CN105428464B - Solaode busbar apparatus for bending - Google Patents

Abstract

Solaode busbar apparatus for bending, including one with the busbar feed trough passed through for busbar, the sidepiece of the correspondence busbar feed trough is provided with the seaming roll to the busbar pressure in the busbar feed trough, on the eccentric shaft of an eccentric stiffener, the rotating shaft of the eccentric stiffener is connected the seaming roll rotational support with the output shaft of a driving means.Directly by the L-shaped busbar of busbar bending of strip, the present invention has the advantages that manufacturing procedure is few, easy to operate, efficiency high.

Description

Solar cell bus bar bending device

technical field

The invention relates to a solar battery bus bar bending device, which belongs to the technical field of solar photovoltaic equipment.

Background technique

Since the beginning of the 21st century, global energy consumption has risen sharply, and traditional fossil energy has been increasingly exhausted. Energy issues and environmental issues have gradually become two major issues of global concern. Under the pressure of sustainable development, major countries have listed the solar photovoltaic industry as the focus of the development and utilization of renewable energy. With my country becoming the second largest economy in the world, in October 2013, China's oil imports in October reached 6.3 million barrels per day, surpassing the 6.24 million barrels per day of the United States, replacing the United States as the world's largest net oil importer for the first time. In 2013, China's foreign dependence on oil and natural gas reached 58.1% and 31.6% respectively, and China has become the world's third largest natural gas consumer. Traditional fossil energy has become more and more difficult to meet the strong demand of my country's national economy. In the past 20 years, about 75% of the world's anthropogenic carbon dioxide emissions came from the burning of fossil fuels. Therefore, whether it is from the perspective of low-carbon and environmentally friendly energy development, or in line with the pressure of my country's industrial structure upgrading and transformation, my country must accelerate the development of new energy industries.

Solar energy is a clean and renewable energy. According to the "European Renewable Energy Technology Strategic Plan" proposed by the European Commission, by 2020, solar energy will account for 15% of the EU's electricity demand. In 2010, the U.S. Department of Energy formulated a plan, planning that by 2030, solar energy will account for 10% to 15% of total energy consumption. From the total net power generation of solar energy and tidal energy in the world, China is 3 billion kwh, Germany is 19 billion kwh, Italy is 10.7 billion kwh, Spain is 9.1 billion kwh, and Japan is 3.8 billion kwh Time. In the future, my country's hydropower growth space is limited, and nuclear energy has unsafe factors. The cost of fossil energy will rise due to the constraints of energy conservation and emission reduction, and the market prospect of solar photovoltaic power generation is broad.

In order to obtain the required current, voltage and output power, in the current solar photovoltaic industry, it is necessary to connect solar cells in series and go through stacking, lamination, packaging and other processes to form solar cell modules before they can become practical application products for power output. In the manufacturing process of crystalline silicon solar cell modules, the solar cell sheets must be welded into solar cell strings with interconnection strips first, and then the multiple solar cell strings are arranged neatly, and then the bus bars and the ends of the multiple solar cell strings must be connected. The protruding interconnection bar is welded, and the bus bar can collect the current into the junction box to provide power to the outside world.

The material of the bus bar is generally tin-coated copper strip, and its shape is usually L-shaped. The longer side of the L-shaped bus bar is connected to the solar cell string, and the shorter side is connected to the junction box. The method of making the L-shaped bus bar is: prepare two sections of bus bars, and then place them on a stainless steel mold plate with tracks. The disadvantages of this manufacturing method are: since the bus bars need to be cut and partially overlapped by 90 degrees, there are many welding processes, the welding efficiency is low, and welding bumps are easily generated during the welding process.

Contents of the invention

The purpose of the present invention is to provide a solar battery bus bar bending device.

In order to achieve the above object, the technical solution adopted by the present invention is: a solar cell bus bar bending device, including a bus bar supply groove for the bus bar to pass through, and a pair of The rolling roller that presses the bus bar in the bus bar supply groove is rotatably supported on the eccentric shaft of an eccentric mechanism, and the rotating shaft of the eccentric mechanism is connected with the output shaft of a driving device through transmission.

