KR102334510B1 - Louver windows for solar photovoltaic with improved assemblability - Google Patents

Abstract

Disclosed is a solar photovoltaic louver window system with improved assemblability. The solar photovoltaic louver window system with improved assemblability comprises: a frame part in which respective vertical frames provided on both sides thereof and arranged vertically at a distance and respective horizontal frames arranged horizontally at the top and bottom are mutually coupled to form a window frame; a louver support including rotating supports having a plurality of rotating support holes and respectively coupled to the vertical frames, and fixed supports respectively coupled to the horizontal frames; and a plurality of louvers each including a louver frame having a photovoltaic module, and a pair of closing members rotatably coupled to the rotating support holes. The louver frame is integral, has panel coupling grooves formed on both widthwise sides of the outer side thereof facing the exterior to face each other, and allowing the solar panels of the photovoltaic module to be inserted thereinto in a longitudinal direction to be coupled, and has avoidance grooves formed at the center of the outer side in a longitudinal direction to be opened at both sides thereof so that junction boxes provided on the rear surfaces of the solar panels avoid the solar panels when the solar panels are inserted and coupled to the panel coupling grooves.

Description

LOUVER WINDOWS FOR SOLAR PHOTOVOLTAIC WITH IMPROVED ASSEMBLABILITY}

The present invention relates to louver windows for solar power generation with improved assembly, and more particularly, it is possible to easily mount a solar panel to each louver constituting the louver window, and the wiring of each solar panel is It is possible to cover so as not to be exposed to the outside and relates to a louvered window for solar power generation with improved assembly and easy maintenance.

In general, louver-type windows are commonly used in ventilation windows. Such ventilation windows are installed for the purpose of ventilation in the air conditioner outdoor unit room provided on the veranda of an apartment building, a commercial building in a residential and commercial complex, and a machine room on the roof of the apartment building.

In recent years, louver windows equipped with solar power generation modules that each install a solar power module on the louver of a louver and operate the louver using electricity generated from each photovoltaic power module or use it at home. is initiated

As a prior art, Korean Patent Registration No. 10-1853189 (announced date: 2018, 04, 27) discloses a louvered window equipped with a solar power module louver. A louver window with a solar power module louver includes a frame frame having a rectangular frame of a certain length, a plurality of louvers installed inside the frame to shield external air, and a louver at both ends of the louver. A bracket for facilitating rotation is installed in the insertion hole of the frame opposite to each other, and the rotation shaft on one side of the bracket rotatably penetrates the fixing plate inside the frame to control the vertical reciprocating motion of the two load bars. It is configured to include an operating means coupled to the rotation cap, and a solar power module louver installed in the installation groove of the bracket.

According to the louver window having such a photovoltaic power module louver, by installing a plurality of photovoltaic power module louvers on the louver window, respectively, using the electricity generated therefrom, the louver can be operated or a useful effect that can be used in the home is provided could be

However, the solar power module louver according to the prior art has a problem in that it is easily damaged due to the low durability because the solar power module louver itself serves as a louver. In other words, by using the solar panel itself made of glass or the like as a narrow and long louver, there was a problem that the louver could be easily damaged by an external force.

In addition, since both ends of the solar power module louver are configured to be coupled to the bracket, there is a problem in that the connection portion for connecting the electric wire and each element is exposed to the outside, thereby damaging the aesthetics.

In addition, since the wires connecting each louver are wired into the inside of the vertical frame, there is a very inconvenient problem in that it is very inconvenient to repair or replace the wires.

. Republic of Korea Patent No. 10-1853189 (Announcement Date: 2018,04,27)

An object of the present invention is to easily mount a photovoltaic module including a photovoltaic panel on each louver constituting a louvered window to protect it safely, and to cover the wiring of each photovoltaic module so that it is not exposed to the outside, It is to provide a louvered window for solar power generation that is easy to maintain.

Another object of the present invention is to provide a louvered window for photovoltaic power generation with improved assembly of a photovoltaic module and a louver.

