KR102330708B1 - Photovoltaic Louver Window Which Can Easily Maintain Generation Panels - Google Patents

Abstract

The present invention relates to a photovoltaic louver window capable of easily maintaining generation panels and, more specifically, to a photovoltaic louver window that can be used in an air-conditioning plant room and the like, provided with photovoltaic generation panels at a blade composing the louver window, and easily maintained by an operator only with detachment and coupling of a coupling frame without overall disassembling work in case of replacing only the generation panels due to a partial problem.

Description

{Photovoltaic Louver Window Which Can Easily Maintain Generation Panels}

The present invention relates to a photovoltaic power generation louver window with easy maintenance of the power generation panel, and more particularly, it can be used in an outdoor unit room, etc., a solar power panel is provided on the blade constituting the louver window, and a local problem It relates to an improved photovoltaic power generation louver window so that operators can easily maintain and repair only by separating and combining the combined frame without the overall dismantling work.

In general, the louver window means that a plurality of awning wings installed horizontally in the frame are spaced apart along the vertical direction, and the shading and shading are made by tilting the awning wings through the operation of a lever.

For such a louver window, a prior application has been made in the prior Korean Patent Application Laid-Open No. 2016-0131565 (published on November 16, 2016) and the like.

However, such a conventional louver window is simply for blocking sunlight, and is not equipped with a separate additional function.

Meanwhile, due to recent environmental pollution and fossil energy depletion problems, the development of environmentally friendly alternative energy sources and diversification of future energy sources are emerging as international issues.

Under this background, solar cells using solar energy are attracting attention as a promising alternative energy source in the future, and as solar cells become cheaper, the size of the related global market is rapidly increasing.

However, in most cases, solar power generation using such solar cells is installed through a separate structure on the roof of a house or on the railing of an apartment veranda. Therefore, additional installation costs are required for photovoltaic power generation, and the aesthetics of a building may be impaired by such a photovoltaic power generation structure.

On the other hand, the louver system, which provides shading by installing a number of slats on the exterior wall of a building, is the most advanced form of modern awning and is a system that can dramatically save heating and cooling energy of a building.

Such a louver system installs narrow and long plate-shaped slats at equal intervals on the frame installed in the horizontal and vertical directions on the outer wall of the building, and connects a driving device to these slats to rotate a number of slats to create an awning. is a structure that

When explaining its configuration by adding, a rectangular frame of various standards; a louver installed inside the frame to shield the outside air; Operating means installed inside both sides of the frame to operate the louver as a handle protruding to one side; It consists of etc.

In general, the rotation shaft of the bracket located in the middle of the plurality of louvers is coupled to the wheel instead of the rotation cap, and the wheel is formed with a coupling portion so that the handle shaft of the handle to be described later can be fitted and fixed, and instead of the handle A driving device having a motor is installed in the louver system to automatically operate a plurality of louvers.

In recent years, as system air conditioners have been installed in apartments, space has been created to install outdoor units. When the condenser converts gas refrigerant into liquid refrigerant in the outdoor unit, liquefaction heat is emitted. Because two rooms are required, many louver systems are installed, and it is wasteful to use the sunlight-receiving area only for ventilation. Moa was considered to be used as public electricity, and a louver system for solar power generation was derived.

In the following patent document 1, it discloses a louver window provided with a photovoltaic module that can be fixed to both sides with a fixing plate. In the case of such a conventional photovoltaic power generation louver window, when an abnormality occurs in a power generation panel attached to an individual blade, a problem occurs that the entire louver window cannot be disassembled or used again. In addition, in the repair, there is a disadvantage that a general worker cannot repair only with a tool, or there is a problem that it is very difficult to work in a state in which a photovoltaic power generation louver window is installed in an outdoor unit room.

In order to solve the above problems, each of the photovoltaic power generation louver windows may have a structure in which the power generation panel is separable, but when only the solar module inside the power generation panel needs to be replaced, the power generation panel is separated from the louver window. After that, the solar module was replaced separately, and there was a problem that additional work was required.

Korean Patent Registration No. 10-2016-0079158

The present invention can be used in an outdoor unit room, etc., when a photovoltaic panel is provided on the blade constituting the louver window, and only the power generation panel needs to be replaced due to a local problem, the separation and coupling of the coupling frame without the overall dismantling operation The purpose is to make maintenance easier by the operator.

In one embodiment of the present invention in order to solve the above problems, as a photovoltaic louver window, a main frame having a through portion formed therein; a blade support frame extending in the height direction of the main frame, coupled to both inner surfaces of the through portion of the main frame, and having a plurality of coupling through holes; and a plurality of power generation blade modules disposed inside the through part, coupled to the blade support frame so as to be able to rotate with each of the coupling through holes as a rotation axis, and having a power generation panel; , A blade frame in which a lower coupling groove is formed on the lower side; a power generation panel having one end fixed to the lower coupling groove of the blade frame; Wrapping the other end of the power generation panel, coupled to the opposite side of the lower coupling groove of the blade frame, a coupling frame for coupling the power generation panel to the blade frame; includes, the blade frame is the blade from the opposite side of the power generation panel A first fitting groove formed in the longitudinal direction of the frame; and a second fitting groove formed in the longitudinal direction of the blade frame from the side where the power generation panel is positioned, wherein the coupling frame is formed in the longitudinal direction of the coupling frame at a position corresponding to the first fitting recess first fitting protrusion; and a second fitting protrusion formed in the longitudinal direction of the coupling frame at a position corresponding to the second fitting groove, wherein the coupling frame is attached to the blade in a state in which the first fitting protrusion is fastened to the first fitting groove. When rotating in the axial direction of the frame, the second fitting protrusion is fastened to the second fitting groove, and the blade frame and the coupling frame are coupled to each other to provide a photovoltaic louver window.

In some embodiments of the present invention, the first fitting groove, the first fitting groove upper inner edge corresponding to the inner corner located on the upper side of the groove, and the first fitting groove corresponding to the outer edge protruding from the upper side of the groove Including an upper outer edge, the first fitting protrusion, the first fitting protrusion outer edge corresponding to the outer edge protruding from the upper end of the protrusion, and the first fitting protrusion corresponding to the inner corner that can be in contact with the protrusion of one end Including an inner edge, in the process of fastening the coupling frame, the outer edge of the first fitting protrusion and the upper inner edge of the first fitting groove are in contact, and the contacted edge is rotated as an axis to rotate the first fitting protrusion inner edge and The upper outer edge of the first fitting groove may be in contact, and one side of the coupling frame may be coupled.

