KR101868298B1 - Photovoltaic power generating apparatus - Google Patents

Abstract

The present invention relates to a solar power generator for a veranda installed in the veranda (V) of a public house provided with a guardrail (F). The solar power generator includes a pair of posts (10, 110) supported on the guardrail (F); a plurality of support frames (20, 120) installed on the pair of posts (10, 110), respectively, and having first and second fitting grooves facing upper and lower sides, respectively; and a solar cell module (30) interposed between the first and second fitting grooves and coupled to the support frame (20, 120). It is possible to realize a comfortable living environment.

Description

[0001] PHOTOVOLTAIC POWER GENERATING APPARATUS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a veranda solar power generation apparatus, and more particularly, to a veranda solar power generation apparatus that can be easily installed on an existing veranda.

Photovoltaic power generation is a power generation method that converts solar light directly into electric energy using a plurality of solar modules. Since there is no pollution such as air pollution, noise, heat, and vibration, maintenance is easy, It is attracting attention as an energy source. Since these solar power generation units are mainly operated in the past government or local governments because of small-scale power generation, many individuals have installed solar power generation facilities on their roofs.

On the other hand, as the use of electronic household appliances gradually increases and household appliances such as a refrigerator or a TV become larger, the amount of power consumed is increased compared with the past, and the electricity is excessively generated by the progressive agent according to the usage strategy amount .

Accordingly, there is a growing interest in small-sized photovoltaic devices for the purpose of reducing electricity consumption, and recently, small-sized photovoltaic devices capable of being installed on the veranda of public housing such as apartments have been introduced.

The photovoltaic power generation device installed on the veranda basically supplies a large solar cell module to the electric power by fixing the solar cell module on a railing using a bracket and then generating electricity and charging the electricity to the battery after use or by bridging with a used electric power line, As a result, the amount of power consumed can be reduced. A prior art related thereto is disclosed in Patent Registration No. 10-1621315 entitled " Photovoltaic panel mount for veranda installation ".

However, when the solar cell module is installed on the railing, the solar cell module completely covers the field of view, so the residents are made to tolerate the decrease in visibility.

Also, since many people live in apartments, if the solar panel is not firmly fixed to the veranda, it can fall due to wind or self-weight, which can lead to serious accidents.

It is an object of the present invention to provide a veranda photovoltaic power generation apparatus which can realize a comfortable living environment by securing a view through a railing even when installed on a railing of a veranda .

It is another object of the present invention to provide a verandah solar power generation apparatus which can be easily installed on the railing of a veranda, thereby improving the workability.

In order to achieve the above object, a veranda solar power generating apparatus according to an embodiment of the present invention is installed in a veranda (V) of a public house in which a guardrail (F) is installed, A pair of posts 10; First and second fitting ends 21 and 22 provided on the pair of posts 10 and having first and second fitting grooves 21a and 22a facing the upper and lower sides, A support frame 20 having a stepped intermediate end 23 connecting the first and second end fittings 21 and 22 and a rear wing 25 connected to the rear end of the stepped intermediate end 23; And a plurality of solar battery cells 20 which are joined to the support frame 120 by being sandwiched by the first and second fitting grooves 21a and 22a and joined to the back surface of the tempered glass 31 by the resin layer 32. [ And a solar cell module (30) which is implemented by being finished with a finishing edge (35) for closing an edge of the tempered glass (31); The post 10 includes a main post body 11 closely attached to the handrail F and a handrail fixing part 12 mounted on the main post body 11 and fixed by fixing the handrail F, A main post body 11 and a main post body 11 and a main post body 11 and a sub post body 14. The main post body 11 and the sub post body 14 are provided with a sub- And a plurality of straddle rings (15) coupled to each other. .

