KR102246803B1 - One-touch connector integral photovoltaics module assembly and with integrated solar power system using them - Google Patents

Abstract

The present invention relates to an one-touch-type connector-integrated photovoltaic module assembly and a window-integrated photovoltaic system using the same, and more specifically, to an one-touch-type connector-integrated photovoltaic module assembly and a window-integrated photovoltaic system using the same, wherein a photovoltaic module having a female connector is installed on a window frame; a bracket is inserted in an one-touch mode into the female connector installed on the photovoltaic module to connect the photovoltaic modules in series or in parallel; and the photovoltaic module is connected to a charging controller. According to the present invention, installation is so simple that an unprofessional worker can install the assembly, the working time can be shortened, and maintenance of the assembly can be readily performed.

Description

One-touch connector-integrated solar module assembly and window-integrated solar power generation system using the same {ONE-TOUCH CONNECTOR INTEGRAL PHOTOVOLTAICS MODULE ASSEMBLY AND WITH INTEGRATED SOLAR POWER SYSTEM USING THEM}

The present invention relates to an assembly for a one-touch connector-integrated solar module and a window-integrated solar power generation system using the same, and in detail, a solar module with a female connector is installed on a window frame, and a bracket on the female connector installed on the solar module By inserting in a one-touch method, the solar module and the solar module are connected in series or parallel, and the solar module and the charging controller are connected, so installation is simple, so non-professionals can install it, shorten the working time, and maintain. The present invention relates to an assembly for a one-touch connector-integrated solar module to facilitate maintenance, and a window-integrated solar power generation system using the same.

In recent years, research and development on solar power generation using solar energy converted to electric energy by replacing energy such as coal and petroleum has been actively conducted.

A solar module provided for such solar power generation has a primary purpose of accumulating light emitted from the sun and converting it into electric energy, and for this purpose, a solar module having characteristics of various modules has been developed.

On the other hand, the solar module used for solar power generation is manufactured in the form of a module in which a plurality of solar cells are arranged in a package according to characteristics such as battery capacity, and the solar cells are electrically connected to each other by wires. The terminal part of is connected to the connection terminal of the junction box mounted on the back of the solar module.

As an example, an apparatus for connecting a junction box of a photovoltaic module according to the prior art is disclosed in Korean Patent Publication No. 10-1077110 (hereinafter referred to as'priority document 1').

The junction box connection device of a solar module according to the prior art of Prior Art 1, as shown in FIG. 1, is a solar module 100a, 100b and 100c connected in series with a + (positive) or-(negative) terminal. ) A solar cable 130 for electrically connecting the junction boxes 111a to 111c and 112a to 112c to be coupled to each other; A first plug 140 provided at one end of the solar cable and electrically detachably coupled to the (+) terminal or the (-) terminal of the junction box and the other end of the solar cable It includes a second plug 150 that is electrically detachably coupled to the (+) terminal or the (-) terminal and has a male and female assembly structure assembled with the junction box different from the first plug, and the first The plug 140 includes a first plug body; A first terminal portion protruding from the center of the first plug body; And a plurality of first assembly ribs provided adjacent to the first terminal portion and having a first assembly tooth formed on an outer surface thereof, and the first assembly teeth formed on the plurality of first assembly ribs have different lengths. And, the second plug 150, a second plug body; A second terminal portion provided to be recessed in the center of the second plug body; And a plurality of second assembly ribs provided adjacent to the second terminal portion and having second assembly teeth formed on an inner surface thereof.

Meanwhile, another example of a connector according to the prior art and a solar cell module including the same are disclosed in Korean Patent Publication No. 10-1283115 (hereinafter referred to as'priority document 2').

The connector according to the prior art of Prior Art 2 and a solar cell module including the same, as shown in FIGS. 2 and 3, a first cable including a first cable 12 and 22 and a first connector 100. Solar cell module 10; And a second solar cell module 20 comprising a second cable (12, 22) and a second connector 102, wherein the first connector 100 includes a first body 110, the first body Includes a first connection portion 120, a first fixing portion 140 accommodated in the inside, an eleventh groove (120a) and a twelfth groove (120b) positioned in the first connection portion, the second connector 102 The second body 112, the second connection part 122 accommodated in the second body, the second fixing part 142, the 21st groove 122a and the 22nd groove 122b located in the second connection part. Including, the first connection portion is located inside the first body and the inside of the second body, the first connector and the second connector are connected, the first and second moving parts (130 and 132) Is configured to be connected to the first and second connection parts 120 and 122.

