KR101557965B1 - The solar module - Google Patents

Abstract

The present invention relates to a photovoltaic module, and more specifically, to a photovoltaic module which comprises an upper frame, a side frame, and a partitioning frame to mount a plurality of solar cell panels as one body to install a photovoltaic module conveniently and easily, adjusts a size of the photovoltaic module according to required power, and allows a foreign substance such as snow or dust to slide downwards without accumulating on the solar cell panels to improve power generation efficiency of solar cells. The photovoltaic module consisting of a plurality of solar cell panels comprises: an upper frame mounted on an upper surface of the uppermost solar cell panel; and side frames mounted on outer side surfaces of the solar cell panels disposed on both side ends.

Description

The solar module

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar module, and more particularly, to an solar module having an upper frame, a side frame, and a subframe so that a plurality of solar panels can be integrally combined, And to adjust the size of the photovoltaic module according to the required power and to allow the solar cell panel to flow downward without accumulating foreign matter such as snow or dust, Optical module.

In general, the amount of fossil energy that is widely used is limited, so it will eventually become depleted, and fossil energy will release various pollutants. Therefore, as the global environmental problems such as the recent climate change convention and the abnormal temperature phenomenon are serious, in most countries, the development and use of technologies related to the utilization of alternative energy are various.

In particular, among alternative energy sources, solar energy is abundant in resources, pollution-free, and environment-friendly, and installation capacity is rapidly increasing, especially in developed countries. The solar cell has no mechanical or chemical action in the solar energy conversion process, so the structure of the system is simple, requiring little maintenance, long life, safe and environmentally friendly. In addition, a plurality of solar cells can be connected in series and in parallel, and the power generation scale can be diversified from residential use to large-scale power generation. In recent years, it is widely used for small-scale power supply for streetlight, communication equipment, .

Meanwhile, the solar cell module includes a frame provided on the rim of the solar cell and the solar cell, so that the frame does not bend or bend the solar cell in the wind, and moisture, moisture and dust penetrate into the solar cell prevent.

Generally, the solar cell module is installed outdoors. When dust such as dust or pollen accumulates on the front surface of the solar cell module, or snow accumulates in the winter, the frame installed on the lower side of the solar cell module, The solar cells are blocked by the accumulated snow, and the power generation efficiency of the solar cell is lowered. In severe cases, the solar cell can not be developed.

Korean Patent No. 10-1092981 discloses a solar cell module for solving the problems of the above-described solar cell module. A first frame including a left side surface of the solar cell, the first edge being formed in a 'C' shape so as to surround the front and rear edges of the solar cell; A second frame including a right side surface of the solar cell, the second frame being formed in a reverse " C " shape so as to surround the front and rear edges of the solar cell; And a first closing member covering only the lower surface of the solar cell

However, in general, a plurality of solar cells are connected in series and in parallel. In the conventional technology, the first and second rims and the first finishing member are installed in each solar cell, There is a problem that it is troublesome to install it in a separate mounting frame, and there is a problem that the configuration is complicated, and it is expensive and time consuming.

Patent Document 1: Korean Patent No. 10-1092981

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a solar cell module with an upper frame, a side frame and a subframe so that a plurality of solar panels can be integrally combined, And to facilitate the operation of the solar cell module.

It is another object of the present invention to provide a solar module capable of easily adjusting the size of a solar module according to required power.

Further, according to the present invention, a closure member provided at a lower portion of the solar cell panel is prevented from protruding to the upper side of the solar cell panel, so that foreign matter such as snow or dust can be flowed downward, The present invention is directed to a solar module.

According to an aspect of the present invention, there is provided a solar cell module including a plurality of solar cell panels, including: an upper frame coupled to an upper surface of the solar cell panel positioned at the uppermost portion; And a side frame coupled to the side surface.

At this time, a finishing member is provided on a lower surface of the solar cell panel located at the lowermost part, and the finishing member includes a support part for supporting the lower surface of the solar cell panel, and a supporting part formed on the rear surface of the support part, And a supporting portion for supporting the supporting portion.

In addition, the upper frame has a fitting groove formed on a lower surface of a bar body formed in a bar shape, a fastening portion extending to both sides of an upper portion of the body, an insertion hole formed on both side surfaces of the fastening portion of the upper frame, A reinforcing member is inserted into the insertion hole of the upper frame, and the side frame is formed with a fitting groove on one side surface of a body portion formed in a bar shape.

A partition frame is further provided between neighboring solar panels, and the partition frame includes a first member positioned at the uppermost position and disposed between neighboring solar panels to the left and right .

