosed, but rather, the invention includes all modifications, equivalents and substitutions that are consistent with the spirit of the invention as defined by the claims.

Also, in the accompanying drawings, thickness and size are exaggerated for clarity of description, and thus the present invention is not limited by the relative size or thickness shown in the attached drawings.

Meanwhile, in this specification, relative terms such as 'vertical direction' and 'horizontal direction' can be used to describe the relationship between the structures on the basis of the directions shown in the drawings, and the present invention is not limited to such terms.

The present invention relates to a light collecting type solar cell module panel having stiffness but easy to manufacture and assemble. The light collecting type solar cell module panel according to the present invention comprises a single long frame (or longitudinal direction) A plurality of condensing type solar cell modules may be defined as an integrated panel or may be defined as a very large type condensing type solar cell module which is elongated in the longitudinal direction or may be defined by a tracking device so as to be orthogonal to the sun ray Or may be defined as a panel having a plurality of solar cells arranged in the horizontal direction and the vertical direction in one space formed by one frame made long in the longitudinal direction . Hereinafter, various embodiments of such a panel will be described in detail with reference to the drawings.

FIG. 3 is a perspective view showing a light collecting type solar cell module panel according to a first embodiment of the present invention, FIG. 4 is a vertical cross-sectional view of the light collecting type solar cell module panel according to FIG. Fig. 6 is an exploded perspective view for explaining joining of the vertical plates.

3 to 5, a condensing type solar cell module panel 10 according to a first embodiment of the present invention includes a frame 12, a carrier 12 having a solar cell 11, And a lens plate (20).

The frame is formed to be long in the longitudinal direction (or longitudinal direction) and has a stiffness by itself, and may be formed in a shape of a lower plate 30 and a side plate and opened upward. The side plate may include a transverse plate 25 that is shorter in the transverse direction and a transverse plate 50 that is longer than the transverse plate 25 in the transverse direction.

A high efficiency III-V compound semiconductor multi-junction solar cell may be used as the solar cell 11 to convert solar energy into electric energy. The carrier 12 may include other components And may be a receiver commonly used in the art to which the present invention belongs. That is, in the present invention, the carrier 12 has a configuration in which the solar cell 11 is provided on a circuit board, and the embodiments can be configured in various forms and used as terms covering the receiver. A plurality of the carriers 12 are provided at predetermined intervals in the lower plate 30 and the carrier 12 is provided with a connector and these connectors are electrically connected in parallel or in series by wires 13 , The plurality of carriers 12 may be connected to each other. .

The lens plate 20 is provided on the upper part of the frame to condense the sunlight incident on the solar cell 11 and collects sunlight incident on the lens plate 20 into a plurality of solar cells 11 A plurality of pattern units 22 may be provided, and the pattern units 22 may be provided in the form of a Fresnel lens. That is, the lens plate 20 may be provided in a form in which a plurality of Fresnel lens patterns are formed on a plate.

The lens plate 20 may be formed of a single plate having a plurality of Fresnel lens patterns. However, the lens plate 20 may include a plurality of piece lens plates, desirable.

Meanwhile, the light collecting type solar cell module panel 10 according to the present invention includes a plurality of light collecting type solar cell modules integrally provided in one frame having its own rigidity to prevent sagging, The frame according to the present invention is long in the longitudinal direction (or longitudinal direction) and has a rigidity. Hereinafter, the structure of such a frame will be described in detail.

The frame may be composed of a lower plate 30 and a side plate. The side plate may include a transverse plate 25 that is shorter in the transverse direction and a longitudinal plate 50 that is longer than the transverse plate 25 in the transverse direction.

In addition, a plurality of ribs may be formed on the vertical plate 50, which is elongated in the longitudinal direction so as to have stiffness itself, while increasing the rigidity of the frame.

As shown in the drawing, the plurality of ribs may include a heat radiating rib 51 protruding from the outer surface of the vertical plate 50 at a predetermined interval. When a plurality of heat dissipating ribs 51 protrude from the outer surface of the vertical plate 50 as described above, not only the rigidity of the heat dissipating ribs 51 themselves can be improved but also the area of contact with the outside is widened by the plurality of heat dissipating ribs 51 The heat generated in the closed frame and transferred to the vertical plate 50 can be more smoothly conducted to the outside and discharged.

