CN103500768B - A kind of flexible solar assembly and preparation method thereof - Google Patents

Abstract

The present invention provides a kind of flexible solar assembly, including insulating element, conductive component and photoelectric conversion part.Described conductive component includes two adjutages and the linking arm being connected with described two adjutages, the Different electrodes layer being provided with different photoelectric conversion part it is close to respectively in the inner side of described two adjutages, the both sides of described linking arm are provided with insulating element, respectively described different electrode layer are insulated with described linking arm.So, the present invention is used and is together in series by the two of photoelectric conversion part electrodes by adjutage and the linking arm of conductive component, and by insulating element, photoelectric conversion part is insulated with linking arm, it is achieved that by seamless for monolithic battery series connection, not only switching performance is good but also be difficult to short circuit, and solving monolithic battery in prior art can not seamless series connection and the technical problem that is easily short-circuited.

Description

A kind of flexible solar assembly and preparation method thereof

Technical field

The present invention relates to a kind of flexible solar assembly and preparation method thereof, the flexibility of a kind of series connection Solar components and preparation method thereof, belongs to solar photovoltaic technology field.

Background technology

Become the trend theory of modern civilization life development due to environmental protection and energy saving, as to environment without any Pollute, without cost of material, without transporting and the unlimited a kind of clear energy sources of reserves, solar energy is increasingly Paid close attention to by people.Most common and the widest field of applied solar energy should belong to electric power system now, Solaode be a kind of with minimum environmental effect to produce the photoelectric conversion device of electric power, and have should With extensively, without advantages such as region restrictions.Main way to solar module research is realization at present High electricity conversion, low cost, installation durable, easy, lighting and avoid causing other environment Problem etc..Existing thin-film solar cells is few as a kind of absorbed layer materials, it is only necessary to several microns just may be used Solar energy to be efficiently converted into the efficient economizing battery of electric energy, there is vast potential for future development. Flexible solar battery is the one of thin-film solar cells, has light weight, easy attached shape, opto-electronic conversion Efficiency advantage high, with low cost, broad-spectrum, and because its exclusive flexibility characteristics, can be extensive Be applied to solar energy knapsack, solar energy opens paulin, solar electric torch, solar telephone, solar sailor Even on solar powered aircraft, it is also possible to be integrated on window or roof, exterior wall or interior wall, the most out of doors Or can provide, for people, the energy that environmental protection is free in indoor, therefore become Application of Solar Energy side in recent years The key object in face.Amorphism/microcrystal silicon (Si), cadmium telluride (CdTe) and Copper indium gallium selenide (CIGS) are Most important three kinds of flexible solar battery use material.The preparation method of flexible solar battery be Being sequentially prepared the first electrode layer, photoelectric conversion layer, the second electrode lay in flexible metal substrate, sunlight is saturating Cross the second electrode lay be photoelectrically converted layer absorb and realize the luminous energy conversion to electric energy, then at monolithic battery In cascade process, the flexible thin-film solar cell by volume to volume produces is needed to be cut into rectangular monolithic, Then carry out monolithic battery successively being connected in series to form assembly, be made on flexible parent metal；For satisfied use Solaode is arranged on demand Anywhere by family, by monolithic battery in the case of not being short-circuited It is together in series the most compactly and becomes the problem that present solaode manufactures primary solution.

Chinese invention patent application 201210036805 discloses a kind of flexible solar battery pack, its To lead with Z-shaped interval and by Z-shaped connection between cell piece to reduce the floor space of solaode Line is cascaded；But it is reducing while battery unit spacing, considerably increase because of conductive electrode with Battery unit sidewall is in close contact the probability making battery unit short circuit, and this outer connection part is also easy to produce and breaks The problem split, reduces the steadiness of product.Chinese invention patent 200980134780 disclose have many The integrated thin-film solar cell of the string of individual film photoelectric conversion element, its photo-electric conversion element includes first Electrode layer, photoelectric conversion layer and the second electrode lay, have element separation groove between this photo-electric conversion element each, Each first electrode layer connects with adjacent the second electrode lay, and it uses removal photoelectric conversion layer and removes electricity The mode of pole layer forms insulating space, and the insulation between next-door neighbour's series-connected cell substantially uses spatial separation, Although solaode can be connected and isolate by this patent, but to increase the distance between single battery as generation Valency.Chinese invention patent application 201110185498 disclose one include insulating barrier, the first electrode layer, The solar module of photoelectric conversion layer, the second electrode lay and conductive layer and manufacture method thereof；This insulation Layer separates adjacent the first electrode layer, photoelectric conversion layer and the second electrode lay, and this conductive layer is by the first electrode Layer with and its adjacent the second electrode lay be together in series, although the method can be carried out absolutely at the edge of battery Edge, but it uses and insulate at edge after etching completes isolation channel, and this manufacture method difficulty is relatively Greatly and in battery connection procedure, also cannot reduce the gap between battery unit further.

