CN207265952U - A kind of auxiliary mould of solar cell module Anti-dislocation - Google Patents

Abstract

The utility model discloses a kind of auxiliary mould of solar cell module Anti-dislocation, including auxiliary frame, the auxiliary frame is equipped with the receiving cavity for being used for accommodating solar cell module, the thickness of the auxiliary frame is more than the thickness of the solar cell module, when the solar cell module is lain in a horizontal plane in the receiving cavity, the upper surface of the auxiliary frame is higher than the upper surface of the solar cell module；The auxiliary mould of the solar cell module Anti-dislocation can effectively prevent module edge silica gel plate during lamination from deforming, and prevent glass displacement.

Description

A kind of auxiliary mould of solar cell module Anti-dislocation

Technical field

A kind of auxiliary mould is the utility model is related to, espespecially a kind of auxiliary mould of solar cell module Anti-dislocation.

Background technology

Rapid with the cost of crystal silicon manufacture in recent years declines and roof power station and all types of buildings, agricultural, traffic and life The increase of the demand of application such as living, high-efficiency battery technology are subject to industry more and more to pay attention to, and high efficiency and low cost are photovoltaics Survival Techniques and the deciding factor of development；Efficiently double glass photovoltaic modulies have excellent weatherability, without PID effects, product longevity Many advantages, such as life length and high transformation efficiency, especially non crystal heterogeneous agglomeration solar module, however it is different preparing non-crystalline silicon During matter connection solar cell component, since non crystal heterogeneous agglomeration solar module is to more demanding in the barrier of moisture, in order to anti- Only because steam enters deliquescence occurs for each film plating layer, it is necessary to carry out edge sealing in the edge of solar module increase butyl rubber, so And during double glass structures lamination stress of the solar module after edge sealing, it may occur that can be produced after EVA adhesive film and butyl rubber fusing The problem of flowing shifts glass.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of backman of solar cell module Anti-dislocation Dress, the auxiliary mould of the solar cell module Anti-dislocation can effectively prevent module edge silica gel plate during lamination from deforming, prevent There is glass displacement.

In order to reach the utility model aim, the utility model provides a kind of auxiliary of solar cell module Anti-dislocation Frock, including auxiliary frame, the auxiliary frame are equipped with the receiving cavity for being used for accommodating solar cell module, its feature exists In the thickness of the auxiliary frame is more than the thickness of the solar cell module, when the solar cell module level is put When putting in the receiving cavity, the upper surface of the auxiliary frame is higher than the upper surface of the solar cell module.

Alternatively, when the solar cell module is lain in a horizontal plane in the receiving cavity, the auxiliary frame Spacing between upper surface and the upper surface of the solar cell module is 0.3mm-0.5mm.

Alternatively, the auxiliary frame is the rectangular frame surrounded by four edges frame.

Alternatively, the frame of the auxiliary frame is equipped with the first passage for connecting the frame inner and outer surfaces.

Alternatively, the frame of the auxiliary frame be equipped with connect the upper and lower surface of the frame and with the first passage The second channel of connection.

Alternatively, the frame of the auxiliary frame is hollow structure, is divided in the inner and outer surfaces of the frame of the auxiliary frame The first through hole that She You do not connected with the hollow structure.

Alternatively, the corner of the auxiliary frame is chamfering, and the inner and outer surfaces of the edge of the auxiliary frame are set respectively There is the first through hole.

Alternatively, the first through hole is rectangular through-hole, and the first through hole is equal along the frame interval of the auxiliary frame Even arrangement.

Alternatively, the distance between upper and lower surface of frame of the upper and lower edge of the first through hole and the auxiliary frame For 1mm-4mm.

Alternatively, connected with the hollow structure is respectively equipped with the upper and lower surface of the frame of the auxiliary frame Two through holes.

Compared with prior art, the beneficial effects of the utility model are：

1st, the upper surface of auxiliary frame, can be effective higher than the upper surface of the solar cell module in the utility model Prevent module edge silica gel plate during lamination from deforming, prevent glass displacement, avoid being laminated undesirable generation, improve yields, Improve its laminating technology.

2nd, the first passage in the utility model, solves exhausting problem of the solar cell module in lamination process, Avoid being laminated undesirable generation, improve yields.

3rd, the first passage connection in the utility model connects cooperation with second channel, improves solar cell module and exists Exhaust effect in lamination process, greatly reduces the probability of solar cell module bubble appearance.

4th, the hollow structure in the utility model, lifts four side gas fluidity of solar cell module to greatest extent, Make gas discharge more smooth, coordinate the first through hole of frame surrounding, make the non crystal heterogeneous agglomeration solar cell for adding butyl rubber Component reaches more preferably exhaust effect, further prevents the generation of component internal bubble.