In the prior art according to Prior Documents 1 and 2 as described above, a plurality of photovoltaic modules are connected in series, so that when one photovoltaic module fails due to a short circuit or disconnection due to an external environment, the entire photovoltaic power generation system There is a problem in that this does not work, especially in the case of a stand-alone solar module.

In addition, in the prior art according to Prior Documents 1 and 2, the fastening and separation of the cable and connector connected to the photovoltaic module is complicated, and the waterproof and dustproof means are not separately provided, so that failure due to the connector exposed to the outside is easily generated. There is a problem.

In addition, the prior art according to Prior Documents 1 and 2 has a problem in that a junction box and a junction box to which a plurality of connectors are coupled by being connected to a solar module must be separately provided.

In order to solve this problem, a connector assembly of a parallel cable for a solar module is disclosed in Korean Patent Publication No. 10-1608465 (hereinafter referred to as'priority document 3').

The connector assembly of the parallel cable for a photovoltaic module according to Prior Document 3 includes at least one unit connector assembly (2a) as shown in FIG. 4; And a fuse adapter 250 for blocking overcurrent and reverse current connecting the uppermost unit connector assembly of the at least one unit connector assembly 2a and the control box 300; A connector assembly, wherein the unit connector assembly (2a) includes at least one solar module (200,200'); A reverse current protection unit 205 installed on each of the at least one solar module; A first cable 201 and a second cable 202 extending to one end and the other end of the reverse current protection unit 205, respectively; A male connector 210 connected to an end of the first cable 201 and a female connector 220 connected to an end of the second cable 202; The upper portions 230a and 240a are respectively connected to the fuse adapter 250 or the unit connector assembly of the neighboring upper end, and the lower portions 230b and 240b are respectively connected to the neighboring unit connector assembly of the next stage. A main cable consisting of a pair of a minus (-) cable 230 and a plus (+) cable 240 to be connected; Upper connectors 210 ′ and 220 ′ respectively connected to an upper connection part 230a of the minus (-) cable 230 and an upper connection part 240a of the plus (+) cable 240; Lower connectors 210 ″ and 220 ″ respectively connected to the lower connecting portions 230b of the minus (-) cables 230 and the lower connecting portions 240b of the plus (+) cables 240; A'Y-shaped' type shunt 235 formed on the negative (-) cable 230 and a'reverse Y-shaped' type shunt 235' formed on the positive (+) cable 240; And a third cable 233 branched through a'Y-shaped' shunt 235 formed on the negative (-) cable 230 and having a branching connector at the end thereof, and the positive (+) cable ( A branch cable consisting of a pair of fourth cables 234 branched through the'inverted Y-shaped' shunt 235' formed in 240 and having a branching connector at the end thereof; includes, but the "Y Each of the "right" type shunt 235 and the "inverted Y" type shunt 235' forms the wings 237 and 237' on the outside of the shunt while forming the minus (-) and plus (+) A male connector 210 connected to the first cable 201 by fixing the cables 233 and 244 branching from the upper part 230a and 240a or the lower part 230b and 240b of the cable to form an acute angle Is, a female connector 220 connected to the end of the cable 233 branched through the first shunt which is any one of the "Y-shaped" type shunt 235 and the "inverted Y-shaped" type shunt 235' And the female connector 220 connected to the second cable 202 is another one of the "Y-shaped" type shunt 235 and the "inverted Y-shaped" type shunt 235' It is coupled to the male connector 210 connected to the end of the cable 244 branched through the second shunt, and the at least one unit connector assembly (2a) is two or more, or the unit connector assembly (2a). At least one photovoltaic module (200,200') is two or more, as a whole, two or more photovoltaic modules (200,200') are connected in parallel with each other, and the uppermost unit connector assembly of the at least one unit connector assembly (2a) The fuse adapter 250 is detachably fastened to the male connector 210 or the female connector 220 connected to the upper end of each of the minus (-) cable 230 and the plus (+) cable 240 of It is characterized by being.

