A kind of packaging structure of pair of glass photovoltaic solar assembly
Technical field
This utility model belongs to photovoltaic module packing technique field, relates to the packaging structure of a kind of pair of glass photovoltaic solar assembly.
Background technology
Along with exhaustion and mankind's attention to environmental problem of traditional energy, in order to realize the sustainable development of the energy and environment, solar electrical energy generation has obtained huge development as a kind of clean energy resource.Photovoltaic solar assembly transportation and packing, use pallet+cardboard mode, and each packaging unit has 30 or 33 block assemblies, in order in packing crates fixation kit, prevent assembly from the most directly contacting friction, protection assembly and facilitate incasement operation.To this end, design a pair of glass photovoltaic solar assembly packaging scheme, reach to protect assembly and the purpose of convenient operation.
Traditional double glass photovoltaic solar assembly packaging schemes, one is full plywood wooden case, and internal corner cushion is protected, and this scheme wooden case cost is high, material purchases transport takes up room, operating difficulties;Another kind is that collet adds carton and adds cushion, low cost, but the when of incasement operation, assembly is easily toppled over.
Utility model content
The purpose of this utility model is the shortcoming overcoming above-mentioned prior art, it is provided that the packaging structure of a kind of pair of glass photovoltaic solar assembly, and the low cost of this packaging structure, transport take up room little, easy to operate, and be difficult to topple over.
For reaching above-mentioned purpose, the packaging structure of described in the utility model pair of glass photovoltaic solar assembly includes hoisting tray, carton and the first draw-in groove fixed plate being located in carton, the second draw-in groove fixed plate, the 3rd draw-in groove fixed plate, an EVA draw-in groove, the 2nd EVA draw-in groove, the 3rd EVA draw-in groove, four column corner protectors, a PET strap and some lifting protective cradles;
First draw-in groove fixed plate is formed by being sequentially connected the first fixed plate, the second fixed plate and the 3rd fixed plate connect, wherein, second fixed plate and an EVA draw-in groove are both secured to the left side of hoisting tray upper surface, first fixed plate and the 3rd fixed plate are individually fixed in rear side and the front side of hoisting tray upper surface, and the medial surface of an EVA draw-in groove and the second fixed plate is connected;
Second draw-in groove fixed plate includes the 4th fixed plate and the 5th fixed plate being connected, wherein, 4th fixed plate is fixed on the right side of hoisting tray upper surface, 5th fixed plate is fixed on the trailing flank of hoisting tray upper surface, 3rd draw-in groove fixed plate includes the 6th fixed plate and the 7th fixed plate being connected, wherein, 6th fixed plate is fixed on the right side of hoisting tray upper surface, 7th fixed plate is fixed on the leading flank of hoisting tray upper surface, and the side at the 2nd EVA draw-in groove two ends is connected with the medial surface of the 4th fixed plate and the medial surface of the 6th fixed plate respectively;
In the two ends, left and right of double glass photovoltaic solar assemblies to be fixed are embedded in an EVA draw-in groove respectively and in the 2nd EVA draw-in groove, double glass photovoltaic solar assembly tops to be fixed are embedded in the 3rd EVA draw-in groove respectively;
The cross section of four column corner protectors is L-shaped structure, four Angle Position being fixed on hoisting tray upper surface erect respectively by four column corner protectors, and four column corner protectors lay respectively at the first draw-in groove fixed plate, the second draw-in groove fixed plate and the outside of the 3rd draw-in groove fixed plate, four seamed edges of double glass photovoltaic solar assemblies to be fixed are held in four column corner protectors, and a PET strap is socketed on the side of four column corner protectors.
Also including the 4th EVA draw-in groove and the 5th EVA draw-in groove, wherein the 4th EVA draw-in groove is connected in the middle part of double glass photovoltaic solar assembly left surfaces to be fixed, and the 5th EVA draw-in groove is connected in the middle part of double glass photovoltaic solar assembly right sides to be fixed.
The upper surface of hoisting tray is from left to right sequentially provided with some pallet reinforcing plates.
Each pallet reinforcing plate is provided with EVA cushion pad, and an EVA draw-in groove is fixed on leftmost EVA cushion pad, and the 2nd EVA draw-in groove is positioned on rightmost EVA cushion pad.
