KR20140006273U - Photovoltaic module frame assembly - Google Patents

Abstract

A solar cell module frame assembly according to the present invention includes: a solar cell module in which corners are rounded to meet a lateral portion and a longitudinal portion; Type channel portion, and each of the end surfaces is formed at a right angle to the longitudinal direction, and each of the C-type channel portions is formed to extend from the C-type channel portion to share one wall of the C- A plurality of module frames each having a module supporting channel portion to be formed thereon; And a pair of insertion body portions which are press-fitted into the C-shaped channel portions of the pair of module frames and are formed at right angles to each other so as to couple a pair of the module frames that meet at right angles, And a corner piece having a module supporting channel groove portion with rounded corners to support the rounded corner.

Description

[0001] PHOTOVOLTAIC MODULE FRAME ASSEMBLY [0002]

The present invention relates to a solar cell module, and more particularly, to an assembly of a corner corner piece, a module frame, and an edge round solar cell module.

The solar cell module is composed of a solar cell, a glass, an ethylene vinyl acetate (EVA), and a back sheet. The solar cell module frame assembly includes the solar cell module, Means a structure including a module frame for holding the edge of a module (usually four corners of a rectangular solar cell module).

Such a module frame can be divided into two types, a screw type which is screwed by a screw and a corner piece type which is combined by a joining member called a corner piece in accordance with a method of joining the module frames of the width and the length which intersect with each other .

The screw method has the advantage of being able to firmly couple the module frame, but it takes a long time to assemble, which is disadvantageous in that the productivity is low.

The corner piece method has advantages of good productivity because of its good assemblability even though its bonding force is lower than that of screw type.

The present invention relates to a corner-piece type solar cell module frame assembly, and an example of such a corner-piece type solar cell module frame assembly will be described with reference to FIGS. 1 to 8. FIG.

1, 2 and 5 or 6, a corner piece type solar cell module frame assembly 100 includes a solar cell module 105 and a solar cell module 105 that protects the corners of the solar cell module 105 And a corner piece (120). Here, the corner pieces 120 are not shown in Figs. 1 and 2, and can be referred to those shown in Fig. 5 or Fig.

1 and 2, the four corners of the solar cell module 105 where the lateral portion and the longitudinal portion meet are all right angled.

3 and 4, the modular frame 110 of the solar cell module frame assembly according to the prior art has a quadrangular closed-loop shape, as shown in the cross-sectional view of FIG. 3, And a module supporting channel part 110b extending from the insertion port part 110a and providing a supporting part for holding the corner of the solar cell module 105. [

5 and 6, the corner piece 120 of the solar cell module frame assembly 100 according to the related art may extend in both directions perpendicular to each other, and may be inserted into the insertion hole of the module frame 110 And an L-shaped member formed of a steel material such as metal having a first insertion portion 120a and a second insertion portion 120b which are press-fitted into the first insertion portion 110a.

In addition, each of the first insertion portion 120a and the second insertion portion 120b of the corner piece 120 has a plurality of warp needle portions 120a1 and 120b1 on one surface thereof. When the first insertion portion 120a and the second insertion portion 120b are press-fitted into the insertion port 110a of the module frame 110 at one end in a single direction, the plurality of warp drop portions 120a1 and the warp drop portions 120b1 are difficult to pull out in the direction opposite to the press-in direction.

7, in the solar cell module frame assembly according to the related art, the end face of the module frame 110 has an inclined face 110c cut at 45 degrees, The end faces of the two vertical module frames 110 are engaged to form a right angle as can be seen in Fig.

However, the solar cell module frame assembly according to the related art may not have an inclined cross section 110c cut exactly 45 degrees, or may not be cut into the insertion portion 110a of the module frame 110 and the first insertion portions 120a and 120b of the corner piece 120, There is a problem that a clearance is formed between the inclined end faces 110c of the two module frames 110 to be coupled or a step difference occurs between the two module frames 110 to be coupled due to the tolerance between the second inserting portions 120b .