The first member may include a first body formed in a bar shape and positioned between the solar panels, a first support portion extending from both sides of the rear surface of the first body to support the rear surface of the solar panel, And a first protrusion protruding forward from the first body to form an insertion groove between the first support and the first support.

In addition, the partition frame is located at the outermost side, and a second member is provided between the solar cell panels adjacent to each other in the upward and downward directions, and the second member is formed in a bar shape, A second support portion extending upward and downward from a rear surface of the second body to support a rear surface of the solar cell panel, and a second protrusion protruding forward from one end of the second body, .

In addition, the second body is characterized in that the second projections are formed to protrude forward from both ends of the second body.

In addition, the partition frame is located on the inner side, and a third member is provided between the solar cell panels adjacent to each other in the upward and downward directions, and the third member is formed in a bar shape and positioned between the solar cell panels And a third support portion extending upward and downward from the rear surface of the third body to support the rear surface of the solar cell panel.

Further, the partition frame is located inside, and a fourth member is provided between the solar cell panels adjacent to each other in the left and right directions, and the fourth member is formed in a bar shape and positioned between the solar cell panels A fourth support member extending from both sides of the rear surface of the fourth body to support the rear surface of the solar cell panel, and a coupling member formed on the upper side of the fourth body.

The first and second coupling protrusions are formed on the upper portion of the coupling portion and the second and third coupling protrusions are formed on both sides of the second member or the third member. .

According to the present invention, an upper frame, a side frame, and a dividing frame are provided so that a plurality of solar panels can be integrally coupled to each other, so that the solar module can be installed easily and easily.

In addition, the present invention further has an effect that the size of the solar module can be easily adjusted according to the required power.

Further, according to the present invention, a closure member provided at a lower portion of the solar cell panel is prevented from protruding to the upper side of the solar cell panel, so that foreign matter such as snow or dust can be flowed downward, In addition to the effects of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a combined state of a solar module according to the present invention; FIG.
2 is an exploded perspective view of a solar module according to the present invention;
3 is an exploded perspective view of a solar cell panel of a solar module according to the present invention.
4 is a view showing an upper frame of a solar module according to the present invention.
5 illustrates a side frame of a solar module according to the present invention.
6 (a) and 6 (b) are views showing a first member among the partition frames of the solar module according to the present invention;
7 (a) and 7 (b) are views showing a second member of the partition frame of the solar module according to the present invention;
8 is a view showing a third member of the partition frame of the solar module according to the present invention.
9 (a) and 9 (b) are views showing a fourth member of the partition frame of the solar module according to the present invention.
10 is a view showing a closing member of a solar module according to the present invention.
11 (a) and 11 (b) are views showing a solar cell module in which the solar cell panels according to the present invention are arranged only in the left and right direction, and the solar cell modules arranged in the vertical direction only.
12 is a view showing a reinforcing member coupled to an upper frame of a solar module according to the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted. It is to be understood that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

2 is a perspective view illustrating a solar module according to an embodiment of the present invention. FIG. 3 is a cross-sectional view of the solar cell module of the solar cell module according to the present invention. 4 is a view showing an upper frame of the solar module according to the present invention, FIG. 5 is a side view of the solar module according to the present invention, and FIGS. 6 (a) and 6 Figures 7 (a) and 7 (b) illustrate a first member of the dividing frame of the photovoltaic module according to the present invention, and Figures 7 (a) and 7 9 (a) and 9 (b) are views showing a third member of the divisional frame of the solar module according to the present invention, Fig. 10 is a perspective view showing the closure member of the solar module according to the present invention. Fig. 11A and 11B are views showing a solar cell module in which the solar cell panel according to the present invention is arranged only in the left and right direction and a solar cell module arranged in the vertical direction only And FIG. 12 is a view illustrating a reinforcing member coupled to an upper frame of the solar module according to the present invention.

The present invention has an upper frame, a side frame, and a dividing frame so that a plurality of solar panels can be integrally combined to simplify and facilitate the installation of the solar module, The size of the solar cell panel can be easily adjusted and the closure member provided at the lower part of the solar cell panel can be made to coincide with the solar cell panel piece so as not to protrude upward so that foreign materials such as snow or dust can flow downwardly The present invention relates to a solar cell module capable of improving the power generation efficiency of a battery. As shown in FIGS. 1 to 12, the solar cell module includes an upper frame 110 provided above the solar cell panel 100, And a side frame 120 provided on a side surface of the frame 100.