Summary of the invention

The technical problem to be solved is that in prior art, monolithic battery can not seamless series connection and not Be short-circuited, thus provide a kind of can gapless infinitely connect and will not short circuit flexible solar assembly and Its manufacture method.

For solving above-mentioned technical problem, the present invention is achieved by the following technical solutions:

A kind of flexible solar assembly, including insulating element, conductive component and photoelectric conversion part, described Conductive component includes two adjutages and connects the linking arm of described two adjutage one end respectively, a light First electrode layer of electricity converting member is close to the inner side of a described adjutage and is arranged, another opto-electronic conversion The second electrode lay of parts is close to the inner side of an other described adjutage and is arranged, at the two of described linking arm Side is provided with insulating element, is insulated with described linking arm by described photoelectric conversion part respectively.

Described flexible solar assembly, is also equipped with insulating element in the outside of described adjutage.

Described flexible solar assembly, described insulating element is insulating surfaces, exhausted outside an adjutage Edge face is connected with the insulating surfaces on the left of described linking arm, and the insulating surfaces outside another adjutage is with described Insulating surfaces on the right side of linking arm is connected.

Described flexible solar assembly, two adjutages of described conductive component are parallel to each other.

The angle angle and two that described flexible solar assembly, described linking arm and described adjutage are formed Insulating element outside bar adjutage and the angle angle phase of the insulating element formation of described linking arm both sides With.

Described flexible solar assembly, described linking arm intersects vertically with described adjutage.

Described flexible solar assembly, the length of the described insulating element outside described adjutage, described The length of adjutage and the length of described photoelectric conversion part are equal, or described adjutage is slightly shorter than described light The length of electricity converting member.

Described flexible solar assembly, described insulating element is transparent material.

The manufacture method of a kind of flexible solar assembly, it is characterised in that comprise the following steps:

Step one, the first adjutage of described conductive component connect one end of the linking arm of described conductive component, Second adjutage of described conductive component connects the other end of linking arm of described conductive component, described the The outside of one adjutage and the side laminating of described linking arm arrange two crossing insulating elements；

Step 2, fitting at the outside of described second adjutage and described linking arm opposite side arranges two phases The insulating element handed over；

Step 3, a photoelectric conversion part is arranged in the inner side of described second adjutage, described first electricity Pole laminating closes the insulating element outside described second adjutage；

Step 4, another photoelectric conversion part is arranged in the inner side of described first adjutage, described second Insulating element outside electrode layer described first adjutage of laminating.

The manufacture method of described flexible solar assembly, use hot pressing mode by described conductive component, Described insulating element and described photoelectric conversion part fit together.

The technique scheme of the present invention has the advantage that compared to existing technology

(1) flexible solar assembly of the present invention, turns including insulating element, conductive component and photoelectricity Change parts.Described conductive component includes two adjutages and the linking arm being connected with described two adjutages, The inner side of described two adjutages is close to electrode layer before and after two photoelectric conversion parts respectively, in described company The both sides connecing arm are provided with insulating element, make described linking arm insulate with photoelectric conversion part.So, originally Invent by using the adjutage of conductive component and linking arm to be connected by the two of photoelectric conversion part electrodes Come, and by insulating element, photoelectric conversion part and linking arm are insulated, it is achieved that monolithic battery seamless Series connection, not only switching performance is good but also be difficult to short circuit, and solving monolithic battery in prior art can not be seamless Gap series connection and the technical problem being easily short-circuited.So, can preferably save when battery unit connects Space, by monolithic battery seamless link together, adds its tightness degree, improves product structure Stability.

