KR20190110709A - Juction Box of Photovoltaic Module Used for Building Integrated Photovoltaic System - Google Patents

Abstract

The present invention relates to a clip type BIPV junction box used in a building-integrated solar module, which is easily maintained, comprising: a power inflow/outflow unit; two conductive clip bodies in which the power inflow/outflow unit is installed; a conductive upper clip for improving conductivity; a casing body having the power inflow/outflow unit installed therein; and a casing cover for covering the casing body.

Description

Clip Type BIPV Junction Box for Integrated Solar Modules {Juction Box of Photovoltaic Module Used for Building Integrated Photovoltaic System}

The present invention relates to a clip-type BIPV junction box used in the building integrated solar module, more specifically, it can be miniaturized to be used as a building material, the contact force is good because it presses the bus bar in the form of a clip, the solar module and solar light It is a clip-type BIPV junction box used for building integrated solar modules that can be easily connected in the field with the module's busbars.

Photovoltaic Power Generation is a power generation method that converts sunlight directly into electricity. At its core is a solar cell (Solar Cell or Photovoltaic Cell). These solar cells are connected in series and parallel as needed to make a structure that can withstand the natural environment and external shocks for a long time, the minimum unit is called a photovoltaic module (PV module).

The photovoltaic module consists of a solar cell that converts light energy into electrical energy and glass, encapsulant, back sheet, and frame to protect the solar cell from the external environment. And a junction box is coupled to the back of each solar module to electrically connect the plurality of solar modules. The junction box has a bypass diode that protects the solar module from hot spots generated when the solar module is shaded, and a connector connected by cables for electrical connection between the plurality of solar modules.

In general, a photovoltaic power generation system includes the photovoltaic module, a connection panel, and an inverter. The serial and parallel configuration of the solar modules depends on the installation environment, the installed capacity, and the solar module and inverter specifications. The interface board collects electricity for each circuit and protects the system. It includes a circuit breaker that disconnects the inverter, a diode to prevent reverse current for each circuit, and a fuse for overcurrent protection. In some cases, it includes a device for collecting weather information, a device for measuring current and voltage, and a surge protector for surge and lightning protection.

In general, BIPV (building integrated photovoltaic) system among PV system is applied to roof or wall, which is the finishing material of building, to reduce the finishing material of building with the original function of electric energy production. It is a multifunctional skin application technology.

Such a photovoltaic system has the advantage of being able to supply energy stably because there is little maintenance cost after installation and there is no driving part and there is little failure if the initial investment cost is established.

The building integrated photovoltaic system is installed integrally with a wall or roof of a building, and is connected to the solar cell module by a plurality of solar cell modules and cables which convert light energy of solar light into electrical energy. On the other hand, it includes a junction box that serves to transfer the electrical energy produced by the solar cell module to an inverter (inverter) or a battery (battery).

The solar cell modules are arranged to be continuous horizontally and vertically with a predetermined gap (about 1 cm), and the junction box is disposed in the gap T between the solar cell modules arranged in this manner.

1 is an exemplary view of a conventional junction box, the junction box is a hollow structure having an open upper surface, a body portion having a plurality of connection ports formed on the front surface, and casings respectively formed on both sides of the body portion; A support frame seated on an inner side of the casing and having a plurality of placement spaces therein; The arrangement space includes a main body having a hollow hole having an open upper surface, a first terminal provided on an upper surface of the main body adjacent to the connection port, and a second terminal provided at an opposite position of the first terminal. A plurality of bus bars arranged; A fixing member formed of a body portion having a pivoting end inserted into the pivoting hole, a pressing end integrally formed at an upper end of the body portion, and a crimping end provided on a lower surface of the body portion; The main body and the cover having a locking end provided on both side edges of the main body so as to be engaged or disengaged with the hanger of the casing, but use in a building integrated solar power system has problems such as size and installation.

Conventional junction box simply has a function of connecting and connecting the cable and the bypass diode, the operator should connect the ribbon terminal connected to the lead of the photovoltaic module to the connection port 2 when connecting to the photovoltaic module. This connection work must be fixed by inserting ribbon terminals at each connection port and tightening bolts, or by inserting ribbon terminals at each connection connection and fixing them by soldering. There is a problem in that the time required to be long, productivity is lowered.

In addition, in the case of soldering connection, when connecting the ribbon terminal connected to the lead of the photovoltaic module to the junction of the junction box, soldering should be done every four connectors. Considering that the quality assurance period of the various devices required for photovoltaic power generation is 20 years or more, there is a problem that the above-described defects in the soldering part cause a decrease in reliability of the product.

