1. Field of the Invention
The present invention relates to the field of packaging, and in particular to a liquid crystal module package box.
2. The Related Arts
In the field of manufacture of liquid crystal display devices, the manufacture of liquid crystal display devices includes a process of assembling, which assembles various components, including a liquid crystal module, a main control circuit, and an enclosure, together. These components are each manufactured in advance and packaged for being later assembled to form a complete liquid crystal display device. It is inevitable that a liquid crystal module may be impacted by external forces and falling during the shipping thereof. To well protect the liquid crystal module, it is desired to add a cushioning structure in a package box to spread acting forces induced by external forces and absorb the impact energy of falling.
A conventional liquid crystal module package box is illustrated in
To set up, the bottom cushioning board 302 is first positioned in the box body 100. Next, liquid crystal modules 700 are sequentially fit into the receiving slots 305 and the positioning slots 307. Finally, the top cushioning unit 500 is set on the tops of the liquid crystal modules. It is necessary to fill in some cushioning substances in the process of packaging. Commonly used cushioning components are generally made of foaming materials, such as expandable polyethylene (EPE) and expandable polystyrene (EPS). In minor applications, materials, such as corrugated boards, pulp packagings, and vacuum-formable substances, are used. Cushioning components made of these materials have a high space occupation rate, which affects the cost of transportation.
A newly-developed cushioning material, namely inflatable packaging, is available in the packaging industry. Such a product available from the manufacturers is a film like product. Before use, a user must inflate the product with an air pump to show a tubular like or sack like configuration, which can then be filled between a packaged article and a package box to provide a cushioning effect. It has been proven in the industry that the cushioning effect is similar to the foaming materials. Since it is supplied in a film like form, it is possible to greatly reduce the space needed for warehousing, thereby reducing the cost of use of the cushioning material.
An air column package available in the market is generally used to pack a single article. For packaging of plate-like products, if each plate is individually packaged and then deposited in a package box, then the amount used will be excessive (as shown in
An object of the present invention is to provide a liquid crystal module package box, which uses air cushioning bags and retention racks to package liquid crystal modules for effective protection of the liquid crystal module and prevention of the liquid crystal module from damages caused by external forces and which has a simple structure of packaging, reduced space occupation rate, and effective reduction of transportation cost.
To achieve the object, the present invention provides a liquid crystal module package box, which comprises a box body, two retention racks that are arranged in the box body and opposite to each other, and a plurality of sets of air-cushioning bags, whereby to package, liquid crystal modules are positioned between the two retention racks and the plurality of sets of air-cushioning bags is alternately fit over the liquid crystal modules.
Each set of the air-cushioning bags comprises two bags that are respectively fit over two ends of a liquid crystal module.
The retention racks each comprises a first fixing unit, a second fixing unit connected to the first fixing unit, and a third fixing unit connected to the second fixing unit. The first and third fixing units are bent to the same side of the second fixing unit so as to form a U-shaped receiving space. The liquid crystal modules are receivable in the receiving space.
The first fixing unit has a side surface that faces the third fixing unit and is provided with a plurality of first cushioning members in a spaced manner. The second fixing unit forms a plurality of second cushioning members in a spaced manner to correspond to the first cushioning members. The third fixing unit forms a plurality of third cushioning members in a spaced manner to correspond to the second cushioning members. Each of the second cushioning members has two ends respectively connected to the corresponding first and third cushioning members so as to define a plurality of spaced cushioning units. A plurality of holding channels is formed between every two cushioning units and between the cushioning units and the box body. The liquid crystal modules are received in or on both the holding channels and the cushioning units.
The first, second, and third fixing units are integrally formed together.
The first, second, and third fixing units are integrally formed of a foamed cushioning material, corrugated board, or a vacuum-formable material.
The air-cushioning bags are each formed by connecting of a plurality of cushioning air columns to form a sheet with opening being sealed with hot pressing.
The cushioning air columns have a diameter that smaller than height of the second cushioning members.
Each of the cushioning air columns comprises an air-filling hole and a sealing device that seals the air-filling hole.
The box body comprises a paper box or a plastic box.
The present invention also provides a liquid crystal module package box, which comprises a box body, two retention racks that are arranged in the box body and opposite to each other, and a plurality of sets of air-cushioning bags, whereby to package, liquid crystal modules are positioned between the two retention racks and the plurality of sets of air-cushioning bags is alternately fit over the liquid crystal modules;
wherein each set of the air-cushioning bags comprises two bags that are respectively fit over two ends of a liquid crystal module;
wherein the retention racks each comprises a first fixing unit, a second fixing unit connected to the first fixing unit, and a third fixing unit connected to the second fixing unit, the first and third fixing units being bent to the same side of the second fixing unit so as to form a U-shaped receiving space, the liquid crystal modules being receivable in the receiving space;
wherein the first fixing unit has a side surface that faces the third fixing unit and is provided with a plurality of first cushioning members in a spaced manner, the second fixing unit forming a plurality of second cushioning members in a spaced manner to correspond to the first cushioning members, the third fixing unit forming a plurality of third cushioning members in a spaced manner to correspond to the second cushioning members, each of the second cushioning members having two ends respectively connected to the corresponding first and third cushioning members so as to define a plurality of spaced cushioning units, a plurality of holding channels being formed between every two cushioning units and between the cushioning units and the box body, the liquid crystal modules being received in or on both the holding channels and the cushioning units;
wherein the first, second, and third fixing units are integrally formed together;
wherein the first, second, and third fixing units are integrally formed of a foamed cushioning material, corrugated board, or a vacuum-formable material;
wherein the air-cushioning bags are each formed by connecting of a plurality of cushioning air columns to form a sheet with opening being sealed with hot pressing;
wherein the cushioning air columns have a diameter that smaller than height of the second cushioning members;
wherein each of the cushioning air columns comprises an air-filling hole and a sealing device that seals the air-filling hole; and
wherein the box body comprises a paper box or a plastic box.