The manufacture method of flexible solar assembly of the present invention, specifically includes following steps: first exist The outside of one adjutage and the side laminating of linking arm arrange two crossing insulating elements, then Fit in the outside of another adjutage and linking arm opposite side and two crossing insulating elements are set, then It is respectively provided with photoelectric conversion part in the inner side of two adjutages, will extend over arm and outer by pressing mode Insulating surfaces and the photoelectric conversion part of side fit together.The present invention realizes adjacent cell by conductive component Being connected in series of sheet, and by insulating element isolation conductive component and photoelectric conversion part, be effectively prevented from In prior art, conductive component and photoelectric conversion part are easily generated the problem of short circuit, further contract simultaneously The little spacing of adjacent component photoelectric conversion part, improves the utilization rate in interiors of products space, and makes Internal connection is more firm, and the structure of product is more stable, is prone to processing simultaneously and produces, having well Practicality.

(2) flexible solar assembly of the present invention, is also equipped with insulation in the outside of described adjutage Parts, therefore the both sides in the outside of described adjutage and described linking arm are provided with described insulating element. Insulating element outside one adjutage intersects with the insulating element of linking arm side, outside another adjutage The insulating element of side intersects with the insulating element of described linking arm opposite side.The present invention utilizes insulating element to incite somebody to action The linking arm of conductive component is completely isolated with the side of photoelectric conversion part to come, it is ensured that an opto-electronic conversion Parts only have one layer of electrode layer and conductive component connects conducting.

(3) two adjutages of the conductive component of flexible solar assembly of the present invention are parallel to each other, This parallel construction can allow the volume of solar components narrower, less takes up space.

(4) flexible solar assembly of the present invention, described insulating element is insulating surfaces, uses insulation The mode in face is not only processed simple and convenient, and Stability Analysis of Structures, ratio only sets outside adjutage or linking arm Put the insulation arm corresponding with its shape to be easier to produce and assembling, and the structural stability of product is good.Described Insulating surfaces outside two adjutages insulating surfaces with described linking arm both sides respectively intersects vertically, conductive part The linking arm of part intersects vertically with adjutage.Described linking arm with adjutage when being connected in 90 degree The volume that solar components can be made to present under identical electric conduction quantity is minimum, and regular shape, structure is the most steady Fixed, and production and processing is the most convenient.

(5) flexible solar assembly of the present invention, described insulating element outside described adjutage, The length of described adjutage and described photoelectric conversion part is equal or described adjutage is slightly shorter than described photoelectricity and turns Change the length of parts, to ensure that adjutage can effectively collect photogenerated charge, ensure that insulating element will be led simultaneously Electricity parts are in close contact with the electrode layer of photoelectric conversion part.

(6) insulating element of flexible solar assembly of the present invention is transparent material, to ensure photoelectricity Converting member can receive external light source fully, carry out opto-electronic conversion.

(7), in the manufacture method of flexible solar assembly of the present invention, the mode using hot pressing will Described conductive component, described insulating element and described photoelectric conversion part fit together, and make conductive component First electrode layer or second of adjutage, the insulating surfaces of described insulating element and described photoelectric conversion part Electrode layer can closely bond together.

Accompanying drawing explanation

It is clearly understood to make present disclosure be easier to, below in conjunction with the accompanying drawings, the present invention is made Further details of explanation, wherein,

Figure 1A is the profile of flexible solar assembly described in the embodiment of the present invention 1；

Figure 1B is the partial enlargement of section Figure 1A of flexible solar assembly described in the embodiment of the present invention 1 Figure；

Fig. 1 C is the profile of flexible solar assembly described in the embodiment of the present invention 2；

Fig. 2 A is the planar structure signal of the insulating element of flexible solar assembly described in the embodiment of the present invention Figure；

Fig. 2 B is the stereochemical structure signal of the insulating element of flexible solar assembly described in the embodiment of the present invention Figure；

Fig. 3 A is the planar structure signal of the conductive component of flexible solar assembly described in the embodiment of the present invention Figure；

Fig. 3 B is the stereochemical structure signal of the conductive component of flexible solar assembly described in the embodiment of the present invention Figure；

Fig. 4 A is the plan structure of the photoelectric conversion part of flexible solar assembly described in the embodiment of the present invention Schematic diagram；