In addition, in order to use as a building material, the electrical wiring should not be exposed to the occupants, and the junction box should be inserted into the window frame. In order to do so, the size of the junction box should be reduced. In the case of the existing junction box, the terminal block that serves as an electrical connection point inside is assembled, which requires space and assembly parts for the assembly part, so that the overall size of the terminal block becomes larger and more complicated. There is a limit in miniaturization, the junction box in the building-integrated photovoltaic power generation system has a problem that the size and easy to attach.

In addition, considering that one junction box should be used for each solar module, and that the assembly process of the junction box should proceed continuously, there is a problem of minimizing field work.

1. Korean Registered Patent Publication No. 10-1483594 (Registration Date: January 12, 2015) High Efficiency Solar Module One Touch Junction Box 2. Korean Registered Patent Publication No. 10-1156491 (Registration Date: June 08, 2012) Junction box and solar module provided with the same 3. Korean Registered Patent Publication No. 10-1012003 (Registration Date: January 25, 2011) Junction Box for PV Module 4. Korean Registered Patent Publication No. 10-0930103 (Registration Date: November 27, 2009) Junction box for separate branch device of photovoltaic device 5. Korean Registered Patent Publication No. 10-1200631 (Registration Date: November 06, 2012) Building Integrated Solar Power System

In order to solve the above problems, the present invention manufactures the power inlet and outlet, and the connection between the power outlet and the busbar is in the form of a clip to facilitate the connection of the busbar, increase the contact force, and the box casing to the casing body and the casing. It is a structure that can be closed by one-touch by separating the cover, and the casing body can easily install the power inlet and outlet, make the bus bar draw in and out to the bottom, and it is manufactured in small size so that the clip type BIPV junction box used for the integrated solar module of the building can be installed. In providing.

Junction box of the present invention is to continue to connect the DC power generated in the building solar photovoltaic system solar module in series with other photovoltaic modules in order to finally obtain a constant voltage.

The junction box is coupled with an incoming bus bar, one end of which is introduced with the DC power generated from the solar module, and the DC power is introduced, and the other end is coupled with an outgoing bus bar from which the DC power is drawn, and the DC power is drawn out to the next solar module. The drawn DC power source includes a power input and output unit drawn out in one direction; The power inlet and outlet is installed inside, the inlet busbar and the outlet busbar is drawn out to the bottom, and the power outlet is composed of a box casing to be waterproof so as not to be exposed to the outside wrapped.

The power inlet and outlet parts are connected to each of the inlet busbar and the outlet busbar, respectively, inserted into the center, and have a conductivity of a predetermined or more material, and the two conductive clips contacting both sides of the inlet busbar and the outlet busbar to receive or draw DC power. A main body; Each of the inlet busbars and the outgoing busbars is coupled to the upper portion of the conducting clip body after being fitted to the conducting clip body, and by pressing both outer surfaces of the conducting clip body, the contact bus bar or the outgoing bus bar and the conducting clip body are contacted. Conductive upper clip to increase the conductivity to improve; It consists of a diode main body and two lead terminals respectively coupled to both ends of the diode main body portion to allow the current to flow in one direction but not in the opposite direction and draw or draw DC power, the conducting clip body and the conducting clip Installed between the main body is composed of a diode one end of the conductive clip body is coupled to each of the lead terminal and brazing.

The coupling of the conducting clip body and the diode is prefabricated at the factory.

The conducting clip body is made to act as a clip acting a narrowing force to the inside by bending the plate of a predetermined shape made in a press, the bus bar or the bus bus that draws in and out contact with the lower A drawout clip part; The bus bar draw-out clip part is continuously formed at a lower portion thereof, and the lead terminal is inserted into the inside of the brazing part, and the conductive clip body and the diode are coupled to each other.

The conductive upper clip is bent 90 degrees at a portion of a certain width plate formed in the press by a horizontal width from both sides to form a horizontal portion in the center to form a role that the two vertical portions are formed to act as a clip to narrow the inside Is produced.

The box casing includes a casing main body in which the inlet bus bar and the outgoing bus bar are drawn in and out of the lower part, and the power inlet and outlet are installed therein; It is composed of a casing cover coupled to the upper portion of the casing main body to cover the casing main body.

The casing body and the main body outer portion forming an outer shape; It is formed inside the main body of the outer portion is composed of two clip body installation portion where the conductive clip body is installed.

