CN209684364U - A kind of stacked laminator applied to photovoltaic module - Google Patents

Abstract

The utility model relates to a kind of stacked laminators applied to photovoltaic module, the stacked laminator is connect with the photovoltaic module that several are laminated, the stacked laminator specifically includes four corner protector components and at least four pad components, and there is the corner protector component the same side right angle of several the right angle inserting grooves and the frame of each photovoltaic module that are equally spaced to be plugged in each right angle inserting groove of a corner protector component；The straight trough that there are the pad component several to be equally spaced, the distance between two neighboring straight trough is equal with the distance between two neighboring right angle inserting groove, is placed in each straight trough of at least one pad component in the middle part of the frame of each photovoltaic module.The utility model avoids under photovoltaic module laminated arrangement that photovoltaic component back plate glass can be influenced by external force in transportational process, has taken precautions against cell piece crack risk；Being avoided using the utility model has loose shift phenomenon between each photovoltaic module, so that whole each photovoltaic component back plate glass uniform force；Reduce stacking cost.

Description

A kind of stacked laminator applied to photovoltaic module

Technical field

The utility model is directed to current photovoltaic module stacking using the stupefied plate of paper or plastic foam, carrys out support limit photovoltaic group The distance between part, and a kind of novel stacked laminator and laminating method designed.

Background technique

At present when the photovoltaic module stacking of mainstream, propped up by the way of the stupefied plate of paper or plastic foam between photovoltaic module Support, there are following five drawbacks for this mode:

1, when photovoltaic module is laminated, the stupefied plate of paper or plastic foam are directly contacted with photovoltaic component back plate glass, are being transported Photovoltaic component back plate glass can be influenced by external force during defeated, had and caused cell piece crack risk.

2, the stupefied plate of paper or plastic foam are supported between photovoltaic module, do not position fixation, there is loose shift phenomenon, so that Whole each photovoltaic component back plate glass unbalance stress, has and causes cell piece crack risk.

3, the stupefied plate of paper or plastic foam are supported between photovoltaic module, there is loose shift phenomenon, employee's packaging operation efficiency It is low.

4, it not being positioned when photovoltaic module is laminated, between each photovoltaic component frame, entire package is neat, unsightly, Consistency is poor.

5, the stupefied plate of paper or plastic foam cost are higher.

Summary of the invention

The utility model provides a kind of stacked laminator applied to photovoltaic module, effective solution photovoltaic module stacking When, interference of the module frame without positioning, back-panel glass unbalance stress and photovoltaic component terminal box, connector and back-panel glass Problem greatly reduces photovoltaic module cell piece crack risk, and reduces the packing cost of photovoltaic module, this is practical new Type is specifically realized by the following technical scheme:

A kind of stacked laminator applied to photovoltaic module, the stacked laminator are connect with the photovoltaic module that several are laminated, institute It states stacked laminator and specifically includes four corner protector components and at least four pad components, the corner protector component has several equidistant The right angle inserting groove of distribution and the same side right angle of the frame of each photovoltaic module are plugged in each right angle of a corner protector component In inserting groove；The straight trough that there are the pad component several to be equally spaced, the distance between two neighboring straight trough and adjacent two The distance between a right angle inserting groove is equal, and each straight trough of at least one pad component is placed in the middle part of the frame of each photovoltaic module In.

The stacked laminator applied to photovoltaic module, further design is that the corner protector component is by several Corner protector module is connected in sequence, and longitudinal side of each corner protector module offers the right angle inserting groove.

The stacked laminator applied to photovoltaic module, further design is, the right angle inserting groove has two A mutually perpendicular inner wall, two inner walls are corresponding with the side at right angle position of photovoltaic component frame.

The stacked laminator applied to photovoltaic module, further design is, the slot bottom of the right angle inserting groove Hole is arranged in portion, so that the right angle point of the photovoltaic module is placed in described hole；The groove width of the right angle inserting groove and institute The thickness for stating photovoltaic module is equal.