Such a gap or a step may cause a problem that the module frame 110 is detached when a high load is applied to the module frame 110.

In addition, since the four corners of the solar cell module 105 according to the prior art are rectangular at right angles, the tempered glass of the solar cell module is easily damaged during transportation or transportation due to impact applied to the corners In addition, if an impact is applied to the corner when the product is installed and handled after installation, the whole module is destroyed and the module can not be regenerated.

Accordingly, the present invention overcomes the above-mentioned problems of the prior art. The object of the present invention is to prevent the step and widening phenomenon at the time of assembling the module frame and to prevent the module frame from being separated even at a high load, And it is an object of the present invention to provide a solar cell module frame assembly capable of minimizing occurrence of breakage of the solar cell module.

The object of the present invention is, in a solar cell module assembly,

A solar cell module in which the solar energy is converted into electric energy, and the corners of the solar cell module where the horizontal portion and the vertical portion meet are rounded;

Shaped end portions of the C-shaped channel portion are formed at right angles to the longitudinal direction, and each of the C-shaped channel portions (C-shaped channel portion) A plurality of module frames each having a module supporting channel portion formed extending from a channel portion; And

And a pair of insertion body portions which are press-fitted into the C-shaped channel portions of the pair of module frames and formed at right angles to each other in both directions so as to couple a pair of the module frames that meet at right angles, And a corner piece (CORNER PIECE) having a module supporting channel groove portion with an edge rounded to support the corner.

According to a preferred aspect of the present invention, the solar cell module frame assembly according to the present invention includes a plurality of solar cell module frame assemblies arranged on a flat plane to prevent deviation between a pair of right and left module frames, And an L-shaped corner key member in which a part is inserted into one of the pair of module frames through the corner piece and the remaining part is inserted into the other one of the pair of module frames through the corner piece. .

According to another preferred aspect of the present invention, each of the module frames includes a corner key engaging channel portion capable of engaging with and engaging with the L-shaped corner key member on one side thereof, And a corner key supporting portion having a groove portion formed corresponding to the shape of the L-shaped corner key member so as to support and support the center intersection of the L-shaped corner key member.

According to another preferred aspect of the present invention, when the insertion body portion is press-fitted into the C-shaped channel portion of the module frame in one direction, it is difficult to pull out the insertion body portion in the opposite direction, And a plurality of inclined barbs on the lower surface.

According to another preferred aspect of the present invention, the module supporting channel groove portion of the corner piece is arranged to communicate with the module supporting channel portion of the module frame.

In the solar cell module frame assembly according to the present invention, the module frame is formed such that the end faces thereof are formed at a right angle to the longitudinal direction, and the corner pieces having a pair of insertion body portions formed in both directions perpendicular to each other Type channel portion of a pair of module frames, it is possible to remarkably reduce the occurrence of product defects such as a step and a widening phenomenon when the module frame is engaged, and to reduce the maintenance cost in the installed state Effect can be obtained.

The solar cell module frame assembly according to the present invention is characterized in that the L-shaped corner key member is formed on a flat plane, in other words, the L-shaped corner key member is formed flat without bending, Shaped corner key member is inserted into one of the pair of module frames and the remaining part of the L-shaped corner key member is inserted into the other one of the pair of the module frames, It is possible to prevent an occurrence of a step between the module frames.

In the solar cell module frame assembly according to the present invention, each of the module frames includes a corner key engaging channel portion capable of engaging with and engaging with the L-shaped corner key member on one side thereof, The L-shaped corner key member can be supported by the corner key supporting portion of the corner piece so that the L-shaped corner key can be supported by the corner key supporting portion of the corner piece And the L-shaped corner key member is inserted into the corner key engaging channel portion of the module frame, thereby preventing a deviation between a pair of the module frames that meet at right angles, and suppressing the occurrence of a step between the module frames Can be obtained.

