CN202542192U - Transshipment case for amorphous silicon thin film solar cell components - Google Patents

Abstract

The utility model discloses a transshipment case for amorphous silicon thin film solar cell components. The transshipment case is positioned on a pallet plate, and structurally comprises a base plate positioned on the pallet plate, a side plate sleeve arranged on the base plate and a top plate. A positioning component consisting of groups of partition blocks is arranged in a case body, and is used for positioning solar cell component semi-finished products. The transshipment case is characterized in that elastic bumps with circular end faces are arranged on the sidewalls of the partition blocks; and every two adjacent partition blocks form a passive clamping structure through the elastic bumps. The transshipment case has the beneficial effects that when the transshipment case is used for packaging rimless solar cell components, a small space is occupied, and a great number of components can be packaged; and by elastic clamping mechanisms, fixing strength for each rimless solar cell component can be strengthened, and the rimless solar cell components can be fixed more firmly, cannot be inclined under a wobbling condition, cannot be damaged, and can be safely and conveniently transported.

Description

The transport box that a kind of non-crystal silicon thin-film solar cell component is used

Technical field

The utility model relates to the semi-finished transport box of solar module, the transport box that the non-crystal silicon thin-film solar cell component that particularly a kind of connection box is in the non-central location of whole assembly is used.

Background technology

Solar cell is an electric energy with solar energy converting as emerging clean reproducible energy directly because of having, and the life-span is long, it is simple to safeguard, can realize advantage such as unmanned and get most of the attention.Solar cell is in manufacturing process, and it is to make no frame solar battery component that one procedure is arranged, and will not have the frame solar battery component then and is packaged in the transport box, is transported to next process and assembles.Since too can be can battery component generally thinner, broken easily, so need pay close attention in the transportation.The transport box of existing no frame solar battery component generally all is to adopt wooden transport box, and the no frame solar battery component that polylith is had connection box is placed vertically successively in a wooden case.The sheet number of the assembly that this packing chest is adorned is less, and clamps not strongly admittedly, occurs the assembly tilt phenomenon easily, problem such as should not operate when existing assembly to be placed into packing chest.

Summary of the invention

The utility model clamps not strongly the few technical barrier of solar module sheet number that occurs the assembly tilt phenomenon easily admittedly and adorned in order to solve existing transport box; Designed the transport box that a kind of non-crystal silicon thin-film solar cell component is used; By on the spacing block sidewall, setting up elastic projection, improved transport box to the firm degree of the clamping of solar module and increased the quantity of the solar module of being adorned in the transport box.

The technical scheme that the utility model adopts is: the transport box that a kind of non-crystal silicon thin-film solar cell component is used; Above-mentioned transport box is positioned on the tray plate; Comprise the chassis that is positioned on the tray plate in the structure, be arranged on the side plate cover on the chassis; And top board; The positioning component that is formed by the spacing block group that is provided with in the casing that location solar module half-blank uses, key is: setting has the elastic projection of circular arc end face on the sidewall of spacing block, and adjacent two spacing blocks form passive clamping structure by elastic projection.

The beneficial effect that the utility model is realized is: elastic projection the fixedly dynamics that can increase each no frame solar battery component is set, make it more firm, can not make the solar module inclination because of rocking; Adopt the no frame solar battery component of this transport box packing; It is few to take up space; Package component quantity is many; And the substrate in the whole positioning component, spacing block and the elasticity clamping mechanism foam type structure that all adopts EVA with good buffering, shock resistance or EPO material to process, make solar module can not be damaged, guaranteed that transportation safety is convenient.

Below in conjunction with accompanying drawing the utility model is elaborated.

Description of drawings

Fig. 1 is the decomposition texture scheme drawing of transport box embodiment in the utility model.

Fig. 2 is the lateral plan of positioning component.

Fig. 3 is the structural representation of a kind of embodiment of spacing block.

In the accompanying drawing, the 1st, tray plate, the 2nd, positioning component, the 3rd, chassis, the 4th, spacing block, the 5th, side plate cover, the 6th, top board, the 8th, substrate, the 9th, elastic projection.

