JP3080551B2 - Wiring connection structure of solar cell module - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wiring connection structure for connecting a solar cell module installed on an outer wall of a building to another solar cell module, a power storage device provided in the building, and wiring from an inverter. .

[0002]

BACKGROUND ART In recent years, solar cells have been installed in buildings such as houses and buildings for environmental protection and energy saving. By the way, when actually using solar cells,
In order to increase the output voltage and current to required values and to protect the cells for a long period of time, they were packaged and configured as a solar cell module.

In this solar cell module, usually, a transparent substrate such as glass serving as a support plate of the module is disposed on the light receiving surface side of the solar cell, and a plurality of solar cells are connected in series and in parallel on the opposite light receiving surface side. And sealed with a transparent filling material, and the filling material was covered with a moisture-proof film in which an aluminum foil was sandwiched with PVF (polyvinyl fluoride). And when the solar cell module is connected to wiring from another solar cell module, a power storage device, and wiring from an inverter, conventionally, a part of the moisture-proof film is removed to take out a lead wire of the solar cell, A terminal box was arranged at the take-out portion, and the lead wires and wiring were connected in the terminal box.

[0004]

However, if a terminal box is provided on the back surface of the solar cell module, there is a problem that the terminal box is relatively large and it is difficult to settle the terminal box. In particular, when the solar cell module is installed on the outer wall of a building, there is a problem that the terminal box is in the way and cannot be installed, or the housing is poor and the appearance is deteriorated. In addition, the connection work of the lead wire and wiring of the solar cell must be performed in each terminal box. Especially, when the solar cell module is removed due to deterioration or damage of the solar cell, lead wire and indoor wiring are removed from the terminal box. Has to be performed, and there is a problem that the operation becomes complicated.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a good fit without the necessity of arranging a terminal box on the back surface of a solar cell module, and to facilitate connection and disconnection work between solar cell lead wires and wiring. It is an object of the present invention to provide a solar cell module wiring connection structure that can be used.

[0006]

According to the wiring connection structure of a solar cell module of the present invention, a transparent filler is filled between a transparent panel and a back plate, and a solar cell is sealed in the filler to cover the solar cell. A battery module was formed, a conductive connection material such as solder was provided in a hole formed in the back plate, and a lead wire of the solar cell and a wiring from the outside were inserted into the conductive connection material to be electrically connected. It is characterized by the following. Here, as the conductive connection material, a brazing material such as solder, or a material having various conductivity such as conductive paint or adhesive and capable of connecting a lead wire or a cable can be used.

Further, as a wiring connection structure for a solar cell module according to the present invention, a module formed by a partition provided at an intermediate portion in a hole formed in a back plate of the solar cell module.
A connector having a conductor partitioned into a side recess and an outer recess is mounted, and a module of the connector is provided.
With connecting leads of the solar cell on the side recess, the wiring from the outside, may be characterized in that it has connected to the connector by attaching a connector which is detachably connected to the outer side recess of the connector .

[0008]

According to the present invention, a conductive connecting material or a connector is provided on the back plate of the solar cell module, and the lead wires of the solar cell and the external wiring are connected by the conductive connecting material or the connector. Are electrically connected, there is no need to provide a terminal box for connection.
For this reason, the projecting portion due to the terminal box is eliminated on the back surface of the solar cell module, and the installation at the time of installing the module is improved. In addition, since there is no terminal box, wiring can be easily removed or attached from the solar cell module, and workability at the time of installation and replacement of the solar cell module is improved. In particular, if the connection connector is attached to the back plate of the solar cell module and the external wiring is provided with a detachable connector for the connection connector, the work of attaching and detaching the wiring from the solar cell module is further simplified.

[0009]

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows an end section, which is a main part of a solar cell module 10 according to a first embodiment of the present invention.

The solar cell module 10 includes a transparent panel 11 made of a glass plate or the like, a back plate 12 made of an aluminum plate or the like, and an EVA (ethylene-vinyl acetate) filled between the transparent panel 11 and the back plate 12. Copolymer), P
A transparent filler 13 made of a transparent resin having an adhesive force such as VB (polyvinyl butyral), a solar cell (cell) 14 sealed in the transparent filler 13, and a transparent filler 13
And a seal member 15 made of silicone rubber, butyl rubber, or the like, which is attached to the periphery of the seal member and shields the filler 13 from the outside air. As the solar cell 14, a silicon solar cell such as an amorphous silicon solar cell, a single crystal silicon solar cell, and a polycrystalline silicon solar cell is usually used.

