CN206742256U - A kind of low energy consumption solar cell module - Google Patents

Abstract

The utility model discloses a kind of low energy consumption solar cell module, the battery component is by optimizing battery structure, cell piece is cut, first connected after cutting serial or parallel connection again, the structure that string series connection is closed or connection in series-parallel is closed can preferably reduce component internal transmission loss, hoisting power, while what is be connected in parallel in component increases so that component heat resistanceheat resistant spot ability is strengthened；At the same time the utility model optimizes battery typesetting, bus-bar structure and lead-out mode, promotes component to produce visual aesthetic feeling while outdoor generating ability is lifted.

Description

A kind of low energy consumption solar cell module

Technical field

The utility model belongs to solar cell module technical field, and in particular to a kind of low energy consumption solar battery group Part.

Background technology

The most direct mode that the mankind obtain the energy is to utilize solar energy, and solar-energy photo-voltaic cell is to change solar energy One of most effective mode for electric energy.In recent years, solar cell world wide production was increased with annual 30~40% speed, into For one of industry with fastest developing speed in the market, wherein crystal silicon solar energy battery increasingly mature occupies market Leading position.

With the development of crystal silicon solar energy battery technology, battery process is increasingly ripe, and battery efficiency steps up, simultaneously Various high-efficiency battery technologies such as carry on the back passivation cell, N-type double-side cell, HIT batteries and also obtain larger application, battery efficiency Raising it is also proposed new requirement for corresponding establishment of component technology.Fig. 1 is the circuit diagram of conventional batteries component typesetting, It can be seen that component is made up of the battery strings of 3 series connection, each battery series-parallel connection sets a bypass diode to prevent hot spot from producing, All cell pieces are to be connected in series in component, and establishment of component form is single, also have greater loss on optically and electrically, such as Fruit still makes component in this way, and the advantage of high-efficiency battery will be unable to embody completely.Therefore people also seek it is various Scheme is to realize the lifting of solar cell module power.The main spectroscopy loss of power loss of battery to component and electricity damage Two kinds are lost, mainly the absorption with the material such as glass, EVA and reflection are relevant for optical loss, and electricity is lost and is then mainly derived from electricity Inside pond, the loss etc. of mutual latticing, busbar, terminal box and its cable, if these connecting materials can not be effectively reduced Internal resistance, most of energy will lose rather than are converted into electric energy in the form of heat.

In this case, present utility model application people is directed to proposing a kind of solar cell module, this solar energy Battery component can maximize increase optical gain, effectively reduce the internal resistance loss that mutual latticing is brought in itself, lifting assembly work( Rate and then reduction cost of electricity-generating.

Utility model content

The utility model purpose is to provide a kind of low-loss solar cell module, and this solar cell module can Battery is reduced to the power loss of component, the advantage of high-efficiency battery is fully demonstrated, reduces cost of electricity-generating.

Above-mentioned purpose of the present utility model is achieved through the following technical solutions：A kind of low energy consumption solar battery group Part, including some battery strings, the battery strings are formed by multiple battery cells in series, and multiple battery strings interconnect to form solar energy again Battery component, wherein the multiple battery unit is formed by solar battery sheet cutting, the corner of the solar battery sheet is Arc angling, the front and back of the solar battery sheet are respectively provided with main grid, and the solar battery sheet front and back is pre- Leave cutting seam, the front main grid and back side main grid are stitched perpendicular and not contacted with the cutting, and using it is described cut seam as The symmetrical distribution of center line, the solar battery sheet form multiple battery units, Duo Ge electricity after being cut along the cutting seaming and cutting When pool unit is connected, wherein the arc angling side of a battery unit is adjacent with the cutting edge of an adjacent battery unit, and wherein one The front main grid of battery unit is connected with the back side main grid of adjacent cell by welding；

Or the front and back of the solar battery sheet is not provided with main grid but is equipped with thin grid, the solar cell Piece front and back is reserved with cutting seam, and the cutting seam is parallel with the thin grid, and the thin grid using it is described cut seam as The symmetrical distribution of center line, the solar battery sheet form two battery units, Duo Ge electricity after being cut along the cutting seaming and cutting When pool unit is connected, wherein the arc angling side of a battery unit is adjacent with the cutting edge of an adjacent battery unit, and wherein one The front of battery unit is described to lead with being provided with conductive material along perpendicular to the thin grid bearing on the back side of adjacent cell Electric material be provided with it is mutually associated, wherein the negative electrode of the positive electrode of a battery unit and adjacent cell passes through mutually associated phase Even, multiple battery units are so sequentially connected in series to form battery strings.