The bus bar pull-out clip unit has a pull-out bus bar or a draw-out bus bar is drawn into the inside, the pull-out clip main body of the shape to fold the plate by 90 degrees from both sides to the center portion; The draw-out clip body is formed successively at both ends and is bent by 90 degrees on both sides, and is composed of a wing which fixes the conductive clip body in a casing body of the box casing so as not to move.

The lower part of the draw-out clip main body has a bus bar draw-in and out slit hole having a predetermined portion open so that the draw-in bus bar or the draw-out bus bar can be drawn in and out of the lower part, and the conductive upper clip is formed at the center of the draw-out clip body. The inner protrusion coupling groove into which the horizontal inner protrusion of the conductive upper clip enters is formed so as not to fall out of the conductive clip body.

The upper portion of the upper portion of the conductive upper clip is formed with an upper opening portion through which the inlet bus bar or the outlet bus bar pass, and the vertical portion is the horizontal inner protrusion coupled to the inner protrusion coupling groove of the outlet clip body, Two vertical inner protrusions are formed to press the side walls of the clip body.

The main body outer portion is formed inside the clip body mounting portion, the lower body outer portion that the upper surface and the lower end of the casing cover contact; It is formed on the upper portion of the lower body outer portion is composed of a cover coupling outer portion coupled to the casing cover and one touch.

The clip body mounting portion is projected at a predetermined length at a right angle from the horizontal vertical wall of the lower body outer portion so that the wings of the conductive clip body is installed on the outside and is formed lower than the height of the casing body four squares having a predetermined distance from each other It is composed of pillars.

On the bottom surface of the lower main body portion, when the inlet bus bar and the outgoing bus bar respectively enter the lower part of the casing body, the casing body is raised from the upper surface of the photovoltaic module by the thickness of the inlet bus bar and the outgoing bus bar, so that the insulated bus bar and the outgoing bus bar are not in close contact. Two bottom busbar inlet grooves for preventing and two busbar inlet quadrangular holes are opened in a rectangular shape so that the inlet busbar and the outgoing busbar drawn into the bottom busbar inlet groove are turned at right angles and drawn inwardly.

Two cover coupling protrusions are formed on the front and rear surfaces of the cover coupling outer portion to be coupled to the casing cover by one touch, and cover contact curved protrusions coupled to the side curved portions of the casing cover on both sides of the cover coupling outer portion. Is formed.

The front and rear of the casing cover is formed with four projection coupling grooves that are one-touch coupling with the cover engaging projection, respectively, and both side surfaces of the casing cover is formed with concave grooves in surface contact with the upper surface of the cover contact curved projection. .

The above-described junction box can solve the problem to be solved of the present invention.

According to the clip-type BIPV junction box used in the building-integrated photovoltaic module of the present invention, since the power inlet and outlet can be manufactured in advance in the factory, the coupling between the conduction clip body and the connection portion of the diode cannot occur, and the bus clip is inserted into the conduction clip body. Since the upper part of the clip is pressed in, the connection with the busbar can be made easier than before, and the contact force is high, and it is possible to prevent the poor connection of the busbar due to carelessness during work, and the small size is easy to install. Attaching with silicone After molding, molding with silicone facilitates complete waterproofing, simple structure, and easy removal of busbars.

1 is a diagram illustrating a conventional junction box
2 is an example of using the junction box of the present invention used in the building integrated solar module
Figure 3 is an overall schematic view of the clip-type BIPV junction box used in the building integrated solar module of the present invention
Figure 4 is a schematic view of the power inlet and outlet according to the clip-type BIPV junction box used in the building integrated solar module of the present invention
Figure 5 is an exploded schematic view of the power inlet and outlet according to the clip-type BIPV junction box used in the building integrated solar module of the present invention
Figure 6 is a schematic view of the conducting clip body according to the power inlet and outlet of the clip-type BIPV junction box used in the building integrated solar module of the present invention
7 is a schematic view of the conductive upper clip according to the power input and output of the clip-type BIPV junction box used in the building-integrated photovoltaic module of the present invention
Figure 8 is a schematic diagram of the casing according to the clip-type BIPV junction box used in the building integrated solar module of the present invention
Figure 9 is a schematic diagram of the casing body according to the casing of the clip-type BIPV junction box used in the building integrated solar module of the present invention
10 is a schematic view of the casing cover according to the casing of the clip-type BIPV junction box used in the building-integrated photovoltaic module of the present invention
Figure 11 is a schematic diagram of the last junction box according to the clip-type BIPV junction box used in the building integrated solar module of the present invention

First, prior to entering the detailed description of the present invention, if it is determined that the detailed description of the known technology or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the terms to be described later are defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or the operator, and the definitions thereof are defined as "clip-type BIPV used in the building integrated solar module according to the present invention. Junction Box "will be made based on the contents throughout the specification.