The solar cell module 10 is configured so that several to several tens of solar cells 14 can be connected in series and, if necessary, in parallel in the filler 13 to output predetermined voltages and currents. . Note that among these solar cells 14, a lead 16 connected to an external wiring extends from the solar cell 14 provided at an end portion of the module 10 or the like.

The back plate 12 of the solar cell module 10 includes
A through hole 20 is formed in accordance with the portion of the solar cell 14 where the lead wire 16 is extended. In this through hole 20,
Bobbin-shaped doubly overlapping insulating materials 21A and 21B are attached. Note that a non-insulating material (such as a metal material having high adhesion to solder) may be used instead of the inner insulating material 21B.

The insulating material 21B is filled with a conductive connecting material 22 made of solder. This conductive connecting material 22
The lead wire 16 of the solar cell 14 and a conductor 26 of a wiring 25 connected to another solar cell module 10, a power storage device (lead storage battery, nickel cadmium battery, nickel metal hydride battery, etc.), an inverter and the like. It is stuck and fixed. As a result, the solar cell 14 and the wiring 25 are electrically connected via the conductive connecting material 22. In addition, an insulating sealing material 27 that covers the conductive connection material 22 is applied to an end of the wiring 25.

In this embodiment, the solar cell 14
In order to connect between the solar cell 1 and the wiring 25, the insulating materials 21A and 21B are arranged in the through holes 20 of the back plate 12 and the solar cell 1
The fourth lead wire 16 is disposed in the through hole 20. Then, solder (conductive connecting material) 22 which is melted by applying heat is applied.
Is filled in the insulating material 21 </ b> B, and the conductor 26 of the wiring 25 is inserted into the solder 22. When the solder 22 cools, the lead 16 and the wiring 25 are fixed and electrically connected. Thereafter, the solder 22 and the conductor 26 are covered with a sealing material 27 to perform waterproofing and insulation treatment.

When the wiring 25 is to be removed from the module 10, such as when the solar cell module 10 is replaced, the solder 22 may be heated and melted after the sealing material 27 is removed, and the wiring 25 may be pulled out. Then, when reattaching, the solder 22 may be melted, the conductor 26 of the wiring 25 may be inserted, and the sealing material 27 may be applied.

According to this embodiment, the back plate 12 is provided on the solar cell module 10, the through-hole 20 is formed in the back plate 12, and the conductive connecting material 22 made of solder is provided in the through-hole 20. Since the lead wire 16 of the solar cell 14 and the conductor 26 of the wiring 25 are connected to each other, the connection of the lead wire 16 and the wiring 25 can be performed without providing a terminal box on the back surface of the solar cell module 10. Therefore, unlike the conventional case, a portion protruding from the back surface side of the module 10 due to the terminal box does not occur, and the solar cell module 10 can be easily accommodated when it is mounted on a wall panel or the like.
The degree of freedom in design can be improved.

Since the back plate 12 made of an aluminum plate or the like is provided, the strength of the module 10 can be improved as compared with the case where a conventional film is provided. Also, the back plate 12
Thus, the back side of the filler 13 is covered, so that infiltration of moisture into the filler 13 can be prevented, as in the case of a conventional film, and deterioration of the filler 13 and the solar cell 14 can be suppressed.

Further, since the lead wire 16 and the wiring 25 are connected via the solder (conductive connecting material) 22 without providing a terminal box, the wiring 25 is connected to the solar cell by applying heat to the solder 22. It can be easily detached from the module 10. For this reason, the solar cell module 10
The operability when installing the device in a building or the like or removing it for replacement can be improved.

The insulating materials 21A and 21B and the sealing material 2
7, the lead wire 16 and the conductor 26 can be reliably insulated from the aluminum back plate 12 and the like, and a short circuit accident or the like can be prevented.

FIG. 2 shows a solar cell module 10 according to a second embodiment of the present invention. In this embodiment, the same or corresponding components as those in the first embodiment are denoted by the same reference numerals, and the description thereof will be omitted or simplified. In the second embodiment, a connector 30 is attached to the through hole 20 of the back plate 12, and a connector 35 that can be attached to and detached from the connector 30 is attached to the end of the wiring 25.

The connector 30 has a cylindrical connecting portion 31A mounted in the through hole 20 and protruding rearward.
, And a cylindrical conductor 32 fitted inside the insulating material 31. Conductor 3
Reference numeral 2 denotes a partition 32A provided at an intermediate portion, which is partitioned into a module-side recess 32B and an external-side recess 32C.
The module side recess 32B is filled with solder (conductive connecting material) 33 and connected to the lead 16 of the solar cell 14.