5th, the hollow structure in the utility model, first through hole and the second through hole, had been laminated solar cell module Capacity in journey maximizes, while saves material, reduces the cost of manufacture of the utility model.

6th, different from the edge of traditional solar double-glass assemblies, non crystal heterogeneous agglomeration solar module edge is due to the edge of butyl rubber Therefore under the action of the utility model auxiliary frame is higher than solar cell module, it can prevent butyl rubber from being caused by excessive compression Excessive glue；Auxiliary frame is higher than solar cell module and the width in the gap of auxiliary frame inner surface and solar cell module at the same time Spend for 2mm-3mm, it is ensured that four sides of solar cell module do not deform during component lamination, also just do not have horizontal direction To the power of upper glass, solar cell module is only middle to lower stress, gas can be made effectively to be discharged to four sides, and can rise To the effect for fixing upper glass, glass/glass makes upper glass movement trigger displacement not in guarantee after not melting because of EVA and butyl rubber Good generation, moreover it is possible to avoid also producing upper glass movement when the unbalance stress of horizontal direction and triggering displacement bad.

Other features and advantages of the utility model will illustrate in the following description, also, partly from specification In become apparent, or understood by implementing the utility model.The purpose of this utility model and other advantages can pass through Specifically noted structure is realized and obtained in specification, claims and attached drawing.

Brief description of the drawings

Attached drawing is used for providing further understanding technical solutions of the utility model, and a part for constitution instruction, With being used to explain the technical solution of the utility model together with embodiments herein, do not form to technical solutions of the utility model Limitation.

Fig. 1 is the top view of the auxiliary mould of the utility model solar cell module Anti-dislocation；

Fig. 2 is the side view of the auxiliary mould of the utility model solar cell module Anti-dislocation；

Fig. 3 is the structure diagram of the auxiliary mould of the utility model solar cell module Anti-dislocation.

Embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, below in conjunction with attached drawing to this The embodiment of utility model is described in detail.It should be noted that in the case where there is no conflict, embodiment in the application and Feature in embodiment can be mutually combined.

Embodiment 1

As shown in Figure 1, Figure 2 and Figure 3, a kind of auxiliary mould of solar cell module Anti-dislocation, including auxiliary frame 1, Auxiliary frame 1 includes the rectangular frame surrounded by four edges frame 101, and the material of auxiliary frame 1 is made of 6061 aluminums, The inner and outer surfaces of auxiliary frame 1 all carry out polytetrafluoroethylene spray, auxiliary frame 1 is had anti-sticking stickiness and corrosion resistance； The middle part of auxiliary frame 1 is equipped with the receiving cavity 3 for being used for accommodating solar cell module 2, and wherein solar cell module 2 is height The double glass photovoltaic modulies of effect, its encapsulating material is EVA, PVB or POE；The width of auxiliary frame 1 is 15-18mm, auxiliary frame 1 Thickness is more than the thickness of solar cell module 2, and the thickness of auxiliary frame 1 is 0.3mm-0.5mm；Auxiliary frame 1 have it is upper, Lower surface, when solar cell module 2 is lain in a horizontal plane in receiving cavity 3, and the lower surface of solar cell module 2 with it is auxiliary Help the lower surface of frame 1 concordant, the upper surface of auxiliary frame 1 is higher than the upper surface of solar cell module 2, and auxiliary frame 1 Upper surface and solar cell module 2 upper surface between spacing be 0.3mm-0.5mm；And solar cell module 2 Gap is equipped between auxiliary frame 1, the width in gap is 2mm-3mm；Auxiliary mould in the present embodiment, can effectively prevent Module edge silica gel plate deforms during lamination, prevents glass displacement, avoids being laminated undesirable generation, improves yields, improves Its laminating technology.

As shown in Figure 1, Figure 2 and Figure 3, the frame 101 of auxiliary frame 1 is hollow structure, the upper and lower edge of hollow structure away from It is 2mm with a distance from 101 upper and lower surface of frame, the left and right edge of hollow structure is respectively apart from 101 medial and lateral surface of frame Distance is 3mm；It is logical that first connected with hollow structure is respectively equipped with the inner and outer surfaces of the frame 101 of auxiliary frame 1 Hole 4, first through hole 4 are rectangular through-hole, length direction evenly spaced arrangement of the first through hole 4 along frame 101, and first through hole 4 are covered with the inner and outer surfaces of whole frame 101, and without any dead band, the length of the first through hole 4 of 101 outer surface of frame is more than side The length of the first through hole 4 of 101 inner surface of frame, therefore make the pitch of holes between the first through hole 4 of 101 outer surface of frame be 5mm, side Pitch of holes between the first through hole 4 of 101 inner surface of frame is 3mm；The upper and lower edge of first through hole 4 and the frame of auxiliary frame 1 The distance between 101 upper and lower surfaces are 1mm-4mm；Four corners of auxiliary frame 1 are chamfering, the edge of auxiliary frame 1 Inner and outer surfaces are respectively equipped with first through hole 4, and the pitch of holes of the first through hole 4 of edge first through hole 4 adjacent thereto is 5mm。