In general, the enclosed interior of the concentrating solar cell module 10 has a very high temperature due to the greenhouse effect, and the highly efficient III-V compound semiconductor mainly used as the solar cell 11 in the condensing solar cell module. Multi-junction solar cell (multi-junction solar cell) has a problem that the efficiency is sharply lowered as the temperature is increased, as in the light concentrating solar cell module panel 10 according to the present invention, the vertical plate 50 Forming a plurality of heat dissipation ribs 51 on the outer surface is preferable because it can improve its rigidity and effectively dissipate heat inside the sealed frame to improve the efficiency of the solar cell 11.

A plurality of ribs may be formed on the outer surface of the transverse plate 25 in the same manner as the transverse plate 50. Although the transverse plate 25 has two transverse plates 25 at both ends of the frame, However, the present invention is not limited thereto, and a lateral plate 25 may be further provided in the middle to improve the rigidity of the frame.

The vertical plate 50 may be provided with a step portion 53 formed on the inner surface of the upper end to hook the lens plate 20 and a coupling portion 54 formed on the inner surface of the lower end to engage with the lower plate 30 And the step portion 53 and the engaging portion 54 may be formed in a stepped shape.

The vertical plate 50 may be provided at its lower portion with a coupling hole 56 for screw connection with the lower plate 30. A sealing groove 55 filled with a sealing material such as silicone is formed in the coupling portion 54 The vertical plate 50 can be screwed to the lower plate 30 in a state that the sealing groove 55 is filled with the sealing material. Then, the inside of the frame can be further sealed, which is preferable.

The vertical plate 50 preferably has a heat radiating rib 51, a step portion 53, an engaging portion 54, and a sealing groove 55 which are elongated in a longitudinal direction with a certain cross section and are integrally manufactured by extrusion molding Do. Then, the vertical plate 50 having the above-mentioned cross section can be integrally manufactured by extrusion molding, and the frame can be assembled, so that the manufacture and assembly can be easily performed.

On the other hand, the frame is elongated in the longitudinal direction, preferably the length in the longitudinal direction is about 3 to 10 times longer than the length in the transverse direction, and the height is about 1/20 to 1/10 times As shown in FIG. That is, the length L1 of the vertical plate 50 may be approximately 5 to 10 times longer than the length L2 of the horizontal plate 25, and the height H of the vertical plate 50 may be the length L1 The length may be about 1/20 to 1/10 times longer than the length.

Here, the height of the frame, that is, the height H of the vertical plate 50 is the distance between the lens plate 20 and the solar cell 11. The distance is set to one pattern portion 22 provided on the lens plate 20, And the size of the solar cell 11, the height of the frame can be appropriately changed according to the size of the vertical plate 50 which can be manufactured by extrusion molding.

Actually, the height of the vertical plate 50, which can be integrally manufactured by the present extrusion molding, is approximately 25 to 50 cm and the length is approximately 4 to 6 m. Therefore, when considering the manufacturing and stiffness of the frame, The height of the longitudinal plate 50 is preferably about 4 to 6 m and the height is about 25 to 50 cm so that the length of the transverse plate 25 is about 1 to 1.2 m ≪ / RTI > When the frame is of such a size, it is possible to have a configuration in which approximately 20 transverse arrays in which approximately six carriers 12 in the transverse direction are arranged are arranged in the longitudinal direction, so that a total of approximately 120 solar cells 11 can be provided. However, the present invention is not limited thereto, and it goes without saying that the sizes of the frame and the vertical plate 50 can be changed according to the design purpose or the development of the extrusion molding technique.

The lower plate 30, the vertical plate 50, and the horizontal plate 25 constituting the frame are preferably made of an aluminum material having a light weight, a high rigidity and a high thermal conductivity. However, the present invention is not limited thereto.

The lower plate 30 may be composed of a plurality of piece lower plates 31 having a predetermined width in the longitudinal direction and arranged in the longitudinal direction to couple with each other, And may have a length corresponding to the length of the transverse plate 25.

FIG. 6 is a partial cross-sectional view of a lower plate of the light-convergence type solar cell module panel according to FIG. 3, FIG. 7 is a perspective view showing a piece lower plate constituting a lower plate, and FIG. 8 is a perspective view showing a carrier frame.

6 to 8, a radiating rib 33 protruding from the lower part of the engraved lower plate 31 and a fastening part 35 protruding from the upper part and screwed to the vertical plate 50 are formed The engaging rib 34 may be provided.