In the solar cell module frame assembly according to the present invention, each of the pair of insertion body portions has a plurality of inclined barb portions on the upper surface and the lower surface, so that the insertion body portion is press- The draw in the opposite direction becomes difficult, and the effect that the module frames can be firmly coupled by the corner pieces can be obtained.

In the solar cell module frame assembly according to the present invention, the four corners of the solar cell module are formed in a round shape, and the corner pieces are formed so as to sandwich the corners of the solar cell module with rounded corners at the intersections of the pair of insertion bodies Therefore, it is possible to minimize the occurrence of a phenomenon that the solar cell module is damaged, and the corner of the solar cell module can be supported by the corner piece, not the module frame.

1 is a front view showing a state in which a solar cell module and a solar cell module frame assembly are assembled according to a related art,
FIG. 2 is a rear view showing a state in which the solar cell module and the solar cell module frame assembly are assembled according to the related art,
3 is a cross-sectional view of a module frame according to the prior art,
4 is a perspective view of a module frame according to the prior art,
Fig. 5 is a cross-sectional view showing the outer shape of the corner piece according to the prior art,
6 is a perspective view showing a configuration of a corner piece according to the related art,
7 is a perspective view showing a state where the end face of the module frame and the corner piece are assembled according to the related art,
FIG. 8 is a perspective view showing a phenomenon in which a terminal end face of an intersecting module frame is opened or a step is generated in a state where a conventional solar cell module frame assembly is assembled,
FIG. 9 is a plan view of an exploded state of the solar cell module frame assembly according to the present invention,
10 is a plan view of a solar cell module of the solar cell module frame assembly according to the present invention,
11 is a perspective view showing the structure of the module frame of the solar cell module frame assembly according to the present invention,
12 is a cross-sectional view showing a structure of a module frame of a solar cell module frame assembly according to the present invention,
FIG. 13 is a perspective view showing a configuration of a corner piece of a solar cell module frame assembly according to the present invention,
FIG. 14 is a perspective view showing the corner piece of FIG. 13 rotated clockwise by about 90 degrees,
FIG. 15 is a perspective view showing a configuration of an L-shaped corner key member of a solar cell module frame assembly according to the present invention,
16 is a perspective view showing a state in which all the solar cell module frame assemblies according to the present invention are assembled,
17 is a perspective view showing a state during assembly of the L-shaped corner key member and the corner piece in the solar cell module frame assembly according to the present invention.

The above and other objects and advantages of the present invention will become more apparent from the following description of the preferred embodiments of the present invention with reference to the accompanying drawings.

The solar cell module frame assembly according to the present invention supports the solar cell module, and the solar cell module is a means for converting the solar light energy into electric energy and providing the solar cell module 105-1 in FIG. 9 or 10, Can be referred to.

9 or 10, according to one aspect of the present invention, the solar cell module 105-1 has a feature in which four corners 105-1a, in which a lateral portion and a longitudinal portion meet, are rounded.

A solar cell module frame assembly according to a preferred embodiment of the present invention includes a plurality of module frames 210 and a corner piece 220.

A plurality of module frames 210 according to a preferred embodiment of the present invention are formed such that the respective end surfaces thereof are perpendicular to the longitudinal direction. This is in contrast to the prior art in which the end surface was formed at a 45-degree cross-section with respect to the longitudinal direction.

11 to 12, the plurality of module frames 210 each include one C-shaped channel portion 211 and a module supporting channel portion 212. The C-

The C-type channel portion 211 includes a channel base wall 211a, a pair of channel side walls 211b extending from both ends of the channel base wall 211a in a direction perpendicular to the plate surface, And a separation preventing protrusion 211c extending parallel to the plate surface of the channel base wall 211a from each of the channel side walls 211b and having an alphabet C shaped channel groove 211c into which the corner piece 220 can be inserted. . Here, one of the pair of channel side walls 211b is shared with the module supporting channel unit 212 described later.