More specifically, the solar cell panel 100 includes a filler 102, which protects the solar cell layer 101 from moisture and external impact, on the front and rear surfaces of the solar cell layer 101, A back sheet 103 for protecting the solar cell layer 101 from moisture and external impact is provided on the rear surface of the filler material 102 stacked on the back surface of the solar cell layer 101, 102 are laminated on the front surface of the reinforcing glass 104.

A plurality of the solar cell panels 100 are arranged to form the solar cell modules 100 by installing a plurality of the solar cell panels 100. At this time, An upper frame 110 is provided on the upper surface of the solar cell panel 100 and a side frame 120 is provided on a side surface of the solar cell panel 100 provided on the outermost side.

Here, the upper frame 110 includes a body portion 112 formed in a bar shape, and a fitting groove 114 is formed in the lower surface of the body portion 112 in the longitudinal direction, and the upper surface of the solar cell panel 100, .

A fastening portion 116 is extended from both sides of the upper surface of the body portion 112 of the upper frame 110. A fastening hole 116a is formed in the fastening portion 116 so that the side frame 120 And the first member 210 and the fastening member 110a such as a bolt.

Meanwhile, the side frame 120 includes a body portion 122 formed in a bar shape, and a groove 124 is formed in an inner side surface of the body portion 122 in the longitudinal direction, and a side surface of the solar cell panel 100 arranged on the outermost side is inserted Lt; / RTI >

A fastening hole 126 is formed on the upper surface of the body portion 122 of the side frame 120 to be coupled with the fastening hole 116a of the upper frame 110 by the fastening member 110a, 110 and the side frame 120 can be maintained in a firmly coupled state, and the side frames 120 installed on the left and right sides are symmetrical.

On the other hand, a finishing member 300 is provided on the lower surface of the solar cell panel 100 arranged at the lowermost part among the plurality of solar cell panels 100 arranged.

The closing member 300 includes a receiving part 310 provided on a lower surface of the solar cell panel 100 and a supporting part 312 protruding from a rear upper surface of the receiving part 310, The fastening holes 310a formed in the side walls 310 and the fastening holes 126 formed in the side frames 120 and the fastening members 110a.

The front surface of the receiving part 310 is formed to be coincident with the front surface of the solar cell panel 100 and is connected to the solar cell panel 100 of the solar cell module 50, So that the upper surface of the solar cell panel 100 can be kept clean so that the power generation efficiency of the solar cell panel 100 is not lowered .

The upper side and the side surface of the solar cell panel 100 are connected to the upper frame 110 and the side frame 120 in the case where the solar cell module 100 is composed of one solar cell panel 100. [ And the rear surface of the lower surface of the solar cell panel 100 is supported by the supporting portion 312 of the closure member 300 so that the solar cell panel 100 is supported by the upper frame 110, And the closure member 300 can be installed securely and firmly.

When the photovoltaic module 50 is composed of a plurality of solar cell panels 100, a dividing frame 200 is provided between neighboring solar cell panels 100.

The partition frame 200 is disposed on the upper part of the solar module 50 and includes the first member 210 between the solar cell panels 100 arranged adjacent to the left and right sides.

The first member 210 includes a first body 212 formed in a bar shape and disposed between neighboring solar cell panels 100 and a second body 212 extending between the first and second sides of the first body 212, A first support 214 for supporting the rear surface of the solar cell panel 100 and a first protrusion 216 protruding forward from the first body 212.

The first protrusion 216 protrudes forward and both sides of the first body 212 so that an insertion groove 216a is formed between the first protrusion 216 and the first support 214 And the solar cell panel 100 is fitted into the insertion groove 216a so that the first member 210 can support the solar cell 100 more firmly.

A pair of fastening holes 218 are formed on the upper surface of the first member 210 and are coupled to an upper frame 110 provided on the upper surface of the pair of solar cell panels 100, The fastening member 110a of the first member 210 is fastened to the fastening hole 218 of the first member 210 and is firmly connected to the upper frame 110 to firmly support the solar cell 100 .

11 (a), when the solar cell module 100 is constituted by the solar cell modules 100 arranged only in the left and right directions, 100 are supported by the upper frame 110 and the side frame 120. The lower surface of the solar cell panel 100 is supported by the closure member 300, The solar cell panel 100 is securely and firmly held by the upper frame 110, the side frame 120, the closing member 300, and the first member 210, So that the solar module 50 can be installed.

The partition frame 200 includes a second member 220 disposed between the solar cell modules 100 arranged on the outermost side of the solar cell module 50 and arranged adjacent to each other in the upward and downward directions do.