In addition, the problem to be solved by the present invention is not limited to the technical problems mentioned above, and other technical problems not mentioned are clearly to those of ordinary skill in the art to which the present invention belongs from the description below. can be understood

The above object, according to the present invention, each vertical frame arranged vertically by maintaining a distance from each other on both sides and each horizontal frame arranged horizontally on the top and bottom are coupled to each other to form a frame portion of the window; A louver support comprising a plurality of rotation support holes formed therein, a rotation support each coupled to the vertical frame, and a fixed support member coupled to the horizontal frame, respectively; A louver frame having a photovoltaic module and a plurality of louvers comprising a pair of closing members coupled to both sides of the louver frame and rotatably coupled to the rotation support hole, the louver frame being integral is formed, and on both sides of the width direction of the outer surface facing the outdoors, panel coupling grooves for inserting and coupling the solar panels of the photovoltaic module in the longitudinal direction are formed to face each other, and in the center of the outer surface, the When the solar panel is inserted into the panel coupling groove and coupled, the avoidance groove for avoiding the junction box provided on the rear surface of the solar panel is formed so that both sides are opened along the longitudinal direction. This is achieved by louvered windows for solar power generation.

The vertical frame, the first support portion and the second support portion form a "┏" shape, one side of the louver support is coupled to the end of the second support portion, and between the first support portion and the second support portion and the louver support , a wiring space open toward the interior is formed, and the wiring space is formed to have a width greater than the width of the first support part, and may be configured to be selectively opened and closed by a wiring cover.

In the louver support coupled to the horizontal frame, a portion of the fixed louver disposed on the upper and lower portions of the louver window may be inserted and supported, and a louver fixing groove may be formed in the longitudinal direction of the louver support.

In the closing member, the first coupling part and the second coupling part are integrally formed in a "┏" shape, and coupling protrusions for insertion into coupling holes respectively formed through the louver frame on the surface of the second coupling part are fastened. Each of the balls is formed to protrude, and a wiring hole for passing an electric wire connected to the junction box is formed through the center of the first coupling portion, and each of the locking projections is formed to protrude in the direction of the rotation support around the wiring hole. 1 finisher; and through-holes corresponding to the coupling protrusions are respectively formed, and the coupling protrusions are inserted into the coupling holes so that the first closing sphere is temporarily coupled to the end of the louver frame and fastened to the coupling holes through the through-holes. It consists of a second closing member coupled to the first closing member while surrounding the end of the louver frame by a fastening member that is It is formed, and at both ends, connecting protrusions for coupling with the respective actuating rods on both sides may be configured to be connected to the actuating rod by means of a connector respectively formed thereon.

The locking protrusions are made up of 3 to 4 so as to improve the coupling force with the connector, and are formed to protrude radially by maintaining a distance from each other around the wiring hole, and between the locking protrusions, each of the An anti-deformation device may be provided to maintain the coupling force with the connector in a state in which the locking protrusion is not deformed.

The deformation prevention device, the support portion having a through hole in the center; and each insertion end formed extending from the support and inserted between the locking projections located in the locking hole.

According to the present invention, it is possible to provide an effect of maintaining a safe and stable coupling state by being coupled to the panel coupling groove of the louver frame in which the solar panel of the solar power module is integrally formed.

In addition, since the avoid grooves are formed in the louver frame so that both sides are open along the longitudinal direction, the interference of the junction box does not occur when the solar panel is slid to the panel coupling groove to be coupled, and both sides of the avoid grooves are opened. As a result, the coupling direction of the solar panel becomes free, and it is possible to provide the effect that the assembly workability of assembling the solar power module to the louver can be improved.

In addition, since the wires of each solar power module are wired in the wiring space provided in the frame, the exposure of the wires can be prevented, and the wiring space is opened and closed by the wiring cover, thereby providing the effect that maintenance can be made easily. be able to

1 is an exploded perspective view of a louvered window for solar power generation with improved assembly according to the present invention.
FIG. 2 is a perspective view of a combined state showing louver windows for solar power generation with improved assembly properties shown in FIG. 1. FIG.
3 is a cross-sectional view taken along line AA of FIG. 2 .
4 is a cross-sectional view taken along line BB of FIG. 2 .
5 is a partially enlarged cross-sectional view showing the coupling structure of the closing member and the louver frame shown in FIG.
Figure 6 (a) is a partial exploded perspective view showing a deformation preventing mechanism for preventing the deformation of the locking projection shown in Figure 1, (b) is a state where the change prevention device is fitted between the locking projections. This is a partially enlarged cross-sectional view.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of already known functions or configurations will be omitted in order to clarify the gist of the present invention.

In this specification, the terminology used is for the purpose of describing the embodiments and is not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, the terms 'comprises' and/or 'comprising' do not exclude the presence or addition of one or more other components.