The preferred technical solution is: the eccentric mechanism is an eccentric wheel mechanism.

The preferred technical solution is: the bus bar supply groove includes a first straight groove section and a second straight groove section, the first straight groove section and the second straight groove section are arranged at an angle, and the first straight groove The segment and the second straight groove segment are transitionally connected by an arc groove segment; the rolling roller is arranged corresponding to the arc groove segment.

The preferred technical solution is: the bus bar supply tank includes a tank body carrying bus bars and a cover plate covering the tank body; the bus bar is limited between the tank body and the cover plate.

The preferred technical solution is: the driving device is a hydraulic motor.

A preferred technical solution is: the cross-sectional shape of the bus bar supply groove matches the cross-sectional shape of the bus bar.

Due to the use of the above-mentioned technical solutions, the present invention has the following advantages and effects compared with the prior art:

The invention directly bends the elongated bus bar into an L-shaped bus bar, which has the advantages of less processing steps, convenient operation and high efficiency.

Description of drawings

Accompanying drawing 1 is a schematic diagram of a strip-shaped bus bar.

Accompanying drawing 2 is the schematic diagram of the bus bar after bending.

Accompanying drawing 3 is the three-dimensional schematic view of the bus bar bending device.

Accompanying drawing 4 is a schematic diagram of a bus bar supply groove.

Accompanying drawing 5 is the cross-sectional schematic diagram 1 of the bus bar bending device.

Accompanying drawing 6 is the second schematic cross-sectional view of the bus bar bending device.

In the above drawings, in the above drawings, 1. Bus bar supply groove; 2. Bus bar; 3. Rolling roller; 4. Eccentric wheel; 5. First straight groove section; 6. Second straight groove section; 7 , arc groove section; 8, groove body; 9, cover plate; 10, driving device.

detailed description

The present invention will be further described below in conjunction with accompanying drawing and embodiment:

It should be noted that the structures, proportions, sizes, etc. shown in the drawings attached to this specification are only used to match the content disclosed in the specification, for those who are familiar with this technology to understand and read, and are not used to limit the implementation of the present invention. Limiting conditions, so there is no technical substantive meaning, any modification of structure, change of proportional relationship or adjustment of size, without affecting the effect and purpose of the present invention, should still fall within the scope of the present invention. The disclosed technical content must be within the scope covered. At the same time, terms such as "upper", "lower", "left", "right", "middle" and "one" quoted in this specification are only for the convenience of description and are not used to limit this specification. The practicable scope of the invention and the change or adjustment of its relative relationship shall also be regarded as the practicable scope of the present invention without any substantial change in the technical content.

Example: solar cell bus bar bending device

Referring to the accompanying drawings 1 to 6, the solar cell bus bar bending device includes a bus bar supply groove 1 for the bus bar to pass through, and a side part corresponding to the bus bar supply groove 1 is provided with a pair of the bus bar The rolling roller 3 that is pressed by the bus bar 2 in the supply tank 1 is rotatably supported on the eccentric shaft of an eccentric mechanism, and the rotating shaft of the eccentric mechanism is connected with the output shaft of a driving device 10 through transmission. The eccentric mechanism of the present embodiment is specifically an eccentric wheel mechanism, specifically, the rolling roller 3 is rotatably supported on the eccentric shaft of the eccentric wheel 4 of the eccentric wheel mechanism, and the rotating shaft of the eccentric wheel 3 is connected to the output shaft of the driving device 10 through a transmission drive. The device 10 may be a hydraulic motor or an electric motor, and a hydraulic motor is specifically selected in this embodiment. The bus bar supply groove 1 is designed in a curved shape, and when the rolling roller 3 moves along the curved bus bar supply groove 1 driven by the eccentric mechanism, the bus bar 2 will be bent into the same shape as the bus bar supply groove 1 shape. The side wall of the bus bar supply groove 1 is exposed corresponding to the position of the rolling roller 3 to ensure that the rolling roller 3 can press the bus bar 2 in the bus bar supply groove 1 . The rolling roller 3 can also be arranged at the corner of the bus bar supply groove 1, and when the bus bar 2 moves to a certain distance behind the corner of the bus bar supply groove 1, the eccentric mechanism is started to make the rolling roller 3 move and move the bus bar. 2 to apply pressure. At this time, the bus bar supply groove 1 on the opposite side of the rolling roller 3 needs to be designed into a certain shape, so that when the rolling roller 3 exerts pressure on the bus bar 2, the bus bar 2 will follow the bus bar supply groove. 1 moves, thereby bending into a certain shape.