In some embodiments of the present invention, the second fitting groove, the second fitting groove upper inner edge corresponding to the inner corner located on the upper side of the groove, and the second fitting groove corresponding to the outer edge protruding from the upper side of the groove Including an upper outer edge, the second fitting projection, the second fitting projection outer edge corresponding to the outer edge protruding from the upper end of the projection, and the second fitting projection corresponding to the inner corner that can be in contact with the protrusion of one end Including an inner edge, when the first fitting protrusion is rotated in the axial direction in a state in which it is fastened to the first fitting groove, the second fitting protrusion outer edge and the second fitting groove upper outer edge are in contact and then slide and the other side of the coupling frame may be coupled.

In some embodiments of the present invention, in a state in which the power generation blade module is coupled to the blade support frame, when the coupling frame is axially rotated with respect to the blade frame with the first fitting projection as an axis, the coupling frame is It can be separated from the blade frame.

In some embodiments of the present invention, the photovoltaic power generation louver window, a wiring cover that can be detachably coupled to a part of the main frame and a part of the blade support frame; and a frame wiring wire disposed in a space formed by the wiring cover, a part of the main frame, and the blade support frame, and a plurality of the power generation panels may be interconnected by the frame wiring wire.

In some embodiments of the present invention, the power generation blade module includes: a first blade cover having a shaft coupling element rotatably coupled to the coupling through hole on a side surface, and having one or more protruding coupling protrusions on the upper surface; By being coupled to the upper side of the first blade cover in a state in which the coupling protrusion is inserted into the blade frame, a second blade cover capable of fixing the blade frame with respect to the first blade cover may be included.

In some embodiments of the present invention, the photovoltaic power generation louver window is connected to the frame wiring wire, a space formed by the wiring cover, a part of the main frame, and the blade support frame through the coupling through hole. a blade wiring wire disposed on the outside of the; and a wiring connection terminal electrically connected to the blade wiring wire, wherein the blade frame includes a first frame member in the form of a plate and a second frame member in the form of a plate parallel to the first frame member, The power generation blade module includes: a panel connection wire having one end electrically connected to the power generation panel; and a panel connection terminal electrically connected to the other end of the panel connection wire, wherein the panel connection terminal and the panel connection wire are disposed between the first frame member and the second frame member, and the panel connection terminal may be coupled to the wiring connection terminal.

In some embodiments of the present invention, in a cross section perpendicular to the height direction of the main frame, a first coupling hook is formed at one end of the blade support frame, a second coupling hook is formed in a part thereof, and the other end is formed with a second coupling hook. A third coupling hook is formed, and in a cross section perpendicular to the height direction of the main frame, a first frame coupling groove to which the first coupling hook can be coupled, and the second coupling hook are formed in a portion of the main frame. A hook support part capable of being coupled is formed, and the wiring cover may be connected to the blade support frame by the third coupling hook.

In some embodiments of the present invention, in a cross section perpendicular to the height direction of the main frame, a third coupling hook is formed at one end of the blade support frame, and in a cross section perpendicular to the height direction of the main frame, A cover coupling hole having a shape corresponding to the third coupling hook and detachable is formed at one end of the wiring cover, and a cover hook is formed at the other end of the wiring cover, and is perpendicular to the height direction of the main frame. In one section, a second frame coupling groove having a shape corresponding to the cover hook and detachable from the cover hook may be formed in a portion to which the wiring cover of the main frame is coupled.

In some embodiments of the present invention, the wiring cover has a tool insertion hole formed therein, and a tool is inserted into the tool insertion hole, and a space formed by the wiring cover, a part of the main frame, and the blade support frame. When a force is applied to the outside of the wiring cover, by rotating the cover coupling hole as an axis, the wiring cover can be separated from the blade support frame.

In some embodiments of the present invention, each of the power generation panels may be detachable from the power generation blade module, the power generation blade module may be detachable from the blade support frame, and the blade support frame may be detachable from the main frame. And, the wiring cover may be detachable from the blade support frame.

According to an embodiment of the present invention, when an abnormality occurs in the power generation panel attached to an individual blade, the operator can easily disconnect the wiring of the power generation panel, replace the power generation panel, It can show the effect of wiring connection and wiring repair.

According to an embodiment of the present invention, when an abnormality occurs in the power generation panel attached to individual blades, by separating the coupling frame and replacing only the power generation panel, the effect of being able to easily maintain without disassembling the whole can be achieved. have.

1 schematically shows a conventional photovoltaic louver window.
Figure 2 schematically shows the front of the photovoltaic louver window according to an embodiment of the present invention.
3 schematically shows a part of a side cross-sectional view of a photovoltaic louver window according to an embodiment of the present invention.
4 schematically shows a power generation blade module according to an embodiment of the present invention.
5 schematically shows a cross-sectional side view of a power generation blade module according to an embodiment of the present invention.
6 schematically shows a part of a side cross-sectional view of a power generation blade module according to an embodiment of the present invention.
7 schematically shows a blade frame and a power generation panel according to an embodiment of the present invention.
8 schematically shows a form in which the power generation panel according to an embodiment of the present invention is inserted into the blade frame.
9 schematically shows a form in which a power generation panel according to an embodiment of the present invention is coupled to a blade frame by a coupling frame.
10 schematically shows a part of a cross-sectional view of a solar louver window according to an embodiment of the present invention.
11 schematically shows the rotation mechanism of the power generation blade module according to an embodiment of the present invention.
12 schematically shows a shape in which a blade support frame and a blade coupling unit are coupled to the main frame according to an embodiment of the present invention.
13 schematically shows a process of coupling the blade frame to the blade coupling unit according to an embodiment of the present invention.
14 schematically shows a process of coupling the blade frame to the blade coupling unit according to an embodiment of the present invention.
15 schematically shows the connection state of the wiring inside the blade frame according to an embodiment of the present invention.
16 schematically shows the combined cross-sectional shape of the main frame, the blade support frame, and the wiring cover according to an embodiment of the present invention.
17 schematically shows a process of coupling the blade support frame to the main frame.
18 schematically shows a process of separating the wiring cover from the main frame or the like.

Various embodiments and/or aspects are now disclosed with reference to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth to provide a thorough understanding of one or more aspects. However, it will also be recognized by one of ordinary skill in the art that such aspect(s) may be practiced without these specific details. The following description and accompanying drawings set forth in detail certain illustrative aspects of one or more aspects. These aspects are illustrative, however, and some of the various methods in principles of the various aspects may be employed, and the descriptions set forth are intended to include all such aspects and their equivalents.

Further, various aspects and features will be presented by a system that may include a number of devices, components and/or modules, and the like. It is also noted that various systems may include additional devices, components, and/or modules, etc. and/or may not include all of the devices, components, modules, etc. discussed with respect to the drawings. must be understood and recognized.

As used herein, “embodiment”, “example”, “aspect”, “exemplary”, etc. may not be construed as an advantage or advantage in any aspect or design described above over other aspects or designs. .