However, in the prior art according to the prior art 3, the efficiency is relatively low due to the large number of connecting parts due to the large number of cables and connectors, the installation cost is increased, and the connection is complicated, so that only an electrician can install it. In addition, when applied to a building-integrated solar power generation system, it is necessary to drill a hole or install a cover to insert into the window frame so that various cables and connectors are not exposed. This causes problems in the insulation and waterproofing of windows and doors. I can.

Republic of Korea Patent Publication No. 10-1077110 Korean Registered Patent Publication No. 10-1283115 Korean Registered Patent Publication No. 10-1608465

The present invention is to solve the above problems, by installing a photovoltaic module with a female connector installed on a window frame, and inserting a bracket into the female connector installed on the photovoltaic module in a one-touch manner, and between the photovoltaic module and the photovoltaic module. One-touch connector-integrated photovoltaic module that allows non-professionals to install because it is simple to install by connecting them in series or in parallel and connecting the solar module and the charge controller, shortening the working time, and making maintenance easier. An object thereof is to provide an assembly and an integrated solar power generation system using the same.

In addition, the present invention can reduce the manufacturing cost because a plurality of cables and connectors are not required, and the insulation and waterproof performance of windows and doors that enable connection between solar modules without damaging the windows in which the solar modules are integrated. Another object is to provide an assembly for a one-touch connector-integrated solar module to be maintained and a window-integrated solar power generation system using the same.

In addition, the present invention provides an assembly for a one-touch connector-integrated solar module and a window-integrated solar power generation system using the same, which minimizes the electrical contact portion, thereby minimizing the occurrence of loss due to the contact portion, thereby relatively increasing power generation efficiency. There is another purpose.

Features of the present invention for achieving the above object,

A female connector in which one or more female sockets are respectively installed at two or three corners of the solar module; An electric wire that is formed in the form of a rectangular parallelepiped having a space therein, and has at least one pair of male sockets protruding and connected to the female socket of the female connector in a one-touch manner at the front, and electrically connecting the male sockets to each other in the space part It characterized in that it comprises a bracket in which the cable is embedded.

Here, the female socket is electrically connected to each cell of the solar module.

Here, the female sockets of the female connector are connected by solar busbar wires, respectively, and a connection plate is integrally provided to be fixed to the solar module.

Here, the bracket is formed of an MC-4 type or a diode type.

Here, when the bracket is coupled to a hidden type window frame, the front is formed in a flat shape, and when coupled to the exposed type frame, an insertion groove into which the frame is inserted is formed in the front.

Here, again, the male socket of the bracket is provided with a cutout vertically at the center portion to have elasticity.

Another feature of the present invention,

In the window-integrated solar power generation system using the one-touch connector-integrated solar module assembly, comprising: a window frame installed on an outer wall or a roof of a building; A photovoltaic module provided with a plurality of cells and installed in the window frame; A connection connector assembly having a female connector integrally installed on the solar module, and connecting a female connector of an arbitrary solar module with a female connector of an adjacent solar module by means of a bracket; A charging controller installed in a building and connected by a bracket to a female connector of the connection connector assembly installed on a solar module of a final stage to control solar power generation; And a battery installed in a building and generated in the solar module under control of the charge controller to charge power transmitted through the connection connector assembly and the charge controller.

Here, in the solar module, a cell is bonded between two glass substrates, or a cell is bonded to an outer surface of one glass substrate.

Here, in addition, when the solar module is formed of one glass substrate, a back sheet is attached to one side thereof.

Here, again, each cell of the solar module is electrically connected to a female socket of a female connector of the connection connector assembly.

Here, the connection connector assembly is installed outside or inside the solar module.

Here, as for the female connector, one or more female sockets are respectively installed at two or three corners of the solar module.

Here, the female connector is integrally provided with a connection plate in the form of a plate so that the solar busbar wire is coupled and fixed to the solar module.

Here, the bracket is formed in a rectangular parallelepiped shape with a space portion therein, is formed in a rectangular parallelepiped shape with a space portion therein, and is inserted into the female socket of the female connector on the front side in a one-touch manner. A socket is formed protruding, and a wire cable for electrically connecting the male sockets to each other is embedded in the space to connect the female connector of an arbitrary photovoltaic module to the female connector of the adjacent photovoltaic module.

Here, the bracket is formed of an MC-4 type or a diode type.