The stacked laminator applied to photovoltaic module, further design is that the pad component is by several pads Block module is formed by connecting, and the side of the cushion block module offers the straight trough.

The stacked laminator applied to photovoltaic module, further design is, the corner protector module, cushion block module Longitudinal one end be respectively provided with there are two jack, there are two inserting column, the inserting column grafting of a corner protector module for the setting of the two other end So that each corner protector module is in turn connected to form the corner protector component in the jack of adjacent corner protector module；One cushion block module Inserting column is plugged in the jack of adjacent pod module so that each cushion block module is in turn connected to form the pad component.

The stacked laminator applied to photovoltaic module, further design is, the longitudinal direction of the cushion block module is long It spends equal with the longitudinal length of the corner protector module.

The utility model beneficial effect is: the utility model avoids under photovoltaic module laminated arrangement light in transportational process Volt component back-panel glass can be influenced by external force, take precautions against cell piece crack risk；Each photovoltaic group is avoided using the utility model There is loose shift phenomenon between part, so that whole each photovoltaic component back plate glass uniform force；Reduce stacking cost.

Detailed description of the invention

Fig. 1 is the single photovoltaic module structure schematic diagram of the utility model.

Fig. 2 is the schematic perspective view of corner protector module.

Fig. 3 is corner protector module and right angle inserting groove opposite side side structure schematic diagram.

Fig. 4 is the underside structures schematic diagram of corner protector module.

Fig. 5 is the structural schematic diagram of cushion block module.

Status diagram when Fig. 6 is the stacking of several photovoltaic modulies.

Specific embodiment

The utility model is further described below in conjunction with Figure of description and embodiment:

In conjunction with shown in Fig. 1-Fig. 6, a kind of stacked laminator applied to photovoltaic module, the stacked laminator is laminated with several Photovoltaic module connection, photovoltaic module 5 have frame 51, back-panel glass 52, terminal box 53, connector 54；Stacked laminator specifically wraps Four corner protector components 1 and at least four pad components 2 are included, the right angle inserting groove that there are corner protector component several to be equally spaced is simultaneously And the same side right angle of the frame of each photovoltaic module is plugged in each right angle inserting groove of a corner protector component；Pad component tool There are the straight trough that several are equally spaced, the distance between the distance between two neighboring straight trough and two neighboring right angle inserting groove phase It is placed in each straight trough of at least one pad component in the middle part of frame Deng, each photovoltaic module.

Corner protector component 1 is connected in sequence by several corner protector modules 11, and longitudinal side of each corner protector module offers Right angle inserting groove 12.

The tool of right angle inserting groove 12 there are two mutually perpendicular inner wall, the right angle position of two inner walls and photovoltaic component frame Side is corresponding.

Hole 13 is arranged in the trench bottom of right angle inserting groove, so that the right angle point of photovoltaic module is placed in hole；It inserts at right angle The groove width of access slot and the thickness of photovoltaic module are equal.

Pad component 2 is formed by connecting by several cushion block modules 21, and the side of cushion block module offers straight trough 22.

Corner protector module, cushion block module longitudinal one end be respectively provided with there are two jack 4, there are two grafting for the setting of the two other end Column 3, the inserting column of a corner protector module is plugged in the jack of adjacent corner protector module so that each corner protector module is sequentially connected shape At corner protector component；The inserting column of one cushion block module be plugged in the jack of adjacent pod module so that each cushion block module successively Connection forms pad component.Inserting column is cylindrical, and jack assumes diamond in shape.

The longitudinal length of cushion block module is equal with the longitudinal length of corner protector module.So that being protected between each photovoltaic module Maintain an equal level row.