The rigidity can be improved by the heat radiating rib 33 and the engaging rib 34 and the area in contact with the outside by the heat radiating rib 33 is widened so as to be generated inside the closed frame The heat transferred to the engraved lower plate 31 can be smoothly discharged to the outside and discharged. In addition, by forming the fastening portion 35 for screwing the vertical plate 50 to the coupling rib 34, the fastening portion 35 can be easily formed on the lower plate 31 made of a thin plate.

The light collecting type solar cell module panel 10 according to an embodiment of the present invention includes a carrier frame 60 (hereinafter, referred to as a " carrier ") 60 having a long length in a lateral direction so as to fix at least two carriers 12 among a plurality of carriers 12 arranged in a transverse direction. ). ≪ / RTI >

The carrier frame 60 may be formed of two or more parts of which a plurality of carriers 12 arranged in the horizontal direction are fixed, but as shown in FIG. 8, all of the plurality of carriers 12 arranged in the horizontal direction It may be made to be fixed to one carrier frame 60.

A carrier frame 60 is mounted on the upper part of the engaging lower plate 31 and a carrier frame 60 formed on both sides of the seating groove 36 and seated in the seating groove 36, Groove 37 for inserting the fastening member 15 for fixing the plate 31 to the upper side can be provided.

The carrier frame 60 is provided with a seating portion 61 that is seated in the seating groove 36 and a wing portion 62 that extends outward from the seating portion 61 to cover the T- The fastening member hole 63 for fastening the fastening member 15 inserted in the T-groove 37 may be formed in the fastening member 62. For example, when the fastening member 15 is a bolt or a T-bolt, the bolt or the T-bolt is inserted into the fastening member hole 63 and fastened with another nut to fix the carrier frame 60 When the fastening member 15 is a nut or a T-nut, another bolt may be inserted into the fastening member hole 63 and fastened with the nut or T-nut to fix the carrier frame 60.

As described above, a plurality of carriers 12 arranged in the transverse direction are further fixed to the carrier frame 60 by further including the carrier frame 60 extending in the transverse direction, If the structure for fixing the frame 60 is provided, only the carrier frame 60 needs to be fixed without separately fixing the plurality of the carriers 12, so that the whole assembly can be easily performed.

The engaging portions 38 for engaging with other adjoining engraved lower plates 31 are formed on both side portions of the engraved lower plate 31 and the engaging portions 38 are formed with sealing grooves 39 filled with the sealing material . In this case, the plurality of pieces of the lower plate 31 can be assembled by assembling the sealing grooves 39 with the sealing material filled therein, thereby further sealing the inside of the frame.

The engaging portion 38 and the sealing groove 39 of the engaging ribs 33, the fitting ribs 34, the seating grooves 36, the T-grooves 37, the sealing grooves 39, Direction and is integrally produced by extrusion molding. Then, the piece lower plate 31 having the above-mentioned cross section is integrally manufactured by extrusion molding, and then the frame is assembled by cutting the required length, so that it is easy to manufacture and assemble.

The light condensing type solar cell module panel 10 according to the present invention may have a cross sectional shape as described above in the structure of the lower plate 30 in the lateral direction and the vertical plate 50 in the vertical direction, The longitudinal plate 50 can be easily assembled and assembled. Further, the vertical plate of the lower plate 30 is formed to have a constant vertical cross section and the vertical plate of the vertical plate 50 must have a constant vertical cross- Which is preferable in terms of production. However, since the size of the plate can be manufactured integrally at one time by the extrusion molding as described above, the light condensing type solar cell module panel 10 according to the present invention has the vertical plate 50 for improving the stiffness And the lower plate 30 is formed in a shape in which the plurality of pieces of the lower plate 31 having the width capable of being extruded are arranged in the longitudinal direction so as to be combined with each other, So that it can be easily carried out. In this case, the lower plate 30 may be formed integrally in a long length by extrusion molding, and then cut to a required length to form the piece plate 31, which is convenient.

On the other hand, as shown in Figure 9, the light collecting solar cell module panel 10 according to the present invention is provided between the lens plate 20 and the solar cell 11 in the pattern portion 22 of the lens plate 20 It may further include a secondary optical component 16 for secondary condensing the collected light into the solar cell 11. The secondary optical component 16 may be in the form of a lens or in the form of a reflective coated reflector, and the present invention is not limited by the specific form of the secondary optical component 16. .