The second member 220 includes a second body 222 formed in a bar shape and disposed between neighboring solar cell panels 100 and a second body 222 disposed between the upper and lower sides of the second body 222 And a second support portion 224 extending from the solar cell panel 100 to support the rear surface of the solar cell panel 100.

At this time, the second protrusion 226 protrudes forward at one end of the second body 222, so that the end of the side frame 120 installed on the side surface of the solar cell panel 100 is welded, It is possible to firmly support the solar cell panel 100 by installing the solar cell module 100 by a method such as joining.

In the case where the solar cell module 100 includes the solar cell module 100 arranged in the upward and downward directions, the second support portion 224 'is formed on the rear surface of the second member 220' The second protrusions 226 'may be formed at both ends of the second body 220'.

11 (b), when the solar cell module 100 is composed of the solar cell modules 100 arranged only in the upward and downward directions, The upper side of the panel 100 is supported by the upper frame 110. Both side surfaces of each solar cell panel 100 are supported by the side frames 120 and the lower side of the solar cell panel 100 The solar cell panel 100 is supported by the upper frame 110 and the side frame 120 and the second member 220 'is provided between the solar cell panels 100. The second member 220' The closure member 300 and the second member 220 ', the solar module 50 can be installed securely and firmly.

The partition frame 200 includes a third member 230 disposed between the solar cell panels 100 arranged inside and adjacent to the solar cell module 50 .

The third member 230 includes a third body 232 formed in a bar shape and disposed between the neighboring solar cell panels 100 and a third body 232 provided between the third body 232 and the third body 232, And a third support portion 234 extending in the direction of the first support portion 231 and supporting the rear surface of the solar cell panel 100. [

The partition frame 200 includes a fourth member 240 disposed between the solar cell panels 100 arranged inside the solar cell module 50 and arranged adjacent to the left and right directions .

The fourth member 240 may include a fourth body 242 formed in a bar shape and disposed between neighboring solar cell panels 100 and a fourth body 242 disposed between the neighboring solar cell panels 100, A fourth support portion 244 extending in the direction of the first body 242 and supporting the rear surface of the solar cell panel 100 and a coupling portion 246 formed on the fourth body 242.

At this time, a first engaging hole 219 formed at a lower portion of the first member 210 or a fourth engaging hole 248 formed at a lower portion of the fourth member 240 is formed on the upper portion of the engaging portion 246, The second engaging hole 228 formed on the side of the second member 220 or the second engaging hole 228 formed on the side of the third member 230 are formed on both sides of the engaging portion 246. [ Second and third coupling protrusions 246b and 246c are formed to be inserted into and engaged with the third coupling hole 236 so that the fourth member 240 and the first, second, and third members 210, 220, .

In the case where the solar cell modules 100 are arranged in a lattice form to form the solar module 50, the upper side of the solar cell panel 100 located at the uppermost portion is connected to the upper frame 110 The outer side surface of the outermost solar cell panel 100 is supported by the side frame 120 and the first, second, third, and fourth members 210, 220, 230, 240 are disposed between the solar cell panels 100 And the lower surface of the solar cell panel 100 positioned at the lowermost part is supported by the closure member 300 so that the solar cell panel 100 is supported by the upper frame 110, the side frame 120, the closure member 300 And the first, second, third, and fourth members 210, 220, 230, and 240, the solar module 50 can be installed securely and firmly.

At this time, the number of the solar cell panels 100 is controlled according to the amount of electric power to be generated, and the number of the upper frame 110, the side frame 120, the partition member 200, It is possible to construct the solar module 50 having various sizes, so that it is possible to easily construct the solar module 50 having a size suitable for the application to be used.

An insertion hole 111 is formed in the fastening portion 116 of the upper frame 110 so that the reinforcing member 118 formed in a plate shape is inserted into the insertion hole 111 of the upper frame 110, So that the coupling force between the upper frames 110 can be further improved, and the solar module 50 can be more firmly constructed.

The front surfaces of the first, second, third, and fourth bodies 212, 222, 232, and 242 are formed so as to be aligned with the front surface of the solar cell panel 100, Foreign matter such as snow or dust can be prevented from being accumulated on the first, second, third, and fourth members 210, 220, 230, 240 and flow down to the bottom of the solar cell panel 100 of the solar cell 100, So that the power generation efficiency of the solar cell panel 100 is not lowered.

In addition, a waterproof member (not shown) made of silicone resin or the like is provided around the outer periphery of each solar cell panel 100 to protect the solar cell module 50 from moisture.