Hereinafter, a preferred embodiment of the "clip-type BIPV junction box used in a building integrated solar module" according to the present invention will be described in detail.

The following examples are merely illustrated to illustrate the present invention and are not intended to limit the scope of the present invention.

1 is an exemplary view of a conventional junction box, Figure 2 is an example of using the junction box of the present invention used in the building integrated solar module, Figure 3 is a whole of the clip-type BIPV junction box used in the building integrated solar module of the present invention Figure 4 is a schematic view of the power entry and exit according to the clip-type BIPV junction box used in the building-integrated photovoltaic module of the present invention, Figure 5 is a power source according to the clip-type BIPV junction box used in the building-integrated photovoltaic module of the present invention Figure 6 is an exploded schematic of the entrance and exit portion, Figure 6 is a schematic diagram of the conductive clip body according to the power inlet and outlet of the clip-type BIPV junction box used in the building integrated solar module of the present invention, Figure 7 is used in the building integrated solar module of the present invention Fig. 8 is a schematic view of the conductive upper clip according to the power input and output of the clip-type BIPV junction box, Figure 8 is a clip-type BIPV junction box used in the building integrated solar module of the present invention 9 is a schematic view of the casing main body according to the casing of the clip-type BIPV junction box used in the building integrated solar module of the present invention, Figure 10 is a clip-type BIPV junction used in the building integrated solar module of the present invention. It is a schematic diagram of the casing cover according to the casing of the box, Figure 11 is a schematic diagram of the last junction box according to the clip-type BIPV junction box used in the building integrated solar module of the present invention.

As illustrated in FIG. 2, the junction box 3 according to the present invention uses another embodiment of the DC power generated in the solar module A of the building integrated photovoltaic system (BIPV System). It continues to be connected in series with the optical module (A) serves to finally obtain a constant voltage.

The solar module A is mounted on glass or panel B, which is used for exterior windows or for walls.

One end portion of the junction box 3 draws DC power generated by the solar module A and draws it into the drawing bus bar 1, and the other end portion draws DC power from the junction box 3, and Withdrawal bus bar (2) for introducing a DC power to the solar module (A) is coupled.

The last junction box (3a) is installed in the last module of the integrated solar photovoltaic power generation system is the bus bar pull-out clip part of the conduction clip body 311 of the power inlet and outlet (31) to be coupled to the connection cable (4) Terminal coupling portions 3112 are formed at both ends of the 3111, and the connection cable 4 is coupled to the terminal coupling portion 3112 on one side, and is coupled to a cable connected to an inverter.

In FIG. 2, only + power is indicated, and − power is omitted.

As shown in FIG. 3, the junction box 3 of the present invention has one end coupled with an incoming bus bar 1 into which DC power generated by the solar module A is introduced, and DC power is introduced therein, and the other end thereof. The power supply unit 31 is coupled to the withdrawal bus bar 2 from which the DC power is drawn, and then the DC power is drawn out to the next solar module A. The drawn DC power is drawn out in one direction; The power inlet and outlet 31 is installed inside, the inlet bus bar 1 and the outlet bus bar 2 is drawn in and out, and the power outlet 31 is wrapped so as not to be exposed to the outside to be waterproof It consists of a box casing 32 serving as a case.

The power inlet / outlet 31 has the inlet bus bar 1 and the outlet bus bar 2 inserted into the center, respectively, and is coupled to each other. Two conductive clip bodies 311 which are in contact with both sides of (2) to receive or draw DC power; Each of the inlet bus bar 1 and the outgoing bus bar 2 is fitted to the conductive clip body 311 and then coupled to the upper portion of the conductive clip body 311, and both outer surfaces of the conductive clip body 311. Conductive upper clip 312 to increase the contact force between the incoming bus bar (1) or the drawing bus bar (2) and the conductive clip body 311 by pressing to improve the conductivity; Two lead terminals 3132 coupled to both ends of the diode main body 3131 and the diode main body 3131 which allow current to flow in only one direction and not in the opposite direction, respectively, to draw or draw DC power. It is made between the conductive clip body 311 and the conductive clip body 311 is composed of a diode 313, one end of the conductive clip body 311 is coupled to each of the lead terminal 3132 by brazing do.

The coupling of the conductive clip body 311 and the diode 313 is prefabricated at the factory.