It is shown as shown in Figure 1, Figure 2 and Figure 3, in the present embodiment, on the upper and lower surface of the frame 101 of auxiliary frame 1 The second through hole 5 connected with hollow structure is respectively equipped with, the second through hole 5 is circular through hole, or other shapes, such as square Shape, 5 diameter of the second through hole and hollow structure are of same size, and make the second through hole 5 completely heavy in vertical direction and hollow structure Close, the evenly spaced arrangement of length direction of the second through hole 5 along frame 101, and the second through hole 5 be covered with whole frame 101 it is upper, Lower surface, without any dead band, the bore edges spacing between the second through hole 5 is 10-15mm, the second through hole 5 frame 101 it is upper, Lower surface makes gas discharge direction be not limited to single horizontal direction, ensures the increase of 1 exhaust velocity of auxiliary frame, prevents the sun Can the generation of 2 air entrapment of battery component.

Embodiment 2

Embodiment 2 and embodiment 1 difference lies in, the frame of auxiliary frame 1 is not hollow structure, but entity structure, The frame 101 of auxiliary frame 1 is equipped with the first passage for connecting 101 inner and outer surfaces of frame, and the frame of auxiliary frame 1 101 are equipped with second channel that is connecting the 101 upper and lower surface of frame and being connected with first passage, and first passage and second are led to Road is vertical, and first passage is connected with second channel at the place of intersecting vertically, make frame 101 gas discharge direction be not limited to it is single Horizontal direction, ensures the increase of 1 exhaust velocity of auxiliary frame, prevents 2 air entrapment of solar cell module from producing.

Although the embodiment disclosed by the utility model is as above, the content is only to readily appreciate the utility model And the embodiment used, it is not limited to the utility model.Technical staff in any the utility model fields, On the premise of not departing from the spirit and scope disclosed by the utility model, it can be carried out in the form and details of implementation any Modification and change, but the scope of patent protection of the utility model, still should be subject to the scope of the claims as defined in the appended claims.

Claims (10)

1. a kind of auxiliary mould of solar cell module Anti-dislocation, including auxiliary frame, the auxiliary frame, which is equipped with, to be used for Accommodate the receiving cavity of solar cell module, it is characterised in that the thickness of the auxiliary frame is more than the solar cell The thickness of component, when the solar cell module is lain in a horizontal plane in the receiving cavity, the upper table of the auxiliary frame Face is higher than the upper surface of the solar cell module.

2. the auxiliary mould of solar cell module Anti-dislocation according to claim 1, it is characterised in that when the sun When energy battery component is lain in a horizontal plane in the receiving cavity, the upper surface of the auxiliary frame and the solar cell module Upper surface between spacing be 0.3mm-0.5mm.

3. the auxiliary mould of solar cell module Anti-dislocation according to claim 2, it is characterised in that the auxiliary frame Frame is the rectangular frame surrounded by four edges frame.

4. the auxiliary mould of solar cell module Anti-dislocation according to claim 2, it is characterised in that the auxiliary frame The frame of frame is equipped with the first passage for connecting the frame inner and outer surfaces.

5. the auxiliary mould of solar cell module Anti-dislocation according to claim 4, it is characterised in that the auxiliary frame The frame of frame is equipped with the second channel for connecting the upper and lower surface of the frame and being connected with the first passage.

6. the auxiliary mould of solar cell module Anti-dislocation according to claim 2, it is characterised in that the auxiliary frame The frame of frame is hollow structure, is respectively equipped with the inner and outer surfaces of the frame of the auxiliary frame and is connected with the hollow structure First through hole.

7. the auxiliary mould of solar cell module Anti-dislocation according to claim 6, it is characterised in that the auxiliary frame The corner of frame is chamfering, and the inner and outer surfaces of the edge of the auxiliary frame are respectively equipped with the first through hole.

8. the auxiliary mould of solar cell module Anti-dislocation according to claim 6, it is characterised in that described first is logical Hole is rectangular through-hole, frame evenly spaced arrangement of the first through hole along the auxiliary frame.

9. the auxiliary mould of solar cell module Anti-dislocation according to claim 8, it is characterised in that described first is logical The distance between the upper and lower edge in hole and the upper and lower surface of frame of the auxiliary frame are 1mm-4mm.

10. the auxiliary mould of solar cell module Anti-dislocation according to claim 6, it is characterised in that the auxiliary The second through hole connected with the hollow structure is respectively equipped with the upper and lower surface of the frame of frame.