Hereinafter, a light collecting solar cell module panel according to another embodiment of the present invention will be described in detail with reference to the accompanying drawings. For the convenience of description, the same reference numerals are used for the same components as those of the panel 10 according to the above-described embodiment, and the detailed description thereof uses the detailed description of the above-described embodiment.

10 is a partial vertical cross-sectional view in the horizontal direction of the light collecting solar cell module panel according to another embodiment of the present invention, FIG. 11 is a partial vertical cross-sectional view in the vertical direction of the light collecting solar cell module panel of FIG. 10, and FIG. 12. 10 is a view schematically illustrating a state in which carriers are arranged on a lower plate of the light collecting solar cell module panel of FIG. 10, and FIG. 13 is an enlarged view of a portion 'A' of FIG. 11.

10 to 13, the light collecting solar cell module panel 70 according to the present embodiment is provided with a frame including a side plate and a lower plate 30, a solar cell 11, and a lower plate. 30 includes a carrier 12 provided at a predetermined interval on an upper portion thereof, and a lens plate 20 provided at an upper portion of the frame to collect incident sunlight into the solar cell 11.

The side plate is made up of a horizontal plate 25 and a vertical plate 50, the lens plate 20 may be composed of a plurality of lens plate plate 21 arranged on the upper portion of the frame, the lower plate 30 is vertical It may be composed of a plurality of lower plate 31 having a predetermined width and arranged in the longitudinal direction to combine.

In addition, the light concentrating solar cell module panel 70 according to the present embodiment has a carrier frame 60 in which a plurality of carriers 12 arranged in a horizontal direction are fixed, and a plurality of carriers 12 are connected in parallel or in series. A secondary lens provided between a wire 13, the lens plate 20, and the solar cell 11 to collect the light collected in the lens plate 20 secondaryly by the solar cell 11. , SOE) 16.

In addition, the light collecting solar cell module panel 70 according to the present embodiment includes a wire cover 74 covering the wire 13, a support 80 supporting the engraving lens plate 21, and a support 80. It may further comprise an elastic member 90 for fixing the lens plate 21 supported on the support to the support 80.

A plurality of ribs are formed in the vertical plate 50 to improve rigidity, and among the plurality of ribs, protrude at predetermined intervals on the outer surface of the vertical plate 50 to improve rigidity and increase the contact area with the outside. The heat dissipation rib 51 may be included to improve the heat dissipation effect. The heat dissipation rib 51 may also include a heat dissipation rib 51 that protrudes from the lower side of the inner surface of the vertical plate 50 to improve rigidity, and at the same time, the solar light offset by the lens plate 20 (upset). Reflective ribs 71 reflecting S) may be included.

The reflective ribs 71 are intended to solve the problem caused by the offset sunlight S, which is not eccentrically incident on the solar cell 11 from the lens plate 20, but is offset. The light S is incident on the parts provided around the carrier 12 of the lower plate 30 to damage the parts. The reflective ribs 71 protrude in the inner direction below the inner surface of the vertical plate 50 in a long direction. The formed solar light S is reflected to prevent the offset solar light S from entering the component.

Offset sunlight S may occur when sunlight does not enter the lens plate 20 vertically, and the main component that may be damaged by the offset sunlight S may include a plurality of carriers. 12 may be a wire 13 electrically connecting the 12. In particular, as in the light concentrating solar cell module panels 10 and 70 according to the present invention, a plurality of carriers 12 are arranged in a horizontal direction to form an array, and such an array is arranged in a vertical direction to form another array. Since the structure is provided with a plurality of wires 13 for connecting the plurality of carriers 12 in parallel or in series, it is necessary to prevent such a plurality of wires 13 from being damaged by the offset sunlight S. In addition, the solar cell module panel 70 according to the present embodiment can solve this problem by having the reflective ribs 71 protruding in the inner direction on the lower inner surface of the vertical plate 50.

12, the carrier 12 includes a horizontal array 122 in which a plurality of carriers 12 are arranged in a horizontal direction, and a vertical direction in which a plurality of horizontal arrays 122 are arranged in a vertical direction. It is provided in the form of an array 124, the plurality of carriers 12 are connected to each other by a wire (13).