The box casing 32 includes a casing body 321 in which the drawing bus bar 1 and the drawing bus bar 2 are drawn in and out, and the power inlet / out part 31 is installed therein; It is composed of a casing cover 322 coupled to the upper portion of the casing body 321 to cover the casing body 321.

According to the clip-type BIPV junction box 3 used in the building integrated solar module of the present invention, the power entry / exit 31 may be manufactured in advance in a factory, and thus the connection clip body 311 and the diode 313 are connected to each other. Can not be combined, and the insertion bus bar (1) because the insertion bus bar (1) or withdrawal bus bar (2) in the conductive clip main body 311 and then press the conductive upper clip (312) by pressing the pull-in bus bar (1) ) Or the connection work of the drawing bus bar (2) can be easier than before, and the contact force is high, and the connection failure of the drawing bus bar (1) or drawing bus bar (2) due to carelessness can be prevented in advance. It is manufactured in a small size and is easy to install and attached with silicone. Molding with silicone after installation makes it easy to completely waterproof and maintains a simple structure and easy separation of the drawing bus bar 1 or drawing bus bar 2. Easy teeth There is.

As shown in FIG. 4 and FIG. 5, the power input / output unit 31 is coupled to an incoming bus bar 1 into which one end of the DC power generated by the solar module A is introduced, and the DC power is introduced. The end is coupled to the drawing bus bar (2) that the DC power is drawn out, the DC power is drawn out to the next solar module (A), the drawn DC power serves to be drawn in one direction.

The power inlet / outlet 31 has the inlet bus bar 1 and the outlet bus bar 2 inserted into the center, respectively, and is coupled to each other. Two conductive clip bodies 311 which are in contact with both sides of (2) to receive or draw DC power; Each of the inlet bus bar 1 and the outgoing bus bar 2 is fitted to the conductive clip body 311 and then coupled to the upper portion of the conductive clip body 311, and both outer surfaces of the conductive clip body 311. Conductive upper clip 312 to increase the contact force between the incoming bus bar (1) or the drawing bus bar (2) and the conductive clip body 311 by pressing to improve the conductivity; Two lead terminals 3132 coupled to both ends of the diode main body 3131 and the diode main body 3131 which allow current to flow in only one direction and not in the opposite direction, respectively, to draw or draw DC power. It is made between the conductive clip body 311 and the conductive clip body 311 is composed of a diode 313, one end of the conductive clip body 311 is coupled to each of the lead terminal 3132 by brazing do.

The coupling of the conductive clip body 311 and the diode 313 is prefabricated at the factory, so there is no defect.

As shown in FIG. 6, the conductive clip main body 311 is coupled to the inlet bus bar 1 and the outlet bus bar 2 by being inserted into the center, respectively, and has a conductivity of a predetermined or more material. In contact with both sides of the bar (1) and the draw-out bus bar (2) to receive or draw DC power, it is installed symmetrically and consists of two.

The conductive clip main body 311 is made to act as a clip that the force narrowed to the inside by bending a plate of a predetermined shape made in a press, the drawing bus bar (1) or the drawing bus bar (2) A bus bar pull-out clip part 3111 having a draw-out contact with the bottom; The bus bar draw-out clip part 3111 is continuously formed at one lower portion of the bus bar, and the lead terminal 3132 is inserted into the terminal to be filled with brazing so that the conductive clip main body 311 and the diode 313 are coupled to each other. It consists of a part 3112.

The bus bar draw-out clip part 3111 has the draw-in bus bar 1 or the draw-out bus bar 2 drawn into the inside, and the draw-out clip body having a shape in which the plate is folded by 90 ° from both sides to the center part. (31111); The draw-out clip body 31111 is formed at both ends and is bent 90 degrees to both sides, and the conductive clip body 311 is fixed to the inside of the casing body 321 of the box casing 32. It consists of wings 31112.

A bus bar entry / exit slit hole 311111 is formed at a lower portion of the pull-out clip main body 31111 to open a predetermined portion so that the pull-in bus bar 1 or the draw-out bus bar 2 can be pulled in and out.

An inner protrusion coupling groove into which the horizontal inner protrusion 31221 of the conductive upper clip 312 enters the central upper portion of the lead-out clip main body 31111 so that the conductive upper clip 312 does not fall out of the conductive clip main body 311. 311112 is formed.

As shown in FIG. 7, the conductive upper clip 312 has the conductive clip body 311 after each of the inlet bus bar 1 and the outlet bus bar 2 is fitted to the conductive clip body 311. It is coupled to the upper portion of the conductive clip main body 311 by pressing the outer surface of the incoming bus bar (1) or the draw out bus bar (2) to increase the contact force between the conductive clip body 311 to improve the conductivity Do it.