The specific embodiment

The transport box that a kind of non-crystal silicon thin-film solar cell component is used; Above-mentioned transport box is positioned on the tray plate 1; Comprise in the structure that the chassis 3 that is positioned on the tray plate 1, the side plate that is arranged on the chassis 3 overlap 5; And top board 6; Be provided with in the casing that location solar module half-blank uses by 4 groups of positioning components that form 2 of spacing block, importantly: the elastic projection 9 with circular arc end face is set on the sidewall of spacing block 4, and adjacent two spacing blocks 4 are by the passive clamping structure of elastic projection 9 formation.In the process of solar module of packing into, the setting of circular arc end face is in order to let solar module insert more easily in the draw-in groove of being made up of spacing block 4 in the elastic projection 9, after the insertion, because the restoring force of elastic projection 9 is with assembly blocking tightly.

The circular arc end face replaces with slope in the described elastic projection 9.The setting of cambered surface or slope can make solar module insert more easily in the draw-in groove that is made up of at interval spacing block 4, and can not damage solar module.

Described positioning component 2 is arranged on chassis 3 or side plate cover 5 or the top board 6 or is arranged on two or three in the above position.

Above-mentioned top board 6 is slab constructions and inlays the into smooth upper surface of side plate cover 5 formation transport boxes.

During practical implementation, tray plate 1 is made up of three battens, and three with leaving one section space between the batten, makes things convenient for fork truck to accomplish the action in loading and unloading, carrying, storage keeping and the transportation; Spacing block 4 uniformly-spaced is fixedly installed on formation positioning component 2 on the substrate 8, and wherein the sidewall of spacing block 4 is provided with the elastic projection 9 that has the circular arc end face; Substrate 8 is fixed on two inwalls of symmetry of side plate cover 5, wherein substrate 8, spacing block 4, elastic projection 9 all adopt EVA or EPO material again.Also can substrate 8, spacing block 4 and elastic projection 9 be pressed into integral type cystosepiment structure.When concrete the use; With the connection box of a pair of solar module in opposite directions, intersect and be placed in two spacing blocks, the 4 formed draw-in grooves; Such modes of emplacement has been saved the transport box volume inside; Can place more solar module, and by elastic projection 9 that solar module is fixing firmly.In addition, on chassis 3 and top board 6, positioning component 2 is set respectively also,, can prevents or alleviate goods and receive direct bump, have buffering and good shock resistance so that solar module is fully fixing; Top board 6 places directly over the goods, overlaps 5 tops with side plate and closely links to each other, and prevents that the goods top from being suppressed or rainforest, Exposure to Sunlight, and wherein top board 6 can have the covering plate structure or the slab construction of groove.

Claims (1)

1. transport box that non-crystal silicon thin-film solar cell component is used; Above-mentioned transport box is positioned on the tray plate (1); Comprise the chassis (3) that is positioned on the tray plate (1) in the structure, be arranged on the side plate cover (5) on the chassis (3); And top board (6); The positioning component (2) that is formed by spacing block (4) group that is provided with in the casing that location solar module half-blank uses, it is characterized in that: setting has the elastic projection (9) of circular arc end face on the sidewall of spacing block (4), and adjacent two spacing blocks (4) form passive clamping structure by elastic projection (9).

2, the transport box used of a kind of non-crystal silicon thin-film solar cell component according to claim 1 is characterized in that: the circular arc end face of said elastic projection (9) substitutes with slope.

3, the transport box used of a kind of non-crystal silicon thin-film solar cell component according to claim 1 is characterized in that: described positioning component (2) is arranged on chassis (3) or side plate cover (5) or top board (6) and goes up or be arranged on two or three in the above position.

4, the transport box used of a kind of non-crystal silicon thin-film solar cell component according to claim 1 is characterized in that: above-mentioned top board (6) is slab construction and inlays into that side plate cover (5) forms the smooth upper surface of transport box.

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