CN208781865U - A kind of foreboard and solar components for solar components - Google Patents

Abstract

The utility model embodiment discloses a kind of foreboard and solar components for solar components, and the foreboard includes the substrate layer set gradually, pattern layer and protective layer；Wherein, the pattern layer is arranged on the substrate layer by transfer printing process.Using the foreboard and solar components for solar components of the utility model embodiment, pattern layer is formed on substrate layer by transfer printing process, so that the Integral decoration effect of foreboard is good, and foreboard can be made to keep good translucency.

Description

A kind of foreboard and solar components for solar components

Technical field

The utility model relates to a kind of foreboards and solar components for solar components, and in particular to a kind of beauty And foreboard and solar components that translucency is good.

Background technique

Solar energy is a kind of inexhaustible energy, is the generally acknowledged clean energy resource in the whole world.Solar battery It is the device that solar energy is converted into electric energy, has the characteristics that environmental-friendly, is more and more widely used.With The development of solar energy industry, to solar product, more stringent requirements are proposed in market, not it may be desirable to increasing the function of solar product Rate and the generated energy for improving solar product, and it is desirable that solar product is more beautiful beautiful.

Solar chip in traditional solar components is generally black or navy blue, the foreboard one in solar components As for high light transmission, so that solar components show as black or navy blue in appearance, it appears very dull.Currently, in the market Mainly have to improve the method for solar components appearance dullness: the foreboard or envelope of stamp, change solar components on foreboard The color of glue film is filled, or with laser scribe solar chip.However, the solar components that these methods obtain, although certain The disadvantage of appearance dullness can be improved in degree, still, since the appearance of solar components changes, solar components it is saturating Photosensitiveness is not good enough.

Utility model content

In view of the above problem of the existing technology, the purpose of this utility model is to provide one kind to be used for solar components Foreboard and solar components, good translucency can be kept in the case where the appearance for improving solar components is dull.

To achieve the goals above, the utility model embodiment provides a kind of foreboard for solar components, described Foreboard includes the substrate layer set gradually, pattern layer and protective layer；

Wherein, the pattern layer is arranged on the substrate layer by transfer printing process.

In some embodiments, the substrate layer is made of hard translucent material.

In some embodiments, the substrate layer is ultrawhite tempered float glass.

In some embodiments, the light transmittance of the ultrawhite tempered float glass is greater than 90%.

In some embodiments, the protective layer is produced using vacuum magnetic-control sputtering method.

In some embodiments, the light transmittance of the protective layer is greater than 60%.

In some embodiments, the protective layer with a thickness of 0.02 μm -25 μm.

In some embodiments, the pattern layer with a thickness of 0.02 μm -5 μm.

The utility model embodiment additionally provides a kind of solar components, the above-mentioned foreboard including setting gradually and One encapsulated layer, solar chip, the second encapsulated layer and backboard, the protective layer of the foreboard are affixed with first encapsulated layer It closes.

In some embodiments, the material of first encapsulated layer and second encapsulated layer is respectively selected from ethylene-acetate One of ethylene copolymer, polyvinyl butyral, organosilicon and polyolefin.

Compared with prior art, provided by the utility model for the foreboard of solar components, production method and the sun Energy component has the advantage, that forms pattern layer by transfer printing process on substrate layer, so that the Integral decoration effect of foreboard is good, And foreboard can be made to keep good translucency.

It should be appreciated that foregoing general description and it is described in detail below be merely exemplary with it is illustrative, rather than use In limitation the utility model.

Present specification provides the various realizations or exemplary general introduction of technology described in the utility model, is not that institute is public Open the full scope of technology or the comprehensive disclosure of all features.

Detailed description of the invention

In the attached drawing being not drawn necessarily to scale, identical appended drawing reference can describe similar in different views Component.Same reference numerals with letter suffix or different letter suffix can indicate the different instances of similar component.Attached drawing Generally through citing rather than the mode of limitation shows various embodiments, and reinstates with specification and claims one It is illustrated in the disclosed embodiments.In due course, make to be referred to identical reference in all the appended drawings same One or similar part.Such embodiment is illustrative, and is not intended as the exhaustive or exclusive of the present apparatus or method Embodiment.