In this specification, when a certain element is referred to as being “connected” to another element, it may be directly connected to the other element, but it should be understood that another element may exist in the middle. On the other hand, when it is mentioned that a certain element is "directly connected" to another element, it should be understood that the other element does not exist in the middle.

In this specification, the terms used are only used to describe specific embodiments, and are not intended to limit the present invention.

In this specification, the singular expression includes the plural expression unless the context clearly dictates otherwise.

Among the accompanying drawings, FIG. 1 is an exploded perspective view of a louvered window for solar power generation with improved assembly according to the present invention, and FIG. 2 is a louvered window for solar power with improved assembly shown in FIG. It is a perspective view of a combined state shown. And, FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2 , and FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2 .

As shown in FIGS. 1 to 4, the louvered windows 100 for photovoltaic power generation with improved assembling properties are disposed vertically by maintaining a distance from each other on both sides of each vertical frame 112 and upper and lower portions. A frame portion 110 in which each horizontal frame 122 disposed horizontally is coupled to each other to form a frame of a window, a plurality of rotation support holes 212 are formed, and a rotation support that is respectively coupled to the vertical frame 112 . A louver support 200 comprising a fixed support 220 coupled to the 210 and the horizontal frame 122, respectively, and a panel coupling groove 412 and an avoidance groove 414 so that the solar power module 300 is mounted. It includes a plurality of louvers 400 comprising a pair of closing members 420 coupled to both sides of the provided louver frame 410 and the louver frame 400 and rotatably coupled to the rotation support hole 212 . .

This will be described in more detail.

The frame unit 110 is for forming the frame of the louver window 100, and each vertical frame 112 is vertically disposed by maintaining a distance from each other on both sides, and each end is each vertical frame 112. It consists of each horizontal frame 122 coupled to each upper and lower end. Each vertical frame 112 and the horizontal frame 114 are coupled to each other to form a frame, whereby a space for the louver 400 to be installed is formed between each vertical frame 112 and the horizontal frame 114 .

The above-described vertical frame 112, as shown in FIG. 4, is extrusion-molded such that the first support portion 112A and the second support portion 112B form a “┏” shape. One side of the rotary support 210 constituting the louver support 200 is coupled to the end of the second support 112B, and between the first support 112A and the second support 112B and the rotary support 210 toward the interior. An open wiring space (S) is formed.

The wiring space S formed between the first support part 112A and the second support part 112B and the rotation support 210 is formed with a width W2 greater than the width W1 of the first support part 112A, , selectively opened and closed by the wiring cover 130 . The wiring space S can be easily opened and closed by the wiring cover 130 . In particular, since the width W2 of the wiring space S is formed larger than the width W1 of the first support part 112A, the operator puts a hand or a tool to connect the wires in the wiring space S, etc. This can be done easily without interference.

The coupling structure of the rotary support 210 and the wiring cover 130 will be described in detail with reference to FIG. 4 .

A fitting groove 112B-1 is formed on the inner longitudinal edge of the second support 112B, and a locking end 112B-2 protrudes from the inner surface. And on one edge of the rotation support 210, a fitting end 210A for fitting into the fitting groove 112B-1 is bent, and an extension end 210B is formed on the inner side of one side toward the locking end 112B-2. It is formed to be extended, and an engaging hook 210B-1 for being caught by the engaging end 112B-2 is formed at an end of the extended end 210B. Therefore, when the rotation support 210 is moved toward the second support 112B, the fitting end 210A is fitted in the fitting groove 112B-1, and the locking hook 210B-1 is caught in the locking end 112B-2. The rotation support 210 may be coupled to the second support 112B. And, by releasing the locking hook (210B-1) from the locking end (112B-2), the fitting end (210A) is pulled out from the fitting groove (112B-1), the rotation support body (210) from the second support (112B) can be separated.

And, a first hook groove 210B is formed on the opposite edge of the rotation support 210, and a second hook groove 112A-1 is formed on one edge of the first support portion 112A facing the wiring space (S). A first hook 132 for hooking into the first hook groove 210B in the longitudinal direction is formed on one edge of the wiring cover 130, and the second hook groove 112A-1 is formed on the opposite edge along the longitudinal direction. ) for hooking the second hook 134 is formed. Accordingly, by inserting the first hook 132 into the first hook groove 210B and the second hook 134 into the second hook groove 112A-1, the wiring cover 130 closes the wiring space S. can cover

The louver support 200 is for fixing and supporting the fixed louver and rotationally supporting the rotary louver, and a plurality of rotary support holes 212 are formed and the rotary support 210 coupled to the vertical frame 112, respectively, and the upper , Consists of a fixed support 220 that is respectively coupled to the opposite surfaces of the lower horizontal frame (122).