Fig. 4 B is the positive TV structure of the photoelectric conversion part of flexible solar assembly described in the embodiment of the present invention Schematic diagram；

Fig. 4 C is the stereochemical structure of the photoelectric conversion part of flexible solar assembly described in the embodiment of the present invention Schematic diagram；

Fig. 5 A is that the structure of step one in flexible solar assembly making method described in the embodiment of the present invention connects Connect top view；

Fig. 5 B is that the structure of step one in flexible solar assembly making method described in the embodiment of the present invention connects Connect side view；

Fig. 5 C is the three-dimensional knot of step one in flexible solar assembly making method described in the embodiment of the present invention Structure connection diagram；

Fig. 6 A is that the structure of step 2 in flexible solar assembly making method described in the embodiment of the present invention connects Connect top view；

Fig. 6 B is that the structure of step 2 in flexible solar assembly making method described in the embodiment of the present invention connects Connect side view；

Fig. 6 C is the three-dimensional knot of step 2 in flexible solar assembly making method described in the embodiment of the present invention Structure connection diagram；

Fig. 7 is the structure chart of step 3 in flexible solar assembly making method described in the embodiment of the present invention；

Fig. 8 is the knot of step 4 in flexible solar assembly described in the embodiment of the present invention and preparation method thereof Structure connects top view；

The connection diagram of flexible solar assembly described in Fig. 9 embodiment of the present invention.

In figure, reference is expressed as: 2,3-adjutage, 4-linking arm, 5-the first electrode layer, 6- Two electrode layers, 7-photoelectric conversion layer, 10-photoelectric conversion part, 11-insulating element, 12-conductive component.

Detailed description of the invention

Embodiment 1

The present embodiment provides a kind of described flexible solar assembly, as shown in Figure 1A, including insulating element 11, conductive component 12 and photoelectric conversion part 10, described conductive component 12 includes two adjutages 2,3 Connect the linking arm 4 of described two adjutages 2,3 one end respectively, the of a photoelectric conversion part 10 One electrode layer 5 is close to the inner side of a described adjutage 3 and is arranged, the of another photoelectric conversion part 10 Two electrode layers 6 are close to the inner side of an other described adjutage 2 and are arranged, in the both sides of described linking arm 4 Being provided with insulating element 11, insulating element 11 described in the present embodiment is for being coated with described linking arm 4 both sides The two of both sides photoelectric conversion parts 10 are insulated by insulation arm respectively with described linking arm 4.As other The embodiment that can replace, for easy to process and Stability Analysis of Structures, it is also possible to by described insulating element 11 Being set to insulating surfaces, in Figure 1A, mark is irised out part and is specifically shown in amplification Figure 1B.Flexibility in the present embodiment is too Sun energy assembly, uses conductive component to be connected by adjacent two photoelectric conversion parts, and will by insulating element Photoelectric conversion part insulate with conductive component, it is achieved that the seamless series connection of monolithic battery.This kind of series system Not only switching performance is good but also be difficult to short circuit, and solving monolithic battery in prior art can not seamless connect And the technical problem being easily short-circuited.So, can preferably save space when battery unit connects, And its tightness degree can be increased, improve the stability of product structure.

Embodiment 2:

Flexible solar assembly in the present embodiment, on the basis of above-described embodiment, at described adjutage 2, the outside of 3 is also equipped with insulating element 11, as shown in Figure 1 C, described insulating element be insulating surfaces or The insulation arm of described adjutage 2,3, insulating element outside adjutage 2,3 in the present embodiment can be coated with It is insulating surfaces, the insulating surfaces outside adjutage 2 and described linking arm with linking arm 4 both sides insulating element Insulating surfaces on the right side of in the of 4 intersects vertically, exhausted on the left of the insulating surfaces outside adjutage 3 and described linking arm 4 Edge face intersects vertically.Flexible solar assembly profile described in the present embodiment is as shown in Figure 1 C.Conduction The structure of parts 12 is as shown in Fig. 3 A, Fig. 3 B, and described conductive component 12 includes adjutage 2, extends Arm 3 and linking arm 4, described linking arm 4 is connected respectively with described adjutage 2 and adjutage 3.Photoelectricity The structure of converting member 10 is as shown in Fig. 4 A, Fig. 4 B, Fig. 4 C.Described photoelectric conversion part 10 includes First electrode layer 5, the second electrode lay 6 and photoelectric conversion layer 7.