As used herein, '~ part' or '~ module' may be implemented through one or more physical members, one or more hardware, one or more hardware and software combinations, or one or more software. In addition, the term “or” is intended to mean an inclusive “or” rather than an exclusive “or.” That is, unless otherwise specified or clear from context, "X employs A or B" is intended to mean one of the natural implicit substitutions. That is, X employs A; X employs B; or when X employs both A and B, "X employs A or B" may apply to either of these cases. It should also be understood that the term “and/or” as used herein may refer to and include all possible combinations of one or more of the listed related items.

Also, the terms "comprises" and/or "comprising" mean that the feature and/or element is present, but excludes the presence or addition of one or more other features, elements and/or groups thereof. should be understood as not

In addition, it will be understood that singular expressions such as "above" and "above" include plural expressions, unless explicitly indicated otherwise in this specification. Thus, as an example, a “component surface” includes one or more component surfaces.

Also, terms including an ordinal number, such as first, second, etc., may be used to describe various elements, but the elements are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

In addition, the terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In this specification, terms such as "comprises" or "have" are intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

In addition, in the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, are generally understood by those of ordinary skill in the art to which the present invention belongs. have the same meaning as Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in an embodiment of the present invention, an ideal or excessively formal meaning is not interpreted as

1 schematically shows a conventional photovoltaic louver window.

As shown in Figure 1, the conventional photovoltaic louver window can install a plurality of power generation modules to face perpendicular to the incident direction of sunlight. In addition, the power generation module may be rotated at once. In the plurality of power generation modules, the shade formed by the power generation module according to the sunlight incident direction lowers the illuminance of sunlight incident to the power generation module. The power generation module can rotate to open and close the louvered window, which can perform the function of a window for indoor ventilation and illuminance control in the form of an awning.

In the case of such a conventional photovoltaic power generation louver window, when an abnormality occurs in a power generation panel attached to an individual blade, a problem occurs that the entire louver window cannot be disassembled or used again. In addition, in the repair, there is a disadvantage that a general worker cannot repair only with a tool, or there is a problem that it is very difficult to work in a state in which a photovoltaic power generation louver window is installed in an outdoor unit room.

Figure 2 schematically shows the front of the photovoltaic louver window according to an embodiment of the present invention. 3 schematically shows a part of a side cross-sectional view of a photovoltaic louver window according to an embodiment of the present invention.

A photovoltaic power generation louver window with improved power generation efficiency according to an embodiment of the present invention includes a main frame 1000 having a penetration portion formed therein; One or more power generation blade modules 2000 disposed inside the through part, directly or indirectly coupled to the main frame 1000 so as to be able to rotate about each rotation axis, and including a power generation panel 2100, are included. do. The solar power generation louver window according to an embodiment of the present invention may be installed in an air conditioner outdoor unit room.

The main frame 1000 is provided with a ventilation hole 3000 on the upper side of the penetration part, and such a ventilation hole 3000 may be used as an exhaust and intake passage for a total heat exchanger of a household.

Figure 2 (A) shows the shape when the power generation blade module 2000 is closed, (B) of Figure 2 shows the shape when the power generation blade module 2000 is rotated open. 2(B) corresponds to a situation in which an air conditioner or the like is operated to generate a fluid flow between the outside and the ventilation room. Such rotation of the power generation blade module 2000 may be manually operated by a person, but may be operated electrically.

In another embodiment of the present invention, when the power generation blade module 2000 is electrically operated, it may be automatically controlled to maximize the power generation efficiency of the power generation blade module 2000 according to time or altitude of the sun. Hereinafter, for convenience of explanation, the angle of the power generation blade module 2000 is changed by the user's operation as a reference.

The photovoltaic power generation louver window shown in FIG. 2 may correspond to the side in contact with the outdoors.

3, the first power generation blade module 2000.1, the second power generation blade module 2000.2, and the third power generation blade module 2000.3 are arranged in a repeating order. For example, the first power generation blade module (2000.1), the second power generation blade module (2000.2), the third power generation blade module (2000.3), the first power generation blade module (2000.1), the second power generation blade module (2000.2), the second power generation blade module (2000.2) 3 The power generation blade module 2000.3, -(refer to later)-, the power generation blade module 2000 is disposed.

4 schematically shows a power generation blade module 2000 according to an embodiment of the present invention.

The power generation blade module 2000 corresponds to a form in which the power generation panel 2100 is coupled to the blade frame 2200 which is rotatably coupled to the main frame 1000 directly or indirectly.

The power generation panel 2100 is basically coupled to the power generation blade module 2000 toward the outdoor side as shown in FIG. 2 .

The power generation blade module 2000 shown in (A) of FIG. 4 may correspond to the side in contact with the outdoors, and the power generation blade module 2000 shown in FIG. 4(B) may correspond to the side in contact with the room can

As shown in FIG. 4, the power generation panel 2100 is coupled to the blade frame 2200, and blade coupling parts ( 2300) (not shown in FIG. 4) to which the upper coupling hole 2240 and the lower coupling hole 2250 can be coupled are formed on both sides.

The blade coupling part 2300 is provided with a shaft coupling element 2310 (not shown in FIG. 4) that can function as a blade rotation shaft (A).

Such a shaft coupling element 2310 is directly or indirectly rotatably coupled to the above-described main frame 1000 , and the power generation blade module 2000 can be rotated around a central axis according to the shaft coupling element 2310 . .

5 schematically shows a cross-sectional side view of the power generation blade module 2000 according to an embodiment of the present invention.

The power generation blade module 2000 includes a blade frame 2200 having a lower coupling groove 2270 formed on the lower side and an upper coupling part 2260 formed on the upper side; a power generation panel 2100 having one end fixed to the lower coupling groove 2270 of the blade frame 2200; A coupling frame 2400 that surrounds the other end of the power generation panel 2100, is coupled to the upper coupling portion 2260 of the blade frame 2200, and couples the power generation panel 2100 to the blade frame 2200) ; and a panel connection terminal 2120 connected to the power generation panel 2100 and disposed in a space between the blade frame 2200 and the power generation panel 2100 .

A lower fastening portion 2280 in the form of a convex groove is formed on a lower side of the blade frame 2200 , and an upper fastening portion 2410 is formed on an upper side of the coupling frame 2400 . In the two adjacent power generation blade modules 2000 , the lower fastening part 2280 of the upper power generation blade module 2000 may be fastened to the upper fastening part 2410 of the lower power generating blade module 2000 . When all of the power generation blade modules 2000 are closed (that is, when they are in a vertical state), adjacent power generation blade modules 2000 are coupled to each other to have a more robust structure, and can block air flow with the outside.

