CN110504337A - A kind of efficient crystal silicon battery component and solar photovoltaic cell panel - Google Patents

Abstract

The present invention discloses a kind of efficient crystal silicon battery component and solar photovoltaic cell panel, including；Multiple crystal silicon battery strings, busbar and two diodes, crystal silicon battery gangs up excessive piece crystal silicon battery small pieces and is formed by connecting, and crystal silicon battery small pieces are cut by photovoltaic cell, and a piece of photovoltaic cell is cut at least three pieces crystal silicon battery small pieces；Multiple crystal silicon battery strings are attached by one of series, parallel, series-parallel or a variety of connection types, constitute crystal silicon battery component, the exit of crystal silicon battery component is set there are two diode, and crystal silicon battery component exit is set to the both ends of the long side side of crystal silicon battery component.The present invention can be improved component output power and the resistance to mechanical load-carrying ability of component entirety is promoted, heat resistanceheat resistant spot performance etc..

Description

A kind of efficient crystal silicon battery component and solar photovoltaic cell panel

Technical field

The invention belongs to photovoltaic fields, and in particular to a kind of efficient crystal silicon battery component and solar-energy photo-voltaic cell Plate.

Background technique

With the fast development of high-efficiency battery, battery Is (short circuit current) is continuously improved, in order to reduce Rs (series resistance), Slice welding has been the act of trend, and existing half component is popularized, but existing crystal silicon battery assembly layout is complicated, confluence Item is too long, and processing is difficult in actual operation.

Summary of the invention

In order to solve the above-mentioned technical problem, the invention proposes a kind of efficient crystal silicon battery component and solar-energy photo-voltaic cells Plate.

In order to achieve the above object, technical scheme is as follows:

A kind of efficient crystal silicon battery component, including；Multiple crystal silicon battery strings, busbar and two diodes, crystal silicon electricity Pond gangs up excessive piece crystal silicon battery small pieces and is formed by connecting, and crystal silicon battery small pieces are cut by photovoltaic cell, and a piece of light Volt cell piece is cut at least three pieces crystal silicon battery small pieces；

Multiple crystal silicon battery strings are attached by one of series, parallel, series-parallel or a variety of connection types, are constituted Crystal silicon battery component, the exit of crystal silicon battery component is set there are two diode, and crystal silicon battery component exit is set to crystalline substance The both ends of the long side side of silion cell component.

The present invention to full wafer photovoltaic cell be switched to it is 3 few after make component, further decrease Is and Rs, and adopt With more preferably circuit design and type-setting mode, global voltage and electric current and general components are approached, and do not influence the system matches of rear end, And the resistance to mechanical load-carrying ability that can be improved component output power and component entirety is promoted, heat resistanceheat resistant spot performance etc..

Based on the above technical solution, following improvement can also be done:

As a preferred option, it in the same crystal silicon battery string, is welded between adjacent crystal silicon battery small pieces by welding.

Using the above preferred scheme, it is connected using welding, resistance to mechanical load performance can be improved in being flexible coupling between piece and piece.

As a preferred option, the main gate line of the small on piece of crystal silicon battery is parallel with the short side of crystal silicon battery small pieces, crystal silicon electricity The main gate line of the small on piece in pond is vertical with the long side of crystal silicon battery small pieces；

The short side of crystal silicon battery small pieces is parallel with the short side of crystal silicon battery component, and the long side and crystal silicon of crystal silicon battery small pieces The long side of battery component is parallel.

Using the above preferred scheme, typesetting is more reasonable, is laid out more compact.

As a preferred option, crystal silicon battery string includes: the first battery strings and the second battery strings, and the first battery strings are by multiple The crystal silicon battery small pieces composition of forward direction connection, the second battery strings are made of the crystal silicon battery small pieces of multiple Opposite direction connections, the first electricity The quantity of the included crystal silicon battery small pieces of pond string is identical as the quantity of crystal silicon battery small pieces that the second battery strings are included.

Using the above preferred scheme, typesetting is more reasonable, is laid out more compact.

As a preferred option, the short side of the length of the first battery strings and the second battery strings and crystal silicon battery component is flat Row.