For example, the plurality of carriers 12 forming the transverse array 122 may be connected by transverse transverse wires 132, and the transverse transverse arrays 124 may be connected by any one transverse transverse Can be connected by a vertical connecting wire 132 connecting the carrier 12 located at the end of the direction array 122 and the carrier 12 located at the end of the other one of the adjacent transverse arrays 122 adjacent to each other. In this case, the horizontal connecting wire 132 may be protected by a wire cover 74, but the vertical connecting wire 132 is located at one end of the panel 70, so that the wire cover 74 is assembled. ) Is difficult to combine and thus a separate protection method for protecting the vertical connection wires 132 is required, and the panel 70 according to the present embodiment has a long reflection on the inner bottom of the vertical plate 50. By forming the ribs 71, the rigidity of the vertical plate 50 is improved and the vertical connection wires 132 are protected.

The reflective ribs 71 are preferably formed long in the vertical direction so that the vertical plate 50 can be integrally formed by extrusion molding similarly to the heat dissipation ribs 51, and the vertical cross section is uniformly formed.

The carrier frame 60 is for facilitating the engagement of the plurality of carriers 12 arranged in the transverse direction with the lower plate 30. The carrier frame 60 may have various shapes, And a heat pipe frame (not shown) capable of dissipating generated heat may be formed in the form of a heat pipe frame having a built-in heat pipe therein.

Meanwhile, the lens plate 20 may include a plurality of piece lens plates 21 having a plurality of pattern portions 22 and arranged on an upper portion of the frame. In this case, the plurality of piece lens plates 21 may be supported by the support 80. And fixed to the frame by the elastic member 90.

The support 80 has a length approximately corresponding to the length of the horizontal plate 25, may be arranged at a predetermined interval in the vertical direction, the support ribs 72 protruding on the inner surface of the vertical plate 50 Can be supported by.

That is, the plurality of ribs for improving the rigidity formed in the vertical plate 50 is formed to protrude on the inner surface of the vertical plate 50 to improve the rigidity and at the same time support ribs 72 for supporting the support 80 ) May be further included.

The support ribs 72 are preferably formed long in the vertical direction so that the vertical plate 50 may be integrally formed by extrusion molding similarly to the heat dissipation rib 51 and the reflective ribs 71, and the vertical cross section may be uniformly formed.

Hereinafter, a structure in which the fragment lens plate 21 is fixed to the upper portion of the frame by the support 80 and the elastic member 90 will be described in detail with reference to FIG. 13.

The support 80 is formed by a support rib 72 formed in an upper portion of the vertical plate 50 facing each other by being formed in the longitudinal direction, that is, the horizontal direction. The support 80 is formed with a fastening portion 82 for screwing the vertical plate 50 and the upper end of the support 80, the locking portion 23 formed on one end of the piece lens plate 21 is caught The jaw 83 can be formed. In addition, the support 80 may be further formed with a coupling groove 84 to which the elastic member 90 for fixing the piece lens plate 21 is coupled. The support 80 is preferably made of a constant vertical cross section in the transverse direction so that it can be manufactured integrally by extrusion molding.

The elastic member 90 has a bent portion 91 that is engaged by the coupling groove 84 in the lower portion, a length portion 92 extending upwardly to have elasticity from the bent portion 91, and the length portion 92 A fixed end 92 may be formed to be bent from the end to fix the piece lens plate 21 supported on the support 80.

Therefore, the support 80 may be coupled to the vertical plate 50 by screwing in a state where it is mounted on the support rib 72, and the lens lens plate 21 has a locking portion 23 to catch the support 80. It can be fixed by using the elastic member 90 in a state of being supported by the jaw 83.

In addition, when any one piece of lens plate 21 is fixed to the upper portion of the frame as described above, the other one piece of lens plate 21 adjacent to one side of the support for supporting any one of the piece lens plate 21 The elastic member similarly in a state in which the locking portion 23 formed on the other side in the state supported by the 80 is caught by the locking jaw 83 of the other support 80 installed to be spaced apart from the support 80 by a predetermined distance. It can be fixed using (90). In addition, the inner space of the frame can be sealed by sealing the sealing member 24 such as silicon in the space between the piece lens plates 21.

A coupling rib 26 for screwing the vertical plate 50 may be protruded on the inner surface or the outer surface of the horizontal plate 25, and the filter member 28 is provided on the outside of the horizontal plate 25. The ventilation part 27 forming the space may be protruded.

The coupling rib 26 improves the rigidity of the horizontal plate 25 and at the same time facilitates screwing with the vertical plate 50, and the ventilation part 27 is a passage for discharging air in the sealed frame to the outside. As an example, two side portions 272 extending outwardly from the outer surface 252 of the horizontal plate 25 and two side portions 272 are connected to the filter member 28 between the outer surface 252. It may be made of a front portion 274 to form a space provided.