The upper coupling part 2260, the first fitting groove 2261 formed in the longitudinal direction of the blade frame 2200 from the opposite side of the power generation panel 2100; and a second fitting groove 2262 formed in the longitudinal direction of the blade frame 2200 from the side where the power generation panel is positioned.

The coupling frame 2400 includes a first fitting protrusion 2420 formed in the longitudinal direction of the coupling frame 2400 at a position corresponding to the first fitting groove 2261; and a second fitting protrusion 2430 formed in the longitudinal direction of the coupling frame 2200 at a position corresponding to the second fitting groove 2262 .

According to the above configuration, the blade frame 2200 and the coupling frame 2400 may be fixed after the power generation panel 2100 is mounted.

The structure and process for facilitating separation and coupling of the coupling frame 2400 from the blade frame 2200 will be described later in FIG. 6 .

In addition, the coupling frame 2400 can support the power generation panel 2100, and a protruding end 2440 having a shape that protrudes downward so as to be able to hold and pull upwards, and the upper coupling part 2260 is accommodated. It may further include a coupling groove portion 2450 in which a groove is formed.

The coupling groove 2450 may include a first fillet 2451 and a second fillet 2452 in which fillets are formed at both inner end corners.

The first fillet 2451 and the second fillet 2452 may be expanded while the members of both sides of the coupling groove portion 2450 are spaced apart while the coupling frame 2400 is coupled, and thus may occur at the inner corners. It corresponds to the fillet shape provided to increase the strength of the edge so as not to be damaged by possible stress concentration.

On the other hand, the blade rotation shaft (A) may correspond to the center of the shaft coupling element 2310 as shown in FIG. In addition, the center of the power generation panel 2100 may correspond to the longitudinal center in the cross section of the power generation panel 2100 as in FIG. 5 .

The panel connection wire 2110 corresponds to a wire for the power generation panel 2100 to electrically connect to the outside. The power generation panel 2100 provided in the power generation blade module 2000 adjacent to each other up and down may be electrically connected to each other, which may be implemented in a form in which the panel connection wire 2110 is connected to the wire inside the frame. have.

6 schematically shows a part of a side cross-sectional view of the power generation blade module 2000 according to an embodiment of the present invention.

(A) of Figure 6 corresponds to the state in which the blade frame 2200 and the coupling frame 2400 are coupled, (B) of Figure 6 is the blade frame 2200 and the coupling frame 2400 are separated. corresponds to the state of being

The first fitting groove 2261 according to some embodiments of the present invention is a first fitting groove upper inner edge 2261.2 corresponding to an inner corner located on the upper side of the groove, and an outer corner protruding from the upper side of the groove. It may include a corresponding first fitting groove upper outer edge (2262.3).

The first fitting protrusion 2420, the first fitting protrusion outer edge 2422 corresponding to the outer edge protruding from the upper end of the protrusion, and the first fitting protrusion inner side corresponding to the inner corner that can be in contact with the protrusion of one end It includes an edge 2423, and in the process of fastening the coupling frame 2400, the first fitting protrusion outer edge 2422 and the first fitting groove upper inner edge 2261.2 are in contact, and the contacted edge is an axis. The first fitting protrusion inner edge 2423 and the first fitting groove upper outer edge 2261.3 may be in contact with each other by rotating to, and one side of the coupling frame 2400 may be coupled.

The first fitting groove 2261 further includes a first fitting groove lower edge 2261.1 corresponding to an inner corner positioned below the groove, and the second fitting groove 2262 is an inner edge positioned below the groove. It may further include a second fitting groove lower edge (2262.1) corresponding to.

The second fitting groove 2262 according to some embodiments of the present invention is a second fitting groove upper inner edge 2262.2 corresponding to an inner corner located on the upper side of the groove, and an outer edge protruding from the upper side of the groove. It may include a corresponding second fitting groove upper outer edge (2262.3).

The second fitting protrusion 2430 is a second fitting protrusion outer edge 2432 corresponding to an outer corner protruding from the upper end of the protrusion, and a second fitting protrusion inner side corresponding to an inner corner that can be in contact with one end of the protrusion. It includes an edge 2433, and when the first fitting protrusion 2420 rotates in the axial direction in a state in which it is fastened to the first fitting groove 2261, the second fitting protrusion outer edge 2432 and the second fitting protrusion 2420 2 After the upper outer edge 2262.3 of the fitting groove is in contact, the other side of the coupling frame 2400 may be coupled by sliding.

The upper coupling part 2260 may further include a first coupling round 2263 and a second coupling round 2264 in which a round is formed at the uppermost end to be smoothly coupled.

Hereinafter, a process in which the coupling frame 2400 is coupled to and separated from the blade frame 2200 will be described in more detail.

In the process of coupling the coupling frame 2400 to the blade frame 2200, the first fitting round 2421 and the first fitting groove 2261 are brought into contact, and the first fitting protrusion round 2421. According to the round shape of the first fitting protrusion 2420 may be engaged and rotated based on the reference. After contacting the first fitting round 2421, as the user rotates it clockwise, the protruding end 2440 may be assembled by sliding along the round shape of the second coupling round 2264. . Thereafter, the second fitting protrusion 2430 may be inserted into the second fitting groove 2262 after contacting the second coupling round 2264 .

Accordingly, when the coupling frame 2400 is coupled, the first fitting protrusion outer edge 2422 is in contact with the first fitting groove upper inner edge 2261.2, and the first fitting protrusion inner edge 2423. may be in contact with the upper outer edge 2261.3 of the first fitting groove. At this time, as a gap exists between the upper coupling part 2260 and the coupling groove part 2450 to be flexibly coupled, the second fitting protrusion outer edge 2432 is the second fitting groove upper inner edge 2262.2. The inner edge 2433 of the second fitting protrusion may not come into contact with the upper outer edge 2262.3 of the second fitting groove.

Preferably, the first fitting protrusion outer edge 2422 does not come into contact with the first fitting groove upper inner edge 2261.2, and the first fitting protrusion inner edge 2423 is the first fitting groove upper outer edge. 2261.3, the second fitting protrusion outer edge 2432 is in contact with the second fitting groove upper inner edge 2262.2, and the second fitting protrusion inner edge 2433 is in the second fitting groove It may also contact the upper outer edge 2262.3.

In the process of separating the coupling frame 2400 from the blade frame 2200, as the user grabs the protruding end 2440 and pulls it to the right, the second fitting projection in the second fitting groove 2262 ( When 2430 comes out and rotates counterclockwise while pulling up the protruding end 2440, the second fitting protrusion round 2431 comes into contact with the second coupling round 2464 and slides apart. .

The round shape of the first fitting round 2421, the second fitting round 2431, the first coupling round 2263, and the second coupling round 2264 is the separation of the coupling frame 2400. and a structure that facilitates bonding.

