KR20240048222A - Window frame structure for building-integrated PV module with fire-resistance - Google Patents

Abstract

The present invention relates to a window frame structure for building-integrated solar cell modules having fire resistance, and more specifically, to a window frame structure for building-integrated solar cell modules having fire resistance that can satisfy thermal insulation, fire resistance, and fire prevention performance.
The window frame structure for a building-integrated solar cell module with fire resistance according to the present invention suppresses the spread of fire and heat by applying a frame structure with insulation, fire resistance, and fire prevention performance to the frame for installing the building-integrated solar cell module. There are advantages to doing this.

Description

Window frame structure for building-integrated PV module with fire-resistance}

The present invention relates to a window frame structure for building-integrated solar cell modules having fire resistance, and more specifically, to a window frame structure for building-integrated solar cell modules having fire resistance that can satisfy fire resistance and fire prevention performance.

Compared to other renewable energies, solar power generation does not require noise, special terrain, or a large site, so there are various types of power generation. Among them, building integrated solar power generation (BIPV), which involves installing solar power generation panels in buildings, Technology development for the PhotoVoltaic (PhotoVoltaic) system is being researched.

The BIPV system being distributed in Korea is a form in which G/B (Glass to Backsheet) PV modules are attached and integrated to the exterior walls and roofs of buildings, and G/G (Glass to Glass) PV modules are used to build exterior walls, windows, curtain walls, It is widely applied to awnings, roofs, etc. In particular, more than 80% of curtain walls and roofs are installed in the form of double-layer glass using G/G.

In addition, the BIPV system has visual aesthetics as a power generation and building material, and can be installed in various ways on the exterior of buildings such as roofs, facades, and windows, so various technologies are being developed and commercialized around the world.

However, the performance and verification of the BIPV system related to structure, stability, and fire required as a building material are not included, which is an obstacle to application and introduction in the construction market.

In particular, BIPV systems are advantageous in terms of maintenance for applying new and renewable energy resources to buildings, but BIPV is unreliable for renewable energy builders and building owners in terms of building energy savings compared to investment costs.

In other words, the BIPV outer shell is directly exposed to the external environment, so there is a high probability of performance degradation and damage due to the usage environment. Deformation of the sealing material due to heat, thermal shock damage, fire, etc. may occur, and as usage time increases, the module itself may deteriorate. It may be damaged or problems may occur in electrical aspects such as module connectors and internal wiring.

Accordingly, despite the rapid expansion of the PV and BIPV markets, the need for safety and reliability verification of BIPV is constantly being raised.

Republic of Korea Open Patent 10-2022-0023036 Republic of Korea Public Patent No. 10-2009-0003573 Republic of Korea registered patent 10-2087127

The present invention is intended to solve the above-described conventional problems, and has fire resistance performance that enables the installation of building-integrated solar cell modules to satisfy the insulation, fire resistance, and fire prevention performance when installing building-integrated solar cell modules as building materials. The purpose is to provide a window frame structure for building-integrated solar cell modules.

In order to achieve the above object, the window frame structure for building-integrated solar cell modules with fire resistance according to the present invention is provided with module mounting portions on opposite sides that can be mounted by inserting one side of the building-integrated solar cell module. center frame; A side frame provided with a module mounting portion capable of inserting and mounting the other side of the solar cell module, one side of which is mounted on the center frame, wherein each of the center frame and the side frame is disposed toward the outdoor side of the building. An external frame, an internal frame disposed toward the indoor side of the building, a fire block interposed between the external frame and the internal frame and having fire resistance, and fastened so as to penetrate the external frame, the fire block, and the internal frame. It includes a coupling part that tightly couples the external frame, the fire prevention block, and the internal frame to each other, and the fire prevention block is characterized in that at least one fire prevention board is overlapped.

The external frame of the window frame structure for building-integrated solar cell modules with fire resistance according to the present invention includes a flat plate portion having a certain width and extending parallel to each other and spaced apart from one side of the flat plate portion at a predetermined interval on the center side of the width direction of the flat portion. A cap frame including a pair of extension ribs, a cover frame formed to surround the outside of the flat plate, one side enters between the extension ribs and is coupled to the cap frame, and the other side touches one side of the fire block. It is coupled to grip and includes a gripping frame through which the coupling portion penetrates, wherein one side of the inner frame facing the outer frame is formed so that the other side of the fire block can be inserted and coupled to the other side of the fire block, and the central side in the width direction is the gripping frame. and a main frame formed to couple the ends of the coupling portion penetrating the fire block, an extension frame extending from the main frame to the indoor side of the building, a reinforcement frame installed inside the extension frame, and the main frame It is characterized by comprising a module mounting frame that is coupled to at least one of both sides in the width direction and forms a module mounting portion that can be mounted by inserting a portion of an edge of the solar cell module between the cover frame and the cover frame.