In addition, the ventilation unit 27 may be formed integrally with the horizontal plate 25, preferably the coupling rib 26 and the ventilation unit 27 so that the horizontal plate 25 may be integrally formed by extrusion molding. It may be made long in the horizontal direction in a constant vertical section.

In general, in the case of the condensing solar cell module, a separate ventilation device is installed to discharge the air inside the sealed interior to the outside. There is a problem that a separate manufacturing process is required to install the ventilation device.

Panel 70 according to the present embodiment is to be provided integrally to the horizontal plate 25 when manufacturing the horizontal plate 25 without the need to separately install such a ventilator, and also integrated the horizontal plate 25 by extrusion molding Ventilation portion 27 is formed to be long in the horizontal direction in a predetermined cross-section so as to be manufactured.

In addition, although not shown in the drawing, in order to allow the air inside the frame to communicate with the ventilator 27, a vent hole (not shown) is formed on the outer surface 252 of the horizontal plate 25, which ventilator is horizontal After the plate 25 is manufactured by extrusion molding, it may be formed in the form of a hole in a separate process, or the ventilation hole may be formed at the same time when the horizontal plate 25 is formed by extrusion molding in a cross section in a constant cross section. It may be made long.

Accordingly, although not shown in the drawing, openings in front and rear of the ventilation unit 27 in the drawing are blocked by the filter member 28 provided in the space, and the air inside the frame is vented through the ventilation hole 27. After being introduced into it, it can be discharged to the outside through the filter member 28.

FIG. 14 is a view schematically showing a condensing photovoltaic power generation system according to an embodiment of the present invention, and FIG. 15 schematically shows a condensing photovoltaic module panel according to FIG. 14 fixed to a support frame by a bracket. 16 is a perspective view illustrating a light collecting solar cell module panel of FIG. 14, and FIG. 17 schematically shows a state in which a light collecting solar cell module panel is fixed to a support frame by a bracket. It is a cross section.

14 to 17, the condensing photovoltaic power generation system 100 according to the embodiment of the present invention includes a support frame 102 rotatably supported by the support member 101, the support member 101, A plurality of solar cell module panels 10 arranged in one direction and supported by the support frame 102, the bracket 110 for fixing the solar cell module panel 10 to the support frame 102 and the sun from the sun It may include a tracking device for rotating the support frame 102 to keep the solar cell module panel 10 perpendicular to the light beam.

The solar cell module panels 10 and 70 are elongated in the longitudinal direction and are provided to have stiffness by themselves, and reference numerals and detailed descriptions of specific configurations of the solar cell module panels 10 and 70 are described above. Reference numerals and details in the examples are used.

The bracket 110 is to couple and fix each of the plurality of solar cell panel panels 10 and 70 arranged in one direction to the support frame 102 provided in a direction perpendicular to the arrangement direction. ) Is formed on one side and the support frame coupling portion 112 is coupled to the support frame 102, and formed on the other side, for example, formed perpendicular to the support frame coupling portion 112, the solar cell module panel 10 The panel coupling unit 114 may be provided to couple to the panel coupling unit 114. Here, the support frame coupling portion 112 and the panel coupling portion 114 may be provided to be fixed to the support frame 102 and the panel 10 by a separate fastening member, respectively, the present invention is a specific configuration It is not limited by.

Preferably, the coupling plate 52 is coupled to the bracket 110 is formed in the vertical plate 50, the coupling rib groove 116 into which the coupling rib 52 is fitted may be formed in the panel coupling portion 114. have. According to the engaging ribs 52 and the engaging rib grooves 116, the light-convergence type solar cell module panel 10 can be more firmly supported by the support frame 102.

In addition, the panel 10, 70 according to the present invention is formed with a plurality of ribs for improving the rigidity of the vertical plate 50, the ribs are coupled to the coupling rib groove 116 of the panel coupling portion 114. A coupling rib 52 protruding from the outer surface may be included.

As shown in FIGS. 15 and 17, the coupling ribs 52 are formed to protrude outwardly longer than the heat dissipation ribs 51 formed on the outer surface of the vertical plate 50 or have a thickness thicker than the heat dissipation ribs 51. Branches may be formed in a form, preferably, as shown in Figure 17, the coupling ribs 52 may be formed in a form having a thick thickness while the protruding outward below the vertical plate (50). This is to enable the light collecting solar cell module panels 10 and 70 according to the present invention to support such a load because the weight is considerable and the load applied to the coupling rib 52 is large.

