The invention pertains to a junction box for a solar cell module, in particular, to a fission structure type junction box for a solar cell module and the solar cell module including the same.
A junction box for a solar cell module of prior art is directly mounted on a back surface of the solar cell module. The junction box includes a cover, and a main body in which a bypass diode, a conducting piece and a cable with a connector are provided. The conducting piece is connected to a bus bar of the solar cell module for leading out the current from each of the cell strings. The bypass diode is connected to the conducting piece for protecting each of the cell strings. The cable with a connector is connected to the conducting piece for outputting the current in the solar cell module.
In the process of making the invention, the inventor found that at least the following problems exist in the prior art: because the junction box is secured on the back surface of the solar cell module directly by using silica gel, the quality of the solar cell module may be endangered directly and even the whole module may be damaged, when a fault occurs in the bypass diode or other units within the junction box; the junction box as a whole needs to be detached from the back surface of the module during the maintenance, which is inconvenient for maintenance and may cause damage to the back surface of the module.
An object of the invention is to provide a junction box for a solar cell module, which aims to solve the problems that the quality of the solar cell module is influenced when problems occur in the circuit portion within the junction box, and it is inconvenient to carry out maintenance for the circuit portion being subjected to fault.
A further object of the invention is to provide the solar cell module including the junction box, which aims to solve the problem of the quality default and difficult maintenance of the prior solar cell module due to the junction box.
For solving above technical problems, the present invention provides a junction box for a solar cell module comprising a conducting piece and a bypass diode provided on the conducting piece. The junction box includes a main junction box and a slave junction box. A conductor is set in the slave junction box and connected with the bus bar of the solar cell module. The bypass diode and the conducting piece are positioned in the main junction box. The conducting piece in the main junction box is electrically connected with the conductor in the slave junction box.
Wherein, the slave junction box is mounted to the back surface of the solar cell module, and the main junction box may be mounted to a frame of the solar cell module or a module mounting support, or the main junction box is mounted to a reinforcing plate of the solar cell module.
Wherein, the reinforcing plate has a convex portion thereon, and the main junction box is mounted within the convex portion.
Wherein, the slave junction box is mounted to the back surface of the solar cell module, and the main junction box is in the form of an external-connected integrated module that is electrically connected with the slave junction box.
Wherein, the conducting piece in the main junction box is connected with the conductor in the slave junction box by plugging or wiring.
Wherein, the main junction box is provided with output end that is electrically connected with the conducting piece in the main junction box for outputting the current in the solar cell module.
Wherein, the bus bar is connected with the conductor by welding, riveting, elastically crimping or screw crimping.
Wherein, both the slave junction box and the main junction box are sealed in structure.
Wherein, the sealing of the slave junction box and the sealing of the main junction box are achieved by glue-filling, plastic-enclosing, or sealing of main body.
The present invention further provides a solar cell module including the junction box for a solar cell module as described above.
The present invention has the following advantageous effects that 1) the quality of the solar cell module can not be influenced when serious problems occur in the circuit portion within the junction box, thereby improving the quality of the solar cell module; and 2) it is easier to carry out maintenance for the circuit portion within the junction box being susceptible to fault.
The invention will be described in detail below with reference to the accompanying drawings, so that the objects, technical aspects and advantages of the invention will be more apparent. Only partial frame of the solar cell module is shown in the drawings for clarity. It is to be understood that the frame of the module is not limited to the frame on the upper portion.
The junction box for the solar cell module of this embodiment is a fission structure type junction box as shown in
The exploded schematic view of the structure of the fission structure type junction box is shown in
Of course, the main junction box 1 may also be mounted to other elements in the solar cell module. As shown in
It should be understood that the main junction box 1 of the present invention is preferably provided in the internal space within the frame 5 or the reinforcing plate 7 of the solar cell module in order to protect the junction box, however, the mounting locations are not limited thereto.
As shown in
Both the main junction box 1 and the slave junction box 2 are sealed in structure, and the sealing of the slave junction box and the sealing of the main junction box can be achieved by glue-filling, plastic-enclosing or sealing of main body. As shown in
The above embodiments have illustrated a case in which the main junction box and the slave junction box are secured on the solar cell module at various structural positions. Additionally, when being in the form of integrated module of smaller volume, the main junction box can be directly provided in such a manner that it is externally connected with the slave junction box, and can be electrically connected with the slave junction box through plugging or wiring.
The embodiments of the present invention can effectively eliminate the damage of the solar cell module 6 caused by the heat generated by the bypass diode 12, because the invention adopts the fission structure type junction box, that is, the junction box includes the main junction box 1 and the slave junction box 2, while the quality of the solar cell module including the fission structure type junction box can be improved. Moreover, both the bypass diode 12 and the conducting piece 13 which are susceptible to fault are provided in the main junction box 1 by virtue of the fission structure type junction box, which is easy to be detached and is convenient for technical personnel to maintain.
The foregoing description is the preferred embodiments of the present invention merely. It should be noted that, for a person skilled in the art, many changes and modifications could be made on the basis of the embodiment disclosed above without departing from the principle of the invention, and these changes and modifications are intended to be embraced by the protecting scope of the invention.
Number | Date | Country | Kind |
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200910178805.4 | Sep 2009 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2010/001500 | 9/27/2010 | WO | 00 | 6/4/2012 |