A process of rotating and coupling the coupling frame 2400 will be further described with reference to FIG. 9 to be described later.

Accordingly, when an abnormality occurs in the power generation panel 2100 attached to an individual blade, by separating the coupling frame 2400 and replacing only the power generation panel 2100, it can be easily maintained without disassembling the whole. possible effect can be exerted.

7 schematically shows a blade frame 2200 and a power generation panel 2100 according to an embodiment of the present invention.

Figure 7 (A) shows the blade frame (2200). The blade frame 2200 includes a first frame member 2210 to which the power generation panel 2100 is coupled to an outer surface as a whole and a second frame member 2220 having a shape generally parallel to the second frame member 2220. .

A lower coupling groove 2270 is formed on the lower side of the blade frame 2200 and an upper coupling part 2260 is formed on the upper side, and the power generation panel 2100 is the lower coupling groove of the blade frame 2200 ( 2270), one end may be fixed.

On the other hand, the power generation blade module 2000 includes a panel connection wire 2110 having one end electrically connected to the power generation panel 2100; and a panel connection terminal 2120 electrically connected to the other end of the panel connection wire 2110. As described above, the blade frame 2200 includes a plate-shaped first frame member 2210 and a plate-shaped second frame member 2220 parallel to the first frame member 2210; The panel connection terminal 2120 and the panel connection wire 2110 are disposed between the first frame member 2210 and the second frame member 2220 . In this form, a compact structure can be implemented while protecting the wiring of the power generation panel 2100 .

Meanwhile, the panel connection terminal 2120 may be coupled to the wiring connection terminal 6100 connected to the frame-side wiring, and in this way, a plurality of power generation panels 2100 may be electrically connected to each other.

An upper coupling hole 2240 and a lower coupling hole 2250 are formed at both ends of the blade frame 2200 to pass through both the first frame member 2210 and the second frame member 2220 . By inserting the coupling protrusion 2330 into the upper coupling hole 2240 and the lower coupling hole 2250 , the blade coupling part 2300 and the blade frame 2200 may be coupled to each other.

8 schematically shows a form in which the power generation panel 2100 is inserted into the blade frame 2200 according to an embodiment of the present invention.

Insert the lower end of the power generation panel 2100 into the lower coupling groove 2270 as shown in (A) of FIG. Thereafter, as shown in (B) of FIG. 8 , the power generation panel 2100 is in close contact with the blade frame 2200 as a whole. At this time, (B) of FIG. 8 corresponds to a state in which the coupling frame 2400 is not mounted on the blade frame 2200 . When it is necessary to replace the power generation panel 2100, the power generation panel 2100 can be replaced by taking it out to the upper side.

9 schematically shows a form in which the power generation panel 2100 according to an embodiment of the present invention is coupled to the blade frame 2200 by the coupling frame 2400 .

9A shows a structure in which the first fitting protrusion 2430 is brought into contact with the first fitting groove 2261 in order to couple the coupling frame 2400 .

9 (B) shows the first fitting protrusion 2430 in contact with the first fitting groove 2261 in order to couple the coupling frame 2400, and then rotated with the contacted protrusion and groove as an axis. corresponds to the state.

9(C) shows the first fitting protrusion 2430 in contact with the first fitting groove 2261 in order to couple the coupling frame 2400, and then rotates the contacted protrusion and groove as an axis. It corresponds to the state coupled to the blade frame (2200). As the coupling frame 2400 is rotated, the second fitting protrusion 2440 is coupled to the second fitting groove 2262, thereby coupling the coupling frame 2400 and the blade frame 2200. can do it

In the process of (A) to (C) of FIG. 9, the coupling frame 2400 may be coupled to the blade frame 2200, and the coupling frame 2400 is connected to the blade frame 2200 in the reverse order of the above process. can be separated from

Preferably, in an embodiment of the present invention, the coupling frame 2400 may be coupled in a rotating manner as in the process of (A) to (C) of FIG. The protrusions on both sides of the coupling frame 2400 and the grooves on both sides of the blade frame 2200 may be mutually coupled and separated.

The coupling frame 2400 has the same cross section as an extruded member, and by detaching the coupling frame 2400 with respect to the blade frame 2200, the power generation module can be separated from the power generation blade module 2000. .

In such a structure of the power generation blade module 2000, when an error occurs in the individual power generation panel 2100, the coupling frame 2400 coupled to the upper side is separated from the power generation blade module 2000, and the power generation panel ( 2100) can be replaced, so there is an advantage that maintenance can be performed simply.

10 schematically shows a part of a cross-sectional view of a photovoltaic louver window according to an embodiment of the present invention.

The photovoltaic power generation louver window extends in the height direction of the main frame 1000, is coupled to both inner surfaces of the through holes of the main frame 1000, and a blade support frame 5000 having a plurality of coupling through holes formed therein. include more Such a blade support frame 5000 may be coupled to the main frame 1000, and it is preferable that the blade support frame 5000 is also an extruded member having a constant cross-section along the longitudinal direction.

As described above, the first power generation blade module 2000.1 and the third power generation blade module 2000.3 each include a shaft coupling element 2310 rotatably coupled to the coupling through hole, and the first power generation The shaft coupling element 2310 of the blade module 2000.1 and the shaft coupling element 2310 of the third power generation blade module 2000.3 are directly or indirectly fastened to a connection link disposed inside the blade support frame 5000, , the rotation of the first power generation blade module 2000.1 and the rotation of the third power generation blade module 2000.3 are interlocked.

The shaft coupling element 2310 is inserted into the coupling through hole of the blade support frame 5000, and according to the rotation of the shaft coupling element 2310, the blade coupling part 2300 and the power generation panel 2100, etc. can rotate

On the other hand, in order for the plurality of power generation blade modules 2000 to interoperate with each other, the shaft coupling element 2310 is coupled to the blade module coupling part 1100 disposed inside the blade support frame 5000 by a hook method or the like. . In addition, the plurality of blade module coupling unit 1100 is coupled to the common first connection link 1200 and the second connection link 1300 as shown in FIG. 10 .

Therefore, as at least one of the first connection link 1200 and the second connection link 1300 moves up and down, the blade module coupling unit 1100 rotates, so that a plurality of power generation blade modules 2000 are interlocked to rotate. can

Preferably, the blade module coupling part 1100 is formed with a plurality of link coupling protrusions 1110 that can be coupled to the first connection link 1200 and the second connection link 1300 (FIG. 10). In the link coupling projection 1110 is coupled into the first connection link 1200 and the second connection link 1300. More preferably, the first power generation blade module 2000.1 and the third power generation blade module ( At least one link coupling protrusion 1110 is formed in the blade module coupling unit 1100 connected to 2000.3), and the formed link coupling protrusion 1110 is formed in the first connection link 1200 and the second connection link 1300. By being inserted into the link coupling groove, the rotation of the plurality of first power generation blade module 2000.1 and the plurality of third power generation blade module 2000.3 can be interlocked with each other.