Here, in the case of the bracket, when the window frame is a hidden type, the front side is formed in a flat shape, and when the window frame is of the exposed type, an insertion groove into which the frame is inserted is formed.

Here, again, the male socket of the bracket is provided with a cutout vertically at the center portion to have elasticity.

According to the present inventors' window-integrated solar power generation system and its installation method configured as described above, a solar module with a female connector is installed on a window frame, and a bracket is inserted into the female connector installed on the solar module in a one-touch manner to By connecting the photovoltaic module and the photovoltaic module in series or parallel, and connecting the photovoltaic module and the charge controller, installation is simple, so non-professionals can install it, shorten the work time, and perform maintenance easily. There is an advantage.

In addition, according to the present invention, since a number of cables and connectors are unnecessary, manufacturing costs can be reduced, and the insulation and waterproof performance of windows and doors that enable connection between modules without damaging the integrated windows and doors of the solar module are maintained. There is an advantage to be able to.

In addition, according to the present invention, there is an advantage of relatively increasing power generation efficiency by minimizing the electrical contact portion, thereby minimizing the occurrence of loss due to the contact portion.

1 is a view showing the configuration of a junction box connection device of a solar module according to the prior art.
2 and 3 are views showing the configuration of a connector according to the prior art and a solar cell module including the same.
4 is a view showing the configuration of a connector assembly of a parallel cable for a solar module according to the prior art.
5 is a perspective view showing the configuration of an assembly for a one-touch connector-integrated solar module according to the present invention.
6 is a partial cross-sectional view taken along AA of FIG. 5.
7 is a perspective view showing the configuration of an assembly for a one-touch connector-integrated solar module according to another embodiment of the present invention.
8 and 9 are perspective views showing a state in which a female connector is installed on a solar module among the assembly for a solar module with a one-touch connector integrated according to the present invention.
10 is a perspective view showing the configuration of a window-integrated solar power generation system using the one-touch connector-integrated solar module assembly according to the present invention.
11 and 12 are perspective views showing a state in which a connection connector assembly is installed on a solar module among windows and doors integrated solar power generation systems using the one-touch connector-integrated solar module assembly according to the present invention.

Hereinafter, the configuration of the one-touch connector-integrated solar module assembly according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, the definition should be made based on the contents throughout the present specification.

5 is a perspective view showing the configuration of an assembly for a one-touch connector-integrated solar module according to the present invention, FIG. 6 is a partial cross-sectional view of AA of FIG. 5, and FIG. 7 is a one-touch connector-integrated solar module according to another embodiment of the present invention. It is a perspective view showing the configuration of the assembly for, Figure 8 and Figure 9 is a perspective view showing a state in which the female connector is installed in the solar module of the assembly for a one-touch connector integrated solar module according to the present invention.

5 to 9, the one-touch connector-integrated solar module assembly 10 according to the present invention is composed of a female connector 11 and a bracket 13.

First, the female connector 11 is made of a conductive metal material such as copper, and the female socket 11a is formed in a cylindrical shape so that the male socket 23 of the bracket 13 is inserted, so that the two corners of each solar module P Alternatively, at least one is fixedly installed at three corners, and the solar busbar wire (P2) extending from the cell (P1) of the solar module (P) is combined and fixed to the solar module (P). The connection plate 11b of the shape is provided integrally. At this time, the photovoltaic busbar wire (P2) can secure a view by adjusting its position and number on the glass substrate (P3) according to the installation position of the photovoltaic module (P), and the female socket (11a) is cylindrical In addition, it may be formed in an oval shape or a polygonal shape, and the connection plate 11b is also illustrated in a circular shape, but may be variously formed in an oval shape or a polygonal shape.

In addition, when the female connector 11 is coupled to the solar module P, when the solar module P is attached to the cell P1 between the two glass substrates P3 (multilayer) as shown in FIG. 8 In the case, the female sockets 11a are protruding from both sides of the connection plate 11b and inserted into the hole P4 of the photovoltaic module P, so that the connection plate 11b is positioned between the glass substrate P3. Preferably, as shown in FIG. 9, when the cell P1 is attached to one glass substrate (P3, single layer), a female socket 11a protrudes toward one side of the connection plate 11b to form a solar module P It is preferable that the connection plate 11b is positioned on one side of the glass substrate P3 by being inserted into the hole P4 of ). At this time, when one glass substrate P3 is provided, the transparency can be adjusted by attaching a back sheet (not shown) to one surface of the glass substrate P3 to which the cell P1 is attached, and the female connector 11 is waterproof. It is preferable that a cover (not shown) is installed on the outside so that it is made.