In addition, the condensing photovoltaic power generation system 100 according to an embodiment of the present invention further includes a subframe 103 connecting both ends of the plurality of solar cell module panels 10 and 70 arranged in one direction. In addition, an extension portion 58 to which the subframe 103 is coupled may be formed in the vertical frame 50 of each of the solar cell module panels 10 and 70, and the subframe 103 may be formed in the extension portion 58. An insertion hole 59 to be inserted may be formed.

As such, when the subframe 103 further connects both ends of the plurality of solar cell module panels 10 and 70 arranged in one direction, the plurality of solar cells are long in the longitudinal direction and arranged in one direction. Not only can the solar cell module panels 10 and 70 be more firmly supported, but also the sag at both ends can be further prevented. In addition, according to such a configuration, it is preferable to simplify the configuration of the support frame 102 for supporting the solar cell module panels 10 and 70.

As described above, the present invention relates to a light collecting solar cell module panel having a stiffness and easy to manufacture and assemble, and a light collecting solar power generation system including the same. It will be possible. Accordingly, the present invention is not limited to the embodiments disclosed herein, and all changes which can be made by those skilled in the art are also within the scope of the present invention.

10,70: condensing type solar cell module panel 11: solar cell
12: carrier 20: lens plate
25: Horizontal plate 30: Lower plate
50: vertical plate 51: radiating rib
52: engaging rib 71: reflecting rib
72: Support rib 60: Carrier frame
100: condensing type solar cell generator 101: supporting member
102: support frame 103:
110: bracket 116: engaging rib groove

Claims (18)