In another embodiment of the present invention, the blade coupling part 2300 of the power generation blade module 2000 is provided with a shaft coupling element 2310 rotatably coupled to the coupling through hole on the side surface, and at least one on the upper surface. and a first blade cover (2320) having the protruding coupling protrusion (2330).

An upper coupling hole 2240 and a lower coupling hole 2250 corresponding to the one or more protruding coupling protrusions 2330 of the first blade cover 2320 are formed in the blade frame 2200, and the at least one The coupling protrusion 2330 is inserted into the upper coupling hole 2240 and the lower coupling hole 2250 , and the blade frame 2200 (not shown in FIG. 10 ) may be coupled to the first blade cover 2320 .

On the other hand, the blade coupling part 2300 is coupled to the upper side of the first blade cover 2320 in a state in which the coupling protrusion 2330 is inserted into the coupling hole, thereby connecting the blade frame 2200 to the first blade. A second blade cover 2340 that can be fixed with respect to the cover 2320 is included. In a state in which the second blade cover 2340 is disposed on the upper side of the coupling protrusion 2330, a piece is formed in the second blade cover 2340 at a position corresponding to the position of the coupling protrusion 2330. Alternatively, the second blade cover 2340 may be fixed with respect to the first blade cover 2320 by inserting a bolt and coupling the piece or bolt to the hole formed on the upper surface of the coupling protrusion 2330 .

11 schematically shows the rotation mechanism of the power generation blade module 2000 according to an embodiment of the present invention.

11 corresponds to the indoor side of the photovoltaic louver window. As described above, the shaft coupling element 2310 (not shown in FIG. 11) of the first power generation blade module 2000.1 and the shaft coupling element 2310 of the third power generation blade module 2000.3 are directly or indirectly It is fastened to a connection link disposed inside the blade support frame 5000 (not shown in FIG. 11 ), so that the rotation of the first power generation blade module 2000.1 and the rotation of the third power generation blade module 2000.3 interlock with each other. do.

As shown in Figure 11, the blade module coupling portion 1100 connected to each of the blade coupling portions (2300.1, 2300.2, 2300.3) has a link coupling projection (not shown), the first connecting link from the invisible surface of the blade module coupling portion. A 1200 and a second connection link 1300 are formed. In this state, the link coupling protrusion (not shown) of the blade module coupling part 1100 of the first blade coupling part 2300.1, the second blade coupling part 2300.2, and the third blade coupling part 2300.3 is the first It is inserted into at least one of the first connection link 1200 and the second connection link 1300 .

The power generation blade module 2000 may rotate according to the vertical movement of at least one of the first connection link 1200 and the second connection link 1300 .

12 schematically shows a shape in which the blade support frame 5000 and the first blade cover 2320 are coupled to the main frame 1000 according to an embodiment of the present invention.

A photovoltaic louver window according to an embodiment of the present invention includes a main frame 1000 having a penetration portion formed therein; a blade support frame 5000 extending in a height direction of the main frame 1000, coupled to both inner surfaces of the through portion of the main frame 1000 and having a plurality of coupling through holes; A plurality of power generation blade modules 2000 disposed inside the through part, coupled to the blade support frame 5000 so as to be able to rotate using each of the coupling through holes as a rotation axis, and having a power generation panel 2100 (Fig. 12, some not shown); a wiring cover 7000 (not shown in FIG. 12) that can be detachably coupled to a part of the main frame 1000 and a part of the blade support frame 5000; and a frame wiring wire 6300 disposed in a space formed by the wiring cover 7000, a part of the main frame 1000, and the blade support frame 5000; including, a plurality of the power generation panels 2100 ) may be interconnected by the frame wiring wire 6300 .

The figure shown in FIG. 12 shows a configuration except for the configuration other than the blade coupling part 2300 in the wiring cover 7000 and the power generation blade module 2000 .

The panel connection terminal 2120 is connected to the panel connection terminal 2120 of the other power generation panel 2100 through the wiring connection terminal 6100, the blade wiring wire 6200, and the frame wiring wire 6300. On the other hand, the wiring connection terminal 6100, and the blade wiring wire 6200 are partially or entirely accommodated in the space between the first frame member 2210 and the second frame member 2220 of the blade frame 2200 to protect from the outside. The blade wiring wire 6200 is a space formed by the wiring cover 7000 (not shown in FIG. 12A), a part of the main frame 1000, and the blade support frame 5000. is stored in

On the other hand, the blade wiring wire 6200 corresponds to a shape exposed to the outside of the frame through the hollow hole of the shaft coupling element 2310 coupled to the blade support frame (5000).

A wiring connection terminal 6100 electrically connected to one end of the blade wiring wire 6200 is provided, and such a wiring connection terminal 6100 is connected to the panel connection terminal 2120 in a form in which the power generation panel 2100 is connected. ) can be electrically connected.

On the other hand, during maintenance, there is an advantage that the wiring connection terminal 6100 and the panel connection terminal 2120 can be simply released and the power generation panel 2100 can be simply replaced.

As described above, the power generation blade module 2000 includes a first frame member 2210 in the form of a plate and a second frame member 2220 in the form of a plate parallel to the first frame member; a blade frame including ( 2200); Then, the power generation panel 2100 is coupled to the blade frame 2200 .

The panel connection terminal 2120 may be coupled to the wiring connection terminal 6100 .

In (B) of FIG. 12 , the wiring cover 7000 is coupled to the blade support frame 5000 and the main frame 1000 to protect the frame wiring wire 6300 inside. In addition, as will be described later, during maintenance, the user can easily perform tasks such as wiring repair and replacement of the power generation panel 2100 by partially separating only the wiring cover 7000 .

13 schematically illustrates a process of coupling the blade frame 2200 to the blade coupling unit 2300 according to an embodiment of the present invention.

First, as shown in (A) of Figure 13, in a state in which the coupling frame 2400, and the power generation panel 2100 are coupled to the blade frame 2200, the upper coupling hole 2240 of the blade frame 2200. And the blade frame 2200 is coupled to the first blade cover 2320 so that the coupling protrusion 2330 formed on the first blade cover 2320 is inserted into the lower coupling hole 2250 .

Then, as shown in (B) of FIG. 13, the other end side of the blade frame 2200 also puts the upper coupling hole 2240 and the lower coupling hole 2250 in the coupling protrusion 2330 to the blade frame 2200. It is coupled to the first blade cover (2320).