Using the above preferred scheme, typesetting is reasonable.

As a preferred option, mutually independent positive battery area and reverse battery area are divided on crystal silicon battery component；

In positive battery area, crystal silicon battery component exit draws anode；

In reverse battery area, crystal silicon battery component exit draws cathode；

In forwards/reverse battery area, all the first battery strings are mutually in parallel, and form the first battery pack, all the second battery String is also mutually in parallel, and forms the second battery pack, and the first battery pack, the second battery pack and a Diode series.

Using the above preferred scheme, typesetting is reasonable.

As a preferred option, in positive battery area and close to the side of crystal silicon battery component long side, the first battery strings one The exit on side and the exit on second battery strings one side all pass through the first lateral busbar electrical connection；

In positive battery area and close to the opposite other side of crystal silicon battery component long side, the extraction of the first battery strings another side The exit of end and the second battery strings another side all passes through the second lateral busbar electrical connection, and wherein one in two diodes A Diode series are set on the second lateral busbar.

Using the above preferred scheme, typesetting is more optimized.

As a preferred option, in reverse battery area and close to the side of crystal silicon battery component long side, the first battery strings one The exit on side and the exit on second battery strings one side all pass through the electrical connection of third transverse direction busbar；

In reverse battery area and close to the opposite other side of crystal silicon battery component long side, the extraction of the first battery strings another side The exit of end and the second battery strings another side all passes through the 4th lateral busbar electrical connection, wherein another in two diodes One Diode series is set on the 4th lateral busbar.

Using the above preferred scheme, typesetting is more optimized.

As a preferred option, the first lateral busbar, the second lateral busbar, third transverse direction busbar and the 4th are horizontal Length to busbar is parallel with the long side of crystal silicon battery component, and its margin location for being all set in crystal silicon battery component It sets；

Two diodes are respectively arranged at the both ends of crystal silicon battery component long side side.

Using the above preferred scheme, typesetting is more optimized.

Invention additionally discloses a kind of solar photovoltaic cell panels, including efficient crystal silicon battery component.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of efficient crystal silicon battery component provided in an embodiment of the present invention.

Fig. 2 is the schematic diagram for identifying positive battery area and reverse battery area in Fig. 1.

Fig. 3 is the corresponding circuits figure of Fig. 1.

Fig. 4 is the schematic diagram that Fig. 3 identifies the first battery strings and the second battery strings.

Wherein: crystal silicon battery small pieces 1, main gate line 11, the first battery strings 21, second the 22, first lateral busbar of battery strings 31, the lateral busbar 34 of the second lateral busbar 32, third transverse direction busbar the 33, the 4th, diode 4, positive battery area 51, anti- To battery area 52.

Specific embodiment

The preferred embodiment that the invention will now be described in detail with reference to the accompanying drawings.

In order to reach the purpose of the present invention, a kind of efficient crystal silicon battery component and some of of solar panel implement In example,

As shown in Figs 1-4, a kind of efficient crystal silicon battery component, including；Multiple crystal silicon battery strings, busbar and two two Pole pipe 4, crystal silicon battery gangs up excessive piece crystal silicon battery small pieces 1 and is formed by connecting, and crystal silicon battery small pieces 1 are cut by photovoltaic cell It forms, and a piece of photovoltaic cell is cut into three pieces crystal silicon battery small pieces 1；

Multiple crystal silicon battery strings are attached by one of series, parallel, series-parallel or a variety of connection types, are constituted Crystal silicon battery component, the exit of crystal silicon battery component is set there are two diode 4, and crystal silicon battery component exit is set to crystalline substance The both ends of the long side side of silion cell component.

The present invention to full wafer photovoltaic cell be switched to it is 3 few after make component, further decrease Is and Rs, and adopt With more preferably circuit design and type-setting mode, global voltage and electric current and general components are approached, and do not influence the system matches of rear end, And the resistance to mechanical load-carrying ability that can be improved component output power and component entirety is promoted, heat resistanceheat resistant spot performance etc..

