CN206697500U - High-mechanic crystal silicon cell component - Google Patents

Abstract

The utility model discloses a kind of high-mechanic crystal silicon cell component, the laminates of cuboid are sequentially laminated into including backsheet layer, the first EVA layer, battery lamella, the second EVA layer and glassy layer, also include four module frames for being provided with mounting groove, laminates are installed in mounting groove by adhesive, connected between adjacent component frame by corner brace, the cavity for accommodating corner brace insertion is provided with the module frame below mounting groove, a side sectional shape of the corner brace is fold-line-shaped or is that several serpentines are end to end.The utility model is widened by the thickening of glass, mutual latticing and frame sets up reinforcement, and the setting of folding shape side corner brace, significantly improves component integrated carrying ability.And the height of frame is reduced, reduce the aluminium alloy dosage of solar cell module frame.

Description

High-mechanic crystal silicon cell component

Technical field

It the utility model is related to a kind of high-mechanic crystal silicon cell component.

Background technology

After crystal silicon cell component is mainly bonded using aluminium frame, silica gel and battery module, aluminium frame is formed as electricity The supporter of pond module.It is possible and solar cell module is under external force such as wind, snow or the effect of the long term frequent of icing external force Cause component internal cell piece that hidden split occurs.And the hidden generation split, the power output of component will be directly affected, and group may be caused Hot spot effect occurs for part, so as to reduce the overall operation life-span of component；In addition, the component " snail line " frequently broken out in recent years is existing As, with component cell piece it is hidden split it is also directly related.So although some components have crossed 5400 pas, 2400 pas are tested, but several years Decay just clearly in later power station.And under actual condition, what component frequently suffered from is dynamic dynamic external force, wind one Scrape, component can be shaken up and down, and in such cases, the injury of the external force of same intensity to component is bigger.Therefore to crystalline silicon electricity The bearing capacity of pond component proposes requirements at the higher level.

Utility model content

The main technical problems to be solved of the utility model are, there is provided a kind of high-mechanic crystal silicon cell component, component are whole Body bearing capacity significantly improves, and reduces the height of frame, reduces the aluminium alloy dosage of solar cell module frame.

Technical scheme is used by the utility model solves its technical problem：High-mechanic crystal silicon cell component, including Backsheet layer, the first EVA layer, battery lamella, the second EVA layer and glassy layer are sequentially laminated into the laminates of cuboid, in addition to Four module frames for being provided with mounting groove, laminates are installed in mounting groove by adhesive, pass through angle between adjacent component frame Code connects, and is provided with the cavity for accommodating corner brace insertion, the side section of the corner brace on the module frame below mounting groove Face is shaped as fold-line-shaped or end to end for several serpentines.It will be arranged to roll over shape or " S " for connecting the corner brace of adjacent frame Shape, the bearing capacity of corner brace is enhanced, can preferably disperse load when in face of the external force of different directions, greatly improve whole electricity The bearing capacity of pond component.

As the further improvement of the utility model high-mechanic crystal silicon cell component, cavity is cuboid, in cavity It is additionally provided with the secondary cavity for being used for corner brace insertion with corner brace form fit.Secondary cavity coordinates the setting of corner brace to cause electricity originally The bearing power increase of the cavity of pond module frame, less fear dynamic dynamic external force.

As the further improvement of the utility model high-mechanic crystal silicon cell component, the section of corner brace is shaped as broken line Shape, the cavity are shaped as matching with the profile of corner brace, and several stiffeners, stiffener and shape are additionally provided with module frame Into the module frame of cavity, in the section of frame to form several triangular shaped.The bearing strength of cavity is so neither lost, again Save the dosage of component aluminium alloy.

As the further improvement of the utility model high-mechanic crystal silicon cell component, the groove face of mounting groove is provided with frosted Layer.So make it that groove face is not a plane, and similar to the plane with pit and salient point so that adhesive in mounting groove Area raising is pasted, enhances gluing ability, enhances the connection strength of component and frame, and it is non-flat compared to groove face is arranged to The form in face, it is easy in processing.

As the further improvement of the utility model high-mechanic crystal silicon cell component, the groove face of mounting groove is provided with and group The integrally formed cuboid reinforcement of part frame.The connection strength for improving component and frame is so set, and due to setting up Reinforcement, the height of frame can suitably be reduced, become 35 × 27mm from former width × a height of 35 × 30mm.So can be with Reduce the dosage of aluminium alloy again in the case where ensureing bearing capacity.

As the further improvement of the utility model high-mechanic crystal silicon cell component, cell piece is by several scribing batteries Piece is concatenated by mutual latticing, and the width of mutual latticing is 6mm, and the thickness of mutual latticing is 0.35mm；The thickness of the glassy layer For 4mm.Thickeied compared to the former mutually thickness of latticing, 5 × 0.3mm of width to 6 × 0.35mm；Thickness of glass thickeies from 3.2mm To 4mm, the integrated carrying ability of component is improved.