The module supporting channel portion 212 is a component for supporting the solar cell module 105-1 and includes a C-type channel portion 211 which shares a wall of the C-type channel portion 211, (Not shown).

The corner piece 220 is a means for joining a pair of the module frames 210 that meet at right angles. As shown in FIGS. 13 to 14, the corner pieces 220 include a pair of inserts I.e., a first insertion body portion 221 and a second insertion body portion 222. [

The first insertion body portion 221 and the second insertion body portion 222 are inserted into the C-type channel portion 211 of the pair of module frames 210, Lt; RTI ID = 0.0 > 210 < / RTI >

When the first insertion body portion 221 and the second insertion body portion 222 are press-fitted in the C-type channel portion 211 of the module frame 210 in one direction, The first insertion body portion 221 and the second insertion body portion 222 have a plurality of warp needle portions 221a and warp needle portions 222a on the upper and lower surfaces, respectively.

14, the corner piece 220 has a pair of insertion body portions, that is, a portion where the first insertion body portion 221 and the second insertion body portion 222 intersect, And a module supporting channel groove portion 224 forming a channel groove into which the corner 105-1a of the module 105-1 can be inserted.

According to a preferred aspect of the present invention, the module supporting channel groove portion 224 has a rounded corner shape to support the rounded corner 105-1a of the solar cell module 105-1.

The module supporting channel groove portion 224 is arranged to communicate with the module supporting channel portion 212 of the module frame 210. Therefore, a rounded corner 105-1a of the solar cell module 105-1 sandwiched between the module supporting channel portions 212 of the module frame 210, .

According to a preferred aspect of the present invention, the module support channel groove portion 224 has a discharge port portion 224a on one side (at the upper edge according to an embodiment) so as to discharge foreign matter including water.

According to another preferred aspect of the present invention, the solar cell module frame assembly according to the preferred embodiment of the present invention further comprises an L-shaped corner key member (230).

The L-shaped corner key member 230 is a means for preventing a deviation between a pair of the module frames 210 that meet at right angles and suppressing the occurrence of a step between the module frames 210. The L- And is formed of a flat plate formed.

The L-shaped corner key member 230 includes a first corner key 230a and a second corner key 230a formed to extend perpendicularly from the first corner key 230a on the same plane as the first corner key 230a. And a portion 230b.

The L-shaped corner key member 230 is inserted into one of a pair of horizontal and vertical module frames 210 where the first corner key portion 230a meets at right angles to each other through the corner piece 220, In other words, the second corner key portion 230b is inserted into the other one of the pair of the module frames 210 through the corner pieces 220. [

Each of the module frames 210 includes a corner key engaging channel portion 213 to which the L-shaped corner key member 230 can be inserted and coupled to one side.

11 or 12, the corner key coupling channel portion 213 includes a channel base wall 213a which is also a channel side wall of the C-type channel portion 211, a channel base wall 213a which is a channel side wall of the C- And a separation preventing protrusion 213c extending inwardly in parallel with the channel base wall 213a from the channel side wall 213b and the channel side wall 213b formed at the ends at right angles.

14, the corner piece 220 corresponds to the shape of the L-shaped corner key member 230 so that the central intersection of the L-shaped corner key member 230 can be inserted and supported. And a corner key supporting portion 223 having a groove portion 223a formed therein.

A method of assembling the solar cell module frame assembly according to a preferred embodiment of the present invention constructed as described above with reference to FIGS. 16 and 17 will be described.

First, a single solar cell module 105-1 as shown in FIG. 9 or 10, two horizontal module frames 210 for supporting the solar cell module 105-1 at the top and bottom, respectively, Two longitudinal module frames 210, four corner pieces 220 and four L-shaped corner key members 230 for supporting the solar cell modules 105-1 on both sides are prepared.

Next, the center piece of the L-shaped corner key member 230 is inserted into the groove portion 223a of the corner key supporting portion 223 of the corner piece 220 to thereby insert the corner piece 220 and the L-shaped corner key member 230, Make four assemblies.