The fixed support 220 is, as shown in FIG. 3, coupled to the opposite surfaces of the upper and lower horizontal frames 122, respectively, and fixed non-rotating which is located at the lowermost and uppermost of the louvers 400 A part of the louver 450 is inserted and fixed. That is, the louver fixing groove 222 is formed in the longitudinal direction in the center of the fixing support 220 . Therefore, a portion of the width direction edge of the fixed louver 450 fixedly supported by both ends of the rotating support 210 is inserted into the louver fixing groove 222 to be fixedly supported. Due to this structure, the sealed state between the horizontal frame 122 and the fixed louver 450 is maintained, so that the inflow of foreign substances from the outside can be blocked.

A wiring space S is formed between the above-described fixed support 220 and the horizontal frame 122 , and the wiring space S is also opened and closed by the wiring cover 130 . In addition, the coupling structure of the fixed support 230 and the horizontal frame 122 and the horizontal frame 122 side wiring cover 130 is the above-described vertical frame 112, the rotating support 210 and the vertical frame 112 side wiring. It is the same as the coupling structure of the cover 130 .

The rotation support 210 is for rotationally supporting the finishing member 420 as described above, and a plurality of rotation support holes 212 are perforated at equal intervals in the center along the longitudinal direction. The rotation support hole 212 is for the locking projections 421E of the closing member 420 to pass through. On one surface (surface in contact with the wiring space) of the rotation support 210 , a pair of operation rods 460 are respectively disposed on both sides with the rotation support hole 212 interposed therebetween.

The louver 400 is coupled to both sides of the louver frame 410 and the louver frame 400 having a panel coupling groove 412 and an avoidance groove 414 so that the photovoltaic power module 300 is mounted, respectively, and rotates. It consists of a pair of closing members 420 rotatably coupled to the rotation support hole 212 of the support 210 .

Louver frame 410 is, on both sides of the width direction of the outer surface 411 facing the outdoors, the solar panel 310 of the solar power module 300 is inserted in the longitudinal direction panel coupling groove 412 for coupling. These are formed to face each other. And in the center of the outer surface 411, the junction box 320 provided on the rear surface of the solar panel 310 when the solar panel 310 is inserted and coupled while sliding into the panel coupling groove 412 is to be avoided. The avoiding groove 414 is formed so that both sides are opened along the longitudinal direction. The panel coupling groove 412 is formed on the outer surface 411 of the louver frame 410 so that the solar panel 310 can be coupled by sliding along the longitudinal direction of the louver frame 410, and in particular, the outer surface 411 ) The avoiding groove 414 in the center is wider than the width of the junction box 320 and is formed to be deeper than the thickness, and both sides are open, so that the solar panel 310 slides into the panel coupling groove 412 to be coupled. When the junction box 320 is located in the avoidance groove 414, interference does not occur and can be smoothly coupled by sliding. In addition, since both sides of the avoiding groove 414 have an open structure, the solar panel 310 can be coupled by sliding without interference from either side of the louver frame 410, so that assembly workability can be remarkably improved.

This louver frame 410 is integrally extrusion-molded, and when each louver 400 is erected on both edges in the width direction, overlapping grooves and overlapping protrusions for blocking the indoor and outdoor spaces are formed respectively. have In particular, since the louver frame 410 is integrally extruded and the panel coupling grooves 412 are formed on both sides in the width direction, a separate part for fixing the solar panel 310 is unnecessary.

The finishing member 420 is configured to include a first closing member 421 and a second closing member 422 that are coupled while surrounding both ends of the solar panel 310 as shown in FIGS. 4 and 5 . do.

The first closing sphere 421, the first coupling portion 421A and the second coupling portion 421B are integrally formed in a "┏" shape, and the louver frame 410 on the surface of the second coupling portion 421B. The coupling protrusions 421C for insertion into the coupling holes 416 that are respectively penetrated on both sides are respectively provided with the coupling holes 421C-1 and are formed to protrude, and the junction box 320 is located in the center of the first coupling part 421A. A wiring hole 421D for passing the wire W connected to the is formed through, and has a structure in which each locking protrusion 421E is formed to protrude in the direction of the rotation support 210 around the wiring hole 421D.