In addition, a frame (not shown) may be installed on the edge of the photovoltaic module (P). When the frame is installed, the female socket (11a) is installed at a position where it does not interfere with the frame or installed at a position where the frame is covered. Can be.

Subsequently, the bracket 13 is formed in the form of a rectangular parallelepiped having a space therein, and a pair of male sockets 13a that are inserted and coupled in a one-touch manner to the female socket 11a of the female connector 11 on the front surface are formed. Then, an electric wire cable 13b for electrically connecting the pair of male sockets 13a is embedded in the space portion. In this case, the male socket 23 is preferably formed in a shape corresponding to the female socket 11a, and a cutout 13c is provided vertically at the center portion to have elasticity.

In addition, the bracket 13 may be formed of an MC-4 type in which only an electric wire cable 13a is provided, and a diode type in which a diode (not shown) is coupled to the electric wire cable 13a.

In addition, when the bracket 13 is coupled to the hidden type window frame as shown in Fig. 5, the front is formed in a flat shape, and when coupled to the exposed type window frame as shown in Fig. 6, the window frame is inserted in the front. The insertion groove (13d) is formed.

Hereinafter, a configuration of using the one-touch connector-integrated solar module assembly according to the present invention will be described in detail with reference to the accompanying drawings.

10 is a perspective view showing the configuration of a window-integrated solar power generation system using the one-touch connector-integrated solar module assembly according to the present invention, and FIGS. 11 and 12 are It is a perspective view showing the appearance that the connection connector assembly is installed on the solar module among windows and doors integrated solar power generation system.

5 to 12, a window-integrated solar power generation system 1 using a one-touch connector-integrated solar module assembly according to the present invention includes a window frame (F), a solar module (P), and a connection connector. It consists of an assembly 10, a charge controller (C) and a battery (B).

First, the window frame (F) is installed on the outer wall or roof of the building so that the solar module (P) is installed as a conventional structure.

In addition, the photovoltaic module P is formed by attaching a cell 23 between two glass substrates P3 as shown in FIG. 8, or one of one glass substrate P3 as shown in FIG. 9. It is formed by attaching the cell P1 to the side.

In addition, it is preferable that holes P4 are formed in two or three corners so that the female socket 11a of the connection connector assembly 10 is inserted into the glass substrate P2, and the solar busbar is formed in the cell P1. The wire P2 is connected to extend toward the female socket 11a. In this case, it is preferable that the holes P4 are formed to correspond to each other on the same line.

In addition, it is preferable to adjust the position of the solar busbar wire (P2) on the glass substrate (P3) according to the installation position of the solar module (P) to secure a view, and the solar module (P) A frame (not shown) may be installed on the rim of the frame, and when the frame is installed, the hole P4 may be installed at a position where it does not interfere with the frame or may be installed at a position where the frame is covered.

Subsequently, the connection connector assembly 10 has the same configuration as described above, and a redundant description thereof will be omitted.

Subsequently, the charge controller (C) is installed in the building in a normal structure and is electrically connected to the female connector 11 of the connection connector assembly 10 installed in the solar module P of the final stage to control solar power generation. do.

In addition, the battery (B) is installed in the building in a conventional structure, is generated from the solar module (P) under the control of the charge controller (C), the power delivered through the connection connector assembly (10) and the charge controller (C). To charge.

Hereinafter, the installation process of the window-integrated solar power generation system using the one-touch connector-integrated solar module assembly according to the present invention will be described in detail with reference to the accompanying drawings.

First, the female connector 11 is integrated and the pre-manufactured solar module P is installed on the window frame F.

When the installation of the solar module P is completed, each bracket 13 is used to connect the solar module P and the neighboring solar module P in a one-touch manner. At this time, when the bracket 13 is coupled to the hidden type window frame (F) as shown in FIG. 11, the front is formed in a flat shape and is in close contact with the solar module (P), and exposed as shown in FIG. When coupled to the type window frame (F), the window frame (F) is inserted into the insertion groove (13d) to minimize the protrusion height.