In the present invention, in the support frame 20, the first and second fitting ends 21 and 22, the step difference end 23, and the connecting wing 24 are integrally formed by extrusion- do.
In order to achieve the above object, another embodiment of the verandah solar power generation apparatus according to the present invention is applied to a veranda (V) of a public house provided with a guardrail (F) A pair of posts (110); First and second fitting ends 121 and 122 formed in the pair of posts 110 and having first and second fitting grooves 121a and 122a facing the upper and lower sides, A support frame 120 having a stepped intermediate end 123 connecting the first and second end portions 121 and 122 and a fixing bracket 125 connected to the rear side of the stepped intermediate end 123; And a plurality of photovoltaic cells (not shown) bonded to the back surface of the tempered glass 31 by the resin layer 32, And a solar cell module (30) which is implemented by being finished with a finishing edge (35) for closing an edge of the tempered glass (31); The post 110 includes a main post body 111 which is in close contact with the handrail F and a handrail fixing part 112 which is installed on the main post body 111 and is fixed by fixing the handrail F, A main post body 114 coupled to the upper side of the main post body 111 and a main body body 111 formed on the main post body 111 and the sub post body 114 in the longitudinal direction, And a guide groove 115 in which the fixing bracket 125 is engaged so as not to be separated.
In the present invention, the support frame (120) First and second fitting ends 121 and 122 formed with the first and second fitting grooves 121a and 122a through which the solar cell module 30 is inserted; A stepped intermediate end 123 connecting the first and second fitting ends 121 and 122; And a fixing bracket 125 connected to the rear side of the stepped intermediate end 123 and engaged with the guide groove 115 to be separated from the guide groove 115.

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In the present invention, the first and second fitting ends 121 and 122 and the step difference side ends 123 of the supporting frame 120 are integrally formed by extruding a metal base material.

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According to the present invention, it is possible to securely and safely assemble a plurality of support frames, in which a solar cell module is coupled to a pair of posts supported on a veranda F, in particular, by employing a plurality of support frames, .

In addition, it is possible to secure a view through the railing when the installation is installed on the railing, thereby realizing a comfortable living environment.

In addition, since the support frame is formed by cutting a long extruded support frame base material to a required size, the support frame has general versatility applicable to solar cell modules of various lengths.

In addition, the solar cell module can be made thinner in the overall thickness of the solar cell module by not employing the metallic reinforcing rim for reinforcement, which has been used in the conventional solar cell panel, and thus the weight of the support frame and the solar cell module assembly can be reduced So that even if a large number of posts are provided in the post, a solid support state can be maintained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view for explaining a solar power generator according to the present invention installed on a veranda;
FIG. 2 is a sectional view of a solar cell module employed in the photovoltaic device of FIG. 1,
Fig. 3 is a side view for explaining the first embodiment of the post and the support frame in the photovoltaic device of Fig. 1,
4 is a view for explaining the separation of the sub-post body from the main post body in FIG. 3,
Figure 5 is an excerpt from a first embodiment of the support frame of Figure 3,
Fig. 6 is an excerpt of the joint between the post and the support frame of Fig. 5,
Fig. 7 is a side view for explaining a second embodiment of the post and support frame in the photovoltaic device of Fig. 1; Fig.
FIG. 8 is a diagram for explaining the configuration extracted from the post of FIG. 7,
Fig. 9 is an excerpt of the joint between the post and the support frame of Fig. 8,
10 is a sectional view taken along the line XX 'in Fig. 9;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a verandah solar power generator according to the present invention will be described in detail with reference to the accompanying drawings.

In the following, what is referred to as "upper" or "upper" The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by terms. Terms are used only for the purpose of distinguishing one component from another. The singular expressions include plural expressions unless the context clearly dictates otherwise. Also, when an element is referred to as "comprising ", it means that it can include other elements as well, without departing from the other elements unless specifically stated otherwise. Also, the terms "part," "module, " and the like, which are described in the specification, refer to a unit that processes at least one function or operation.

FIG. 1 is a view for explaining a solar power generating apparatus according to the present invention installed on a veranda, and FIG. 2 is a sectional view of a solar cell module employed in the solar power generating apparatus of FIG.

As shown in the figure, the veranda photovoltaic power generating apparatus according to the present invention is installed in a veranda (V) of a public house in which a guardrail F is installed and includes a pair of posts 10 )Wow; A plurality of support frames 20 and 120 provided on the pair of posts 10 and 110, respectively, the first and second fitting grooves facing the upper and lower sides, respectively; And a solar cell module 30 sandwiched between the first and second fitting grooves and coupled to the support frame 20 (120).

2, the solar cell module 30 includes a plurality of solar cells 33 connected in series by a resin layer 32 on the back surface of the tempered glass 31, 33, and the edge of the tempered glass 31 is finished with a finishing edge 35. The back sheet 34 is attached to the back surface of the reinforcing glass 31,

That is, the solar cell module 30 does not adopt the metal-material reinforcing rim for reinforcement, which is used in the conventional solar cell panel, so that the total thickness of the solar cell module 30 is smaller than the thickness of the closing frame 35 It corresponds to only about 7mm corresponding. In addition, the solar cell module 30 is realized by arranging the solar cell cells in a single row, and by not employing a metal material reinforcing frame for reinforcement, it is possible to reduce the total weight.