In order to further optimize implementation result of the invention, in other embodiment, remaining feature technology phase Together, it the difference is that, in the same crystal silicon battery string, is welded between adjacent crystal silicon battery small pieces 1 by welding.

Using the above preferred scheme, it is connected using welding, resistance to mechanical load performance can be improved in being flexible coupling between piece and piece.

Further, the main gate line 11 on crystal silicon battery small pieces 1 is parallel with the short side of crystal silicon battery small pieces 1, and crystal silicon battery is small Main gate line 11 on piece 1 is vertical with the long side of crystal silicon battery small pieces 1；

The short side of crystal silicon battery small pieces 1 is parallel with the short side of crystal silicon battery component, and the long side of crystal silicon battery small pieces 1 and crystalline substance The long side of silion cell component is parallel.

Using the above preferred scheme, typesetting is more reasonable, is laid out more compact.

Further, crystal silicon battery string includes: six the first battery strings 21 and six the second battery strings 22, the first battery strings 21 It is made of the crystal silicon battery small pieces 1 of multiple positive connections, the second battery strings 22 are by 1 group of crystal silicon battery small pieces of multiple Opposite direction connections At the crystal silicon battery small pieces 1 that the quantity for the crystal silicon battery small pieces 1 that the first battery strings 21 are included and the second battery strings 22 are included Quantity it is identical.

Using the above preferred scheme, typesetting is more reasonable, is laid out more compact.

Further, the length of the first battery strings 21 and the second battery strings 22 is parallel with the short side of crystal silicon battery component.

Using the above preferred scheme, typesetting is reasonable.

Further, mutually independent positive battery area 51 and reverse battery area 52 are divided on crystal silicon battery component；

In positive battery area 51, there are three the first battery strings 21 and three the second battery strings 22, crystal silicon battery component is drawn Draw anode in end；

In reverse battery area 52, there are three the first battery strings 21 and three the second battery strings 22, crystal silicon battery component is drawn Draw cathode in end；

In forwards/reverse battery area, all the first battery strings 21 are mutually in parallel, and form the first battery pack, all the second electricity Pond string 22 is also mutually in parallel, and forms the second battery pack, and the first battery pack, the second battery pack are connected with a diode 4.

Using the above preferred scheme, typesetting is reasonable.

Further, positive battery area 51 and close to crystal silicon battery component long side side, 21 one side of the first battery strings The exit on 22 one side of exit and the second battery strings all passes through the first lateral busbar 31 and is electrically connected；

Positive battery area 51 and close to crystal silicon battery component long side the opposite other side, 21 another side of the first battery strings The exit of 22 another side of exit and the second battery strings all passes through the second lateral busbar 32 and is electrically connected, two diodes 4 In one of diode 4 be arranged in series on the second lateral busbar 32.

Using the above preferred scheme, typesetting is more optimized.

Further, reverse battery area 52 and close to crystal silicon battery component long side side, 21 one side of the first battery strings The exit on 22 one side of exit and the second battery strings all passes through the electrical connection of third transverse direction busbar 33；

Reverse battery area 52 and close to crystal silicon battery component long side the opposite other side, 21 another side of the first battery strings The exit of 22 another side of exit and the second battery strings all passes through the 4th lateral busbar 34 and is electrically connected, two diodes 4 In another one diode 4 be arranged in series on the 4th lateral busbar 34.

Using the above preferred scheme, typesetting is more optimized.

Further, the first lateral busbar 32 of lateral busbar 31, second, third transverse direction busbar 33 and the 4th are lateral The length of busbar 34 is parallel with the long side of crystal silicon battery component, and its margin location for being all set in crystal silicon battery component It sets；

Two diodes 4 are respectively arranged at the both ends of crystal silicon battery component long side side.

Using the above preferred scheme, typesetting is more optimized.

As shown in Figures 3 and 4, "+", the "-" of one end extraction of two diodes are respectively the exit of crystal silicon battery component.

Invention additionally discloses a kind of solar photovoltaic cell panels, including efficient crystal silicon battery component.

For the preferred embodiment of the present invention, it is noted that for those of ordinary skill in the art, do not taking off Under the premise of from the invention design, various modifications and improvements can be made, and these are all within the scope of protection of the present invention.