Fig. 1 is the structural schematic diagram of the foreboard for solar components of the utility model embodiment；

Fig. 2 is the structural schematic diagram of the solar components of the utility model embodiment；

Fig. 3 is the flow diagram of the first production method of the foreboard of the solar components of the utility model embodiment；

Fig. 4 is the flow diagram of second of production method of the foreboard of the solar components of the utility model embodiment.

Appended drawing reference: 1- foreboard；The first encapsulated layer of 2-；3- solar chip；The second encapsulated layer of 4-；5- backboard；11- substrate Layer；12- pattern layer；13- protective layer.

Specific embodiment

In order to enable the objectives, technical solutions, and advantages of the embodiments of the present invention are clearer, below in conjunction with this reality With the attached drawing of new embodiment, the technical solution of the utility model embodiment is clearly and completely described.Obviously, it is retouched The embodiment stated is a part of the embodiment of the utility model, instead of all the embodiments.It is practical new based on described sheet The embodiment of type, those of ordinary skill in the art's every other embodiment obtained under the premise of being not necessarily to creative work, It fall within the protection scope of the utility model.

Unless otherwise defined, the technical term or scientific term that the utility model uses are should be belonging to the utility model The ordinary meaning that personage in field with general technical ability is understood." first ", " second " used in the utility model and Similar word is not offered as any sequence, quantity or importance, and is used only to distinguish different component parts." comprising " Either the similar word such as "comprising" means to occur element or object before the word and covers to appear in the word presented hereinafter Element perhaps object and its equivalent and be not excluded for other elements or object.The similar word such as " connection " or " connected " is simultaneously Non-limiting but may include electrical connection in physics or mechanical connection, either direct or indirectly. "upper", "lower", "left", "right" etc. are only used for indicating relative positional relationship, after the absolute position for being described object changes, then should Relative positional relationship may also correspondingly change.

In order to keep the following explanation of the utility model embodiment to understand and concise, known function is omitted in the utility model With the detailed description of known elements.

As shown in Figure 1, the utility model embodiment discloses a kind of foreboard for solar components, which includes Substrate layer 11, pattern layer 12 and the protective layer 13 set gradually；Wherein, pattern layer 12 is arranged by transfer printing process in substrate layer 11 On.Transfer printing process includes UV transfer, thermal transfer, water transfer, gas transfer, silk screen transfer and low-temperature transfer printing etc..Preferably, pattern layer 12 are arranged on substrate layer 11 by UV transfer printing process.Wherein, pattern layer 12 with a thickness of 0.02 μm -5 μm.Preferably, pattern Layer 12 with a thickness of 0.05 μm -2 μm.

Using UV transfer printing process pattern-making layer 12, easy to operate, work efficiency is high, and the pattern of acquisition is fine colorful, saturating Photosensitiveness is good and has stereo display effect.In addition, protective layer 13 can protect pattern layer 12, so that the Integral decoration effect of foreboard 1 It is good, and foreboard 1 can be made to keep good translucency.

In some embodiments, substrate layer 11 is made of hard translucent material.When substrate layer 11 is by hard translucent material system Cheng Shi passes through transfer printing process pattern-making layer 12 with can be convenient on substrate layer 11.

Preferably, substrate layer 11 is ultrawhite tempered float glass, and physics, machinery and optical property are good, can carry out deep add Work.Wherein, the light transmittance of ultrawhite tempered float glass is greater than 90%, so that the translucency of foreboard 1 is good.

In some embodiments, protective layer 13 is produced using vacuum magnetic-control sputtering method, certainly, is selected such as vacuum coating The method of other plated films can also make protective layer 13.When use vacuum magnetic-control sputtering legal system goes bail for sheath 13, protective layer 13 For high light transmission, for example, the translucency in order to preferably guarantee 1 entirety of foreboard, the light transmittance of protective layer 13 is greater than 60%.When adopting With vacuum magnetic-control sputtering legal system go bail for sheath 13 when, protective layer 13 can be not colored, be also possible to colored.Protection In the case that layer 13 is with color or without color, protective layer 13 needs light transmission.Setting uses vacuum magnetic control in foreboard 1 The protective layer 13 that sputtering method is produced can make the color of the entirety of foreboard 1 richer, can further beautify to pattern layer 12, and And protection pattern layer 12.Wherein, protective layer 13 with a thickness of 0.02 μm -25 μm.Preferably, protective layer 13 with a thickness of 0.05 μ m-2μm。