FIG. 3 is a side view for explaining the first embodiment of the post and the support frame in the photovoltaic device of FIG. 1, and FIG. 4 is a cross-sectional view for explaining the separation of the sub- Fig. 5 is an excerpt of a first embodiment of the support frame of Fig. 3, and Fig. 6 is a drawing showing a joint portion between the post and the support frame of Fig.

As shown in Figs. 3 and 4, the first embodiment of the post 10 includes a main post body 11 which is in close contact with the handrail F; A handrail fixing part 12 installed on the main post body 11 and fixed by fixing a handrail F; An outer wall fixing part 13 for supporting the lower side of the main post body 11 and fixed to the outer wall on the lower side of the handrail F; A sub-post body 14 that protrudes and retracts toward the upper side of the main post body 11; And a plurality of staking rings (15) installed on the main post body (11) and the sub - post body (14).

The main post body 11 extends from the upper end of the handrail F to the lower outer wall on the lower side of the handrail F. [ The main post body 11 is fixed to the upper side of the handrail F by the handrail fixing portion 12 and fixed to the lower outer wall of the lower side of the handrail F by the outer wall fixing portion 13.

The parapet fixing part 12 may be embodied in various forms. In the present embodiment, as shown in FIG. 3, the parapet fixing part 12 is embodied as a clamp which is mounted at the top of the handrail F and encloses it.

The outer wall fixing portion 13 fixes the lower side of the main post body 11 to the outer wall B under the handrail F. [ As shown in FIG. 3, the bracket of the "A" type is fixed to the outer wall B to support the lower end of the main post body 11 .

The sub-post body 14 is mounted on the main post body 11 so as to protrude above the rail F and to mount the solar cell module on the upper side of the rail F. The sub-post body 14 is fixed to the main post body 14 in a state where the sub-post body 14 is protruded and retracted by the position fixing end 16 provided at the upper end of the main post body 11. For example, (Not shown) of the sub-post body 14 is inserted into a fitting hole (not shown) of the sub-post body 14 partially inserted into the main post body 11 to fix the sub-post body 14.

As shown in FIG. 6, the straddle loop 15 is mounted on the front side of the main post body 11 and the sub-post body 14 at regular intervals, So that the cross section has an L shape.

On the other hand, the main post body 11 extends from the top of the handrail F to the outer wall B below the handrail F, and the sub-post body 14 protrudes to the upper side of the handrail F, It is possible to provide a relatively large number of stitching rings 15 in the body 11 and the sub-post body 14. In the present embodiment, four stagger rings 15 are provided at the portion corresponding to the handrail F, two staves are provided at the outer side wall B on the lower side of the handrail F, and one stitch is provided at the sub- 7 are installed.

The first embodiment of the support frame 20 includes first and second fitting ends 21a and 22a formed with first and second fitting grooves 21a and 22a in which the solar cell module 30 is inserted, 21) 22, a stepped intermediate end 23 connecting the first and second end portions 21, 22 and a stepped intermediate end 23 connected to the rear side of the stepped intermediate end 23, And a connecting wing (25) coupled thereto.

The stepped intermediate end 23 connects the first and second fitting ends 21 and 22 in a stepwise manner and is formed in the first and second fitting recesses 21a and 22a, A cable space S is formed on the lower side of the solar cell module 30 when the module 30 is inserted and joined. The cable space S can accommodate and store the cable electrically connected to the solar cell module 30 invisibly from the outside.

The support frame 20 can be easily installed on the main post body 11 and the sub post body 14 by placing the stitching wings 25 on each of the stitching rings 15 of the post.

5, a position guide groove 26 is formed along the longitudinal direction of the hanging blade 25. The position guide groove 26 allows the operator to place the hanging blade 25 at the correct position The fastening holes 25a can be easily formed.

6, fastening holes 25a, 15a, 11a and 14a are formed in the fastening wing 25, the fastening hook 15, the main post body 11 and the sub post body 14, And a fixing member R such as a bolt can be fastened to the fastening holes 25a, 15a, 11a, and 14a. In this case, since the engaging wings 25 are once again fixed to the fixing member R in a state of being mounted on the stitching rings 15, even if an external force due to wind or vibration is constantly applied, 10).