Next, the assembly of the assembled four corner pieces 220 and the L-shaped corner key member 230 and the two transverse module frames 210 will be described.

One of the first insertion body portion 221 and the second insertion body portion 222 of the corner piece 220 is inserted into the C-type channel portion 211 at both ends of the two transverse module frames 210 The first corner key portion 230a and the second corner key portion 230b of the L-shaped corner key member 230 are coupled to the corner key combining channel portion 213 of each of the transverse module frames 210 .

16 or 17, two intermediate module frames 210 for supporting the solar cell module 105-1 at the top and the bottom, respectively, Two sets of two L-shaped corner key member 230 assemblies are obtained per two corner pieces 220 and the transverse module frame 210. These two sets of intermediate assemblies are referred to as transverse module assemblies.

Next, a pair of vertical module frames 210 are assembled to the left side portion and the right side portion of the solar cell module 105-1. The assembling can be performed by sandwiching both side edges of the solar cell module 105 in the module supporting channel portion 212 of the pair of vertical module frames 210. Such an intermediate assembly will be referred to as a vertical module assembly.

Next, two sets of transverse module assemblies assembled as described above are assembled to a vertical module assembly of a pair of vertical module frames 210 and the solar cell module 105.

That is, the upper and lower surfaces of the solar cell module 105-1 are fitted to the module supporting channel portion 212 of the module frame 210 of the two sets of the horizontal module assemblies.

In addition, in the upper and lower C-channel portions 211 of the pair of vertical module frames 210, the first insertion body portion 221 and the second insertion body portion 221 of the assembled two sets of transverse module assemblies The other of the first corner key portion 230a and the second corner key portion 230b of the L-shaped corner key member 230 is inserted into the corner key combination of the vertical module frame 210 And inserted into the channel portion 213.

Thus, the assembling of the solar cell module frame assembly and the solar cell module 105-1 according to the present invention is completed.

The operation and effect of the solar cell module frame assembly according to a preferred embodiment of the present invention will now be described.

In the solar cell module frame assembly according to the present invention, the module frame 210 includes a pair of first insertion body portions 221 formed at right angles to the longitudinal direction of the module frame 210 and formed at right angles to each other, And a corner piece 220 having a second insertion body part 222 are inserted into a C-shaped channel part of a pair of module frames 210 which are perpendicular to each other. Accordingly, it is difficult to precisely secure the 45-degree cut surface at 45 degrees with respect to the longitudinal direction of the end surface, and since the end surfaces must be assembled to form a right angle, the solar cell module frame As compared with the assembly, the occurrence of defective products such as a step and a widening phenomenon at the time of assembling the module frame 210 can be remarkably reduced, and the occurrence of the step and widening phenomenon can be significantly reduced even in the installed state, The effect can be obtained.

In the solar cell module frame assembly according to the present invention, four corners 105-1a of the solar cell module 105-1 are formed in a round shape, and the corner pieces 220 are formed in the first insertion body portion 221, And a module supporting channel groove portion 224 formed as a round channel groove so as to insert the corner 105-1a of the round solar cell module 105-1 at a portion where the second insertion body portion 222 intersects The corner 105-1a of the solar cell module 105-1 can minimize the occurrence of a phenomenon that the solar cell module 105-1 is damaged during transportation, It is possible to obtain an effect that it can be supported by the supporting member 220.

In the solar cell module frame assembly according to the present invention, the L-shaped corner key member 230 includes a first corner key portion 230a and a second corner key portion 230b formed on a flat flat surface (That is, the angle formed between the first corner key portion 230a and the second corner key portion 230b is formed as one plane that is flat at 0 degree), and the first corner key portion 230a is a pair of modules The second corner key portion 230b is inserted into one of the pair of module frames 210 so that the pair of module frames 210 are prevented from being separated from each other at a right angle And the occurrence of a step between the module frames 210 can be suppressed.