As shown in Fig. 2, the utility model embodiment also discloses a kind of solar components comprising what is set gradually is aforementioned Foreboard 1 and the first encapsulated layer 2, solar chip 3, the second encapsulated layer 4 and backboard 5, the protective layer 13 and the first envelope of foreboard 1 Dress layer 2 fits.Backboard 5 can be made of materials such as stainless steel, tempered glass, organic glass, polymeric membranes.Foreboard 1 is beautiful And translucency is good, and translucency beautiful using solar components made of foreboard 1 is good.Solar components can be used for all external The product with finishing requirements is seen, especially decoration integrated BIPV (solar building integrated) product has wide city Field prospect.

In some embodiments, it is total to be respectively selected from ethane-acetic acid ethyenyl for the material of the first encapsulated layer 2 and the second encapsulated layer 4 One of polymers, polyvinyl butyral, organosilicon and polyolefin.First encapsulated layer 2 and the second encapsulated layer 4 select light transmission material Matter, it is ensured that the translucency of solar components entirety.In addition, sealant sealing can be used in the edge of solar components, from And improve the waterproofness of whole solar components.

The utility model embodiment also discloses a kind of production method of foreboard, comprising:

S1 carries out pre-treatment to substrate layer 11；

S2 applies UV transfer ink on the substrate layer 11 after preceding processing；

S3 is transferred UV transfer ink at pattern layer 12 using transfer printing process；

S4 carries out solidifying and setting to pattern layer 12；

Protective layer 13 is arranged in pattern layer 12, that is, forms foreboard 1 by S5.

In S1, to substrate layer 11 carry out pre-treatment may include: with high purity water, deionized water, pickling solution or alkali wash water etc., The substrate layer 11 of such as ultrawhite tempered float glass etc. is cleaned, is then dried.Substrate in S2, after preceding processing UV transfer ink is applied on layer 11, can pass through substrate layer of other application patterns such as screen printing technique or coating after preceding processing UV transfer ink is applied on 11.

Wherein, the light transmittance of UV transfer ink is greater than 60%；Carry out that solidifying and setting utilizes to pattern layer 12 is that energy is close Degree is 300mj/cm²-800mj/cm²UV lamp；The temperature of solidifying and setting is 20 DEG C -40 DEG C.

In S5, protective layer 13 is set in pattern layer 12, pattern layer 12 can be protected.Protective layer 13 is splashed using vacuum magnetic control The method of penetrating is produced, and certainly, the method for selecting other plated films such as vacuum coating can also make protective layer 13.When using Vacuum Magnetic When control sputtering method produces protective layer 13, protective layer 13 is high light transmission, for example, in order to preferably guarantee the whole light transmission of foreboard 1 Property, the light transmittance of protective layer 13 is greater than 60%.When use vacuum magnetic-control sputtering legal system goes bail for sheath 13, protective layer 13 be can be It is not colored, it is also possible to colored.In the case that protective layer 13 is with color or without color, protective layer 13 is desirable Light transmission.The protective layer 13 that setting is produced using vacuum magnetic-control sputtering method in foreboard 1, can make the color of the entirety of foreboard 1 more It is abundant, pattern layer 12 can further be beautified, and protect pattern layer 12.

In some embodiments, UV transfer ink is transferred into pattern layer 12 using transfer printing process, is specifically included following by S3 Step: will have textured UV roller mould and cover on UV transfer ink；It is pressed using rubber roller, makes to show on UV transfer ink Show lines to form pattern layer 12.Wherein, since the pattern layer 12 formed using such mode does not have color, when in pattern layer When colored protective layer 13 is set on 12, pattern layer 12 not only can protect, foreboard 1 can also be made whole more attractive.Wherein, The pressing-in temp of rubber roller is 20 DEG C -30 DEG C, and pressing time is -20 minutes 5 minutes.Have textured UV roller mould be by Lines is processed on the surface of metal material and to carry out electroformed mould prepared, wherein metal material can be copper or stainless Steel etc..

