CN105730824A - Method and device for packaging photovoltaic assemblies - Google Patents

Abstract

The invention provides a method and a device for packaging photovoltaic assemblies. The method for packaging the photovoltaic assemblies sequentially includes steps of S1, stacking and arranging the multiple photovoltaic assemblies on a bearing pallet along an x-axis and forming a cuboid-shaped photovoltaic assembly packaging unit on the bearing pallet; S2, respectively arranging cross-shaped locking components at eight vertexes of a cuboid formed by the photovoltaic assembly packaging unit or at positions adjacent to the eight vertexes; S3, connecting the cross-shaped locking components with one another by lead screws so as to tightly lock the multiple photovoltaic assemblies with one another. The device and the method have the advantages that the device can be recycled, and the photovoltaic assemblies can be firmly packaged by the aid of the method and the device.

Description

The packing method of photovoltaic module and packing device

Technical field

The present invention relates to area of solar cell, particularly to packing method and the packing device of a kind of photovoltaic module.

Background technology

Single solar cell can not directly do power supply and use, and making power supply must connect some cell series and parallels and tightly be packaged into assembly, i.e. photovoltaic module.At present, solar module manufacturing enterprise (as sky close, Aunar this, brilliant section, brilliant Australia etc.) all adopt corrugated cases or carry out pack to photovoltaic module with glued wooden case and protect and transport.The packaging material of conventional photovoltaic assemblies packaging is all rule body, is suitable for photovoltaic module folded holder packed and transported.

Corrugated case manner of packing is adopted mainly to have two kinds of paper box, flat cover case, up-to-date employing corrugated case manner of packing to be that three side sealing one side is not sealed or assists use VELCRO.Concha Arcae material generally selects single watt, double; two watts, three watts, and U.S. card series generally selected by facial tissue, sandwich paper, inner paper.Unlike material combination meets the packaging intensity requirement that photovoltaic module is different, ties up in packing crates periphery secondly by PET plastic-steel belt, thus improving photovoltaic module whole Transporting safety.For preventing seasonal plum rains weather, then twine 2～3 layers of PET transparent plastic film after tying up PET plastic-steel belt in packing crates periphery.

Adopting laminated wood case packing, be spliced to form a wooden package container mainly by certain thickness glued wood (rigid components), case lid is connected with casing by tongue shape galvanized steel buckle.

But, above two packing method has the drawback that corrugated case is packed photovoltaic module in conjunction with PET plastic-steel belt and had certain security risk for the long-distance transportation of complex road condition, and content (photovoltaic module) is easily generated slack and undisciplined disrepair phenomenon；Corrugated case and glued wood packaging photovoltaic module are all once recycle at present, it is impossible to meet packaging material reciprocation cycle instructions for use；Corrugated case and glued wood material are all Compound Machining product, do not meet environmental protection Packaging Development theory, and the course of processing needs substantial amounts of log slurry and timber, and Natural Circulation development is had a certain impact；Corrugated case and glued wood material are all once recycle, for needing the photovoltaic module enterprise packaging material purchase cost using packaging material in a large number huge；Adopting the photovoltaic module packing container that corrugated case or glued wood are made, owing to photovoltaic module face width is bigger, it is necessary to manually elevate vanning, relative position adds the gravitional force of photovoltaic module, consumes vanning personnel more physical；Adopting the photovoltaic module packing container that corrugated case or glued wood are made, packaging material volume is excessive, and the environment areas such as reality storage, Work places all be there are certain requirements.

Summary of the invention

For the problems referred to above, it is an object of the invention to provide the packing method of a kind of photovoltaic module and packing device, its packing device can be recycled, and packaging is firmly.