A fire prevention plate coupled between the inner frame and the outer frame to surround the outer edge of the fire block between the inner frame and the outer frame of the window frame structure for a building-integrated solar cell module having fire resistance performance according to the present invention is further provided. It is characterized by being provided.

The window frame structure for a building-integrated solar cell module with fire resistance according to the present invention is characterized in that one side of the main frame facing the external frame is provided with a fitting rib formed to fit and couple one end of the fire plate. do.

The window frame structure for a building-integrated solar cell module with fire resistance according to the present invention is provided with a detachable coupling rib formed on at least one side of the width direction of the main frame to detachably couple the module mounting frame to the main frame. It is characterized by being

The window frame structure for a building-integrated solar cell module with fire resistance according to the present invention further includes an insulating plate formed of polyamide and interposed between the cap frame and the gripping frame to insulate the space between the cap frame and the gripping frame. It is characterized by being provided.

The window frame structure for a building-integrated solar cell module with fire resistance according to the present invention suppresses the spread of fire and heat by applying a frame structure with insulation, fire resistance, and fire prevention performance to the frame for installing the building-integrated solar cell module. There are advantages to doing this.

Figure 1 is a plan cross-sectional view showing a window frame structure for a building-integrated solar cell module with fire resistance performance according to the present invention.
Figure 2 is a side cross-sectional view showing a window frame structure for a building-integrated solar cell module having fire resistance performance according to the present invention.
Figure 3 is an enlarged view showing the center frame of a window frame structure for a building-integrated solar cell module with fire resistance performance according to the present invention.
Figure 4 is a perspective view showing the center frame of a window frame structure for a building-integrated solar cell module with fire resistance performance according to the present invention.
Figure 5 is an enlarged view showing a side frame of a window frame structure for a building-integrated solar cell module with fire resistance performance according to the present invention.
Figure 6 is a perspective view showing a side frame of a window frame structure for a building-integrated solar cell module with fire resistance performance according to the present invention.

Hereinafter, a window frame structure for a building-integrated solar cell module having fire resistance performance according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings.

1 to 7 show a window frame structure 1 for a building-integrated solar cell module having fire resistance performance according to the present invention. Referring to Figures 1 to 7, the window frame structure (1) for a building-integrated solar cell module with fire resistance according to the present invention is installed in a building so that the solar cell module (2) can be installed, and the solar cell module (2) includes a center frame 100 installed on both sides and a side frame 200 on which the solar cell module 2 is installed on one side.

The center frame 100 is a part on which the building-integrated solar cell module 2 is mounted, and module mounting portions for inserting and mounting one side of the building-integrated solar cell module 2 are provided on opposite sides.

The center frame 100 may include a first external frame 110, a first internal frame 150, a first fire block (B1), and a first coupling portion (P1).

The first external frame 110 is a part disposed toward the outdoor side of the building and may include a first cap frame 120, a first cover frame 130, and a first grip frame 140. .

The first cap frame 120 has a first flat plate 121 having a certain width on the left and right, and is aligned with one side of the first flat plate 121 on the center side in the width direction of the first flat plate 121. It may be configured to include a pair of first extension ribs 122 extending at regular intervals. First packing grooves into which the first packing can be inserted are formed at both ends of the first flat plate portion 121 in the width direction. A first insertion groove into which the first gripping frame 140, which will be described later, can be inserted is formed between the first extension ribs 122, and the first gripping frame 140 is formed on the inner peripheral surface of the first extension rib 122. A first locking protrusion is formed to protrude to limit the insertion depth.

The first cover frame 130 includes a first cover part 131 formed to surround the outside of the first plate part 121, and a first bent part extending backward from both edges of the first cover part 131. It is composed including (132). The first cover frame 130 extends so that both ends in the width direction, corresponding to both sides in the width direction of the first flat plate part 121, are bent backward to surround the first packing installed in the first flat plate part 121. The first plate part 121 and the first packing are hidden from the outside by the first cover frame 130. Solar cell modules (2) are mounted on both sides of the first cover frame (130) in the width direction, and a sealant (S) is installed in the gap between the first cover frame (130) and the solar cell module (2) to prevent and block the inflow of foreign substances. ) is included.