Be reserved with spacing between the both ends of the front main grid and the arc angling side and the cutting edge, it is described just The size of spacing between the both ends of face main grid and the arc angling side and the cutting edge is 1~20mm, the back side Also spacing, the both ends of the back side main grid are reserved between the both ends of main grid and the arc angling side and the cutting edge The size of spacing between the arc angling side and the cutting edge is 1~30mm.

Connection between the battery strings is used in parallel or series, when adjacent two battery strings are connected, wherein a battery list The arc angling side and the cutting edge of an adjacent battery unit of member are located on the same line, adjacent four electricity in upper and lower, left and right Gap between the piece of pond is hourglass shape.

It is connected between adjacent two battery strings using busbar, smooth surface of the busbar towards solar cell module Surface be provided with coating.

The color of the coating is identical with the color of the back veneer material of solar cell module, and the material of the coating is poly- One or more in compound, silica gel, resin, rubber, ceramics and filler.

The surface of the busbar is wrapped up using EVA, PVB or PET material, or the busbar and the solar cell The material homochromy with the backboard of solar cell module is provided between the smooth surface of component, or the busbar is arranged on battery strings The back side.

The busbar is the alternating structure of conventional coating and reflecting coating, and the busbar will be connected with battery interconnecting strip Place be conventional coating, other places not contacted with the interconnecting strip are reflecting coating, and the reflecting coating directly coats The busbar is wrapped up in the busbar one side or in the form of sleeve pipe.

So handle, module edge is used for reflective region area and increased, and component facade is more aesthetically pleasing.

The battery strings are formed by 6~30 battery cells in series, and the solar cell module is by 30~300 batteries Unit forms.

The solar battery sheet is the battery structure of the lighttight one side battery structure in the back side or transparent two sides.

The complete cell piece can be dereliction grid cell, and battery front side and the back side are not provided with main grid but is provided with Thin grid, the front and back of the dereliction grid cell are reserved with cutting seam, and the center line for cell piece, center line are stitched in the cutting On without metal grid lines exist, by cell piece along cutting seaming and cutting cut, the cell piece after cutting is mutually interconnected to form battery strings, and battery is cut It is parallel with thin grid to cut direction, when adjacent two battery unit is in series, wherein the arc angling side of a battery unit and adjacent one electricity The cutting edge of pool unit is adjacent, and the concatenation between cell piece combines progress, the conduction with conductive material using metal interconnection band Material is stickiness electrocondution slurry or two-sided conductive tape, when cell piece interconnects, after dicing cell piece tow sides along perpendicular to Thin grid bearing sets stickiness electrocondution slurry or two-sided conductive tape, and the place for being provided with conductive material is used for metal interconnection band and electricity The connection of pond piece, by the positive electrode of a piece of cell piece and the negative electrode of adjacent cell piece by metal interconnection band connection together with, Such alternate repetition realize the making of dereliction grid cell string.

The busbar can also be directly designed to the alternating structure of conventional coating and high reflecting coating, and busbar needs and electricity The place of pond interconnecting strip connection is conventional coating, and other place collocation reflecting coatings not contacted with interconnecting strip, reflecting coating can To be directly coated on busbar one side or be wrapped up busbar in the form of sleeve pipe.

EL is tested before layer is carried out after the completion of component stack, and test, which reaches quality requirement, can be sent to laminating machine by component layer Pressure, the backboard and EVA and/or POE materials of glass edge residual are eliminated after laminate cooling, carries out EL tests, reaching quality will Ask can complete to frame up and terminal box connection work, be made solar cell module.

