WO2015011818A1

WO2015011818A1 - Solar cell module package and packaging method for solar cell module

Info

Publication number: WO2015011818A1
Application number: PCT/JP2013/070203
Authority: WO
Inventors: 鈴木　成嘉; 明紀保母; 清和福田; 田口　和秀
Original assignee: 三菱電機株式会社
Priority date: 2013-07-25
Filing date: 2013-07-25
Publication date: 2015-01-29
Also published as: JPWO2015011818A1; US20160122120A1; JP6072915B2; CN105358451A

Abstract

This solar cell module package is equipped with: wrapped bodies (1), each formed by wrapping a solar cell module with a wrapping paper; a pallet (3) for mounting multiple wrapped bodies (1) in a stacked manner; wrapped body protection members (2) which are provided at the four corners of the multiple wrapped bodies (1) stacked on the pallet (3) and protect the corner sections of the multiple wrapped bodies (1) stacked on the pallet (3); and a wrapping material (4) which wraps the multiple wrapped bodies (1) stacked on the pallet (3) and the wrapped body protection members (2) so as to be fixed to the pallet (3).

Description

Solar cell module package and solar cell module packaging method

The present invention relates to a solar cell module package in which a plurality of solar cell modules are packed for transportation and a method for packing solar cell modules.

Conventionally, solar cell modules are thin and have a large area, so they are transported in a stacked state.

In order to prevent the solar cell module from being damaged or damaged due to vibration during transportation, a method is known in which the solar cell module is individually packed and protected by corrugated cardboard, and then stacked and transported.

Patent Documents

1 and 2 disclose a support member that is sandwiched between solar cell modules when the solar cell modules are stacked.

JP 2012-229040 A JP 2012-229041 A

In the conventional solar cell module package, since the solar cell modules are individually packed in cardboard, there is a problem that the material cost of the packaging becomes high and unpacking work takes time. Further, it is necessary to use a large amount of cardboard for transportation, and there is a problem that the cost for discarding and returning used cardboard after transportation increases.

Since the support members disclosed in

Patent Documents

1 and 2 are formed by molding a resin material into a complicated shape, the manufacturing cost is increased. Further, at the time of unpacking work, the support members arranged at the four corners of the solar cell module must be individually removed, which takes time for the unpacking work. Furthermore, since the support member has a bulky shape so that a gap is formed between the stacked solar cell modules, there is a problem that the cost for disposal and return after use becomes high.

The present invention has been made in view of the above, and it is possible to obtain a solar cell module package that can reduce the packaging material cost and the disposal / return cost after use, and can reduce the time for unpacking work. Objective.

In order to solve the above-described problems and achieve the object, the present invention provides a package in which a solar cell module is wrapped with wrapping paper, a pallet on which a plurality of packages are stacked, and a plurality of packages stacked on the pallet. A packaging body protection member that is installed at four corners of the body to protect the corners of the packaging body, a plurality of packaging bodies stacked on the pallet, and a wrapping material that wraps the packaging body protection member and fixes it to the pallet; It is characterized by providing.

The solar cell module package according to the present invention has an effect that the unpacking operation is easy and the disposal / return cost of the used packaging material can be reduced.

FIG. 1 is an external view of a first embodiment of a solar cell module package according to the present invention. FIG. 2 is a cross-sectional view of the solar cell module package according to the first embodiment. FIG. 3 is a diagram illustrating the package. FIG. 4 is a view showing a package. FIG. 5 is a diagram showing a package. FIG. 6 is a diagram illustrating a state in which packaging bodies are stacked by an automatic robot. FIG. 7 is a cross-sectional view showing a state where the automatic robot chucks the package. FIG. 8: is a perspective view which shows the structure of Embodiment 2 of the solar cell module package concerning this invention.

Hereinafter, embodiments of the solar cell module package according to the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is an external view of a first embodiment of a solar cell module package according to the present invention. FIG. 2 is a cross-sectional view of the solar cell module package according to the first embodiment, showing a cross section taken along line II-II in FIG. FIG. 3, FIG. 4 and FIG. 5 are views showing a package constituting the solar cell module package.

The solar cell module package according to the first embodiment includes a package 1 in which a solar cell module 5 is wrapped with wrapping paper 6, a pallet 3 on which a plurality of packages 1 are stacked, and a plurality of stacked packages 1. A packaging body holding member 2 that holds the corners, and a wrapping material 4 that collectively wraps and fixes the plurality of packaging bodies 1, the pallet 3, and the packaging body holding member 2 are provided. In FIG. 2, the wrapping material is indicated by a one-dot chain line.