In some embodiments, S3, using transfer printing process by UV transfer ink transfer at pattern layer 12, can also include with Lower step: will have figuratum UV transfer film and ride on UV transfer ink to form pattern layer 12.Wherein, due to using such The pattern layer 12 that mode is formed have color, when be provided without in pattern layer 12 color protective layer 13 (protective layer 13 be adopt Produced with vacuum magnetic-control sputtering method) when, it not only can protect pattern layer 12, can also make in the pattern layer 12 in foreboard 1 Color is shown；When colored protective layer 13 is arranged in pattern layer 12, (protective layer 13 uses vacuum magnetic-control sputtering legal system Take) when, it not only can protect pattern layer 12, the color of the color and protective layer 13 in the pattern layer 12 in foreboard 1 can also be made Superposition, foreboard 1 are overall beautiful.Wherein, UV transfer film is polyethylene terephthalate film, polycarbonate membrane, polystyrene Film, polymethyl methacrylate or polychloroethylene film.

Further, in order to keep pattern layer 12 stronger, UV transfer ink is printed as pattern layer 12 using transfer printing process, It is further comprising the steps of: using UV curing to the further deeply-curing of pattern layer 12.Certainly, if in S4 to pattern layer 12 into The effect of row solidifying and setting is relatively good, can be omitted to the step of 12 further deeply-curing of pattern layer.

In some embodiments, before applying UV transfer ink on substrate layer 11, the portion of desirable pattern is not required on substrate layer 11 Divide bonding protective film, can shield, avoid the part residual transfer ink for being not required to desirable pattern on substrate layer 11.Its In, protective film is polymeric membrane, for example, polyethylene terephthalate (PET), polycarbonate (PC) or polypropylene (PP) etc.. Certainly, if substrate layer 11 is whole to be both needed to desirable pattern, bonding protective film is not needed.Below with reference to Fig. 3 to one of foreboard Production method be described, specifically includes the following steps:

Step 1: cleaning machine is utilized, the ultrawhite tempered float glass with high purity water to light transmittance greater than 90% cleans, Then it is dried；

Step 2: the bonding partially PET protection film of desirable pattern is not required on ultrawhite tempered float glass；

Step 3: utilizing screen printing technique, UV of the light transmittance greater than 60% is applied on ultrawhite tempered float glass and transfers oil Ink；

Step 4: will have textured stainless steel UV roller mould and cover on UV transfer ink, wherein have textured UV Roller mould is the lines by processing needs on the surface of metal material, and it is prepared then to carry out electroformed mould；

Step 5: being pressed with rubber roller, make to show lines on UV transfer ink to form pattern layer 12, wherein rubber roller Pressing-in temp is 25 DEG C, and pressing time is 15 minutes；

Step 6: utilizing UV curing, solidifying and setting is carried out to UV transfer ink, wherein the temperature of solidifying and setting is 30 DEG C, what progress solidifying and setting utilized is that energy density is 500mj/cm²；

Step 7: remove PET protection film, just obtain pattern layer 12, wherein pattern layer 12 with a thickness of 2 μm；

Step 8: plating the protective layer 13 of high light transmission in pattern layer 12 using vacuum magnetic-control sputtering method, wherein protective layer 13 Light transmittance be greater than 60%, protective layer 13 with a thickness of 0.5 μm.

It is described below with reference to method of the Fig. 4 to another production foreboard, specifically includes the following steps:

Step 1: cleaning machine is utilized, the ultrawhite tempered float glass with high purity water to light transmittance greater than 90% cleans, Then it is dried；

Step 2: the bonding partially PET protection film of desirable pattern is not required on ultrawhite tempered float glass；

Step 3: utilizing screen printing technique, UV of the light transmittance greater than 60% is applied on ultrawhite tempered float glass and transfers oil Ink；

Step 4: the UV transfer film pressing of the multicolour pattern with certain hollow out degree is compounded on UV transfer ink；

Step 5: utilizing UV curing, solidifying and setting is carried out to UV transfer ink, wherein what solidifying and setting utilized is energy Density is 400mj/cm²UV lamp, the temperature of solidifying and setting are 30 DEG C；

Step 6: remove UV transfer film and PET protection film, just obtain pattern layer 12, wherein pattern layer 12 with a thickness of 2 μm；

Step 7: to keep pattern layer 12 stronger, the pattern on the foreboard 1 that pattern transfers will be completed using UV curing 12 further deeply-curing of layer, wherein what solidifying and setting utilized is that energy density is 500mj/cm²UV lamp, the temperature of solidifying and setting Degree is 30 DEG C；

Step 8: plating the protective layer 13 of high light transmission in pattern layer 12 using vacuum magnetic-control sputtering method, wherein protective layer 13 Light transmittance be greater than 60%, protective layer 13 with a thickness of 0.1 μm.