Compared with general components preparation method, the utility model has advantages below：

(1) the utility model is cut by optimizing battery structure to cell piece, is first connected after cutting again in parallel (excellent Choosing), the structure that connection in series-parallel is closed can preferably reduce component internal transmission loss, while increasing of being connected in parallel in component so that Component heat resistanceheat resistant spot ability is strengthened；

(2) the utility model is by optimizing battery typesetting, bus-bar structure and lead-out mode, component is had characteristic and beautiful Beautiful surface structure, component is promoted to produce visual aesthetic feeling while outdoor generating ability is lifted.

Brief description of the drawings

Fig. 1 is the circuit diagram of general components typesetting；

Fig. 2 a are that the positive schematic appearance of cell piece is cut in embodiment 1；

Fig. 2 b are the schematic appearance that the cell piece back side is cut in embodiment 1；

Fig. 3 is to cut cell piece in embodiment 1 to concatenate schematic cross-section；

Fig. 4 is the schematic appearance of single-crystal wafer component in embodiment 1；

Fig. 5 a are cell piece front appearance schematic diagram after being cut in embodiment 1；

Fig. 5 b are cell piece back side schematic appearance after being cut in embodiment 1；

Fig. 6 is the circuit connection diagram of component in embodiment 1；

Fig. 7 is the conventional alternate bus-bar structure schematic diagram of coating and reflecting coating in embodiment 1；

Fig. 8 is the circuit connection diagram of component in embodiment 3；

Fig. 9 is the circuit connection diagram of component in embodiment 4；

Wherein 1, arc angling side；2nd, cutting seam；3rd, front main grid；4th, back side main grid；5th, cutting edge；6th, it is mutually associated；7、 Front main grid is close to cutting edge edge；8th, front main grid is close to Chamfer Edge；9th, back side main grid is close to cutting edge edge；10th, carry on the back Face main grid is close to bevel edge edge；111st, battery strings in embodiment 1；112nd, busbar in embodiment 1；113rd, it is other in embodiment 1 Road diode；114th, two battery strings being serially connected in embodiment 1；15th, busbar reflecting coating；16th, busbar routinely applies Layer；311st, element cell string in embodiment 3；312nd, busbar in embodiment 3；313rd, bypass diode in embodiment 3；314th, it is real Apply two adjacent battery strings in example 3；411st, element cell string in embodiment 4；412nd, busbar in embodiment 4；413rd, implement Bypass diode in example 4；414th, two adjacent battery strings in embodiment 4.

Embodiment

Embodiment 1

As shown in figs. 1-7, the low energy consumption solar cell module that the present embodiment provides, including multiple battery strings 111, each Battery strings 111 are formed by multiple battery cells in series, and multiple battery strings 111 interconnect to form solar cell module again, wherein electricity Pool unit is formed by solar battery sheet cutting, and the corner of solar battery sheet is arc angling, the front of solar battery sheet Main grid is respectively provided with the back side, solar battery sheet front and back is reserved with cutting seam 2, and front main grid 3 and back side main grid 4 are with cutting Slot 2 is perpendicular and does not contact, and the symmetrical distribution of line centered on cutting seam 2, and solar battery sheet is cut along cutting seam 2 Two battery units are formed after cutting, when multiple battery units are in series, wherein the arc angling side of a battery unit and adjacent one The cutting edge of battery unit is adjacent, and the back side main grid of the wherein front main grid of a battery unit and adjacent cell passes through weldering Band is connected, and multiple battery units are so sequentially connected in series to form battery strings.