Angle between second fixed plate and the first fixed plate is 90 °;
Angle between 4th fixed plate and the 5th fixed plate is 90 °;
Angle between 6th fixed plate and the 7th fixed plate is 90 °.
Between second fixed plate with the first fixed plate, between the second fixed plate and the 3rd fixed plate, between the 4th fixed plate and the 5th fixed plate and the 6th fixed plate is all connected by ferrum cornerite between the 7th fixed plate.
Carton is connected by some 2nd PET straps with hoisting tray.
Carton upper surface is placed with PE mold set, and four sides of carton are wound with winding film.
Also including lifting protective cradle, lifting protective cradle is positioned at the top of to be fixed pair of glass photovoltaic solar assembly, and lifting protective cradle is connected between four column corner protectors.
This utility model has the advantages that
The packaging structure of described in the utility model pair of glass photovoltaic solar assembly is in use, fixed between each to be fixed pair of glass photovoltaic solar assembly by an EVA draw-in groove, the 2nd EVA draw-in groove and the 3rd EVA draw-in groove, by four column corner protectors, four seamed edges of to be fixed pair of glass photovoltaic solar assembly are fixed simultaneously, thus realize double glass photovoltaic solar assemblies are fixed, then by double glass photovoltaic solar packs of fixing in carton, the problem that the packing cost avoiding full plywood wooden case to bring rises, safety simultaneously is significantly improved.Additionally, each to be fixed pair of glass photovoltaic solar assembly is embedded in an EVA draw-in groove, the 2nd EVA draw-in groove and the 3rd EVA draw-in groove, such that it is able to improve the fixed number of to be fixed pair of glass photovoltaic solar assembly, reduce the space that transport takies, during lifting carrying, only forklift need to be inserted in hoisting tray, lifting carrying can be realized, operating more convenient, lifting handling efficiency is high, and is difficult to topple over.
Accompanying drawing explanation
Fig. 1 is the structural representation of hoisting tray 1 in this utility model;
Fig. 2 is the first draw-in groove fixed plate 3 and location diagram of the second draw-in groove fixed plate 4 in this utility model;
Fig. 3 is the structural representation after installing double glass photovoltaic solar assembly in this utility model;
Fig. 4 is the structural representation after installing column corner protector 13 in this utility model;
Fig. 5 is structural representation of the present utility model.
Wherein, 1 it is hoisting tray, 2 is pallet reinforcing plate, 3 is the first draw-in groove fixed plate, 4 is the second draw-in groove fixed plate, 5 is the 3rd draw-in groove fixed plate, 6 is an EVA draw-in groove, 7 is the 2nd EVA draw-in groove, 8 is EVA cushion pad, 9 is the 3rd EVA draw-in groove, 10 is the 4th EVA draw-in groove, 11 is the 5th EVA draw-in groove, 12 is ferrum cornerite, 13 is column corner protector, 14 is lifting protective cradle, 15 is a PET strap, 16 is carton, 17 is the 2nd PET strap.