For solving above-mentioned technical problem, a kind of technical scheme that the present invention adopts is:

The packing method of a kind of photovoltaic module, in turn includes the following steps:

S1, multiple photovoltaic modulies are placed on bearing tray along x-axis stacking, formed be positioned on bearing tray in rectangular-shaped photovoltaic module packaging unit；

S2, eight apex of the cuboid constituted at described photovoltaic module packaging unit or this eight summit adjacents are respectively provided with cross latch fitting；

Connected by screw mandrel between S3, described cross latch fitting and multiple described photovoltaic modulies are locked mutually.

Preferably, also include being positioned at the following steps after step S3:

S4, outside photovoltaic module packaging unit and bearing tray, it is wound around protecting film.

Preferably, in step S1, after the corner of each photovoltaic module arranges corner protector, stacking is placed on bearing tray again.

Preferably, in step S1, after bearing tray places cardboard, photovoltaic module stacking is placed on bearing tray.

Preferably, in step S3, the cross latch fitting at each first seamed edge two ends being positioned at described cuboid connects respectively through the first screw mandrel extended along y-axis, first seamed edge coincides with y-axis or parallel, the cross latch fitting at each second seamed edge two ends being positioned at described cuboid connects respectively through the second screw mandrel extended along x-axis, second seamed edge coincides with x-axis or parallel, the cross latch fitting at each diagonal two ends in the face that described cuboid is a group relative connects respectively through the 3rd screw mandrel, described relative face and x-axis, the plane that z-axis is constituted coincides or parallel, described x-axis is horizontally extending.

The another technical scheme that the present invention adopts is:

The packing device of a kind of photovoltaic module, including for carrying the cross latch fitting in the rectangular-shaped bearing tray of photovoltaic module packaging unit, eight apex being respectively arranged at the cuboid that described photovoltaic module packaging unit is constituted or these eight summit adjacents that multiple photovoltaic module arranged along x-axis stacking is constituted, the screw mandrel being connected between described cross latch fitting.

Preferably, this packing device also includes the corner protector of avoiding adjacent photovoltaic assembly part to rub for being arranged on the corner of each photovoltaic module.

Preferably, this packing device also includes the cardboard for preventing photovoltaic module carried pallet from fraying that is arranged on described bearing tray.

Preferably, described screw mandrel includes the first screw mandrel, second screw mandrel and the 3rd screw mandrel, described first screw mandrel extends along y-axis and is connected between the cross latch fitting at each first seamed edge two ends of described cuboid respectively, first seamed edge coincides with y-axis or parallel, described second screw mandrel extends along x-axis and is connected between the cross latch fitting at each second seamed edge two ends of described cuboid, second seamed edge coincides with x-axis or parallel, described 3rd screw mandrel is connected between the cross latch fitting at each diagonal two ends in the face one group relative of described cuboid, described relative face and x-axis, the plane that z-axis is constituted coincides or parallel, described x-axis is horizontally extending.

More preferably, described cross latch fitting includes outward extending first connecting portion for the Access Division being fastened on described cuboid, from described Access Division that matches with the drift angle of described cuboid or its adjacent and the second connecting portion and the 3rd connecting portion, described first connecting portion stretches out along y-axis, and described second connecting portion stretches out along x-axis.Described 3rd connecting portion x-axis or y-axis stretch out, and described first screw mandrel is connected on described first connecting portion, and described second screw mandrel is connected on described second connecting portion, and described 3rd screw mandrel is connected on described 3rd connecting portion.

The present invention adopts technique scheme, have the advantage that adopting Q235 screw mandrel and metal cross latch fitting to coordinate firmly connects the photovoltaic module of phase stacking compared to existing technology, with rigidity screw mandrel as packing muscles and bones, improve photovoltaic module packaging integral firmness, it is to avoid photovoltaic module affected by transportation environment cause slack and undisciplined, damaged；Regular shape, takes up room little, it is simple to arranges, tie up transport, can realize reciprocation cycle use；Screw mandrel and cross latch fitting one-shot forming reciprocal use capable of circulation, meet environmental protection packing instructions.