One side of the first gripping frame 140 enters between the first extension ribs 122 and is coupled to the first cap frame 120. And, the other side of the first gripping frame 140 is coupled to grip one side of the first fire block (B1). The first holding frame 140 is fastened so that the first coupling portion P1 penetrates, and one side of the first fire block B1 is supported in close contact with the first holding frame 140.

The first internal frame 150 is a part disposed toward the indoor side of the building and includes the first main frame 160, the first extension frame 170, the first reinforcement frame 180, and the first module mounting frame. It can be configured including (190).

The first main frame 160 is formed so that one side facing the first external frame 110 can be inserted and coupled to the other side of the first fire block B1. And, the first main frame 160 is formed so that the center side in the width direction can couple the first grip frame 140 and the end of the first coupling portion (P1) penetrating the first fire block (B1). On the center side in the width direction of the first main frame 160 corresponding to the fastening position of the first coupling portion (P1), there is a first screw fastening portion 161 that can be screwed to the screw portion formed at the end of the first coupling portion (P1). is formed At this time, the first screw fastening portion 161 has a cylindrical structure with a screw groove provided on the inner peripheral surface.

In addition, on both sides of the first main frame 160 in the width direction, a pair of first detachable coupling ribs 162 are provided to enable the first module mounting frame 190 to be detachably coupled to the first main frame 160. is formed The first detachable coupling ribs 162 are formed to protrude outward for a certain length in the front and rear directions of the first main frame 160, and their ends are bent toward each other to form a first detachable coupling rib 162 between the first removable coupling ribs 162. It is formed so that it can be combined or separated by fitting the 1-module mounting frame 190. The first detachable coupling rib 162 enters the first detachable coupling groove formed at the corner of the first module mounting frame 190.

The first extension frame 170 extends from the first main frame 160 to the indoor side of the building and has a square pipe structure with an empty interior.

The first reinforcement frame 180 is installed inside the first extension frame 170 to prevent the first extension frame 170 from being bent or damaged by external force and reinforces the rigidity of the first extension frame 170. do.

The first module mounting frame 190 is detachably coupled to both sides of the first main frame 160 in the width direction. The first module mounting frame 190 forms a module mounting portion that can be mounted by inserting a portion of the edge of the solar cell module 2 between the first cover frame 130 and the first cover frame 130 . The first module mounting frame 190 has a square pipe structure with an empty interior, and the first detachable coupling rib 162 provided on the first main frame 160 is inserted at a certain depth at the corner portion. A detachable coupling groove is formed.

As shown, the edge side of the solar cell module 2 is inserted and mounted between the first module mounting frame 190 and the first cover frame 130, and the solar cell module (2) is installed in the first module mounting frame 190. A gasket mounting portion is provided that can install the gasket (G1) by contacting and pressurizing the transparent glass of 2).

The gasket (G1) installed here can be made of ethylene propylene rubber (EPM, EPDM), etc. EPDM is a terpolymer composed of ethylene, propylene, and diene, and has excellent heat resistance, aging resistance, and insulation properties, as well as excellent tensile strength and low-temperature characteristics. In addition, EPDM contains a third component, diene, so it has some elasticity in a rubber state, and has the characteristics of a copolymer made of ethylene and propylene, making it resistant to weather conditions and cracks.

The first fire block (B1) is interposed between the first external frame 110 and the first internal frame 150, and is made of a non-combustible or flame-retardant material and has fire resistance. The first fire prevention block (B1) can be formed by overlapping at least one first fire prevention board in multiple layers, and the first fire prevention boards are in close contact with each other by a coupling portion to be described later. A fire-resistant adhesive may be applied between the first fire prevention boards so that the first fire prevention boards can be more firmly adhered and fixed to each other. As an example, the first fire block B1 can be formed to have a thickness of 27 mm by overlapping three fire prevention boards with a thickness of 9 mm.