As shown in FIGS. 3, 4, and 5, the package 1 is formed by wrapping the solar cell module 5 with wrapping paper 6. The length of the wrapping paper 6 in the longitudinal direction is about 1.5 times the length of the solar cell module 5, and the length in the short direction is substantially the same as the width of the solar cell module 5. Length. The wrapping paper 6 is disposed so as to cover the back sheet side (rear surface side) of the solar cell module 5, and about ¼ of the length of the solar cell module 5 in each of the short sides of the solar cell module 5. Folded back to the glass side (front side). The wrapping paper 6 is pulled toward the center of the solar cell module 5 at the ends of the wrapping paper 6 at both ends folded back to the glass surface side so as to be in close contact with the glass surface and the frame surface. The end portions of the folded wrapping paper 6 and the wrapping paper 6 on the back sheet side are fixed at four points with the tape 7 so that the wrapping paper 6 does not sag. By covering the back sheet side of the solar cell module 5 entirely with the wrapping paper 6, it is possible to protect the terminal box and the connector installed on the back sheet side in addition to the back sheet which is more easily damaged than glass. it can. Moreover, the usage-amount of material can be reduced by covering only a part by the side of a glass surface with the wrapping paper 6. FIG.

When the packaging body 1 is loaded on the pallet 3 by the automatic robot, the position where the claw 10 of the automatic robot chucks the packaging body 1 and the fixing position of the tape 7 are matched. As a result, the nail 10 of the automatic robot is prevented from entering the gap between the frame and the wrapping paper 6, and the frame damage by the nail 10 of the automatic robot is prevented. By taking this form, it is possible to stack pallets with an automatic robot, as in the case of corrugated cardboard packaging, and to suppress an increase in the number of workers.

By providing the tape 7 for fixing the wrapping paper 6 at four places, the packaging body 1 can be held by the four nails of the automatic robot, and thus can be stably held when the automatic robot is loaded.

A plurality of the packages 1 formed in this way are stacked on the pallet 3 larger than the outer shape of the solar cell module 5. FIG. 6 is a diagram illustrating a state in which packaging bodies are stacked by an automatic robot. FIG. 7 is a cross-sectional view showing a state where the automatic robot chucks the package.

The pallet 3 is made of wood in the same manner as that used for normal transportation, and has a hole for inserting a claw of a transfer forklift on the side surface. The size of the pallet 3 is larger than the outer shape of the solar cell module 5 so that the packaging body 1 does not protrude from the pallet 3 even if it is slightly deviated in consideration of the accuracy when stacking with an automatic robot. ing.

After a predetermined number of, for example, 10 packaging bodies 1 are stacked, the packaging body holding members 2 are arranged outside the four corners of the stacked packaging bodies 1. The packaging body holding member 2 is formed by stacking cardboards, is bent along the corners of the packaging body 1, and is disposed so as to cover the corners of the packaging body 1. The height of the packaging body holding member 2 is substantially equal to the height at which the plurality of packaging bodies 1 are stacked. The packaging body holding member 2 is temporarily fixed to the packaging body 1 using tapes 12 outside the four corners of the stacked packaging bodies 1.

A plurality of packaging bodies 1 are stacked on a pallet 3, packaging body holding members 2 are arranged at corners, and the uppermost packaging body 1 has an area substantially equal to that of the packaging body 1 on the uppermost packaging body 1. The protective paper 11 which protects the glass surface of 1 solar cell module 5 is placed. Thereafter, the periphery is wound with a wrapping material 4 to fix the pallet 3, the plurality of packaging materials 1, and the packaging body holding member 2.

The wrapping material 4 is a transparent polyethylene film, for example, and has stretchability and adhesiveness. By wrapping the wrapping material 4 so as to cover the upper corner of the pallet 3, the side surfaces of the plurality of packaging bodies 1, the packaging body holding member 2, and the upper corner of the uppermost packaging body 1, the pallet 3 And the some package 1 and the package holding member 2 can be fixed. Since the wrapping material 4 has stretchability and adhesiveness, the wrapping material 4 can be wound without any gaps by being wound without any slack, and can be easily fixed as a whole. .

Moreover, since the wrapping material 4 is made of a transparent material, the wrapping operation can be easily performed, and the packaging body 1 and the packaging body holding member 2 in the wrapping material 4 can be easily visually recognized even after being fixed. .

Thus, the solar cell module package is formed by winding the pallet 3, the plurality of packages 1, and the package holder 2 with the wrapping material 4. The solar cell module 5 has a strong frame on the outer periphery, and originally has a strength that does not cause a problem even when stacked.

The solar cell module 5 is wrapped with wrapping paper 6 to form a package, and then stacked, whereby the frames can be prevented from being rubbed and scratched. Moreover, it can prevent that the package 1 slip | deviates by hold | maintaining the four corners of the stacked package 1 with the package holding member 2. FIG. Further, by wrapping the wrapping material 4 around the package 1 and the package holding member 2, the package holding member 2 can be firmly pressed against the package 1 and the displacement of the package 1 can be suppressed.