14 schematically illustrates a process of coupling the blade frame 2200 to the blade coupling unit 2300 according to an embodiment of the present invention.

14(A) shows a form in which both ends of the blade frame 2200 are coupled to the first blade cover 2320 positioned on both end sides. Thereafter, as shown in (B) of FIG. 14, the second blade cover 2340 is coupled to the first blade cover 2320, and the second blade cover 2340 is attached to the first blade cover using pieces, bolts, etc. (2320).

Separation may be performed in the reverse order of the assembly described above. When the blade frame 2200 is to be separated, the blade frame 2200 may be separated by releasing the pieces and bolts of the second blade cover 2340 .

15 schematically shows a connection state of wiring in the blade frame 2200 according to an embodiment of the present invention.

15 corresponds to a view excluding the blade frame 2200. In the space between the first frame member 2210 and the second frame member 2220 described above, the panel connection wire 2110, the panel connection terminal 2120, the wiring connection terminal 6100, and the blade wiring wire 6200 are position, and the panel connection terminal 2120 and the wiring connection terminal 6100 are interconnected, so that the power generation panel 2100 can be electrically connected.

16 schematically shows the combined cross-sectional shape of the main frame 1000, the blade support frame 5000, and the wiring cover 7000 according to an embodiment of the present invention.

In a cross section perpendicular to the height direction of the main frame 1000, a first coupling hook 5100 is formed at one end of the blade support frame 5000, and a second coupling hook 5200 is formed in a portion thereof. and a third coupling hook 5300 is formed at the other end.

The first coupling hook 5100 is coupled to the first frame coupling groove 1500 of the main frame 1000 , and the second coupling hook 5200 is attached to the hook support part 1510 of the main frame 1000 . By being coupled, the blade support frame 5000 may be coupled to the main frame 1000 . Such engagement and disengagement can be performed with a simple tool without separate mechanical equipment.

In a cross-section perpendicular to the height direction of the main frame 1000, a first frame coupling groove 1500 to which the first coupling hook 5100 can be coupled, a blade support frame, and a portion of the main frame 1000 A hook support part 1510 to which the second coupling hook 5200 of 5000 can be coupled, and a second frame coupling groove 1520 coupled to a part of the wiring cover 7000 are formed.

The wiring cover 7000 may be connected to the blade support frame 5000 by the third coupling hook 5300 of the blade support frame 5000 .

In a cross section perpendicular to the height direction of the main frame 1000 , a third coupling hook 5300 is formed at one end of the blade support frame 5000 .

In a cross section perpendicular to the height direction of the main frame 1000, one end of the wiring cover 7000 has a cover coupling hole 7100 that has a shape corresponding to the third coupling hook 5300 and can be detached. is formed, and a cover hook 7200 is formed at the other end of the wiring cover 7000 .

In addition, in a cross section perpendicular to the height direction of the main frame 1000, a portion to which the wiring cover 7000 of the main frame 1000 is coupled has a shape corresponding to the cover hook 7200, A second frame coupling groove 1520 from which the cover hook 7200 can be detached is formed.

In such a form, the user separates the wiring cover 7000 from the overall structure with a simple tool and, if necessary, also separates the blade support frame 5000 from the main frame 1000, so that the internal wiring, the power generation blade module 2000 ) can be easily repaired or replaced.

That is, as described above, each of the power generation panel 2100 can be detached from the power generation blade module 2000 only with a simple tool, and the blade power generation module can be detached from the blade support frame 5000, and the Since the blade support frame 5000 can be detached from the main frame 1000 and the wiring cover 7000 can be detached from the blade support frame 5000, there is a problem with the power generation panel 2100, wiring, etc. When this occurs, there is an advantage in that only the problematic parts can be repaired or replaced while maintaining the entire structure of the photovoltaic louver window installed in the outdoor unit room.

17 schematically illustrates a process of coupling the blade support frame 5000 to the main frame 1000 .

17(A), the first coupling hook 5100 of the blade support frame 5000 is coupled to the first frame coupling groove 1500 of the main frame 1000, and the blade support frame 5000 ) of the second coupling hook 5200 is coupled to the hook support part 1510 of the main frame 1000 .

Then, by fastening the piece to the piece hole formed in a part of the blade support frame 5000 as shown in (B) of FIG. 17 , the blade support frame 5000 can be more stably coupled to the main frame 1000 .

18 schematically illustrates a process of separating the wiring cover 7000 from the main frame 1000 and the like.

As shown in FIG. 18 , a tool insertion hole 7500 is formed in the wiring cover 7000 .

In this state, a tool is inserted into the tool insertion hole 7500 as shown in (B) of FIG. 18 , and the wiring cover 7000, a part of the main frame 1000, and the blade support frame 5000 When a force is applied to the outside of the space formed by can be separated.

As such, in the embodiments of the present invention, the wiring cover 7000 can be separated using a simple tool, and the wiring inside the wiring cover 7000 can be changed, repaired, and the like.

According to an embodiment of the present invention, when an abnormality occurs in the power generation panel attached to an individual blade, the operator can easily disconnect the wiring of the power generation panel, replace the power generation panel, It can show the effect of wiring connection and wiring repair.

According to an embodiment of the present invention, when an abnormality occurs in the power generation panel attached to individual blades, by separating the coupling frame and replacing only the power generation panel, the effect of being able to easily maintain without disassembling the whole can be achieved. have.

The description of the presented embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the scope of the invention. Thus, the present invention is not to be limited to the embodiments presented herein, but is to be construed in the widest scope consistent with the principles and novel features presented herein.

Claims (11)