The first coupling portion (P1) is fastened to penetrate the first external frame 110, the first fire block (B1), and the first internal frame 150, and is connected to the first external frame 110 and the first fire block (B1). ) and the first internal frame 150 are tightly coupled to each other. In more detail, the first coupling portion (P1) is fastened to penetrate the first gripping frame 140, the first fire block (B1), and the first internal frame 150 from the outside of the first gripping frame 140. The first fire block (B1) is firmly fixed between the first external frame 110 and the first internal frame 150 by the first coupling part (P1), and the first external frame 110 and the first internal frame The frame 150 is connected via the first fire block B1. A first screw fastening portion 161 is formed in the first internal frame 150 to which an end of the first coupling portion P1 is screwed.

The side frame 200 is a part on which the building-integrated solar cell module (2) is mounted, and is a module that can be mounted by inserting the other side of the building-integrated solar cell module (2) on one side of which is mounted on the center frame (100). A mounting portion is provided.

The side frame 200 includes a second external frame 210 arranged towards the outdoor side of the building, a second internal frame 250 arranged towards the indoor side of the building, the second external frame 210, and the above. A second fire block (B2) interposed between the second internal frame (250) and having fire resistance, the second external frame (210), the second fire block (B2), and the second internal frame (250). It can be configured to include a second coupling portion (P2) that is fastened to penetrate and tightly couples the second outer frame 210, the second fire block (B2), and the second inner frame 250 to each other. .

The second external frame 210 is a part disposed toward the outdoor side of the building and may include a second cap frame 220, a second cover frame 230, and a second grip frame 240. .

The second cap frame 220 includes a second flat plate 221 having a certain width on the left and right, and a second flat plate 221 on one side of the second flat plate 221, which is parallel to each other and spaced at a predetermined distance from one side of the second flat plate 221. It may be configured to include a pair of second extension ribs 222 extending apart from each other. A second packing groove into which second packing can be inserted is formed at one end of the second flat plate portion 221 in the width direction. A second insertion groove is formed between the second extension ribs 222 into which the second gripping frame 240, which will be described later, can be inserted and mounted, and the second gripping frame 240 is formed on the inner peripheral surface of the second extension rib 222. A second locking protrusion is formed to protrude to limit the insertion depth.

The second cover frame 230 includes a second cover portion 231 formed to surround the outside of the second plate portion 221, and a second curved portion extending backward from both edges of the second cover portion 231 ( 232). The second cover frame 230 is formed to surround the outside of the second flat plate 221, and one side extends bent backward to surround the second packing installed on the second flat plate 221. The second plate portion 221 and the second packing are concealed from the outside by the second cover frame 230. A solar cell module (2) is mounted on one side of the second cover frame (230) in the width direction, and a sealant (S) is installed in the gap between the second cover frame (230) and the solar cell module (2) to prevent and block the inflow of foreign substances. ) is included.

One side of the second gripping frame 240 enters between the second extension ribs 222 and is coupled to the second cap frame 220. And, the other side of the second gripping frame 240 is coupled to grip one side of the second fire block B2. The second holding frame 240 is fastened so that the second coupling portion P2 penetrates, and one side of the second fire block B2 is supported in close contact with the second holding frame 240.

The second internal frame 250 is a part disposed toward the indoor side of the building and can be composed of a second main frame 260, a second extension frame 270, and a second module mounting frame 290. there is.

The second main frame 260 is formed so that one side facing the second external frame 210 can be inserted and coupled to the other side of the second fire block B2. And, the second main frame 260 is formed so that the center side in the width direction can couple the second grip frame 240 and the end of the second coupling portion (P2) that penetrates the second fire block (B2). On the center side in the width direction of the second main frame 260 corresponding to the fastening position of the second coupling portion (P2), there is a second screw fastening portion 261 that can be screwed to the screw portion formed at the end of the second coupling portion (P2). is formed At this time, the second screw fastening portion 261 has a cylindrical structure with a screw groove provided on the inner peripheral surface.

In addition, on one side of the second main frame 260 in the width direction, a pair of second detachable coupling ribs 262 are provided to enable the second module mounting frame 290 to be detachably coupled to the second main frame 260. is formed The second detachable coupling ribs 262 are formed to protrude outward for a certain length in the front and rear directions of the second main frame 260, and their ends are bent toward each other to form a second detachable coupling rib 262 between the second detachable coupling ribs 262. It is formed so that the two-module mounting frame 290 can be joined or separated. The second detachable coupling rib 262 enters the second detachable coupling groove formed at the corner of the second module mounting frame 290.

The second extension frame 270 extends from the second main frame 260 to the indoor side of the building and has a square pipe structure with an empty interior.