As shown in Fig. 1 C, 5A, 5B, outside the right side and described adjutage 2 of described linking arm 4 Side is provided with insulating element 11.The inner side of described adjutage 2 is provided with a photoelectric conversion part 10, Wherein the second electrode lay 6 of a photoelectric conversion part 10 is fitted described adjutage 2 and the insulation in outside thereof Parts 11, the first electrode layer 5 of another photoelectric conversion part 10 is fitted described adjutage 3 and outer The insulating element 11 of side.On the structure of described photoelectric subassembly, the adjutage of described conductive component 12 2 and adjutage 3 be parallel to each other, described linking arm 4 and described adjutage 2, the most vertical phase of adjutage 3 Handing over, outside adjutage, the area of insulating element is more than 20 times of described conductive component 12 fitting area therewith, The length of described insulating element 11, described adjutage 2,3 and described photoelectric conversion part 10 is equal, and Described insulating element 11 is transparent material.

The step connection diagram of the manufacture method of a kind of flexible solar assembly of the present invention such as figure Shown in 5A-8, it includes following four steps:

Step one, the adjutage 2 of described conductive component 12 connect one end of linking arm 4, described adjutage 3 other ends connecting described linking arm 4, on outside and the right side of described linking arm 4 of described adjutage 2 Laminating is provided with two crossing insulating elements 11, and described insulating element is insulating surfaces, such as Fig. 5 A-5C institute Show；

Step 2, on the left of the outside and described linking arm 4 of described adjutage 3 laminating be provided with two phases The insulating element 11 handed over, insulating element herein is also insulating surfaces, as shown in Fig. 6 A, 6B, 6C；

Step 3, a photoelectric conversion part 10 is arranged in the inner side of described adjutage 3, described first electricity Pole layer 5 is fitted the insulating element 11 outside described adjutage 3, as shown in Figure 7；

Step 4, another photoelectric conversion part 10 is arranged in the inner side of described adjutage 2, described second Electrode layer 6 is fitted the described insulating element 11 outside described adjutage 2, as shown in Figure 8.

In described step 3, step 4, use the mode of hot pressing by described conductive component 12, described Insulating element 11 and described photoelectric conversion part 10 fit together, and described adjutage 2,3 is interior It is trapped in the electrode layer 6,5 of described photoelectric conversion part.

Embodiment 3

Flexible solar assembly of the present invention includes 11, two conductive components 12 of four insulating elements With two photoelectric conversion parts 10.Described insulating element 11 is insulating surfaces, and said two conductive component 12 is equal Including adjutage 2, adjutage 3 and linking arm 4, seeing Fig. 6 C and Fig. 7, Fig. 8. described photoelectricity turns Change parts 10 and include the first electrode layer 5(i.e. incident light plane electrode layer), the second electrode lay 6(i.e. Non-incident light plane electrode layer) and photoelectric conversion layer 7.The right side of described linking arm 4 and described adjutage 2 Outside be provided with insulating element 11, in left side and the outside of described adjutage 3 of described linking arm 4 Also insulating element 11 it is provided with.It is respectively arranged with photoelectric conversion part inside described two adjutages 2,3 Part 10, wherein the second electrode lay 6 of a photoelectric conversion part 10 is fitted described adjutage 2 and outside thereof Described insulating element 11, the first electrode layer 5 of another photoelectric conversion part 10 is fitted described extension Arm 3 and the described insulating element 11 in outside thereof.On the structure of described photoelectric subassembly, described conductive part Adjutage 2 and the adjutage 3 of part 12 are parallel to each other, described linking arm 4 and described adjutage 2, extension The equal 60 degree of interior angles of arm 3 intersect, and the area of the insulating element outside described adjutage is more than described conductive part 50 times of part 12 fitting area therewith, described insulating element 11, the length phase of described adjutage 2,3 Deng, the length being shorter in length than described insulating element 11 of described photoelectric conversion part 10, and described insulation Parts 11 are transparent material.In the present embodiment, the number of described conductive component 12 is two, described On insulating element 11, interval is arranged.The embodiment that can convert as other, described conductive component 12 Number can be arranged as required to multiple, such as 3,5 etc., as desired to select, typically Select two and can take into account effect and cost, and stability is preferable.