Further, by winding the wrapping material 4 around the upper corner of the pallet 3, the plurality of packaging bodies 1 and the pallet 3 can be fixed. Further, by winding the wrapping material 4 also on the upper corner portion of the uppermost package 1, the package 1 can be prevented from moving up and down and fixed. Thereby, even if there is vibration during transportation, the solar cell module 5 can be firmly fixed to the pallet 3, so that the solar cell module 5 can be prevented from being damaged or damaged.

Since the wrapping paper 6 to be put on the solar cell module 5 is lighter than the cardboard, the weight of the solar cell module package can be reduced. Moreover, since the packaging paper 6 can be broken and the solar cell module 5 can be taken out in the unpacking operation, the workability is remarkably improved as compared with the case where the solar cell module 5 is individually packed with cardboard. Furthermore, since the weight and bulk of unnecessary packing materials after unpacking can be reduced, recovery at the time of disposal is easy. Furthermore, by using the wrapping paper 6 that is cheaper than cardboard, the material cost of the packaging material can be reduced.

Embodiment 2. FIG.
Embodiment 2 of the solar cell module package according to the present invention will be described. The packaging body 1, the packaging material protection member 2, the pallet 3, the wrapping material 4, and the protective paper 11 are the same as those in the first embodiment. FIG. 8: is a perspective view which shows the structure of Embodiment 2 of the solar cell module package concerning this invention. The solar cell module package according to Embodiment 2 has a configuration in which a fixed band 8 and a band protection member 9 are added to the solar cell module package according to Embodiment 1. That is, the solar cell module package according to the second embodiment includes a package 1 in which the solar cell module 5 is wrapped with wrapping paper 6, a pallet 3 on which a plurality of the packages 1 are stacked, and a plurality of stacked packages. A wrapping material holding member 2 that holds one corner, a plurality of wrapping bodies 1, a pallet 3, and a wrapping body holding member 2 that are wrapped together and fixed together; and a plurality of wrapping bodies 1 The fixed band 8 for fixing the pallet 3 and the band protection member 9 disposed between the package 1 and the fixed band 8 are provided.

The fixing band 8 is formed in a loop shape so as to pass through the hole of the pallet 3 and press the upper corner portion of the uppermost packaging body 1 from above the wrapping material 4. And fix it firmly. The band protection member 9 is disposed between the wrapping material 4 and the fixed band 8 and prevents the solar cell module 5 from being damaged by the fixed band 8.

With this configuration, the plurality of packaging bodies 1 and the pallet 3 can be firmly fixed, and the packaging body 1 can be firmly fixed to the pallet 3 even when the wrapping material 4 expands and contracts. In addition, since the band protection member 9 is disposed between the fixed band 8 and the wrapping material 4, the solar cell module 5 is not damaged even if a local force is applied by being pulled by the fixed band 8. Thereby, even if there is vibration during transportation, the solar cell module 5 can be firmly fixed to the pallet 3, so that the solar cell module 5 can be prevented from being damaged or damaged.

As described above, the solar cell module packaging body and the solar cell module packaging method according to the present invention are useful in that the unpacking work is easy and the disposal and return costs of used packaging materials can be reduced. It is suitable for packing solar cell modules to be delivered to a place where a large number of solar cell modules such as mega solar are installed.

1 packaging body, 2 packaging body holding member, 3 pallet, 4 wrapping material, 5 solar cell module, 6 wrapping paper, 7,12 tape, 8 fixed band, 9 band protection member, 10 automatic robot nail, 11 protective paper.

Claims

A package in which the solar cell module is wrapped in wrapping paper;
A pallet on which a plurality of the packages are stacked and mounted;
A package protection member that is installed at the four corners of the plurality of packages stacked on the pallet and protects corners of the package; and
A wrapping material that wraps and fixes the plurality of packaging bodies stacked on the pallet and the packaging body protection member, and the pallet;
A solar cell module package comprising:
The length of the wrapping paper in the longitudinal direction is longer than the length of the solar cell module, and the length in the short direction is the same as the width of the solar cell module,
2. The solar cell according to claim 1, wherein the packaging body is formed by folding the packaging body that covers the back side of the solar cell module to the surface at both short sides of the solar cell module. Module package.
The wrapping body straddles a portion of the wrapping paper covered on the back surface side of the solar cell module and a portion folded back on the front surface side of the solar cell module across the side surface on the long side of the solar cell module. Have tape to glue,
The said tape is installed in four places corresponding to the four corners of the said solar cell module, The solar cell module package of Claim 2 characterized by the above-mentioned.
A fixing band wound around the pallet and a plurality of the packaging bodies stacked on the pallet;
The solar cell module package according to any one of claims 1 to 3, further comprising a band protection member inserted between the package and the fixed band.
Forming a plurality of packages in which the solar cell module is wrapped with wrapping paper;
A step of stacking a plurality of the packages and placing them on a pallet;
Installing a package protection member that protects corners of the package at the four corners of the plurality of packages stacked on the pallet;
Wrapping and fixing a plurality of the packaging bodies stacked on the pallet and the packaging body protection member to the pallet;
A method for packing a solar cell module, comprising: