CN205344039U - Photovoltaic module lamination frock - Google Patents

Abstract

The utility model provides a photovoltaic module lamination frock for the cover is established around photovoltaic module lamination piece. The lamination frock is an elastic sleeve to be equipped with and be used for the cover and establish to the lateral part at photovoltaic module lamination piece edge and the extension on about photovoltaic module lamination piece surface of being used for laminating. The lamination frock is owing to have elasticity, can be a regular shape after can making photovoltaic module's lamination piece the unnecessary glued membrane in edge overflowing when the lamination and tightly attach at the glass panels edge to reducible edging is repaiied and is subtracted the operation, and solves the shortcoming that the aluminium frame exists, improves work efficiency and yields, more does benefit to automated production.

Description

Photovoltaic module lamination frock

Technical field

This utility model relates to technical field of photovoltaic power generation, particularly relates to a kind of photovoltaic module lamination frock reducing chamfered edge operation.

Background technology

Double; two glass photovoltaic modulies, with its superior weathering characteristics, greatly reduce environment aqueous vapor, ultraviolet lighting, sand dust friction, assembly burning, voltage induction equivalent risk.Double; two glass photovoltaic modulies typically via vacuum high-temperature by glued together to cover-plate glass, front adhesive film, crystal-silicon battery slice, bottom glued membrane and back-panel glass.But, glued membrane easily forms irregular overflow in gluing procedures, and due to the material behavior of double; two glass photovoltaic modulies, causes the overflow problem being relatively difficult to solve glued membrane in manufacture process.Prior art has and is pruned by increase employee, but, not only reduce working (machining) efficiency and yields thus, and affect the application of automated process.It addition, also there is employing aluminum frame protective pad protection, but adopts and still have following problem during aluminum frame: 1, the overheated easy scald employee of frame；2, after lamination, aluminum frame and glued membrane adhesion are difficult to take, and easily taken out of by glued membrane, cause large area starved or delamination when taking；3, inapplicable streamline, it is necessary to add employee at lamination place and put aluminum frame；4, in order to prevent glass dislocation from also need to tape fixing in corner；Easily encounter assembly when 5, taking away aluminum frame, make assembly burst.

Therefore, it is necessary to provide a kind of photovoltaic module lamination frock to solve the problems referred to above.

Utility model content

The purpose of this utility model is in that to provide a kind of photovoltaic module lamination frock reducing the operation of photovoltaic module chamfered edge and improving working (machining) efficiency.

For realizing above-mentioned utility model purpose, this utility model provides a kind of photovoltaic module lamination frock, in order to be set in the surrounding of photovoltaic module laminate, described lamination frock is a resilient sleeve, and is provided with to be sheathed with the sidepiece at photovoltaic module laminate edge and in order to fit in the extension of photovoltaic module laminate upper and lower surface.

As further improvement of the utility model, described lamination frock is rectangular-shaped frame body shape, and there are interconnective four sides, each side is respectively provided with described sidepiece, the described extension extended in the same direction respectively from the upper and lower two ends of sidepiece, is formed between described extension for the host cavity housing photovoltaic module laminate edge.

As further improvement of the utility model, described sidepiece is connected between extension.

As further improvement of the utility model, described sidepiece is curved setting between extension, and forms to house the cavity of the packaging adhesive film of photovoltaic module inside sidepiece, and described cavity is connected with host cavity.

As further improvement of the utility model, the thickness of described side is 1mm.

As further improvement of the utility model, on the bearing of trend of described extension, the development length of described extension is not less than 20mm.

As further improvement of the utility model, the distance between two extensions of each side is 40mm.

As further improvement of the utility model, described lamination frock also has and projects outwardly of protuberance from the junction of adjacent two sides.

As further improvement of the utility model, described protuberance is solid construction.

As further improvement of the utility model, described lamination frock is of a size of 990*1656mm.

The beneficial effects of the utility model are: lamination frock of the present utility model is owing to having elasticity, the laminate glued membrane that edge is unnecessary when lamination that can make photovoltaic module can be that a regular shape is tightly attached to face glass edge after overflowing, thus chamfered edge can be reduced repair reducing, and solve the shortcoming that aluminum frame exists, improve work efficiency and yields, be more conducive to automated production.

Accompanying drawing explanation

Fig. 1 is this utility model photovoltaic module lamination frock structural representation when being arranged on around a photovoltaic module laminate.

Fig. 2 be the frock of photovoltaic module lamination shown in Fig. 1 with the photovoltaic module laminate after lamination coordinate sectional view.

Specific embodiment

Below with reference to embodiment shown in the drawings, this utility model is described in detail.But these embodiments are not limiting as this utility model, those of ordinary skill in the art is all contained in protection domain of the present utility model according to the made structure of these embodiments or conversion functionally.

Refer to Fig. 1 and Fig. 2 and show preferred embodiment when this utility model photovoltaic module lamination frock 100 is arranged on laminate 500 surrounding of a photovoltaic module.Described photovoltaic module is double; two glass photovoltaic modulies, and its laminate 500 has the face glass 51 in upper and lower both sides and adopts packaging adhesive film 52 to encapsulate the cell piece (not shown) being fixed between face glass 51.Described lamination frock 100 is in order to enclose laminate 500 surrounding being located at photovoltaic module, so that the photovoltaic module laminate 500 before lamination to be positioned, and laminate 500 packaging adhesive film that edge is unnecessary when lamination 52 of photovoltaic module is made can be tightly attached to face glass 51 edge in a regular shape after overflowing.

In this utility model, described lamination frock 100 adopts the macromolecular material of the packaging adhesive film 52 of elasticity and adhesion photovoltaic module laminate 500 to make flexible frame shaped, and has the characteristics such as high temperature resistant, corrosion-resistant, it is possible to be referred to as high resiliency apron or resilient sleeve.Described lamination frock 100 is fitted with laminate 500 edges close of photovoltaic module after being assembled to around the laminate 500 of photovoltaic module, and force upper and lower sides face glass 51 justified margin of photovoltaic module laminate 500 not misplace, assemble the photovoltaic module laminate 500 after lamination frock 100 to automatically flow into laminating machine (not shown) and carry out lamination, without padding varnished cloth cellophane, and packaging adhesive film 52 regular shape under the effect of lamination frock 100 overflowed after lamination, it is not necessary to carry out chamfered edge.

Specifically, described lamination frock 100 is in rectangular-shaped frame body shape, and has interconnective four sides 1.Each side 1 has one and is blocked in the sidepiece 11 outside photovoltaic module laminate 500 edge, the extension 12 extended in the same direction respectively from sidepiece about 11 two ends, formation between extension 11 for the host cavity 121 housing photovoltaic module laminate 500 edge.

For ensureing fitting tightly of the described lamination frock 100 laminate 500 with photovoltaic module, lamination frock 100 is sized to 990*1656mm by this utility model, is slightly less than the laminate 500 of photovoltaic module.The thickness of described side 1 is set to 1mm, to ensure that lamination frock 100 has high resiliency.Distance between two extensions 12 of each side 1 is 40mm.On the bearing of trend of described extension 12, the development length of described extension 12 is not less than 20mm.

Laminate 500 4 jiaos for preventing double; two glass photovoltaic module is partially thin, and corner is supported protection, and this utility model lamination frock 100 also has and projects outwardly of protuberance 2 from the junction of adjacent two sides 1, and described protuberance 2 is solid construction.

In addition, for the packaging adhesive film 52 of spilling aesthetics around the laminate 500 of photovoltaic module after guarantee molding, make sidepiece 11 curved setting between extension 12 of described lamination frock 100, and inside sidepiece 11, forming to house the cavity 111 of the packaging adhesive film 52 of photovoltaic module laminate 500, described cavity 111 is connected with host cavity 121；Thus the packaging adhesive film 52 overflowed during lamination can flow in cavity 111, and spacing and formed and be close to the semicircle shape at photovoltaic module laminate 500 edge by sidepiece 11.

Certainly, as another preferred embodiment of the present utility model, because described lamination frock 100 entirety is respectively provided with elasticity, thus also described sidepiece 11 can be set to arc so that it is be directly vertically connected between extension 12 and also can realize the purpose of this utility model；In this kind of situation, during non-lamination, sidepiece 11 is resisted against laminate 500 edge, during lamination, the packaging adhesive film 52 of spilling can by sidepiece 11 outwardly against, and under the elastic reaction of sidepiece 11, be close to laminate 500 edge.

As known from the above, lamination frock 100 of the present utility model is owing to having elasticity, can be that a regular shape is tightly attached to face glass 51 edge after photovoltaic module laminate 500 packaging adhesive film that edge is unnecessary when lamination 52 can be made to overflow, thus chamfered edge can be reduced repair reducing, and solve the shortcoming that aluminum frame exists, improve work efficiency and yields, be more conducive to automated production.

The a series of detailed description of those listed above is only for illustrating of possible embodiments of the present utility model; they are also not used to limit protection domain of the present utility model, all should be included within protection domain of the present utility model without departing from this utility model skill Equivalent embodiments of making of spirit or change.

Claims (10)

1. a photovoltaic module lamination frock, in order to be set in the surrounding of photovoltaic module laminate, it is characterized in that: described lamination frock is a resilient sleeve, and be provided with to be sheathed with the sidepiece at photovoltaic module laminate edge and in order to fit in the extension of photovoltaic module laminate upper and lower surface.

2. photovoltaic module lamination frock according to claim 1, it is characterized in that: described lamination frock is rectangular-shaped frame body shape, and there are interconnective four sides, each side is respectively provided with described sidepiece, the described extension extended to form in the same direction respectively from the upper and lower two ends of sidepiece, is formed between described extension for the host cavity housing photovoltaic module laminate edge.

3. photovoltaic module lamination frock according to claim 2, it is characterised in that: described sidepiece is connected between extension.

4. photovoltaic module lamination frock according to claim 2, it is characterised in that: described sidepiece is curved setting between extension, and forms to house the cavity of the packaging adhesive film of photovoltaic module inside sidepiece, and described cavity is connected with host cavity.

5. photovoltaic module lamination frock according to claim 2, it is characterised in that: the thickness of described side is 1mm.

6. photovoltaic module lamination frock according to claim 2, it is characterised in that: on the bearing of trend of described extension, the development length of described extension is not less than 20mm.

7. photovoltaic module lamination frock according to claim 2, it is characterised in that: the distance between two extensions of each side is 40mm.

8. photovoltaic module lamination frock according to claim 2, it is characterised in that: described lamination frock also has and projects outwardly of protuberance from the junction of adjacent two sides.

9. photovoltaic module lamination frock according to claim 8, it is characterised in that: described protuberance is solid construction.

10. photovoltaic module lamination frock according to claim 2, it is characterised in that: described lamination frock is of a size of 990*1656mm.