The efficacy of the present invention is that the present invention provides a liquid crystal module package box, which comprises retention racks and air-cushioning bags arranged inside the box body to effectively protect the liquid crystal modules so as to avoid damages of the liquid crystal modules caused by external forces. Further, the package structure is simple, where air-cushioning bags are alternately fit over the liquid crystal modules to provide a high utilization rate and lower down material cost. Further, the retention racks are provided with cushioning units to effectively cushion the liquid crystal modules and also to eliminate height difference between adjacent ones of the liquid crystal modules so as to ensure flatness and further protect the liquid crystal modules.
For better understanding of the features and technical contents of the present invention, reference will be made to the following detailed description of the present invention and the attached drawings. However, the drawings are provided for the purposes of reference and illustration and are not intended to impose undue limitations to the present invention.
The technical solution, as well as beneficial advantages, of the present invention will be apparent from the following detailed description of an embodiment of the present invention, with reference to the attached drawings. In the drawings:
To further expound the technical solution adopted in the present invention and the advantages thereof, a detailed description is given to a preferred embodiment of the present invention and the attached drawings.
Referring to
Each set of air-cushioning bags 4 comprises two bags that are respectively fit over two ends of a liquid crystal module 6.
The retention racks 2 each comprise a first fixing unit 22, a second fixing unit 24 connected to the first fixing unit 22, and a third fixing unit 26 connected to the second fixing unit 24. The first, second, and third fixing units 22, 24, 26 are integrally formed together. Preferably, the first, second, and third fixing units 22, 24, 26 are integrally formed of a foamed cushioning material, corrugated board, or a vacuum-formable material. The first and third fixing units 22, 26 are bent to the same side of the second fixing unit 24 so as to form a U-shaped receiving space 226. The liquid crystal modules 6 are received in the receiving space 226.
The first fixing unit 22 has a side surface that faces the third fixing unit 26 and is provided with a plurality of first cushioning members 222 in a spaced manner. The second fixing unit 24 forms a plurality of second cushioning members 242 in a spaced manner to correspond to the first cushioning members 222. The third fixing unit 26 forms a plurality of third cushioning members 262 in a spaced manner to correspond to the second cushioning members 242. Each of the second cushioning members 242 has two ends respectively connected to the corresponding first and third cushioning members 222, 262 so as to define a plurality of spaced cushioning units 246. A plurality of holding channels 264 is formed between every two cushioning units 246 and between the cushioning units 246 and the box body. The liquid crystal modules 6 are received in or on both the holding channels 264 and the cushioning units 246. The air-cushioning bags 4 are fit over two ends of each of the liquid crystal modules 6 that are received in the holding channels 264. The liquid crystal modules 6 that are positioned on the cushioning units 246 may lean against outside surfaces of the air-cushioning bags 4 to also gain excellent cushioning protection. This arrangement allows only one sheet of the air-cushioning bag 4 to exist between two adjacent ones of the liquid crystal modules 6, effectively reducing the package thickness, increasing the quantity that a single box may transport, thereby effectively lowering down transportation cost.
The air-cushioning bags 4 are each formed by connecting of a plurality of cushioning air columns 42 to form a sheet with opening being sealed with hot pressing.
Referring to
Each of the cushioning air columns 42 has an air-filling hole (not shown) and a sealing device (not shown) that seals the air-filling hole. To transport the air-cushioning bags 4, no air is filled in the cushioning air columns 42 so as to show a flat form, which gives a small space occupation rate and the effectively lower down the transportation cost. To package liquid crystal modules 6, air is filled through the air-filling holes into the cushioning air columns 42 and the sealing devices are applied to seal the air inside the cushioning air column 42 for effective cushioning of the liquid crystal modules to prevent the liquid crystal modules from being damaged by external forces.
The box body can be a paper box or a plastic box, preferably a paper box, to further reduce the transportation cost.
Referring to
In summary, the present invention provides a liquid crystal module package box, which comprises retention racks and air-cushioning bags arranged inside the box body to effectively protect the liquid crystal modules so as to avoid damages of the liquid crystal modules caused by external forces. Further, the package structure is simple, where air-cushioning bags are alternately fit over the liquid crystal modules to provide a high utilization rate and lower down material cost. Further, the retention racks are provided with cushioning units to effectively cushion the liquid crystal modules and also to eliminate height difference between adjacent ones of the liquid crystal modules so as to ensure flatness and further protect the liquid crystal modules.
Based on the description given above, those having ordinary skills of the art may easily contemplate various changes and modifications of the technical solution and technical ideas of the present invention and all these changes and modifications are considered within the protection scope of right for the present invention.
Number | Date | Country | Kind |
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201210381139.6 | Oct 2012 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN12/83524 | 10/26/2012 | WO | 00 | 12/19/2012 |