Accompanying drawing explanation

Accompanying drawing 1,2 is the decomposing schematic representation of the packing device of the present invention, wherein, does not show photovoltaic module packaging unit in accompanying drawing 1；

Accompanying drawing 3 is the structural representation of the packing device of the present invention；

Accompanying drawing 4 is the structural representation of the cross latch fitting of the present invention.

In the figures above, 1, photovoltaic module packaging unit；10, photovoltaic module；2, corner protector；3, cardboard；4, bearing tray；5, cross latch fitting；50, Access Division；51, the first connecting portion；52, the second connecting portion；53, the 3rd connecting portion；61, the first screw mandrel；62, the second screw mandrel；63, the 3rd screw mandrel.

Detailed description of the invention

Advantages and features of the invention below in conjunction with accompanying drawing, presently preferred embodiments of the present invention are described in detail, so that can be easier to be understood by those skilled in the art.

With reference to shown in accompanying drawing 1 to 4, the packing device of a kind of photovoltaic module, including for carrying the cross latch fitting 5 in the rectangular-shaped bearing tray 4 of photovoltaic module packaging unit 1, eight apex being respectively arranged at the cuboid that photovoltaic module packaging unit 1 is constituted or these eight summit adjacents that multiple photovoltaic module 10 arranged along x-axis stacking is constituted, the screw mandrel being connected between cross latch fitting 5.Wherein, photovoltaic module 10 is along x-axis stacking, and x-axis is horizontally extending, it is prevented that the lower floor's photovoltaic module 10 caused because of photovoltaic module 10 stacked on top of one another is subject to crushing.

Specifically, screw mandrel is Q235 galvanized metal screw mandrel, including 61, four the second screw mandrels 62 of four the first screw mandrels and four the 3rd screw mandrels 63, first screw mandrel 61 extends along y-axis and is connected between the cross latch fitting 5 at four the first seamed edge two ends of cuboid, second screw mandrel 62 extends along x-axis and is connected between the cross latch fitting 5 at four the second seamed edge two ends of cuboid, 3rd screw mandrel 63 is connected between the cross latch fitting 5 at each diagonal two ends in the face one group relative of cuboid, and the plane that described relative face is constituted with x, z-axis coincides or parallel.Cross latch fitting 5 is that the zinc-plated material of metal is containing self-locking nut, sawtooth plain cushion, spring washer, rubber blanket, the Access Division 50 for being fastened on cuboid seamed edge that cross latch fitting 5 includes the drift angle with cuboid or its adjacent matches, outward extending first connecting portion 51 and the second connecting portion 52 and the 3rd connecting portion 53 from Access Division 50, first connecting portion 51 stretches out along y-axis, second connecting portion 52 stretches out along x-axis, 3rd connecting portion 53 stretches out along y-axis, first screw mandrel 61 is connected on the first connecting portion 51 by nut, second screw mandrel 62 is connected on the second connecting portion 52 by nut, 3rd screw mandrel is connected on the 3rd connecting portion 53 by nut.The x-axis addressed herein, y-axis, z-axis constitute three-dimensional cartesian coordinate system, are specifically shown in accompanying drawing 3；" outward " addressed is the center with reference to photovoltaic module packaging unit 1 and defines, with the direction away from photovoltaic module packaging unit 1 center for outward.

This packing device also includes avoiding the corner protector 2 of friction between adjacent photovoltaic assembly 10 for being arranged on the corner of each photovoltaic module 10, corner protector 2 matches with the top corner part of photovoltaic module 10 and is set on the drift angle of photovoltaic module 10, it is prevented that rub between adjacent photovoltaic assembly 10.This packing device also includes the cardboard 3 for preventing photovoltaic module 10 carried pallet 4 from fraying being arranged on bearing tray 4.Bearing tray 4 and cardboard 3 are used for protecting photovoltaic module 10, and have very strong bearing, and it can stack a number of photovoltaic module 10, without lower floor's photovoltaic module 10 is damaged.This packing device also includes for being wrapped in the protecting film (not shown) outside photovoltaic module packaging unit 1 and bearing tray 4, it is prevented that junction box connector is soaked by rainwater.