As a solar power louver window,
a main frame having a through portion formed therein;
a blade support frame extending in the height direction of the main frame, coupled to both inner surfaces of the through portion of the main frame, and having a plurality of coupling through holes; and
A plurality of power generation blade modules disposed inside the through part, coupled to the blade support frame so as to be able to rotate by using each of the coupling through holes as a rotation axis, and including a power generation panel;
The power generation blade module,
a blade frame in which a lower coupling groove is formed on the lower side;
a power generation panel having one end fixed to the lower coupling groove of the blade frame;
Containing; and a coupling frame that surrounds the other end of the power generation panel, is coupled from the opposite side of the lower coupling groove of the blade frame, and couples the power generation panel to the blade frame,
The blade frame includes a first fitting groove formed in the longitudinal direction of the blade frame from the opposite side of the power generation panel; and a second fitting groove formed in the longitudinal direction of the blade frame from the side where the power generation panel is positioned.
The coupling frame includes a first fitting protrusion formed in the longitudinal direction of the coupling frame at a position corresponding to the first fitting groove; and a second fitting protrusion formed in the longitudinal direction of the coupling frame at a position corresponding to the second fitting groove,
When the coupling frame is rotated in the axial direction of the blade frame in a state in which the first fitting protrusion is fastened to the first fitting groove, the second fitting protrusion is fastened to the second fitting groove, and the blade frame and The coupling frame is mutually fastened,
The solar power louver window,
a wiring cover detachably coupled to a portion of the main frame and a portion of the blade support frame;
and a frame wiring wire disposed in a space formed by the wiring cover, a part of the main frame, and the blade support frame;
A plurality of the power generation panels are interconnected by the frame wiring wire,
In a cross section perpendicular to the height direction of the main frame, a first coupling hook is formed at one end of the blade support frame, a second coupling hook is formed in a part thereof, and a third coupling hook is formed at the other end, and ,
In a cross section perpendicular to the height direction of the main frame, a first frame coupling groove to which the first coupling hook can be coupled, and a hook support part to which the second coupling hook can be coupled; are formed in a portion of the main frame. has been,
The wiring cover may be connected to the blade support frame by the third coupling hook, a photovoltaic power generation louver window.
The method according to claim 1,
The first fitting groove,
A first fitting groove upper inner edge corresponding to an inner corner located on the upper side of the groove, and a first fitting groove upper outer edge corresponding to an outer corner protruding from the upper side of the groove,
The first fitting projection,
It includes a first fitting protrusion outer edge corresponding to an outer edge protruding from the upper end of the protrusion, and a first fitting protrusion inner edge corresponding to an inner corner that can be in contact with one end of the protrusion,
In the process of fastening the coupling frame, the outer edge of the first fitting protrusion and the upper inner edge of the first fitting groove are in contact, and the contacted edge is rotated as an axis to rotate the first fitting protrusion inner edge and the first fitting groove upper side The outer edge is in contact, and one side of the coupling frame is coupled to one side of the blade frame, a photovoltaic louver window.
The method according to claim 1,
The second fitting groove,
A second fitting groove upper inner edge corresponding to the inner corner located on the upper side of the groove, and a second fitting groove upper outer edge corresponding to the outer corner protruding from the upper side of the groove,
The second fitting projection,
A second fitting protrusion outer edge corresponding to an outer edge protruding from the upper end of the protrusion, and a second fitting protrusion inner edge corresponding to an inner corner that can be in contact with one end of the protrusion,
When the first fitting protrusion is rotated in the axial direction in a state in which the first fitting protrusion is fastened to the first fitting groove, the second fitting protrusion outer edge and the second fitting protrusion upper outer edge come into contact and then slide to the other side of the coupling frame Combined with the other side of the blade frame, a photovoltaic louver window.
The method according to claim 1,
In a state in which the power generation blade module is coupled to the blade support frame, when the coupling frame is pivotally rotated with respect to the blade frame with the first fitting protrusion as an axis, the coupling frame can be separated from the blade frame , solar power louver windows.
delete The method according to claim 1,
The power generation blade module,
a first blade cover having a shaft coupling element rotatably coupled to the coupling through hole on a side surface and having one or more protruding coupling protrusions on an upper surface;
By being coupled to the upper side of the first blade cover in a state in which the coupling protrusion is inserted into the blade frame, a second blade cover capable of fixing the blade frame with respect to the first blade cover is included, photovoltaic power generation louver window.
The method according to claim 1,
The solar power louver window,
a blade wiring wire connected to the frame wiring wire and disposed outside a space formed by the wiring cover, a part of the main frame, and the blade support frame through the coupling through hole; and
and a wiring connection terminal electrically connected to the blade wiring wire.
The blade frame includes a first frame member in the form of a plate and a second frame member in the form of a plate parallel to the first frame member,
The power generation blade module,
a panel connection wire having one end electrically connected to the power generation panel; and
and a panel connection terminal electrically connected to the other end of the panel connection wire.
The panel connection terminal and the panel connection wire are disposed between the first frame member and the second frame member,
The panel connection terminal can be coupled to the wiring connection terminal, a photovoltaic power generation louver window.
delete As a solar power louver window,
a main frame having a through portion formed therein;
a blade support frame extending in the height direction of the main frame, coupled to both inner surfaces of the through portion of the main frame, and having a plurality of coupling through holes; and
A plurality of power generation blade modules disposed inside the through part, coupled to the blade support frame so as to be able to rotate by using each of the coupling through holes as a rotation axis, and including a power generation panel;
The power generation blade module,
a blade frame in which a lower coupling groove is formed on the lower side;
a power generation panel having one end fixed to the lower coupling groove of the blade frame;
Containing; and a coupling frame that surrounds the other end of the power generation panel, is coupled from the opposite side of the lower coupling groove of the blade frame, and couples the power generation panel to the blade frame,
The blade frame includes a first fitting groove formed in the longitudinal direction of the blade frame from the opposite side of the power generation panel; and a second fitting groove formed in the longitudinal direction of the blade frame from the side where the power generation panel is positioned.
The coupling frame includes a first fitting protrusion formed in the longitudinal direction of the coupling frame at a position corresponding to the first fitting groove; and a second fitting protrusion formed in the longitudinal direction of the coupling frame at a position corresponding to the second fitting groove,
When the coupling frame is rotated in the axial direction of the blade frame in a state in which the first fitting protrusion is fastened to the first fitting groove, the second fitting protrusion is fastened to the second fitting groove, and the blade frame and The coupling frame is mutually fastened,
The solar power louver window,
a wiring cover detachably coupled to a portion of the main frame and a portion of the blade support frame;
and a frame wiring wire disposed in a space formed by the wiring cover, a part of the main frame, and the blade support frame;
A plurality of the power generation panels are interconnected by the frame wiring wire,
In a cross section perpendicular to the height direction of the main frame, a third coupling hook is formed at one end of the blade support frame,
In a cross section perpendicular to the height direction of the main frame, a cover coupling hole having a shape corresponding to the third coupling hook and detachable is formed at one end of the wiring cover, and a cover hook at the other end of the wiring cover. is formed,
In a cross section perpendicular to the height direction of the main frame, a second frame coupling groove having a shape corresponding to the cover hook and detachable from the cover hook is formed in a portion to which the wiring cover of the main frame is coupled. A solar powered louver window.
10. The method of claim 9,
The wiring cover has a tool insertion hole formed therein;
When a tool is inserted into the tool insertion hole and a force is applied to the outside of the space formed by the wiring cover, a part of the main frame, and the blade support frame, the wiring cover moves the cover coupling hole as an axis. By rotating, the wiring cover can be separated from the blade support frame, a photovoltaic louver window.
The method according to claim 1,
Each of the power generation panels can be detached from the power generation blade module,
The power generation blade module may be detachable from the blade support frame,
The blade support frame may be detachable from the main frame,
The wiring cover is detachable from the blade support frame, solar power generation louver window.

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