When the coupling of the bracket 13 is completed, the female connector 11 of the connection connector assembly 10 installed on the solar module P of the final stage and the charge controller C are electrically connected. At this time, the charge controller C and the battery B are electrically connected.

In this state, when power is generated in each cell P1 of each solar module P, the generated electricity is transferred to the female connector 11 through the solar busbar wire P2, and again, the female connector 11 ) Is transferred to the neighboring photovoltaic module (P) through the bracket (13) connected to the ), and finally charged to the battery (B) through the charge controller (C).

The present invention may be variously modified and applied, and may take various forms, and in the detailed description of the present invention, only specific embodiments according thereto have been described. However, it should be understood that the present invention is not limited to the specific form mentioned in the detailed description, and rather, it is understood to include all modifications, equivalents, and substitutes within the spirit and scope of the present invention as defined by the appended claims. It should be.

10: connection connector assembly 11: female connector
13: bracket B: battery
C: Charge controller F: Window frame
P: solar module P1: cell
P2: Solar busbar wire P3: Glass substrate
P4: Hall

Claims (9)

A female connector in which one or more female sockets are respectively installed at two or three corners of the solar module;
A bracket in which a space part is provided inside, a pair of male sockets that are inserted and coupled in a one-touch manner to the female socket of the female connector are protruded on the front side, and a wire cable that electrically connects the male sockets to each other in the space part is embedded Including,
The female connector,
Each connected by a solar busbar wire, a connection plate formed in one of a cylindrical shape, an oval shape, and a polygonal shape to be fixed to the solar module is integrally provided, and the solar module is interposed between two glass substrates. When the cell is attached, the female sockets protrude toward both sides of the connection plate and are inserted into the hole of the solar module so that the connection plate is positioned between the glass substrates, and the cell is attached to the outer surface of one glass substrate. In case the female socket is protruded toward one side of the connection plate and inserted into the hole of the solar module, the connection plate is located on one side of the glass substrate,
The bracket is,
The wire cable is formed in a diode type in which a diode is coupled to connect a female connector of an arbitrary solar module to a female connector of a neighboring solar module, and the front side is formed in a flat shape when combined with a hidden type window frame, One-touch connector-integrated solar module assembly, characterized in that the insertion groove is formed in the front of the frame when coupled to the exposed-type frame. delete delete In the window-integrated solar power generation system using the one-touch connector-integrated solar module assembly of claim 1,
A window frame installed on an outer wall or roof of a building;
A photovoltaic module provided with a plurality of cells and installed in the window frame;
A connection connector assembly in which a female connector having a female socket is integrally installed in the solar module, and a bracket is used to connect a female connector of an arbitrary solar module to a female connector of an adjacent solar module;
A charging controller installed in a building and connected by a bracket to a female connector of the connection connector assembly installed on a solar module of a final stage to control solar power generation; And
It is installed in the building and is generated from the solar module under the control of the charge controller and includes a battery for charging power transmitted through the connection connector assembly and the charge controller,
The female connector,
Each connected by a solar busbar wire, a connection plate formed in one of a cylindrical shape, an oval shape, and a polygonal shape to be fixed to the solar module is integrally provided, and the solar module is interposed between two glass substrates. When the cell is attached, the female sockets protrude toward both sides of the connection plate and are inserted into the hole of the solar module so that the connection plate is positioned between the glass substrates, and the cell is attached to the outer surface of one glass substrate. In case the female socket is protruded toward one side of the connection plate and inserted into the hole of the solar module, the connection plate is located on one side of the glass substrate,
The bracket is,
A diode type in which a space part is provided inside, a pair of male sockets protruding and connected to the female socket of the female connector in a one-touch manner on the front side, and a diode electrically connecting the male sockets to each other in the space part are combined An in-line cable is embedded to connect the female connector of an arbitrary photovoltaic module to the female connector of an adjacent photovoltaic module. A window-integrated solar power generation system, characterized in that the insertion groove into which the frame is inserted is formed. The method of claim 4,
The solar module,
Window-integrated solar power generation system, characterized in that a back sheet is attached to one side when formed with one glass substrate. delete The method of claim 4,
The connection connector assembly,
Window-integrated solar power generation system, characterized in that installed on the outside or inside the solar module. delete delete

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