The utility model is widened by the thickening of glass, mutual latticing and frame sets up reinforcement, and folding shape side angle The setting of code, significantly improves component integrated carrying ability.And the height of frame is reduced, reduce solar cell module side The aluminium alloy dosage of frame.

Brief description of the drawings

Fig. 1 is that the decomposition texture of the angle part of frame one in the utility model high-mechanic crystal silicon cell Assemblies Example one shows It is intended to；

Fig. 2 is the sectional view of frame in Fig. 1；

Fig. 3 is the structural representation of corner brace in the utility model embodiment two；

Fig. 4 is the sectional view with Fig. 3 frames coordinated；

Fig. 5 is the sectional view of frame in the utility model embodiment three.

In figure：1st, mounting groove 2, module frame 3, corner brace 4, cavity 5, secondary cavity 6, stiffener 7th, reinforcement.

Embodiment

Clearly understand to have to the technical characteristics of the utility model, purpose and effect, it is detailed now to compare accompanying drawing Describe bright specific embodiment of the present utility model in detail.

Embodiment one：

As shown in Figure 1 and Figure 2, including backsheet layer, the first EVA layer, battery lamella, the second EVA layer and glassy layer are sequentially laminated It is installed on into the laminates of cuboid, in addition to four module frames 2 for being provided with mounting groove 1, laminates by adhesive In tankage 1, connected between adjacent component frame 2 by corner brace 3, the lower section of mounting groove 1 is provided with receiving on the module frame 2 The cavity 4 that corner brace 3 is inserted, a side sectional shape of the corner brace 3 is fold-line-shaped.Cavity 4 is cuboid, is also set in cavity 4 There is the secondary cavity 5 for being used for corner brace 3 and inserting with the form fit of corner brace 3.The groove face of mounting groove 1 is provided with frosted layer.Mounting groove 1 Groove face is provided with and the integrally formed cuboid reinforcement 7 of module frame 2.Cell piece is passed through mutual by several scribing cell pieces Latticing is concatenated, and the width of mutual latticing is 6mm, and the thickness of mutual latticing is 0.35mm；The thickness of glass is 4mm.

Embodiment two：

It is with the difference of embodiment one：As shown in Figure 3, Figure 4, the section of the corner brace 3 is shaped as several serpentines It is end to end.

Embodiment three：

It is with the difference of embodiment two：As shown in figure 5, the section of corner brace 3 is shaped as fold-line-shaped, the cavity 4 The shape matched with corner brace 3 is shaped as, several stiffeners 6, stiffener 6 and the group for forming cavity 4 are additionally provided with module frame 2 It is triangular shaped that part frame 2 in the section of frame forms several.

Above content is to combine specific optimal technical scheme further detailed description of the utility model, it is impossible to Assert that specific implementation of the present utility model is confined to these explanations.For the ordinary skill of the utility model art For personnel, without departing from the concept of the premise utility, some simple deduction or replace can also be made, should all be regarded To belong to the scope of protection of the utility model.

Claims (6)

1. high-mechanic crystal silicon cell component, it is characterised in that including backsheet layer, the first EVA layer, battery lamella, the second EVA layer The laminates of cuboid are sequentially laminated into glassy layer, in addition to four module frames for being provided with mounting groove, laminates pass through Adhesive is installed in mounting groove, is connected between adjacent component frame by corner brace, on the module frame below mounting groove The cavity for accommodating corner brace insertion is provided with, a side sectional shape of the corner brace is fold-line-shaped or is several serpentine head and the tail phases Connect.

2. high-mechanic crystal silicon cell component according to claim 1, it is characterised in that the cavity is cuboid, The secondary cavity for being used for corner brace insertion with corner brace form fit is additionally provided with cavity.

3. high-mechanic crystal silicon cell component according to claim 1, it is characterised in that the shape in the section of the corner brace For fold-line-shaped, the cavity is shaped as matching with the profile of corner brace, and several stiffeners are additionally provided with module frame, is strengthened In the section of frame to form several triangular shaped with forming the module frame of cavity for bar.

4. high-mechanic crystal silicon cell component according to claim 1, it is characterised in that the groove face of the mounting groove is provided with Frosted layer.

5. high-mechanic crystal silicon cell component according to claim 1, it is characterised in that set on the groove face of the mounting groove Have and the integrally formed cuboid reinforcement of module frame.

6. high-mechanic crystal silicon cell component according to any one of claim 1 to 5, it is characterised in that the battery Piece is concatenated by several scribing cell pieces by mutual latticing, and the width of mutual latticing is 6mm, and the thickness of mutual latticing is 0.35mm；The thickness of the glassy layer is 4mm.