delete delete In a light collecting type solar cell module panel having stiffness,
A frame consisting of side plates and bottom plates;
A carrier having a solar cell and a predetermined distance above the lower plate; And
And a lens plate provided at an upper portion of the frame and condensing the incident light with the respective solar cells,
The side plate includes a horizontal plate, a vertical plate made longer than the horizontal plate,
Condensing solar cell module panel, characterized in that the lower side of the inner surface of the vertical plate protruding reflective ribs reflecting the sunlight (upset) offset from the lens plate. In a light collecting type solar cell module panel having stiffness,
A frame consisting of side plates and bottom plates;
A carrier having a solar cell and a predetermined distance above the lower plate; And
And a lens plate provided at an upper portion of the frame and condensing the incident light with the respective solar cells,
The side plate includes a horizontal plate, a vertical plate made longer than the horizontal plate,
The lens plate is composed of a plurality of piece lens plates arranged and coupled to the upper portion of the frame,
The condensing solar cell module panel further includes a support for supporting the fragment lens plate,
Condensing solar cell module panel, characterized in that the support ribs for supporting the support is formed on the upper side of the inner side of the vertical plate. 5. The method of claim 4,
The condensing solar cell module panel further comprises an elastic member for fixing the piece of lens plate supported on the support to the support. The method according to claim 3 or 4,
The vertical plate is provided with a coupling portion for coupling with the lower plate,
The vertical plate is a condensing solar cell module panel, characterized in that the screw is coupled to the lower plate in a sealing material is filled in the sealing groove formed in the coupling portion. The method according to claim 3 or 4,
The vertical plate is a condensing solar cell module panel, characterized in that the vertical cross-section is made uniform is manufactured integrally by extrusion molding. In a light collecting type solar cell module panel having stiffness,
A frame consisting of side plates and bottom plates;
A carrier having a solar cell and a predetermined distance above the lower plate; And
And a lens plate provided at an upper portion of the frame and condensing the incident light with the respective solar cells,
The side plate includes a horizontal plate, a vertical plate made longer than the horizontal plate,
A coupling rib for screwing the vertical plate is protruded from the horizontal plate, and a ventilation part protruding from the horizontal plate to form a predetermined space is formed.
The condensing solar cell module panel further includes a filter member inserted into the space to block the ventilation unit. The method of claim 8,
The horizontal plate has a constant vertical cross-section, the coupling ribs and the ventilation unit is condensed solar cell module panel, characterized in that made in the horizontal direction in a constant cross-section so that it can be integrally manufactured by extrusion molding. In a light collecting type solar cell module panel having stiffness,
A frame consisting of side plates and bottom plates;
A carrier having a solar cell and a predetermined distance above the lower plate; And
And a lens plate provided at an upper portion of the frame and condensing the incident light with the respective solar cells,
The side plate may include a horizontal plate and a vertical plate formed longer than the horizontal plate, and the plurality of ribs protrude from the vertical plate to improve stiffness.
The lower plate is composed of a plurality of piece lower plate arranged in the longitudinal direction to combine,
And each of the plurality of fragmented lower plates is screwed to a lower portion of the vertical plate. 11. The method of claim 10,
Wherein the engraved bottom plate is provided with a heat radiating rib protruding downwardly and an engaging rib protruding from an upper portion of the engraved lower plate to form a fastening portion for screwing with the vertical plate. The method of claim 11,
Wherein engaging portions for engaging adjacent other engraved lower plates are provided on both sides of the engraved lower plate,
Wherein the engraved bottom plate is engaged with the adjoining other engraved lower plate in a state where a sealing material is filled in a sealing groove formed in the engaging portion. 13. The method of claim 12,
Wherein the heat dissipating ribs, the engaging ribs, the engaging portions, and the sealing grooves are elongated in a transverse direction with a predetermined cross-section so that the engraved portion and the sealing grooves can be integrally manufactured by extrusion molding, Solar module panels. 11. The method of claim 10,
Wherein the light-condensing type solar cell module panel further comprises a carrier frame in which at least two carriers among a plurality of carriers arranged in the horizontal direction among the carriers are fixed,
Wherein the engraved bottom plate is provided with a seating groove on which the carrier frame is seated. delete 1. A condensing type solar power generation system including a condensing type solar cell module panel having stiffness,
Support member;
A support frame rotatably supported on the support member;
A solar cell module panel which is made long in the longitudinal direction and has stiffness by itself and is arranged in one direction and supported by the support member;
A bracket for fixing the solar cell module panel to the support frame; And
And a tracking device that rotates the support frame to keep the solar cell module panel orthogonal to sunlight from the sun,
In the solar cell module panel,
A frame consisting of side plates and bottom plates;
A solar cell is provided, and a carrier provided at predetermined intervals on the lower plate; And
And a lens plate provided at an upper portion of the frame and condensing the incident light with the respective solar cells,
The side plate includes a horizontal plate, a vertical plate made longer than the horizontal plate,
The bracket is provided with a support frame coupling portion formed on one side, the panel coupling portion formed on the other side and the coupling rib groove is formed,
Condensing photovoltaic power generation system, characterized in that the outer side of the vertical plate is coupled to the coupling rib to the coupling rib groove is fitted. 1. A condensing type solar power generation system including a condensing type solar cell module panel having stiffness,
Support member;
A support frame rotatably supported on the support member;
A solar cell module panel which is made long in the longitudinal direction and has stiffness by itself and is arranged in one direction and supported by the support member;
A bracket for fixing the solar cell module panel to the support frame; And
And a tracking device that rotates the support frame to keep the solar cell module panel orthogonal to sunlight from the sun,
In the solar cell module panel,
A frame consisting of side plates and bottom plates;
A solar cell is provided, and a carrier provided at predetermined intervals on the lower plate; And
And a lens plate provided at an upper portion of the frame and condensing the incident light with the respective solar cells,
The side plate may include a horizontal plate and a vertical plate formed longer than the horizontal plate, and the plurality of ribs protrude from the vertical plate to improve stiffness.
And a subframe connecting both ends of the solar cell module panel arranged in one direction, wherein the vertical plate includes an extension part to which the subframe is coupled. 1. A condensing type solar power generation system including a condensing type solar cell module panel having stiffness,
Support member;
A support frame rotatably supported on the support member;
A solar cell module panel which is made long in the longitudinal direction and has stiffness by itself and is arranged in one direction and supported by the support member;
A bracket for fixing the solar cell module panel to the support frame; And
And a tracking device that rotates the support frame to keep the solar cell module panel orthogonal to sunlight from the sun,
In the solar cell module panel,
A frame consisting of side plates and bottom plates;
A solar cell is provided, and a carrier provided at predetermined intervals on the lower plate; And
And a lens plate provided at an upper portion of the frame and condensing the incident light with the respective solar cells,
The side plate may include a horizontal plate and a vertical plate formed longer than the horizontal plate, and the plurality of ribs protrude from the vertical plate to improve stiffness.
The rib includes at least one of a reflection rib protruding from the inner side of the vertical plate and at least one support rib protruding from the inner side of the vertical plate.

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