The packing method of a kind of photovoltaic module 10 adopting above-mentioned packing device, in turn includes the following steps:

S1, multiple photovoltaic modulies 10 are placed on bearing tray 4 along x-axis stacking, formed be positioned on bearing tray 4 in rectangular-shaped photovoltaic module packaging unit 1；

S2, eight apex of the cuboid constituted at described photovoltaic module packaging unit 1 or this eight summit adjacents are respectively provided with cross latch fitting 5；

Connected by screw mandrel between S3, described cross latch fitting 5 and multiple described photovoltaic modulies 10 are locked mutually；

S4, outside photovoltaic module packaging unit 1 and bearing tray 4, it is wound around protecting film.

In step S1, after the corner of each photovoltaic module 10 arranges corner protector 2, stacking is placed on bearing tray 4 again.After bearing tray 4 places cardboard 3, photovoltaic module 10 stacking is placed on bearing tray 4.

In step S3, the cross latch fitting 5 at each first seamed edge two ends being positioned at cuboid connects respectively through the first screw mandrel 61 extended along y-axis, the cross latch fitting 5 at each second seamed edge two ends being positioned at cuboid connects respectively through the second screw mandrel 62 extended along x-axis, the cross latch fitting 5 at each diagonal two ends in the face that cuboid least one set is relative connects respectively through the 3rd screw mandrel 63, the plane that described relative face is constituted with x, z-axis coincides or parallel, or, the plane that described relative face is constituted with x-axis, y-axis coincides or parallel.

The present invention can not only prevent photovoltaic module 10 impaired because of phase mutual friction in transportation; and effectively stopped rocking of photovoltaic module 10 with Q235 galvanized metal screw mandrel in conjunction with the fixed form of cross latch fitting 5; and increase the load-bearing property of FCL; effectively play the protective effect of packed and transported to photovoltaic module 10 so that it is be suitable for the transport road conditions of complexity.

Photovoltaic module 10 when arriving job site rigidity to be removed packaging after by manual sorting Q235 galvanized metal screw mandrel and cross latch fitting 5 and by rigidity packaging element vanning mail to factory realize reciprocation cycle use.Maximize the packing cost reducing photovoltaic module 10, in equal packed and transported selection, decrease the destruction to natural environment.

Rigidity packaging bulk strength is high, packed and transported secure；Reciprocation cycle can be realized use, significantly lower photovoltaic module 10 packing cost；Pack photovoltaic module 10 relative to corrugated case or glued wood more environmentally-friendly, natural environment is not caused too much destruction；Reduce packaging personnel's operation intensity, improve photovoltaic module 10 packaging efficiency；Reduce warehouse cost to a certain extent simultaneously.

Being different from photovoltaic module 10 packing container adopting corrugated case or glued wood to make, owing to 10 width of photovoltaic module are bigger, it is necessary to manually elevate vanning, relative position adds the gravitional force of photovoltaic module 10, consumes vanning personnel more physical；Rigidity of the present invention packaging only need to assist simple and easy righting frock for 10 yards of casees of photovoltaic module, and 10 yards of casees of photovoltaic module do not need too high lifting action.More conventional corrugated case or glued wood packaging reduce the physical demands of people, improve photovoltaic module 10 packaging efficiency to a certain extent.

Being different from photovoltaic module 10 packing container adopting corrugated case or glued wood to make, packaging material volume is excessive, and the environment areas such as reality storage, Work places all be there are certain requirements；Rigidity packaging element of the present invention be all rule body and volume little, be suitable for environment area too small place storage, operation, reduce storage space cost.

Above-described embodiment only for technology design and the feature of the present invention are described, are a kind of preferred embodiment, its object is to allow person skilled in the art will appreciate that present disclosure and to implement according to this, can not limit the scope of the invention with this.The equivalence that all spirit according to the present invention are made changes or modifies, and all should be encompassed within protection scope of the present invention.