The conductive upper clip 312 is bent by 90 degrees at a portion of the plate having a predetermined shape made of a press with a predetermined width on both sides to form a horizontal portion 3121 at the center to form two vertical portions 3122 inside It is designed to act as a clip that acts as a narrowing force.

An upper open portion 3311 through which the incoming bus bar 1 or the drawn out bus bar 2 passes is formed in the horizontal portion 3121 of the upper portion of the conductive upper clip 312.

The vertical portion 3122 has two horizontal inner projections 312 21 coupled to the inner projection coupling groove 311 112 of the drawout clip body 31111 and two side walls of the drawout clip body 31111. A vertical inner projection 331222 is formed.

As shown in FIG. 8, the box case 32 has the power inlet / outlet 31 installed therein, the inlet bus bar 1 and the outlet bus bar 2 are drawn in and out from the bottom. The power inlet / outlet 31 serves as a case to be waterproof so as not to be exposed to the outside.

The box casing 32 includes a casing body 321 in which the drawing bus bar 1 and the drawing bus bar 2 are drawn in and out, and the power inlet / out part 31 is installed therein; It is composed of a casing cover 322 coupled to the upper portion of the casing body 321 to cover the casing body 321.

The box casing 32 is used on an outer window on which the solar module A is installed or installed on a glass or panel B used for a wall, and is attached with an adhesive, and the casing body 321 is made of silicon for waterproofing. ) And the casing cover 322 may be molded, or only a portion where both ends of the casing body 321 and the casing cover 322 contact with each other may be waterproofed with silicon.

As shown in FIG. 9, the casing body 321 has the incoming bus bar 1 and the outgoing bus bar 2 drawn in and out, and the power inlet / out part 31 is installed therein.

The casing body 321 includes a main body outer portion 3211 forming an outer shape; It is formed inside the main body outer portion (3211) is composed of two clip body mounting portion 3212, the conductive clip body 311 is installed.

The main body outer portion 3211 has the clip main body mounting portion 3212 formed therein, the lower main body outer portion (32111) and the upper surface and the lower end of the casing cover (322) contact; It is formed on the upper body portion 32111 of the lower body is composed of a cover coupling outer portion 32112 coupled to the casing cover 322 by one touch.

The clip body mounting portion 3212 is projected to a predetermined length at right angles to the horizontal and vertical walls of the lower body outer portion 32111 so that the wings 31112 of the conductive clip body 311 is installed outside the casing body. It is formed lower than the height of 321 and consists of four square pillars 32121 having a predetermined interval from each other.

The inlet bus bar 1 and the outgoing bus bar 2 are respectively drawn on the bottom surface of the lower main body outer part 32111 when the inlet bus bar 1 and the outlet bus bar 2 are drawn into the lower part of the casing body. Due to the thickness, the casing main body 321 is raised from the upper surface of the solar module A and is inserted into the two bottom busine inlet grooves 321111 and the bottom busine inlet grooves 321111 to prevent the close contact. Two bus bar inlet quadrangular holes 321112 opened in a rectangular shape so that the inlet bus bar 1 or the outgoing bus bar 2 is turned at right angles and drawn into the inside, and the diode body 3131 is installed. A diode seating portion 321113 having a curved groove is formed.

Two cover coupling protrusions 321121 are formed on the front and rear surfaces of the cover coupling outer portion 32112 to be coupled to the casing cover 322 by one touch.

Cover contact curved projections 321122 coupled to the side curved portions of the casing cover 322 are formed at both side surfaces of the cover coupling outer portion 32112.

As shown in FIG. 10, the casing cover 322 is coupled to the upper portion of the casing body 321 by one touch and serves to cover the casing body 321.

The front and rear of the casing cover 322 is formed with four projection coupling grooves 3221 which are one-touch coupling with the cover coupling projections 321121, respectively.

Concave grooves 3222 are formed on both side surfaces of the casing cover 322 to be in surface contact with the upper surface of the cover contact curved protrusion 321122.

As shown in FIG. 11, the last junction box 3a installed in the last module of the integrated solar power generation system is a conductive clip body 311 of the power inlet / outlet 31 so as to couple the connection cable 4. Terminal coupling portions 3112 are formed at both ends of the bus bar pull-out clip portion 3111 of the bus bar, and the connection cable 4 is coupled to the terminal coupling portion 3112 on one side, and is coupled to a cable connected to an inverter.

