CN211002707U - Photovoltaic dual glass assembly packing box - Google Patents

Abstract

The utility model discloses a photovoltaic dual glass assembly packing box belongs to packing box technical field. The pillar angle bead is provided with four groups, the four groups of pillar angle beads are respectively positioned at four corners of the photovoltaic dual-glass assembly, two groups of reinforcing supports are arranged at the upper part of the photovoltaic dual-glass assembly, a first buffer clamping groove is formed between the two groups of reinforcing supports, a second buffer clamping groove is formed in the middle of the left side of the photovoltaic dual-glass assembly, a third buffer clamping groove is formed in the middle of the right side of the photovoltaic dual-glass assembly, a carton is arranged outside the photovoltaic dual-glass assembly, an upper cover is arranged at the top of the carton, and a base is arranged at the; this photovoltaic dual glass assembly packing box simple structure, reasonable in design, photovoltaic dual glass assembly is equipped with several buffering draw-in grooves all around to enclose the frame board outside and be equipped with the iron angle bead, can receive the impact force with photovoltaic dual glass assembly in the transportation and fall to minimumly, better protection photovoltaic dual glass assembly dispatch from the factory the in-process because the improper damage that arouses of packing, the cost has been controlled better simultaneously.

Description

Photovoltaic dual glass assembly packing box

Technical Field

The utility model relates to a photovoltaic dual glass assembly packing box belongs to packing box technical field.

Background

Photovoltaic dual glass assembly just indicates: the solar cell module is formed by laminating two pieces of toughened glass, an EVA (ethylene vinyl acetate) adhesive film and a solar cell silicon wafer at a high temperature through a laminating machine to form a composite layer, wherein the cells are connected in series and in parallel by a lead and collected to a lead terminal; the solar cell comprises a first toughened glass layer, a second PVB or PO or EVA or ionomer material layer, a third monocrystal or polycrystal battery layer, a fourth PVB or PO or EVA or ionomer material layer and a fifth toughened glass or high-transmittance back plate layer which are sequentially arranged from top to bottom.

Photovoltaic dual glass assembly belongs to breakable product, and the transportation of packing is at present and is transporting in the frame with multilayer dual glass photovoltaic assembly stack slope together. In the transportation process, the relative movement between the double-glass photovoltaic modules can be caused by the vibration of the vehicle, the double-glass photovoltaic modules can be damaged or scratched, the product quality is influenced, and the requirements cannot be met; and the frame of the shipping package is open, which may affect product quality for a particular product.

Disclosure of Invention

To the above problem, the to-be-solved technical problem of the utility model is to provide a photovoltaic dual glass assembly packing box.

The utility model discloses a photovoltaic dual-glass assembly packing box, it contains upper cover, carton, reinforcing bracket, pillar angle bead, first buffering draw-in groove, second buffering draw-in groove, third buffering draw-in groove and base, the pillar angle bead is equipped with four groups altogether, and is located photovoltaic dual-glass assembly four corners respectively, photovoltaic dual-glass assembly upper portion is provided with two sets of reinforcing brackets, and two sets of reinforcing brackets between be provided with first buffering draw-in groove, photovoltaic dual-glass assembly left side middle part is provided with second buffering draw-in groove, photovoltaic dual-glass assembly right side middle part is provided with third buffering draw-in groove, photovoltaic dual-glass assembly outside is provided with the carton, and the carton top is provided with the upper cover, the carton bottom is provided with the base;

the base contains bottom plate, blotter, buffering strip, encloses deckle board, fourth buffering draw-in groove, fifth buffering draw-in groove and iron angle bead, the bottom plate top is provided with the blotter, and is provided with several buffering strip on the blotter, the base both sides are provided with encloses the deckle board, and the left inboard fourth buffering draw-in groove that is provided with of enclosing the deckle, and the inboard fifth buffering draw-in groove that is provided with of enclosing the deckle on right side, it is provided with the iron angle bead to enclose deckle board outside.

Preferably, the pillar angle bead is of a wood structure, and the surrounding frame plate is made of wood plywood with the thickness of more than or equal to 12 mm.

Preferably, the first buffer slot, the second buffer slot, the third buffer slot, the fourth buffer slot and the fifth buffer slot have the same structure, are all made of high-strength EVA materials, and the number of slots is set to 30-38.

Preferably, the bottom plate is made of wood plywood with the thickness of more than or equal to 18 mm.

Preferably, the buffer strips are provided with three paths, and each buffer strip is composed of an EPE plate with the width of 30 cm, the length of 1 meter and the thickness of 5 cm.

Compared with the prior art, the beneficial effects of the utility model are that: this photovoltaic dual glass assembly packing box simple structure, reasonable in design, photovoltaic dual glass assembly is equipped with several buffering draw-in grooves all around to enclose the frame board outside and be equipped with the iron angle bead, can receive the impact force with photovoltaic dual glass assembly in the transportation and fall to minimumly, better protection photovoltaic dual glass assembly dispatch from the factory the in-process because the improper damage that arouses of packing, the cost has been controlled better simultaneously.

Drawings

Fig. 1 is a schematic diagram of the explosion structure of the present invention;

FIG. 2 is a schematic view of the base structure of the present invention;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a side view of FIG. 2;

fig. 5 is a schematic structural diagram of the first buffer slot of the present invention.