The present embodiment uses 156S conventional single cell pieces, and battery front side main grid is designed as two sections, two sections of main grids edge cuttings Seam is axisymmetricly distributed, and cell backside main grid 4 divides for four sections, is in symmetrical up and down along cutting seam 2, Fig. 5 a, Fig. 5 b are this reality Apply in example cut after cell piece front and back appearance schematic diagram, battery bag side containing arc angling 1 and cutting edge 5 after cutting, just Face main grid 3 is close to cutting edge edge 7 from being 4mm with a distance from cutting edge 5, and front main grid 3 is close to the arc of recess shape of arc angling side edge 8 The distance of bevel edge 1 is 1mm, and close to cutting edge edge 9 from being 20mm with a distance from cutting edge 5, back side main grid 4 leans on back side main grid 4 Nearly bevel edge edge 10 is from being 10mm with a distance from bevel edge 1.

Battery unit after cutting is formed into battery strings 111 using 10 battery units as one group, battery strings 111 are by cutting electricity Pool unit, which is connected in series with each other, to be formed, the arc angling side 1 of the cutting edge 5 of a piece of cell piece and other a piece of cell piece during connection Adjacent, when cell piece concatenates, the front main grid 3 of a piece of battery is connected with the back side main grid 4 of adjacent cell to be connected by interconnecting band 6 Together, at the same time, the front main grid 3 of adjacent cell piece is connected with the back side main grid 4 of next cell piece again, repeatedly such shape The battery strings formed into multiple battery cells in series, component is made up of 12 such battery strings in the present embodiment, and Fig. 6 is this reality Apply the circuit connection diagram of component in example.

Element cell string is arranged according to circuit diagram, wherein every two string battery strings 111 are connected by busbar 112 and connected It is connected together to form two adjacent battery strings 114, connecting again after six two adjacent battery strings 114 are in parallel two-by-two can be complete Into component typesetting, be parallel with bypass diode 113 per Battery pack string is influenceed with preventing hot spot.During component typesetting, adjacent cell string Between the cutting edge of adjacent cell piece be in a straight line with round edge, so arrange, between neighbouring four cell pieces between Hourglass shape will be presented in gap.

The busbar 112 for being used for battery strings connection in the present embodiment is what reflecting coating 15 alternateed with conventional coating 16 Structure, Fig. 7 are bus-bar structure schematic diagram, and the interconnecting strip 6 that wherein battery strings are drawn is connected with conventional coating 16, reflecting coating 15 For white PVB materials.

EL is tested before layer is carried out after the completion of component stack, and test, which reaches quality requirement, can be sent to laminating machine by component layer Pressure, the backboard and EVA and/or POE materials of glass edge residual are eliminated after laminate cooling, carries out EL tests, reaching quality will Ask can complete to frame up and terminal box connection work, be made solar cell module

Embodiment 2

The present embodiment and the difference of embodiment 1 are that battery strings 111 include the battery after 16 cuttings in the present embodiment Piece, remaining circuit arrangement mode are the same.Element cell string is arranged according to circuit diagram, wherein every two strings battery strings 111 are logical Cross busbar 112 to be connected in series to form battery strings 114, connect and can complete again after six battery strings 114 are in parallel two-by-two Component typesetting, be parallel with bypass diode 113 per Battery pack string is influenceed with preventing hot spot.During component typesetting, adjacent cell string it Between adjacent cell piece cutting edge be in a straight line with round edge, so arrange, the gap between neighbouring four cell pieces will Hourglass shape is presented.

In addition, isolated in the present embodiment between busbar and component irradiation face using white EPE materials, so from group It can't see obvious busbar and exist in part front.

Embodiment 3

As different from Example 1, the present embodiment makes solar cell module, electricity using 156M conventional polycrystallines cell piece Pond front main grid is designed as eight sections, and upper and lower main grid is axisymmetricly distributed along cutting seam, and cell backside main grid is divided into two sections, along cutting Seam is in symmetrical up and down.Battery bag contains bevel edge and cutting edge after cutting, and front main grid is close to cutting edge edge far from cutting edge Distance be 2mm, front main grid is close to bevel edge edge far from being 20mm with a distance from bevel edge, and back side main grid is close to cutting edge edge From being 1mm with a distance from cutting edge, back side main grid is close to bevel edge edge far from being 30mm with a distance from bevel edge.