The power inlet / outlet part 31a of the last junction box 3a has terminal coupling parts 3112 formed at both ends of the busbar drawout clip part 3111, respectively, and the terminal coupling part 3112 is provided at a portion where DC power is drawn out. One end of the connection cable 4 is coupled to the brazing.

The box casing 32a of the last junction box 3a is further provided with a portion where the terminal coupling portion 3112 is installed and a portion where one end of the connection cable 4 is installed in the portion where the DC power is drawn. .

According to the clip-type BIPV junction box 3 used in the building integrated solar module of the present invention, the power entry / exit 31 may be manufactured in advance in a factory, and thus the connection clip body 311 and the diode 313 are connected to each other. Can not be combined, and the insertion bus bar (1) because the insertion bus bar (1) or withdrawal bus bar (2) in the conductive clip main body 311 and then press the conductive upper clip (312) by pressing the pull-in bus bar (1) ) Or the connection work of the drawing bus bar (2) can be easier than before, and the contact force is high, and the connection failure of the drawing bus bar (1) or drawing bus bar (2) due to carelessness can be prevented in advance. It is manufactured in a small size and is easy to install and attached with silicone. Molding with silicone after installation makes it easy to completely waterproof and maintains a simple structure and easy separation of the drawing bus bar 1 or drawing bus bar 2. Easy teeth There is.

A: solar module B: glass or panel
1: incoming bus bar
2: withdrawal bus bar 3: junction box
3a: Last junction box 31: power inlet and outlet
31a: Power inlet and outlet of the last junction box
32a: Box casing of the last junction box
311: conduction clip main body 3111: bus bar draw-out clip
31111: Clip-in main body 311111: Bus-bin slit hole
311112: Internal protrusion coupling groove 311113: Bus bar passing section
31112: wing 3112: terminal coupling
312: upper conductive clip 3121: horizontal portion
31211: upper part 3122: vertical part
31221: horizontal inner projection 31222: vertical inner projection
313: diode 3131: diode body
3132: lead terminal 32: box casing
321: casing body 3211: outer body portion
32111: lower body outline part 321111: bottom bus vine groove
321112: Busbar inlet 4-hole 321113: Diode seat
32112: outer cover coupling part 321121: cover coupling protrusion
321122: Cover contact curved protrusion 3212: Clip body mounting portion
32121: Square Pillar 3211: Bottom Bus Vine Entry Groove
3212: bus bar entry 4-hole 322: casing cover
3221: protrusion coupling groove 3222: concave groove
4: Connection cable

Claims (5)