Claims (10)

1. a kind of efficient crystal silicon battery component, which is characterized in that including；Multiple crystal silicon battery strings, busbar and two two poles Pipe, the crystal silicon battery gangs up excessive piece crystal silicon battery small pieces and is formed by connecting, and the crystal silicon battery small pieces are by photovoltaic cell It cuts, and a piece of photovoltaic cell is cut into crystal silicon battery small pieces described at least three pieces；

Multiple crystal silicon battery strings are attached by one of series, parallel, series-parallel or a variety of connection types, are constituted The crystal silicon battery component, the exit of the crystal silicon battery component is set there are two diode, and the crystal silicon battery component draws Outlet is set to the both ends of the long side side of the crystal silicon battery component.

2. efficient crystal silicon battery component according to claim 1, which is characterized in that in the same crystal silicon battery string, It is welded between the adjacent crystal silicon battery small pieces by welding.

3. efficient crystal silicon battery component according to claim 1 or 2, which is characterized in that the small on piece of crystal silicon battery Main gate line is parallel with the short side of the crystal silicon battery small pieces, and the main gate line and the crystal silicon battery of the small on piece of crystal silicon battery are small The long side of piece is vertical；

The short side of the crystal silicon battery small pieces is parallel with the short side of the crystal silicon battery component, and the length of the crystal silicon battery small pieces Side is parallel with the long side of the crystal silicon battery component.

4. efficient crystal silicon battery component according to claim 3, which is characterized in that the crystal silicon battery string includes: first Battery strings and the second battery strings, first battery strings are made of the crystal silicon battery small pieces of multiple positive connections, and described the Two battery strings are made of the crystal silicon battery small pieces of multiple Opposite direction connections, the crystal silicon electricity that first battery strings are included The quantity of pond small pieces is identical as the quantity of the crystal silicon battery small pieces that second battery strings are included.

5. efficient crystal silicon battery component according to claim 4, which is characterized in that first battery strings and the second battery The length of string is parallel with the short side of the crystal silicon battery component.

6. efficient crystal silicon battery component according to claim 5, which is characterized in that be divided on the crystal silicon battery component Mutually independent forward direction battery area and reverse battery area；

In the positive battery area, the crystal silicon battery component exit draws anode；

In the reverse battery area, the crystal silicon battery component exit draws cathode；

In the forwards/reverse battery area, all first battery strings are mutually in parallel, the first battery pack of formation, described in whole Second battery strings are also mutually in parallel, and form the second battery pack, and first battery pack, second battery pack and two poles Pipe series connection.

7. efficient crystal silicon battery component according to claim 6, which is characterized in that in the positive battery area and close to institute State the side of crystal silicon battery component long side, first battery strings on one side exit and to exit full while the second battery strings Portion passes through the first lateral busbar electrical connection；

In the positive battery area and close to the opposite other side of the crystal silicon battery component long side, first battery strings are another The exit on side and the exit of the second battery strings another side all pass through the second lateral busbar and are electrically connected, in two diodes One of Diode series be set on the described second lateral busbar.

8. efficient crystal silicon battery component according to claim 7, which is characterized in that in the reverse battery area and close to institute State the side of crystal silicon battery component long side, first battery strings on one side exit and to exit full while the second battery strings Portion is electrically connected by third transverse direction busbar；

In the reverse battery area and close to the opposite other side of the crystal silicon battery component long side, first battery strings are another The exit on side and the exit of second battery strings another side all pass through the 4th lateral busbar electrical connection, two two poles Another one Diode series in pipe are set on the described 4th lateral busbar.

9. efficient crystal silicon battery component according to claim 8, which is characterized in that the described first lateral busbar, second The length of the lateral busbar of lateral busbar, third transverse direction busbar and the 4th and the long side of the crystal silicon battery component In parallel, and its marginal position for being all set in the crystal silicon battery component；

Two diodes are respectively arranged at the both ends of the crystal silicon battery component long side side.

10. a kind of solar photovoltaic cell panel, which is characterized in that including the described in any item efficient crystal silicons of such as claim 1-9 Battery component.