According to the solar module 50 of the present invention, the upper frame 110, the side frame 120, and the partition frame 200 are provided so as to integrally couple a plurality of solar panels 100 It is possible to easily and easily install the solar module 50 and to easily adjust the size of the solar module 50 according to the required power and to install the solar module 50 under the solar module 100 It is possible to improve the power generation efficiency of the solar cell panel 100 by preventing the closure member 300 from protruding to the upper side of the solar cell panel 100 so that foreign matter such as snow or dust can flow downward without accumulating foreign matter .

While the present invention has been described in connection with what is presently considered to be preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar module, and more particularly, to an solar module having an upper frame, a side frame, and a subframe so that a plurality of solar panels can be integrally combined, To easily adjust the size of the photovoltaic module according to the required power, and to improve the power generation efficiency of the photovoltaic cell by making it possible for the photovoltaic panel to flow downward without accumulating foreign matter such as snow or dust. To a solar module.

50: solar module 100: solar panel
110: upper frame 111: insertion hole
112: Body part 114: Fitting groove
116: fastening part 118: reinforcing member
120: side frame 122:
124: fitting groove 200:
210: first member 212: first body
214: first support portion 216: first protrusion
220, 220 ': second member 222, 222': second body
224, 224 ': second support portion 226, 226': second projection
230: third member 232: third body
234: third support part 240: fourth member
242: fourth body 244: fourth support portion
246: engaging portions 246a, 246b, 246c: first, second,
300: closing member 310:
312: Support

Claims (10)

In a solar module comprising a plurality of solar cell panels,
An upper frame coupled to an upper surface of the solar cell panel located at the uppermost portion,
A side frame coupled to an outer surface of the solar cell panel located at both ends,
A closure member coupled to a lower surface of the solar cell panel located at the lowermost part,
And a partition frame provided between neighboring solar cell panels
A first member disposed at an uppermost portion of the partition frame, the first member being disposed between neighboring solar cell panels to the left and right sides; A second member disposed at an outermost side of the solar cell panel and disposed between adjacent solar cell panels in the upward and downward directions; A third member positioned between the solar cell panels adjacent to each other in the upward and downward directions; And a fourth member disposed between the adjacent solar cell panels in the left and right directions,
Wherein the closing member comprises a support portion for supporting the lower surface of the solar cell panel and a support portion formed on the upper surface of the support portion for supporting the rear surface of the solar cell panel,
And a front surface of the first to fourth members of the receiving portion and the partition frame of the closing member are formed to be flush with the front surface of the solar cell panel.
delete The method according to claim 1,
The upper frame has a fitting groove formed on a lower surface of a bar body formed in a bar shape. The fastening portion is extended to both sides of the upper portion of the body. An insertion hole is formed on both sides of the fastening portion of the upper frame, The reinforcing member is inserted into the insertion hole of the insertion hole,
Wherein the side frame is formed with a fitting groove on one side of a body portion formed in a bar shape.
delete The method according to claim 1,
The first member may include a first body formed in a bar shape and positioned between the solar cell panels,
A first support portion extending from both sides of the rear surface of the first body to support the rear surface of the solar cell panel,
And a first protrusion protruding forward from the first body to form an insertion groove between the first support and the first protrusion,
Wherein the front surface of the first body is formed to be flush with the front surface of the solar cell panel.
The method according to claim 1,
The second member being formed in a bar shape and positioned between the solar cell panels,
A second support portion extending upward and downward from the rear surface of the second body to support the rear surface of the solar cell panel,
And a second protrusion protruding forward from one end of the second body,
And a front surface of the second body is formed to be flush with a front surface of the solar cell panel.
The method according to claim 6,
And a second protrusion protruding forward from both ends of the second body.
The method according to claim 1,
The third member being formed in a bar shape and positioned between the solar cell panels,
And a third support portion extending from the rear surface of the third body upward and downward to support the rear surface of the solar cell panel,
And the front surface of the third body is formed to be flush with the front surface of the solar cell panel.
The method according to claim 1,
The fourth member being formed in a bar shape and positioned between the solar cell panels,
A fourth support portion extending from both sides of the rear surface of the fourth body to support the rear surface of the solar cell panel,
And an engaging portion formed on the upper side of the fourth body,
And the front surface of the fourth body is formed to be flush with the front surface of the solar cell panel.
10. The method of claim 9,
A first coupling protrusion coupled to a lower portion of the first member is formed at an upper portion of the coupling portion,
And second and third coupling protrusions are formed on both sides of the second member or the third member.

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