By the cell piece after cutting using 12 cell pieces as one group of component units battery strings 311, element cell string 311 is by cutting Cut cell piece and be connected in series with each other and form, the cutting edge of a piece of cell piece and the bevel edge phase of a piece of cell piece in addition during connection Neighbour, when cell piece concatenates, the front main grid of a piece of battery is connected by interconnecting band connection one with the back side main grid of adjacent cell Rise, at the same time, the front main grid of adjacent cell piece is connected with the back side main grid of next cell piece again, is thusly-formed multi-disc repeatedly The battery strings that battery is in series, component is made up of 10 such battery strings in the present embodiment, and Fig. 8 is component in the present embodiment Circuit connection diagram.

Element cell string is arranged according to circuit diagram, wherein every two string locations battery strings 311 by busbar 312 simultaneously Connection is joined together to form can be complete after two adjacent 314,5 battery strings 314 of battery strings are arranged according to circuit diagram shown in Fig. 8 Into component typesetting, 4 bypass diodes 313 are provided with component to be influenceed with preventing hot spot.During component typesetting, between adjacent cell string Adjacent cell piece cutting edge is in a straight line with round edge, so arranges, and the gap between neighbouring four cell pieces will be in Existing hourglass shape.

Solar components are made using black backboard in the present embodiment, busbar 312 and component for battery strings connection The side of positive EVA contact is provided with black coating material, and the busbar back side is conventional scolding tin coating, can be used for and interconnecting strip Welded.

EL is tested before layer is carried out after the completion of component stack, and test, which reaches quality requirement, can be sent to laminating machine by component layer Pressure, the backboard and EVA and/or POE materials of glass edge residual are eliminated after laminate cooling, carries out EL tests, reaching quality will Ask can complete to frame up and terminal box connection work, be made solar cell module.

Embodiment 4

The present embodiment makes solar cell module using 156SN type single crystal batteries piece, and battery front side and the back side all only have Thin grid are present, and are that reserved cutting seam among cell piece when cell piece designs, cutting seam is parallel with thin grid, and cuts without main grid structure Set, cell piece is cut along cutting seaming and cutting, cell piece includes cutting edge and bevel edge after cutting without metal grid lines on slot.

By the cell piece after cutting using 12 cell pieces as one group of component units battery strings 411, element cell string 411 is by cutting Cut cell piece and be connected in series with each other and form, wherein the arc angling side of a battery unit and the cutting edge phase of an adjacent battery unit Neighbour, when cell piece interconnects, cell piece tow sides set stickiness electrocondution slurry along perpendicular to thin grid bearing after dicing, are provided with The place of electrocondution slurry is used for the connection of metal interconnection band and cell piece.By the positive electrode of a piece of cell piece and adjacent cell piece By metal interconnection band connection together, such alternate repetition forms the battery that multi-disc dereliction grid cell is in series to negative electrode String.

Component is made up of 12 such battery strings in the present embodiment, and Fig. 9 is that the circuit connection of component in the present embodiment is shown It is intended to.

Battery strings are arranged according to Fig. 9, wherein every two strings battery strings 411 are connected in parallel rear shape by busbar 412 Into battery strings be together in series to form two adjacent battery strings 414 again, three two adjacent battery strings 414 are again with series connection side Component typesetting is completed in formula connection, and each bypass diode 413 in parallel of battery strings 414 is influenceed with preventing hot spot, in component altogether It is provided with three bypass diodes.During component typesetting, adjacent cell piece cutting edge is in one with round edge between adjacent cell string On bar straight line, so arrange, hourglass shape will be presented in the gap between neighbouring four cell pieces.

Busbar 412 in the present embodiment with battery strings connection is provided with white with the component front EVA sides contacted Ceramic coating material, the busbar back side are conventional scolding tin coating, are welded available for interconnecting strip.

EL is tested before layer is carried out after the completion of component stack, and test, which reaches quality requirement, can be sent to laminating machine by component layer Pressure, the backboard and EVA and/or POE materials of glass edge residual are eliminated after laminate cooling, carries out EL tests, reaching quality will Ask can complete to frame up and terminal box connection work, be made solar cell module.