Reference numerals: the photovoltaic double-glass component comprises an upper cover 1, a carton 2, a reinforcing support 3, a pillar angle bead 4, a first buffer clamping groove 5, a second buffer clamping groove 6, a third buffer clamping groove 7, a base 8, a bottom plate 801, a buffer cushion 802, a buffer strip 803, a surrounding frame plate 804, a fourth buffer clamping groove 805, a fifth buffer clamping groove 806, an iron angle bead 807 and a photovoltaic double-glass component a.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 5, the following technical solutions are adopted in the present embodiment: it contains upper cover 1, carton 2, strengthens support 3, pillar angle bead 4, first buffering draw-in groove 5, second buffering draw-in groove 6, third buffering draw-in groove 7 and base 8, and pillar angle bead 4 is equipped with four groups altogether, and is located photovoltaic dual glass assembly a four corners department respectively, and photovoltaic dual glass assembly an upper portion is provided with two sets of enhancement supports 3, and is two sets of it is provided with first buffering draw-in groove 5 to strengthen between the support 3, and photovoltaic dual glass assembly a left side middle part is provided with second buffering draw-in groove 6, and photovoltaic dual glass assembly a right side middle part is provided with third buffering draw-in groove 7, and photovoltaic dual glass assembly a outside is provided with carton 2, and carton 2 top is provided with upper cover 1, and carton 2 bottoms are provided with base 8.

Base 8 contains bottom plate 801, blotter 802, buffering strip 803, enclose deckle board 804, fourth buffering draw-in groove 805, fifth buffering draw-in groove 806 and iron angle bead 807, bottom plate 801 top is provided with blotter 802, and be provided with several buffering strip 803 on the blotter 802, base 8 both sides are provided with enclose deckle board 804, and be provided with fourth buffering draw-in groove 805 in the left deckle board 804 that encloses, it is provided with fifth buffering draw-in groove 806 to enclose deckle board 804 on right side, it is provided with iron angle bead 807 to enclose deckle board 804 outside, iron angle bead 807 carries out reinforced (rfd) link to between the fixed panel, prevent in loading and unloading and transportation, the box receives the horizontal impact force that horizontal impact force caused box to link the department and causes the box.

Pillar angle bead 4 is wooden structure, links with steel structure connecting piece, and around the better protection case angle, better crashproof nature has, encloses frame board 804 and forms for the preparation of thickness more than or equal to 12mm wooden plywood.

First buffer slot 5, second buffer slot 6, third buffer slot 7, fourth buffer slot 805 and fifth buffer slot 806 are the same in structure, all adopt the high strength EVA material, and the slot groove number sets for 30-38, effective reduce cost, and bottom plate 801 adopts the wooden plywood preparation of thickness more than or equal to 18mm to form.

Buffering strip 803 is equipped with three altogether, and buffering strip 803 is that 30 centimetres width, 1 meter length, 5 centimetres thick EPE panel constitutes, according to the whole length evenly distributed of bottom plate 801 on bottom plate 801, integral type structure, EPE directly glues on bottom plate 801, and the two glass assembly a's of slow down photovoltaic highway section of jolting of ability be fine because with the stress nature pressure that produces in the loading and unloading, prevent because photovoltaic two glass assembly a and bottom plate 801 direct contact produce corner glass's damage.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a photovoltaic dual glass assembly packing box which characterized in that: it comprises an upper cover (1), a paper box (2), a reinforcing bracket (3), a pillar angle bead (4), a first buffer clamping groove (5), a second buffer clamping groove (6), a third buffer clamping groove (7) and a base (8), wherein the pillar angle bead (4) is provided with four groups, and are respectively positioned at the four corners of the photovoltaic dual-glass assembly (a), two groups of reinforced brackets (3) are arranged at the upper part of the photovoltaic dual-glass assembly (a), and a first buffer clamping groove (5) is arranged between the two groups of the reinforcing brackets (3), a second buffer clamping groove (6) is arranged in the middle of the left side of the photovoltaic dual-glass component (a), a third buffer clamping groove (7) is arranged in the middle of the right side of the photovoltaic dual-glass assembly (a), a carton (2) is arranged outside the photovoltaic dual-glass assembly (a), the top of the carton (2) is provided with an upper cover (1), and the bottom of the carton (2) is provided with a base (8);

base (8) contain bottom plate (801), blotter (802), buffering strip (803), enclose framed board (804), fourth buffering draw-in groove (805), fifth buffering draw-in groove (806) and iron angle bead (807), bottom plate (801) top is provided with blotter (802), and is provided with several buffering strip (803) on blotter (802), base (8) both sides are provided with encloses framed board (804), and is provided with fourth buffering draw-in groove (805) in left enclosing framed board (804), is provided with fifth buffering draw-in groove (806) in enclosing framed board (804) on right side, it is provided with iron angle bead (807) to enclose framed board (804) outside.

2. The photovoltaic dual glass assembly packing box of claim 1, characterized in that: the pillar angle bead (4) is of a wood structure, and the surrounding frame plate (804) is made of wood plywood with the thickness more than or equal to 12 mm.

3. The photovoltaic dual glass assembly packing box of claim 1, characterized in that: the first buffer clamping groove (5), the second buffer clamping groove (6), the third buffer clamping groove (7), the fourth buffer clamping groove (805) and the fifth buffer clamping groove (806) are identical in structure, high-strength EVA materials are adopted, and the number of the clamping grooves is set to be 30-38.

4. The photovoltaic dual glass assembly packing box of claim 1, characterized in that: the bottom plate (801) is made of wood plywood with the thickness being more than or equal to 18 mm.

5. The photovoltaic dual glass assembly packing box of claim 1, characterized in that: the buffer strips (803) are provided with three channels in total, and the buffer strips (803) are formed by EPE plates with the width of 30 cm, the length of 1 meter and the thickness of 5 cm.

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