The laminating method of photovoltaic module, the process employs a kind of stacked laminator, stacked laminator specifically includes four corner protectors Component and at least four pad components, the right angle inserting groove and each photovoltaic module that there are corner protector component several to be equally spaced The same side right angle of frame be plugged in each right angle inserting groove of a corner protector component；Pad component has several equidistant The straight trough of distribution, the distance between two neighboring straight trough are equal with the distance between two neighboring right angle inserting groove；Specific method As follows: the quadrangle of each photovoltaic module is plugged in respectively in each right angle inserting groove of a corner protector component, each frame of each photovoltaic module Middle part is fastened in respectively in the straight trough of pad component, to form fixed layer between each photovoltaic module away from finally in Fig. 6 institute Show state.

Corner protector component is connected in sequence by several corner protector modules, and longitudinal side of each corner protector module offers right angle Inserting groove；Pad component is formed by connecting by several cushion block modules, and the side of cushion block module offers straight trough；This method is specifically wrapped Include following steps:

(1), one corner protector module of clamping is distinguished in the quadrangle of each photovoltaic module, in the middle part of each frame of each photovoltaic module At least one cushion block module of clamping respectively；

(2), the photovoltaic module of corner protector module and cushion block module is successively horizontally arranged clamping, it then will be two neighboring The corner protector module of photovoltaic module is in turn connected to form corner protector component；The cushion block module of two neighboring photovoltaic module is in turn connected to form Pad component.

Corner protector module, cushion block module longitudinal one end be respectively provided with there are two jack, there are two grafting for the setting of the two other end Column, the inserting column of a corner protector module is plugged in the jack of adjacent corner protector module so that each corner protector module is in turn connected to form Corner protector component；The inserting column of one cushion block module is plugged in the jack of adjacent pod module so that each cushion block module successively connects It connects to form pad component.

The utility model avoids under photovoltaic module laminated arrangement that photovoltaic component back plate glass can be by external force in transportational process It influences, has taken precautions against cell piece crack risk；Being avoided using the utility model has loose shift phenomenon between each photovoltaic module, make Obtain whole each photovoltaic component back plate glass uniform force；Reduce stacking cost.

Claims (7)

1. a kind of stacked laminator applied to photovoltaic module, which is characterized in that the photovoltaic group of the stacked laminator and several stackings Part connection, the stacked laminator specifically include four corner protector components and at least four pad components, and the corner protector component has The same side right angle of several right angle inserting grooves being equally spaced and the frame of each photovoltaic module is plugged in a corner protector component Each right angle inserting groove in；The pad component has several straight troughs for being equally spaced, between two neighboring straight trough away from It is equal from the distance between two neighboring right angle inserting groove, at least one pad component is placed in the middle part of the frame of each photovoltaic module Each straight trough in.

2. the stacked laminator according to claim 1 applied to photovoltaic module, which is characterized in that if the corner protector component by A dry corner protector module is connected in sequence, and longitudinal side of each corner protector module offers the right angle inserting groove.

3. the stacked laminator according to claim 2 applied to photovoltaic module, which is characterized in that the right angle inserting groove tool There are two mutually perpendicular inner wall, two inner walls are corresponding with the side at right angle position of photovoltaic component frame.

4. the stacked laminator according to claim 3 applied to photovoltaic module, which is characterized in that the right angle inserting groove Hole is arranged in trench bottom, so that the right angle point of the photovoltaic module is placed in described hole；The groove width of the right angle inserting groove It is equal with the thickness of the photovoltaic module.

5. the stacked laminator according to claim 2 applied to photovoltaic module, which is characterized in that if the pad component by Dry cushion block module is formed by connecting, and the side of the cushion block module offers the straight trough.

6. the stacked laminator according to claim 5 applied to photovoltaic module, which is characterized in that the corner protector module, pad Longitudinal one end of block module is respectively provided with there are two jack, there are two the settings of the two other end inserting column, the grafting of a corner protector module Column is plugged in the jack of adjacent corner protector module so that each corner protector module is in turn connected to form the corner protector component；One cushion block The inserting column of module is plugged in the jack of adjacent pod module so that each cushion block module is in turn connected to form the cushion block Component.

7. the stacked laminator according to claim 5 applied to photovoltaic module, which is characterized in that the cushion block module is indulged It is equal with the longitudinal length of the corner protector module to length.