In the first embodiment of the support frame 20, the first and second end portions 21 and 22, the stepped intermediate end 23, and the interposed vane 24 are formed by extruding a metal base material such as aluminum And the extruded support frame base material corresponding to the length of the solar cell module 30 is cut to an appropriate length and used. That is, since the support frame 20 is used by cutting a long-extruded support frame base material into a required size, it can be applied to a solar cell module having a long or short length.

FIG. 7 is a side view for explaining a second embodiment of the post and support frame in the photovoltaic device of FIG. 1, FIG. 8 is a view for explaining the configuration by extracting the post of FIG. 7, 8, and FIG. 10 is a cross-sectional view taken along the line XX 'in FIG. 9. FIG.

As shown in Fig. 7, the second embodiment of the post 110 includes a main post body 111 which is in close contact with the handrail F; A handrail fixing part 112 installed on the main post body 111 and fixed by fixing a handrail F; An outer wall fixing part 113 for supporting the lower side of the main post body 111 and fixed to the outer wall B on the lower side of the handrail F; A sub-post body 114 coupled and fixed to an upper side of the main post body 111; And a guide groove 115 formed in the main post body 111 and the sub-post body 114 to be elongated in the longitudinal direction.

Here, the main post body 111, the parapet fixing part 112 and the outer wall fixing part 113 are formed of the main post body 11, the parapet fixing part 12 and the main post body 11 explained in the first embodiment of the post 10, The outer wall fixing portion 13 has substantially the same configuration as that of the outer wall fixing portion 13, and thus a detailed description thereof will be omitted.

The sub-post body 114 is coupled to the upper side of the main post body 111 so as to extend to the upper side of the rail F and to mount the solar cell module on the upper side of the rail F. One of the main post body 111 and the sub-post body 114 has a fitting groove and the other of the main body 111 and the sub-post body 114 has a fitting protrusion . In this embodiment, the fitting protrusion 111a is formed on the upper side of the main post body 111 and the fitting groove 114a is formed on the lower side of the sub-post body 114. [

The guide groove 115 is a slot formed in the longitudinal direction on the front side of the cylindrical main post body 111 and the sub post body 114. The guide groove 115 includes a main post body 111 and a sub- (114b) formed in the inner wall (114).

The second embodiment of the support frame 120 includes first and second fitting ends 121a and 122a formed with first and second fitting grooves 121a and 122a into which the solar cell module 30 is inserted, 121) 122, a stepped intermediate end 123 connecting the first and second fitting ends 121, 122 and the stepped intermediate end 123, (Not shown).

The first and second fitting ends 121 and 122 and the step difference feeding end 123 are formed integrally with the first and second fitting ends 21 and 22 described in the first embodiment of the supporting frame 20, The support frame base material is formed integrally by extrusion molding of a metal base material such as aluminum and is extruded corresponding to the length of the solar cell module 30, .

The fixing bracket 125 is for fixing the support frame 120 to the guide groove 115 and has a connection end 125a connected to the rear surface of the step difference intermediate end 123 and a connection end 125a connected to the main post body 111 and the sub- And a connecting blade 125b for connecting the connecting end 125a and the hooking end 125b through the guide groove 115 and a connecting blade 125b for connecting the connecting end 125a and the hooking end 125b through the guide groove 115, 125c. At this time, the width of the hook member 125b is larger than the width of the linking vane 125c so that the hook member 125b is not separated through the guide groove 115 in a state where the hook member 125b is sandwiched by the hooking spaces 111b and 114b do.

8, when a plurality of hook members 125b are inserted into the hooking space 111b, a spacing member 126 for separating the hook member 125b from the other hook members is inserted. . In this case, in this case, since the plurality of hook members 125b interposed in the hooking space 111b can keep the support frames connected to the respective hooking ends separated from each other, the solar cell module can be exposed to sunlight for a long time .

The fixing bracket 125 may be integrally formed when the support frame is formed, or may be separately manufactured and connected to the stepped intermediate end 123 with bolts.

A separate cap C is attached to both ends of the support frame 20 and 120 so that the solar cell module 30 is not detached after the solar cell module 30 is inserted into the support frames 20 and 120. [ .

As described above, according to the present invention, it is possible to firmly and safely assemble a plurality of support frames 20 and 120 having solar cell modules 30 coupled to a pair of posts 10 and 110 supported by a veranda F In particular, the use of the plurality of support frames 20 and 120 makes it possible to generate a relatively large capacity.

In addition, it is possible to secure a view through the railing when the installation is installed on the railing, thereby realizing a comfortable living environment.