Detailed description of the invention
Below in conjunction with the accompanying drawings this utility model is described in further detail:
With reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5, the packaging structure of described in the utility model pair of glass photovoltaic solar assembly includes hoisting tray 1, carton 16 and the first draw-in groove fixed plate the 3, second draw-in groove fixed plate the 4, the 3rd draw-in groove fixed plate the 5, the oneth EVA draw-in groove the 6, the 2nd EVA draw-in groove the 7, the 3rd 9, four column corner protector the 13, the oneth PET straps 15 of EVA draw-in groove and the some lifting protective cradles 14 being located in carton 16;First draw-in groove fixed plate 3 is formed by being sequentially connected the first fixed plate, the second fixed plate and the 3rd fixed plate connect, wherein, second fixed plate and an EVA draw-in groove 6 are both secured to the left side of hoisting tray 1 upper surface, first fixed plate and the 3rd fixed plate are individually fixed in rear side and the front side of hoisting tray 1 upper surface, and an EVA draw-in groove 6 is connected with the medial surface of the second fixed plate;Second draw-in groove fixed plate 4 includes the 4th fixed plate and the 5th fixed plate being connected, wherein, 4th fixed plate is fixed on the right side of hoisting tray 1 upper surface, 5th fixed plate is fixed on the trailing flank of hoisting tray 1 upper surface, 3rd draw-in groove fixed plate 5 includes the 6th fixed plate and the 7th fixed plate being connected, wherein, 6th fixed plate is fixed on the right side of hoisting tray 1 upper surface, 7th fixed plate is fixed on the leading flank of hoisting tray 1 upper surface, and the side at the 2nd EVA draw-in groove 7 two ends is connected with the medial surface of the 4th fixed plate and the medial surface of the 6th fixed plate respectively;In the two ends, left and right of double glass photovoltaic solar assemblies to be fixed are embedded in an EVA draw-in groove 6 respectively and in the 2nd EVA draw-in groove 7, double glass photovoltaic solar assembly tops to be fixed are embedded in the 3rd EVA draw-in groove 9 respectively;The cross section of four column corner protectors 13 is L-shaped structure, four Angle Position being fixed on hoisting tray 1 upper surface erect respectively by four column corner protectors 13, and four column corner protectors 13 lay respectively at the first draw-in groove fixed plate the 3, second draw-in groove fixed plate 4 and outside of the 3rd draw-in groove fixed plate 5, four seamed edges of double glass photovoltaic solar assemblies to be fixed are held in four column corner protectors 13, and a PET strap 15 is socketed on the side of four column corner protectors 13.
It should be noted that, this utility model also includes the 4th EVA draw-in groove 10 and the 5th EVA draw-in groove 11, wherein the 4th EVA draw-in groove 10 is connected in the middle part of double glass photovoltaic solar assembly left surfaces to be fixed, and the 5th EVA draw-in groove 11 is connected in the middle part of double glass photovoltaic solar assembly right sides to be fixed;The upper surface of hoisting tray 1 is from left to right sequentially provided with some pallet reinforcing plates 2, and each pallet reinforcing plate 2 is provided with EVA cushion pad 8, and an EVA draw-in groove 6 is fixed on leftmost EVA cushion pad 8, and the 2nd EVA draw-in groove 7 is positioned on rightmost EVA cushion pad 8.
It addition, the angle between the second fixed plate and the first fixed plate is 90 °;Angle between 4th fixed plate and the 5th fixed plate is 90 °;Angle between 6th fixed plate and the 7th fixed plate is 90 °, between the second fixed plate with the first fixed plate, between the second fixed plate and the 3rd fixed plate, between the 4th fixed plate and the 5th fixed plate and the 6th fixed plate is all connected by ferrum cornerite 12 between the 7th fixed plate.
Carton 16 is connected by some 2nd PET straps 17 with hoisting tray 1, and carton 16 upper surface is placed with PE mold set, and four sides of carton 16 are wound with winding film.This utility model also includes lifting protective cradle 14, and lifting protective cradle 14 is positioned at the top of to be fixed pair of glass photovoltaic solar assembly, and lifting protective cradle 14 is connected between four column corner protectors 13.
Specific operation process of the present utility model is:
1) pallet reinforcing plate the 2, first draw-in groove fixed plate the 3, second draw-in groove fixed plate the 4, the 3rd draw-in groove fixed plate 5 is fixed with hoisting tray 1 be connected by flat nail and ferrum cornerite 12, use liquid glue to be fixed in each draw-in groove fixed plate and pallet reinforcing plate 2 by the oneth EVA draw-in groove the 6, the 2nd EVA draw-in groove 7 and EVA cushion pad 8;
2) being sequentially inserted in an EVA draw-in groove 6 and the 2nd EVA draw-in groove 7 by double glass photovoltaic solar assemblies, fill assembly, the 3rd EVA draw-in groove 9 is inserted at top, the 4th EVA draw-in groove 10 and the 5th EVA draw-in groove 11 is inserted in both sides, wherein, every piece of corresponding draw-in groove of double glass photovoltaic solar assemblies, it is uniformly distributed;
3) column corner protector 13, upper ends lifting protective cradle 14 are placed in corner, use a PET strap 15 vertical columns corner protector 13;
4) it is inserted in carton 16, above tiling PE mold set, surrounding winding film, finally uses the 2nd PET strap 17 to fix entire package.