A part of specific embodiment is enumerated above to illustrate the utility model, it is necessary to it is pointed out here that be the above tool Body embodiment is served only for that the utility model is described in further detail, does not represent the limitation to scope of protection of the utility model.Other Some nonessential modifications and adjustment that people makes according to the utility model still fall within the scope of protection of the utility model.

Claims (7)

1. a kind of low energy consumption solar cell module, including some battery strings, the battery strings by multiple battery cells in series and Into, multiple battery strings interconnect to form solar cell module again, wherein the battery unit is formed by solar battery sheet cutting, The corner of the solar battery sheet is arc angling, it is characterized in that：The front and back of the solar battery sheet is respectively provided with Main grid, the solar battery sheet front and back are reserved with cutting seam, the front main grid and back side main grid and the cutting Stitch perpendicular and do not contact, and the symmetrical distribution of line centered on the cutting seam, the solar battery sheet are cut along described Two battery units are formed after slot cutting, during multiple battery cells in series, wherein the arc angling side of a battery unit and phase The cutting edge of an adjacent battery unit is adjacent, and the back side main grid of the wherein front main grid of a battery unit and adjacent cell leads to Cross mutually it is associated be connected, multiple battery units are so sequentially connected in series to form battery strings；

Or the front and back of the solar battery sheet is not provided with main grid but is equipped with thin grid, the solar battery sheet is just Face and the back side are reserved with cutting seam, and the cutting seam is parallel with the thin grid, and the thin grid are centered on the cutting seam The symmetrical distribution of line, the solar battery sheet form two battery units, multiple battery lists after being cut along the cutting seaming and cutting During member series connection, wherein the arc angling side of a battery unit is adjacent with the cutting edge of an adjacent battery unit, and a wherein battery The front of unit along perpendicular to the thin grid bearing on the back side of adjacent cell with being provided with conductive material, the conduction material Material be provided with it is mutually associated, wherein the negative electrode of the positive electrode of a battery unit and adjacent cell is connected by mutually associated, general Multiple battery units so are sequentially connected in series to form battery strings.

2. low energy consumption solar cell module according to claim 1, it is characterized in that：The both ends of the front main grid with Spacing, the both ends of the front main grid and the arc angling side are reserved between the arc angling side and the cutting edge The size of spacing between the cutting edge is 1~20mm, the both ends of the back side main grid and the arc angling side and Also be reserved with spacing between the cutting edge, the both ends of the back side main grid and the arc angling side and the cutting edge it Between the size of spacing be 1~30mm.

3. low energy consumption solar cell module according to claim 1, it is characterized in that：Connection between the battery strings is adopted With in parallel or series, when adjacent two battery strings are connected, wherein the arc angling side of a battery unit and an adjacent battery unit Cutting edge be located on the same line, the gap between adjacent four cell pieces in upper and lower, left and right is hourglass shape.

4. low energy consumption solar cell module according to claim 1, it is characterized in that：Using remittance between adjacent two battery strings Stream bar is connected, and the busbar is provided with coating towards the surface of the smooth surface of solar cell module.

5. low energy consumption solar cell module according to claim 4, it is characterized in that：The surface of the busbar uses EVA, PVB or PET material parcel, or be provided between the smooth surface of the busbar and the solar cell module and solar energy The material that the backboard of battery component is homochromy, or the busbar are arranged on the back side of battery strings.

6. low energy consumption solar cell module according to claim 4, it is characterized in that：The busbar be conventional coating with The alternating structure of reflecting coating, the place that the busbar will be connected with battery interconnecting strip are conventional coating, other not with it is described The place of interconnecting strip contact is reflecting coating, and the reflecting coating is directly coated on the busbar one side or in the form of sleeve pipe The busbar is wrapped up.

7. low energy consumption solar cell module according to claim 1, it is characterized in that：The battery strings are by 6~30 electricity Pool unit is in series, and the solar cell module is made up of 30~300 battery units.