In other embodiments, the eccentric mechanism can also be a crank-link mechanism. Generally, a bus bar supply device is also provided to supply the bus bar 2 into the bus bar supply groove 1 . The bus bar 2 moves in the bus bar supply groove 1, and when the bus bar 2 moves to the position of the rolling roller 3, the rolling roller 3 exerts pressure on the bus bar 2 to make it bend.

A preferred embodiment is: referring to the accompanying drawing 4, the bus bar supply groove includes a first straight groove section 5 and a second straight groove section 6, and the first straight groove section 5 and the second straight groove section 6 form a The included angle is set, and the first straight slot section 5 and the second straight slot section 6 are transitionally connected by an arc slot section 7, that is, the bus bar supply slot 1 is designed into a curved shape. The rolling roller 3 is arranged corresponding to the arc groove segment. During the bending operation, the rolling roller 3 moves along the arc groove segment 7 , so that the bus bar 2 can be bent and pressed into the second groove segment 6 according to the shape of the arc groove segment 7 . In other specific implementation manners, there may be only the first straight groove segment 5 and the circular arc groove segment 7 . During bending, the rolling roller 3 moves along the arc groove segment 7, so that the bus bar 2 can be bent into a predetermined shape according to the shape of the arc groove segment.

A preferred embodiment is: the bus bar supply tank includes a tank body 8 carrying bus bars and a cover plate 9 covering the tank body 8; the bus bar is limited between the tank body 8 and the cover plate 9 between. The shape of the groove body 8 and the cover plate 9 corresponding to the arc groove segment 7 is also arc-shaped, so that the rolling roller 3 moves along the arc-shaped groove body 8 and the cover plate 9, that is, around the arc groove Segment 7 moves.

A preferred embodiment is: the cross-sectional shape of the bus bar supply groove 1 matches the cross-sectional shape of the bus bar, especially the cross-sectional shape of the first straight groove section 5 matches the cross-sectional shape of the bus bar, so that it can be aligned from four directions. The bus bar 2 is limited.

The above-mentioned embodiments are only to illustrate the technical concept and characteristics of the present invention, and the purpose is to enable those skilled in the art to understand the content of the present invention and implement it accordingly, and not to limit the protection scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention shall fall within the protection scope of the present invention.

Claims (5)

1. A solar cell bus bar bending device, characterized in that: it includes a bus bar supply groove for the bus bar to pass through, and the side portion corresponding to the bus bar supply groove is provided with a The rolling roller that presses the bus bar, the rolling roller is rotatably supported on the eccentric shaft of an eccentric mechanism, the rotating shaft of the eccentric mechanism is connected with the output shaft of a driving device in transmission; the bus bar supply groove includes a first A straight groove section and a second straight groove section, the first straight groove section and the second straight groove section are arranged at an angle, and the first straight groove section and the second straight groove section are transitionally connected by an arc groove section; The rolling roller is arranged corresponding to the arc groove segment. 2 . The solar battery bus bar bending device according to claim 1 , wherein the eccentric mechanism is an eccentric wheel mechanism. 3 . 3. The solar battery bus bar bending device according to claim 1, wherein the bus bar supply tank includes a tank body carrying a bus bar and a cover plate covering the tank body; the bus bar The limit is between the tank body and the cover plate. 4. The solar battery bus bar bending device according to claim 1, wherein the driving device is a hydraulic motor. 5 . The solar battery bus bar bending device according to claim 1 , wherein the cross-sectional shape of the bus bar supply groove matches the cross-sectional shape of the bus bar.