The second closing sphere 422 has a through hole 422A corresponding to the engaging protrusion 421C, respectively, the engaging protrusion 421C is inserted into the engaging hole 416, and the first closing sphere 421 is a louver. The first closing tool while surrounding the end of the louver frame 410 by the fastening member 470 fastened to the fastening hole 421C-1 through the through hole 422A in a state in which is coupled to the end of the frame 410. (421) is coupled. At this time, a boss for supporting the fastening member 470 penetrated around the through hole 422A of the surface facing the first closing member 421 is formed to protrude.

In this way, the closing member 420 is divided into a first closing member 421 and a second closing member 422, whereby the closing member 420 is coupled to the louver frame 410 to which the solar panel 310 is coupled. The work can be done easily.

And, when each louver 400 is erected in the upper region and the lower region of the finishing member 420, overlapping grooves and overlapping protrusions for blocking the indoor and outdoor spaces are respectively formed. That is, the overlapping grooves and overlapping protrusions formed in the louver frame 410 are formed in the same manner in the closing member 420 .

On the other hand, the locking protrusions 421E are formed to protrude radially by maintaining a distance from each other centering on the wiring hole 442 , so that the coupling force with the connector 440 is improved. At the outer end of each locking protrusion 421E, locking protrusions for hooking on the edge of the locking hole 442 of the connector 440 are formed, respectively.

And, between the locking protrusions 421E, as shown in FIGS. 6 (a) and (b), each of the locking protrusions 421E during the rotational operation of the connector 440 is in a non-deformed state of the connector ( A deformation prevention tool 490 is provided to maintain the bonding force with the 440 .

Deformation prevention tool 490, the support portion 492 having a through hole 492A in the center, and the support portion 492 extending in one direction to be inserted between the locking projections 421E positioned in the locking hole 442. each of the insertion ends 494 .

As shown in (b) of FIG. 6 , the insertion end 494 is fitted between each of the locking protrusions 421E in a state in which each of the locking protrusions 421E is caught in the locking hole 442 of the connector 440 . As a result, the movement of each of the locking projections 421E can be prevented, and deformation is prevented. Accordingly, in a state in which the closing member 420 and the connector 440 are coupled with the rotation support 210 interposed therebetween, the state in which the locking projections 421E are caught in the locking hole 442 can be firmly maintained. That is, the coupling force between the locking protrusion 421E and the connector 440 can be remarkably improved.

In addition, when the deformation preventing member 490 is pulled out between each of the locking projections 421E in order to separate the closing member 420 from the connector 440, the deformation of each of the locking projections 421E is smoothly made. (421E) can be easily separated from the engaging hole (442).

As shown in FIGS. 1, 4, and 6 of the accompanying drawings, the aforementioned connector 440 rotates and supports the locking protrusion 421E passing through the rotation support hole 212 formed in the rotation support 210 . and to transmit the rotational operating force of the louver 400 to each operation rod 460 . The connector 440 has a locking hole 442 for engaging and engaging after each locking protrusion 421E is fitted and formed in the center, and at both ends with the locking hole 442 as the center, both ends of the rotation support hole 212 as a center. Connection protrusions 444 for coupling with each operation rod 460 disposed on the are respectively formed. The connecting protrusions 444 are respectively fitted into the fitting holes formed in the operation rod 460 .

In this way, each of the locking projections 421E of the louver frame 410 and the coupled finishing member 420 is hooked on the locking hole 442 of the connector 440 and coupled, so that one louver 400 can be manually rotated. In this case, the other louvers 400 connected to the operation rod 460 may also rotate at the same angle, and even if any one connector 440 is automatically or manually rotated, all the louvers 400 connected to the operation rod 460 respectively. ) also rotates at the same angle.

As described above, the wiring space (S) is formed in the frame part 110 of the louvered window 100 for photovoltaic power generation, and the wiring space (S) can be opened and closed by the wiring cover 130 , so that the solar module Other maintenance work, including wiring work of the wires (W) for electrically connecting to the 300 and the system can be easily made, and the wires are not exposed to the outside.