The second module mounting frame 290 is detachably coupled to one side of the second main frame 260 in the width direction. The second module mounting frame 290 forms a module mounting portion that can be mounted by inserting a portion of the edge of the solar cell module 2 between the second cover frame 230 and the second cover frame 230 . The second module mounting frame 290 has a square pipe structure with an empty interior, and the second module mounting frame 290 is inserted into the corner portion at a certain depth so that the second detachable coupling rib 262 provided on the second main frame 260 can be inserted and coupled. A detachable coupling groove is formed.

As shown, the edge side of the solar cell module 2 is inserted and mounted between the second module mounting frame 290 and the second cover frame 230, and the solar cell module (2) is installed in the second module mounting frame 290. A gasket mounting portion is provided that can install a gasket by contacting and pressurizing the transparent glass of 2).

The gasket installed here can be the same as the one described previously.

The second fire block B2 is interposed between the second external frame 210 and the second internal frame 250 and is made of a non-combustible or flame-retardant material and has fire resistance. The second fire prevention block (B2) can be formed by overlapping at least one fire prevention board in multiple layers, and the second fire prevention boards are closely adhered to each other by a second coupling portion (P2), which will be described later. A fire-resistant adhesive may be applied between the second fire prevention boards so that the second fire prevention boards can be more firmly adhered and fixed to each other. As an example, the second fireproof block B2 can be formed to have a thickness of 27mm by overlapping three fireproof boards with a thickness of 9mm.

The second coupling portion (P2) is fastened to penetrate the second external frame 210, the second fire block (B2), and the second internal frame 250, and is connected to the second external frame 210 and the second fire block (B2). ) and the second internal frame 250 are tightly coupled to each other. In more detail, the second coupling portion (P2) is fastened to penetrate the second gripping frame 240, the second fire block B2, and the second internal frame 250 from the outside of the second gripping frame 240. The second fire block (B2) is firmly fixed between the second external frame 210 and the second internal frame 250 by the second coupling part (P2), and the second external frame 210 and the second internal frame The frame 250 is connected via the second fire block B2. A second screw fastening portion 261 is formed in the second internal frame 250 to which the end of the second coupling portion P2 is screwed.

Meanwhile, the window frame structure 1 for a building-integrated solar cell module having fire resistance performance according to the present invention may further include a first fire prevention plate and a second fire prevention plate 320.

The first fire prevention plate is composed of a pair, and the first internal frame 150 and the first fire prevention plate are formed to surround the outer edge of the first fire block B1 between the first internal frame 150 and the first external frame 110. 1It is coupled between the external frames (110).

The second fire prevention plate 320 is formed between the second internal frame 250 and the second external frame to surround the outer edge of the second fire block (B2) between the second internal frame 250 and the second external frame 210. It is combined between (210).

A first fire prevention plate is formed at the lower part of the first main frame 160 facing the first external frame 110 so that one end of the first fire prevention plate can be fitted and coupled to the center frame 100. One fitting coupling rib is provided. The first fitting ribs are formed on both sides of the first main frame 160 in the width direction to respectively couple the pair of first fire prevention plates.

One end of the second fire prevention plate 320 can be fitted and coupled to the lower part of the second main frame 260 facing the second external frame 210 so that the second fire prevention plate 320 can be coupled to the subframe. A second fitting coupling rib is provided. The first fitting rib is formed only on one side in the width direction of the second main frame 260, which is the side on which the solar cell module 2 is mounted.

In addition, the window frame structure (1) for a building-integrated solar cell module having fire resistance according to the present invention is between the first cap frame 120 and the first gripping frame 140, the second cap frame 220 and the second gripping frame. First insulation interposed between the first cap frame 120 and the first gripping frame 140 and between the second cap frame 220 and the second gripping frame 240 to insulate the frames 240, respectively. A plate 410 and a second insulation plate 420 may be further provided.

The first insulation plate 410 and the second insulation plate 420 are each formed of polyamide, and the first insulation plate 410 is disposed between the first cap frame 120 and the first grip frame 140. It is formed to correspond to the shape and size of the space formed, and the second insulation plate 420 is formed to correspond to the shape and size of the space formed between the second cap frame 220 and the second grip frame 240 and is installed on the outdoor side. Blocks the movement and spread of flames and smoke from inside to the indoor side.