In the solar cell module frame assembly according to the present invention, each of the module frames 210 includes a corner key engaging channel portion 213 which can be inserted into one side of the L-shaped corner key member 230, The corner piece 220 has a corner portion 223a having a groove portion 223a formed corresponding to the shape of the L-shaped corner key member 230 so as to insert and support the center intersection of the L- The L-shaped corner key member 230 can be held in the corner key supporting portion 223 of the corner piece 220 and supported by the first corner key portion 230 of the L- The first corner key portion 230a and the second corner key portion 230b are inserted into the corner key coupling channel portion 213 of the module frame 210 to thereby prevent the pair of module frames 210, It is possible to obtain the effect of suppressing the occurrence of the step difference between the frames 210.

In the solar cell module frame assembly according to the present invention, a pair of the first insertion body portion 221 and the second insertion body portion 222 of the corner piece 220 are provided on both sides of the upper surface and the lower surface, respectively, Since the inclined barb 221a and the inclined barb 222a are provided on the C-type channel portion 211 of the module frame 210, the first insertion body portion 221 or the second insertion body portion 222 can be inserted into the C- The draw in the opposite direction becomes difficult, so that the effect that the module frames 210 can be firmly coupled by the corner pieces 220 can be obtained.

100: solar cell module frame assembly 105: solar cell module (prior art)
105-1: Solar cell module (the present invention) 105-1a: Corner
110: module frame 110a:
110b: module supporting channel part 110c: inclined section
120: Corner piece
120a: first insertion portion 120a1: inclined barb
120b: second insertion portion 120b1: oblique barb
210: module frame 211: C-type channel section
211a: channel base wall 211b: channel side wall
211c: separation preventing protrusion 212: module supporting channel part
213: corner key coupling channel portion 213a: channel base wall
213b: channel-side wall 213c:
220: a corner piece 221: a first insertion body portion
222: second insertion body portion 223: corner key support portion
223a: groove portion 224: module supporting channel groove portion
224a: outlet portion 230: L-shaped corner key member
230a: first corner key portion 230a1: inclined surface
230b: second corner key portion 230b1: inclined surface

Claims (5)

In a solar cell module assembly,
A solar cell module in which the solar energy is converted into electric energy, and the corners of the solar cell module where the horizontal portion and the vertical portion meet are rounded;
Shaped end portions of the C-shaped channel portion are formed at right angles to the longitudinal direction, and each of the C-shaped channel portions (C-shaped channel portion) A plurality of module frames each having a module supporting channel portion formed extending from a channel portion; And
And a pair of insertion body portions which are press-fitted into the C-shaped channel portions of the pair of module frames and formed at right angles to each other in both directions so as to couple a pair of the module frames that meet at right angles, And a corner piece having a module supporting channel groove portion with an edge rounded to support the corner. The method according to claim 1,
The module frame being formed on a flat flat surface and partially inserted through one of the pair of corner pieces into one of the pair of module frames so as to prevent deviation between a pair of orthogonally intersecting module frames, And an L-shaped corner key member, the other of which is inserted into the other one of the pair of module frames through the corner piece. 3. The method of claim 2,
Wherein each of the module frames includes a corner key engaging channel portion capable of engaging with the L-shaped corner key member at one side thereof,
And the corner piece includes a corner key supporting portion having a groove portion formed corresponding to the shape of the L-shaped corner key member so as to support and insert the central intersection of the L-shaped corner key member. Assembly. The method according to claim 1,
When the insertion body portion is press-fitted into the C-shaped channel portion of the module frame in one direction, it is difficult to pull out the insertion body portion in the opposite direction, and each of the pair of insertion body portions has a plurality of inclined barbs on the upper surface and the lower surface A solar cell module frame assembly. The method according to claim 1,
Wherein the module support channel recess of the corner piece is disposed in communication with the module support channel portion of the module frame.

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