Wherein, the pattern on the UV transfer film in step 4 can be continuous pattern, striped design, interruption shape pattern Deng preferably translucency is good, various colors, pattern are lively and has the color artistic pattern of stereoscopic effect.It is deep according to the color of pattern Shallow and area, also may be implemented different translucent effects, for the light transmission for guaranteeing foreboard 1, preferably there is the figure of certain hollow out degree Case.

In addition, range includes any and all based on this reality although exemplary embodiment has been described herein With novel with equivalent element, modification, omission, combination (for example, scheme that various embodiments are intersected), reorganization or the reality changed Apply example.Element in claims will be construed broadly as based on the language used in claim, however it is not limited in this theory Described example, example are to be interpreted as nonexcludability in bright book or during the implementation of the application.Therefore, this specification It is intended to be to be considered only as example with example, real scope and spirit are by following following claims and the full scope of its equivalent It is indicated.

Above description is intended to illustrative rather than restrictive.For example, above-mentioned example (or one or more side Case) it can be in combination with one another.Such as other embodiments can be used when reading foregoing description in those of ordinary skill in the art. In addition, various features can be grouped together to simplify the utility model in above-mentioned specific embodiment.This should not be solved It is interpreted as a kind of not claimed disclosed feature and intention is necessary for any claim.On the contrary, the utility model Theme can be less than whole features of specific disclosed embodiment.To which following claims is as example or embodiment It is incorporated in specific embodiment herein, wherein each claim is independently as individual embodiment, and considers these realities Applying example can be combined with each other with various combinations or arrangement.The scope of the utility model should refer to appended claims and these power Benefit requires the full scope of entitled equivalent form to determine.

Above embodiments are only the exemplary embodiment of the utility model, are not used in limitation the utility model, this is practical new The protection scope of type is defined by the claims.Those skilled in the art can be in the essence and protection scope of the utility model It is interior, various modifications or equivalent replacements are made to the utility model, this modification or equivalent replacement also should be regarded as falling in originally practical new In the protection scope of type.

Claims (10)

1. a kind of foreboard for solar components, which is characterized in that the foreboard includes the substrate layer set gradually, pattern layer And protective layer；

Wherein, the pattern layer is arranged on the substrate layer by transfer printing process.

2. the foreboard according to claim 1 for solar components, which is characterized in that the substrate layer is by hard light transmission Material is made.

3. the foreboard according to claim 1 for solar components, which is characterized in that the substrate layer is ultrawhite tempering Float glass.

4. the foreboard according to claim 3 for solar components, which is characterized in that the ultrawhite tempered float glass Light transmittance be greater than 90%.

5. the foreboard according to claim 1 for solar components, which is characterized in that the protective layer uses Vacuum Magnetic Control sputtering method is produced.

6. the foreboard according to claim 1 for solar components, which is characterized in that the light transmittance of the protective layer is big In 60%.

7. the foreboard according to claim 1 for solar components, which is characterized in that the protective layer with a thickness of 0.02μm-25μm。

8. the foreboard according to claim 1 for solar components, which is characterized in that the pattern layer with a thickness of 0.02μm-5μm。

9. a kind of solar components, which is characterized in that including the foreboard of any of claims 1-8 that sets gradually with And first encapsulated layer, solar chip, the second encapsulated layer and backboard, the protective layer of the foreboard and first encapsulated layer It fits.

10. solar components according to claim 9, which is characterized in that first encapsulated layer and second encapsulation The material of layer is respectively selected from one of ethene-vinyl acetate copolymer, polyvinyl butyral, organosilicon and polyolefin.