The connector 35 of the wiring 25 is composed of a metal contact 36 connected to the conductor of the wiring 25 and an insulating cover 37 covering the periphery of the contact 36.

In this embodiment, when the connector 35 is inserted into the external recess 32C of the connector 30, the lead 16 and the contact 36 (wiring 25) are connected via the conductor 32 and the solder 33. Are electrically connected. Also,
If the connector 35 is removed from the connection connector 30, the wiring 25 is removed from the solar cell module 10, and the solar cell module 10 can be replaced.

In the second embodiment as well, the first
The same operation and effect as those of the embodiment can be obtained. Further, the wiring 25 can be obtained simply by detaching the connector 35 from the connector 30.
Can be attached to and detached from the solar cell module 10, and the operation of attaching and detaching the wiring 25 can be performed much more easily than in the first embodiment. Can be improved.

The present invention is not limited to the configurations of the above embodiments. For example, in each of the above embodiments, an aluminum plate is used as the back plate 12, but a back plate of various materials such as glass, a metal plate, and a resin plate may be used. in short,
The back plate 12 only needs to have strength enough to hold the insulating materials 21A and 21B, the connector 30 and the like, and have moisture-proof properties to prevent the permeation of moisture, and the material to be used may be appropriately selected in implementation. At this time, when an appropriate insulating material such as resin is used for the back plate 12, the insulating material 2
It is not necessary to provide 1A, 21B and 31.

The conductive connecting members 22 and 33 include:
Not limited to solder, a brazing material other than solder such as hard solder, a conductive paint, an adhesive, or the like may be used. The conductive paints and adhesives include conductive fillers (silver powder, copper powder, carbon powder, etc.), binders (epoxy, phenol, acrylic, polyester, urethane, rubber, frit, etc.),
It is composed of a solvent, an additive or the like, has conductivity, and can be connected to a lead wire or a wiring.

Furthermore, the shapes and structures of the insulating materials 21A and 21B, the connection connector 30, the connector 35, etc. are not limited to those of the above-described embodiments, but may be appropriately set for the implementation.
For example, in the second embodiment, instead of connecting the lead wire 16 to the conductor 32 via the solder 33, a structure is adopted in which a terminal or the like is provided on the conductor 32 and the lead wire 16 is wound or connected. May be.

Further, the present invention can be applied not only to solar cell modules mounted on an outer wall panel of a building, but also to various solar cell modules mounted on a building roof, a car, or the like.

[0029]

According to the present invention, the solar cell module is provided with a back plate, and the solar cell and the wiring can be connected using the through-hole portion of the back plate. There is no need to dispose a box, so that the solar cell module can be accommodated well.
In addition, since a terminal box is not required, connection and disconnection between the solar cell and the wiring can be easily performed.
Installation and replacement work of the solar cell module can be easily performed.

Further, if a connection connector is attached to the solar cell module and a connector that is detachably connected to the connection connector is attached to the wiring, the work of attaching and detaching the solar cell module to and from the wiring can be performed even more easily.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a main part of a first embodiment of the present invention.

FIG. 2 is a sectional view showing a main part of a second embodiment of the present invention.

[Explanation of symbols]

10 solar cell module 11 transparent panel 12
Back plate, 13: transparent filler, 14: solar cell, 16: lead wire, 20: through hole, 22, 33: conductive connecting material, 25
... wiring, 30 ... connection connector, 35 ... connector.

Continuation of front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H01L 31/04-31/078

Claims (2)

(57) [Claims] A transparent filler (13) is filled between a transparent panel (11) and a back plate (12), and a solar cell (1) is filled in the filler (13).
4) a wiring connection structure of a solar cell module (10) formed by enclosing the conductive connection material (22) in a hole (20) formed in the back plate (12); A wiring connection structure for a solar cell module, wherein a lead wire (16) of a solar cell (14) and a wiring (25) from the outside are inserted into a conductive connecting material (22) to be electrically connected. 2. A transparent filler (13) is filled between a transparent panel (11) and a back plate (12), and a solar cell (1) is filled in the filler (13).
4) A wiring connection structure of a solar cell module (10) formed by enclosing the hole (20) formed in the back plate (12).
The module side recess (32A) provided in the middle part
Part (32B) and the conductor (32) partitioned into the outer concave part (32C)
Attach the connector (30) having, and connect the lead wire (16) of the solar cell (14) to the module side recess (32B) of the connector (30), and to the external wiring (25) ,
The connector (35) is detachably connected to the external recess (32C) of the connector (30).
A wiring connection structure for a solar cell module, which is connected to (30).