In the junction box (3) for connecting the DC power generated in the solar module (A) of the Building Integrated Photovoltaic System (BIPV System) in series with the other solar module (A),
The junction box 3 is coupled to an incoming bus bar 1 into which one end portion of the DC power generated by the solar module A is drawn, and the DC power is drawn in, and the other end of the junction bus bar 2 draws DC power thereto. Coupled to the next photovoltaic module (A) and the DC power is drawn out, the DC power is drawn in and out in one direction;
The power inlet and outlet 31 is installed inside, the inlet bus bar 1 and the outlet bus bar 2 is drawn in and out, and the power outlet 31 is wrapped so as not to be exposed to the outside to be waterproof Consists of a box casing 32 acting as a case,
The power inlet / outlet 31 has the inlet bus bar 1 and the outlet bus bar 2 inserted into the center, respectively, and is coupled to each other. Two conductive clip bodies 311 which are in contact with both sides of (2) to receive or draw DC power;
Each of the inlet bus bar 1 and the outgoing bus bar 2 is fitted to the conductive clip body 311 and then coupled to the upper portion of the conductive clip body 311, and both outer surfaces of the conductive clip body 311. Conductive upper clip 312 to increase the contact force between the incoming bus bar (1) or the drawing bus bar (2) and the conductive clip body 311 by pressing to improve the conductivity;
Two lead terminals 3132 coupled to both ends of the diode main body 3131 and the diode main body 3131 which allow current to flow in only one direction and not in the opposite direction, respectively, to draw or draw DC power. It is made between the conductive clip body 311 and the conductive clip body 311 is composed of a diode 313, one end of the conductive clip body 311 is coupled to each of the lead terminal 3132 by brazing Clip-on BIPV Junction Box for Integrated Solar Photovoltaic Modules
The method of claim 1,
The conductive clip main body 311 is made to act as a clip that the force narrowed to the inside by bending a plate of a predetermined shape made in a press, the drawing bus bar (1) or the drawing bus bar (2) A bus bar pull-out clip part 3111 having a draw-out contact with the bottom;
The bus bar draw-out clip part 3111 is continuously formed at one lower portion of the bus bar, and the lead terminal 3132 is inserted into the terminal to be filled with brazing so that the conductive clip main body 311 and the diode 313 are coupled to each other. Consists of a portion 3112,
The conductive upper clip 312 is bent by 90 degrees at a portion of the plate having a predetermined shape made of a press with a predetermined width on both sides to form a horizontal portion 3121 at the center to form two vertical portions 3122 inside Clip-type BIPV junction box used in building integrated solar modules, characterized in that it is made to act as a clip acting as a narrowing force
The method of claim 1,
The box casing 32 includes a casing body 321 in which the drawing bus bar 1 and the drawing bus bar 2 are drawn in and out, and the power inlet / out part 31 is installed therein;
It is composed of a casing cover 322 coupled to the upper portion of the casing body 321 to cover the casing body 321,
The casing body 321 includes a main body outer portion 3211 forming an outer shape;
Clip-type BIPV junction used in the integrated solar module of the building, characterized in that it is formed inside the main body outer portion (3211) is composed of two clip body installation portion 3212, the conductive clip body 311 is installed. box
The method of claim 2,
The bus bar draw-out clip part 3111 has the draw-in bus bar 1 or the draw-out bus bar 2 drawn into the inside, and the draw-out clip body having a shape in which the plate is folded by 90 ° from both sides to the center part. (31111);
The draw-out clip body 31111 is formed at both ends and is bent 90 degrees to both sides, and the conductive clip body 311 is fixed to the inside of the casing body 321 of the box casing 32. It consists of wings (31112)
A bus bar entry / exit slit hole 311111 is formed at a lower portion of the draw-in clip body 31111 to open a predetermined portion so that the draw-in bus bar 1 or the draw-out bus bar 2 can be drawn in and out.
An inner protrusion coupling groove into which the horizontal inner protrusion 31221 of the conductive upper clip 312 enters the central upper portion of the lead-out clip main body 31111 so that the conductive upper clip 312 does not fall out of the conductive clip main body 311. (311112) is formed,
An upper open portion 3311 through which the inlet bus bar 1 or the outlet bus bar 2 passes is formed in the horizontal portion 3121 of the upper portion of the conductive upper clip 312,
The vertical portion 3122 has two horizontal inner projections 312 21 coupled to the inner projection coupling groove 311 112 of the drawout clip body 31111 and two side walls of the drawout clip body 31111. Clip-type BIPV junction box used in building integrated solar modules, characterized in that the vertical inner projection (31222) is formed
The method of claim 3,
The main body outer portion 3211 has the clip main body mounting portion 3212 formed therein, the lower main body outer portion (32111) and the upper surface and the lower end of the casing cover (322) contact;
Is formed on top of the lower body outer portion (32111) is composed of a cover coupling outer portion (32112) coupled to the casing cover (322) in one touch,
The clip body mounting portion 3212 is projected to a predetermined length at right angles to the horizontal and vertical walls of the lower body outer portion 32111 so that the wings 31112 of the conductive clip body 311 is installed outside the casing body. It is formed lower than the height of 321 and consists of four square pillars 32121 having a predetermined distance from each other,
The inlet bus bar 1 and the outgoing bus bar 2 are respectively drawn on the bottom surface of the lower main body outer part 32111 when the inlet bus bar 1 and the outlet bus bar 2 are drawn into the lower part of the casing body. Due to the thickness, the casing main body 321 is raised from the upper surface of the solar module A and is inserted into the two bottom busine inlet grooves 321111 and the bottom busine inlet grooves 321111 to prevent the close contact. Two incoming bus bar inlet quadrangular holes 321112 are opened in a rectangular shape so that the incoming bus bar 1 or the outgoing bus bar 2 is turned at right angles and drawn into the inside.
Two cover coupling protrusions 321121 are formed on the front and rear surfaces of the cover coupling outer portion 32112 so as to be coupled to the casing cover 322 by one touch.
Cover contact curved protrusions 321122 coupled to the side curved portions of the casing cover 322 are formed on both side surfaces of the cover coupling outer portion 32112,
The front and rear of the casing cover 322 is formed with four projection coupling grooves 3221 which are one-touch coupling with each of the cover coupling projections (321121),
Clip-type BIPV junction box used in the integrated solar module of the building, characterized in that the concave groove (3222) is formed on both sides of the casing cover 322 in contact with the upper surface of the cover contact curved projection (321122).

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