In addition, since the support frame is formed by cutting a long extruded support frame base material to a required size, the support frame has general versatility applicable to solar cell modules of various lengths.

The entire thickness of the solar cell module 30 can be made thin by not using the metallic material reinforcing rim for reinforcing which is used in the conventional solar cell panel, The assembly of the solar cell module 120 and the solar cell module 30 can be lightened, so that even if a plurality of the posts are installed in the posts 110 and 110, the solid state support can be maintained.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10 ... the first embodiment of the post
11 ... main post body 11a ... fastener
12 ... railing fixing portion 13 ... outer wall fixing portion
14 ... Sub-post body 14a ... fastener
15 ... Hanging ring 15a ... Fastening hole
20 ... First Embodiment of Support Frame
21, 22 ... First and second fitting portions 21a, 22a ... First fitting groove
23 ... step difference mediator 25 ... hanging wing
25a ... fastening hole 26 ... position guide groove
110, .. The first embodiment of the post
111 ... main post body 111a ... fitting projection
111b ... straddling space 112 ... railing fixing portion
113 ... outer wall fixing portion 114 ... sub-post body
114a ... fitting groove 114b ... straddling space
115 ... Guide groove
120 ... First Embodiment of Support Frame
121, 122 ... First and second fitting portions 121a, 122a ... First fitting groove
123 ... stepped intermediate stage 125 ... fixed bracket
125a ... Connection end 125b ... Girls group
125c ... connecting wing
30 ... solar cell module 31 ... tempered glass
32 ... resin layer 33 ... solar cell
34 ... back sheet 35 ... finish border

Claims (9)

A pair of posts (10) mounted on a veranda (V) of a public house provided with a guardrail (F), the pair of posts being supported by the guardrail (F);
First and second fitting ends 21 and 22 provided on the pair of posts 10 and having first and second fitting grooves 21a and 22a facing the upper and lower sides, A support frame 20 having a stepped intermediate end 23 connecting the first and second end fittings 21 and 22 and a rear wing 25 connected to the rear end of the stepped intermediate end 23; And
A plurality of solar cells (not shown) bonded to the back surface of the tempered glass 31 by the resin layer 32 33 and a finishing frame 35 for finishing an edge of the tempered glass 31;
The post 10 includes a main post body 11 closely attached to the handrail F and a handrail fixing part 12 mounted on the main post body 11 and fixed by fixing the handrail F, A main post body 11 and a main post body 11 and a main post body 11 and a sub post body 14. The main post body 11 and the sub post body 14 are provided with a sub- And a plurality of straddle rings (15) coupled to each other. delete delete The method according to claim 1, wherein in the support frame (20), the first and second fitting ends (21) and (22), the stepped intermediate end (23) Wherein the solar cell module is a solar cell module. A pair of posts (110) supported on the parapet (F) to be installed on a veranda (V) of a public house provided with a guardrail (F).
First and second fitting ends 121 and 122 formed in the pair of posts 110 and having first and second fitting grooves 121a and 122a facing the upper and lower sides, A support frame 120 having a stepped intermediate end 123 connecting the first and second end portions 121 and 122 and a fixing bracket 125 connected to the rear side of the stepped intermediate end 123; And
A plurality of solar cells (not shown) bonded to the back surface of the tempered glass 31 by the resin layer 32, which is sandwiched by the first and second fitting grooves 121a and 122a and is coupled to the support frame 120 33 and a finishing frame 35 for finishing an edge of the tempered glass 31;
The post 110 includes a main post body 111 which is in close contact with the handrail F and a handrail fixing part 112 which is installed on the main post body 111 and is fixed by fixing the handrail F, A main post body 114 coupled to the upper side of the main post body 111 and a main body body 111 formed on the main post body 111 and the sub post body 114 in the longitudinal direction, And a guide groove (115) in which the fixing bracket (125) is engaged so as not to be detached. delete 6. The apparatus according to claim 5, wherein the fixing bracket (125) comprises:
A connecting end 125a connected to a rear surface of the stepped intermediate end 123 and a connecting portion 125b engaged with the connecting space 111b 114b of the main post body 111 and the sub- And a connecting blade 125c connecting the connecting end 125a and the hooking end 125b through the guide groove 115. The veranda photovoltaic power generation apparatus of claim 1, 6. The method of claim 5,
Wherein the first and second fitting ends (121) and (122) and the step difference end (123) of the support frame (120) are integrally formed by extruding a metal base material. delete

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