On the other hand, the building-integrated solar cell module (2) with fire-resistant performance installed on the window frame structure (1) for building-integrated solar cell modules with fire-resistant performance according to the present invention includes a solar cell (21) and a solar cell (21). ), an encapsulation portion 22 including a first encapsulation layer 22a and a second encapsulation layer 22b formed on the front and rear sides of the solar cell, respectively, to surround and protect the solar cell, and the first encapsulation layer 22a As long as the fireproof glass 23, which is installed on the wall and blocks flame and smoke, and the tempered glass 24, which is installed on the second sealing layer 22b, are installed side by side on opposite edges of the tempered glass 24. It can be applied to include a pair of spacers 25 and a transparent glass 26 disposed on the lower part of the tempered glass 24 at a certain distance from the tempered glass 24 by the spacer 25.

The window frame structure for building-integrated solar cell modules with fire resistance according to the present invention described above has been explained with reference to the attached drawings, but these are merely examples, and those skilled in the art will know from this that various modifications and modifications can be made. It will be appreciated that other equivalent embodiments are possible.

Therefore, the true scope of technical protection of the present invention should be determined only by the technical spirit of the attached claims.

1: Window frame structure
100: Center frame
110: first external frame 120: first cap frame
130: first cover frame 140: first gripping frame
150: first internal frame 160: first main frame
170: first extension frame 180: first reinforcement frame
190: 1st module mounting frame
200: Side frame
210: second external frame 220: second cap frame
230: second cover frame 240: second gripping frame
250: 2nd internal frame 260: 2nd main frame
270: 2nd extension frame 290: 2nd module mounting frame
310: First fire prevention plate
320: Second fire plate
410: Second insulation frame
420: Second insulation frame
B1: 1st fire block
B2: Second fire block
P1: first coupling part
P2: second coupling part

Claims (6)

a center frame provided on opposite sides with module mounting portions for inserting and mounting one side of a building-integrated solar cell module;
A side frame provided with a module mounting portion capable of inserting and mounting the other side of the solar cell module, one side of which is mounted on the center frame,
Each of the center frame and the side frame
An external frame arranged toward the outdoor side of the building, an internal frame arranged towards the indoor side of the building, a fire block interposed between the external frame and the internal frame and having fire resistance, the external frame and the fire block, and It includes a coupling part that is fastened to penetrate the inner frame and tightly couples the outer frame, the fire block, and the inner frame to each other,
The fire block is a window frame structure for a building-integrated solar cell module with fire resistance, characterized in that at least one fire prevention board is overlapped. According to paragraph 1,
The external frame includes a cap frame including a flat plate portion having a predetermined width and a pair of extension ribs extending parallel to each other and spaced apart from one side of the flat portion at a predetermined interval on the center side of the flat portion in the width direction of the flat portion, and an outer portion of the flat portion. A cover frame formed to surround a cover frame, one side of which enters between the extension ribs and is coupled to the cap frame, and the other side of which is coupled to grip one side of the fire block, and a grip frame through which the coupling portion penetrates,
The inner frame is formed so that one side facing the outer frame can be inserted and coupled to the other side of the fire block, and the central side in the width direction can couple the end of the coupling portion penetrating the holding frame and the fire block. A main frame formed to be flexible, an extension frame extending from the main frame to the indoor side of the building, a reinforcement frame installed inside the extension frame, and a main frame coupled to at least one of both sides in the width direction and the cover frame A window frame structure for a building-integrated solar cell module with fire resistance, comprising a module mounting frame that forms a module mounting portion that can be mounted by inserting a portion of an edge of the solar cell module between the windows. According to paragraph 2,
A window frame for a building-integrated solar cell module having fire resistance, further comprising a fire protection plate coupled between the internal frame and the external frame to surround an outer edge of the fire block between the internal frame and the external frame. struct. According to paragraph 2,
A window frame structure for a building-integrated solar cell module having fire resistance, characterized in that one side of the main frame facing the external frame is provided with a fitting rib formed to fit and couple one end of the fire prevention plate. According to paragraph 2,
A window frame structure for a building-integrated solar cell module having fire resistance, characterized in that at least one side of the width direction of the main frame is provided with a detachable coupling rib formed to detachably couple the module mounting frame to the main frame. . According to paragraph 2,
A window frame for a building-integrated solar cell module having fire resistance, further comprising an insulating plate formed of polyamide and interposed between the cap frame and the grip frame to insulate the cap frame and the grip frame. struct.

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