Claims (10)

1. the packing method of a photovoltaic module, it is characterised in that in turn include the following steps:

S1, multiple photovoltaic modulies are placed on bearing tray along x-axis stacking, formed be positioned on bearing tray in rectangular-shaped photovoltaic module packaging unit；

S2, eight apex of the cuboid constituted at described photovoltaic module packaging unit or this eight summit adjacents are respectively provided with cross latch fitting；

Connected by screw mandrel between S3, described cross latch fitting and multiple described photovoltaic modulies are locked mutually.

2. the packing method of photovoltaic module according to claim 1, it is characterised in that also include being positioned at the following steps after step S3:

S4, outside photovoltaic module packaging unit and bearing tray, it is wound around protecting film.

3. the packing method of photovoltaic module according to claim 1, it is characterised in that: in step S1, after the corner of each photovoltaic module arranges corner protector, stacking is placed on bearing tray again.

4. the packing method of photovoltaic module according to claim 1, it is characterised in that: in step S1, after bearing tray places cardboard, photovoltaic module stacking is placed on bearing tray.

5. the packing method of photovoltaic module according to claim 1, it is characterized in that: in step S3, the cross latch fitting at each first seamed edge two ends being positioned at described cuboid connects respectively through the first screw mandrel extended along y-axis, first seamed edge coincides with y-axis or parallel, the cross latch fitting at each second seamed edge two ends being positioned at described cuboid connects respectively through the second screw mandrel extended along x-axis, second seamed edge overlaps or parallel with x-axis, the cross latch fitting at each diagonal two ends in the face that described cuboid is a group relative connects respectively through the 3rd screw mandrel, described relative face and x-axis, the plane that z-axis is constituted coincides or parallel, described x-axis is horizontally extending.

6. the packing device of a photovoltaic module, it is characterised in that: include for carrying the cross latch fitting in the rectangular-shaped bearing tray of photovoltaic module packaging unit, eight apex being respectively arranged at the cuboid that described photovoltaic module packaging unit is constituted or these eight summit adjacents that multiple photovoltaic module arranged along x-axis stacking is constituted, the screw mandrel being connected between described cross latch fitting.

7. the packing device of photovoltaic module according to claim 6, it is characterised in that: this packing device also includes the corner protector avoiding adjacent photovoltaic assembly part to rub for being arranged on the corner of each photovoltaic module.

8. the packing device of photovoltaic module according to claim 6, it is characterised in that: this packing device also includes the cardboard for preventing photovoltaic module carried pallet from fraying being arranged on described bearing tray.

9. the packing device of photovoltaic module according to claim 6, it is characterized in that: described screw mandrel includes the first screw mandrel, second screw mandrel and the 3rd screw mandrel, described first screw mandrel extends along y-axis and is connected between the cross latch fitting at each first seamed edge two ends of described cuboid respectively, first seamed edge coincides with y-axis or parallel, described second screw mandrel extends along x-axis and is connected between the cross latch fitting at each second seamed edge two ends of described cuboid, second seamed edge overlaps or parallel with x-axis, described 3rd screw mandrel is connected between the cross latch fitting at each diagonal two ends in the face one group relative of described cuboid, described relative face and x-axis, the plane that z-axis is constituted coincides or parallel, described x-axis is horizontally extending.

10. the packing device of the photovoltaic module according to right 9, it is characterized in that: described cross latch fitting include matching with the drift angle of described cuboid or its adjacent for being fastened on the Access Division on described cuboid, outward extending first connecting portion and the second connecting portion and the 3rd connecting portion from described Access Division, described first connecting portion stretches out along y-axis, described second connecting portion stretches out along x-axis, described 3rd connecting portion x-axis or y-axis stretch out, described first screw mandrel is connected on described first connecting portion, described second screw mandrel is connected on described second connecting portion, described 3rd screw mandrel is connected on described 3rd connecting portion.