The manufacture method of a kind of flexible solar assembly of the present invention is same as in Example 2, difference Place is that conductive component 12 is two and parallel interval layout, sees Fig. 7, Fig. 8.When multiple the present embodiment In assembly connect time, as it is shown in figure 9, each battery unit is sequentially connected in series, by an assembly list The electrode layer of the photoelectric conversion part 10 being not connected with in unit and the connection member in another one battery unit 12 connect, and have been sequentially connected with all of battery unit, have completed by the way of hot pressing.Fig. 9 gives The connection diagram of solar components of the present invention, because the battery used is flexible battery unit, as After Fig. 9 places connection, be laminated, flexible battery unit can in a plane thus form assembly.

Obviously, above-described embodiment is only for clearly demonstrating example, and not to embodiment Limit.For those of ordinary skill in the field, can also make on the basis of the above description The change of other multi-form or variation.Here without also cannot all of embodiment be given exhaustive. And the obvious change thus extended out or variation still in the invention protection domain it In.

Claims (8)

1. a flexible solar assembly, including insulating element (11), conductive component (12) and photoelectricity Converting member (10), it is characterised in that:

Described conductive component (12) includes two adjutages (2,3) and connects described two extensions respectively The linking arm (4) of arm (2,3) one end, first electrode layer (5) of a photoelectric conversion part (10) The inner side being close to a described adjutage (3) is arranged, second electricity of another photoelectric conversion part (10) Pole layer (6) is close to the inner side of an other described adjutage (2) and is arranged, at described linking arm (4) Both sides are provided with insulating element (11), respectively by described photoelectric conversion part (10) and described linking arm (4) Insulation；It is also equipped with insulating element (11), described insulating element in the outside of described adjutage (2,3) For insulating surfaces, the insulating surfaces in adjutage (3) outside and the insulating surfaces in described linking arm (4) left side It is connected, the insulating surfaces in another adjutage (2) outside and the insulating surfaces on described linking arm (4) right side It is connected.

Flexible solar assembly the most according to claim 1, it is characterised in that described conductive component (12) two adjutages (2,3) are parallel to each other.

Flexible solar assembly the most according to claim 1 and 2, it is characterised in that described connection Insulating element outside the angle angle that arm (4) and described adjutage (2,3) are formed and two adjutages Identical with the angle angle that the insulating element of described linking arm both sides is formed.

Flexible solar assembly the most according to claim 1 and 2, it is characterised in that described connection Arm (4) intersects vertically with described adjutage (2,3).

Flexible solar assembly the most according to claim 4, it is characterised in that outside described adjutage The length of described insulating element (11) of side, the length of described adjutage (2,3) and described photoelectricity turn The length changing parts (10) is equal, or described adjutage (2,3) is shorter than described photoelectric conversion part (10) Length.

6. according to the flexible solar assembly described in claim 1 or 2 or 5, it is characterised in that described Insulating element (11) is transparent material.

7. the manufacture method of a flexible solar assembly as claimed in claim 1, it is characterised in that bag Include following steps:

Step one, first adjutage (2) of described conductive component (12) connect described conductive component (12) One end of linking arm (4), second adjutage (3) of described conductive component (12) connect described in lead The other end of the linking arm (4) of electricity parts (12), in outside and the institute of described first adjutage (2) The side laminating stating linking arm (4) arranges two crossing insulating elements (11), and described insulating element is Insulating surfaces；

Step 2, fit at the outside of described second adjutage (3) and described linking arm (4) opposite side Arranging two crossing insulating elements (11), described insulating element is insulating surfaces；

Step 3, a photoelectric conversion part (10) is arranged in the inner side of described second adjutage (3), Described first electrode layer (5) fit described second adjutage (3) outside insulating surfaces；

Step 4, another photoelectric conversion part (10) is arranged in the inner side of described first adjutage (2), Described the second electrode lay (6) fit described first adjutage (2) outside insulating surfaces.

The manufacture method of flexible solar assembly the most according to claim 7, it is characterised in that adopt By the mode of hot pressing by described conductive component (12), described insulating element (11) and described opto-electronic conversion Parts (10) fit together.