In addition, since the louver frame 410 is integrally formed, a separate part for fixing the solar panel 310 is unnecessary, and an avoidance groove 414 is formed to connect the solar panel 310 to the panel coupling groove 412 . The junction box 320 provided on the rear surface of the solar panel 310 does not interfere when coupled by sliding to the solar panel 310, so that the assembly of the solar panel 310 to the louver frame 410 can be performed quickly and easily. have. In particular, by having a structure in which both sides of the avoidance groove 414 are opened, the solar panel 310 can be coupled to the louver frame 410 without being affected by the formation direction or the number of the junction boxes 320 .

In addition, in a state in which the locking protrusion 421E of the closing member 420 is caught in the locking hole 442 of the connector 440, the deformation preventing member 490 is fitted between each of the locking protrusions 421E. ) and the connector 440 and the solid coupling state can be maintained.

In the foregoing, specific embodiments of the present invention have been described and illustrated, but it is common knowledge in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. It is self-evident to those who have Accordingly, such modifications or variations should not be individually understood from the technical spirit or point of view of the present invention, and the modified embodiments should belong to the claims of the present invention.

100: louver window for solar power generation 110: frame part
110A: vertical frame 110B: horizontal frame
200: louver support 210: rotation support
220: fixed support 300: solar module
310: solar panel 320: junction box
400: louver 410: louver frame
420: finishing member 440: connector

Claims (6)

a frame portion in which each vertical frame disposed vertically by maintaining a distance from each other on both sides and each horizontal frame disposed horizontally at the top and bottom are coupled to each other to form a frame of the window; A louver support comprising a plurality of rotation support holes formed therein, a rotation support each coupled to the vertical frame, and a fixed support member coupled to the horizontal frame, respectively; A louver frame having a photovoltaic power module, and a plurality of louvers comprising a pair of closing members respectively coupled to both sides of the louver frame and rotatably coupled to the rotation support hole,
The louver frame is integrally formed, and on both sides of the width direction of the outer surface facing outdoors, panel coupling grooves for inserting and coupling the solar panels of the solar power module in the longitudinal direction are formed to face each other, In the center of the outer surface, when the solar panel is inserted into the panel coupling groove and coupled, an avoiding groove for avoiding a junction box provided on the rear surface of the solar panel is formed so that both sides are opened along the longitudinal direction,
The finishing member is
The first coupling part and the second coupling part are integrally formed in a "┏" shape, and coupling protrusions for insertion into coupling holes respectively penetratingly formed on both sides of the louver frame from the surface of the second coupling part are provided with coupling holes, respectively. a first closing tool formed to protrude, a wiring hole through which the electric wire connected to the junction box passes through the center of the first coupling part, and each locking protrusion is formed to protrude in the direction of the rotating support around the wiring hole; and
Through-holes corresponding to the coupling protrusions are formed, respectively, and the coupling protrusions are inserted into the coupling holes to be coupled to the fastening hole through the through-holes in a state in which the first closing sphere is temporarily coupled to the end of the louver frame. It consists of a second closing member coupled to the first closing member while surrounding the end of the louver frame by a fastening member,
In the closing member, a locking hole for engaging and engaging the locking protrusion passing through the rotational support hole is formed in the center, and at both ends, connecting protrusions for engaging with each of the respective actuating rods are formed at both ends. characterized by being
Louver windows for solar power generation with improved assembly. According to claim 1,
The vertical frame, the first support portion and the second support portion form a "┏" shape, one end of the louver support is coupled to the end of the second support portion,
Between the first support and the second support and the louver support, a wiring space open toward the interior is formed,
The wiring space is formed with a width greater than the width of the first support part, characterized in that it is selectively opened and closed by a wiring cover,
Louver windows for solar power generation with improved assembly. According to claim 1,
In the louver support coupled to the horizontal frame,
It characterized in that the louver fixing groove is formed in the longitudinal direction of the louver support body for inserting a part of the fixing louver respectively disposed on the upper and lower portions of the louver window and supporting it,
Louver windows for solar power generation with improved assembly. delete According to claim 1,
The obstacle is
It consists of 3 or 4 pieces so as to improve the coupling force with the connector, and is formed to protrude radially by maintaining a distance from each other around the wiring hole. Characterized in that a deformation preventing member is provided to maintain the coupling force with the connector in a non-existent state,
Louver windows for solar power generation with improved assembly. 6. The method of claim 5,
The deformation prevention device,
a support portion having a through hole formed in the center; and
It is formed extending from the support portion, characterized in that consisting of each insertion end inserted between the locking projections located in the locking hole,
Louver windows for solar power generation with improved assembly.

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