PACKAGE BOX OF LIQUID CRYSTAL DISPLAY MODULE

Abstract

The present invention provides a liquid crystal display module package box, which includes a box body, a retention frame arranged in the box body, and a cushioning device arranged in the box body. The retention frame forms therein a plurality of receiving channels corresponding to liquid crystal display modules. The cushioning device includes a first cushioning unit arranged between the retention frame and the box body and a plurality of second cushioning units arranged between the liquid crystal display modules and between the liquid crystal display modules and the box body. The first cushioning unit is formed by connecting a plurality of first air columns. The second cushioning unit is formed by connecting a plurality of second air columns. The liquid crystal display module package box provides a fully covered protection to the liquid crystal display modules received in the box body.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to the field of packaging, and in particular to a package box of liquid crystal display module.

2. The Related Arts

It is inevitable that a liquid crystal display module may be impacted by external forces and falling during the shipping thereof. To well protect the liquid crystal display module, it is desired to add a cushioning device in a package box to spread impact forces induced by external forces and absorb the impact energy of falling.

A conventional package box of liquid crystal display module is illustrated in FIG. 1. The package box comprises a box body 100, a bottom cushioning structure 300, and a top cushioning structure 500. The bottom cushioning structure 300 comprises a cushioning bottom board 302, two cushioning side boards 304 that are mounted on the cushioning bottom board 302 and arranged at two ends of the cushioning bottom board 302, and three positioning cushioning boards 306 that are mounted on the cushioning bottom board 302 and arranged, in a spaced manner, between the two cushioning side boards 304. The two cushioning side boards 304 are both provided with a plurality of spaced receiving slots 305. The three positioning cushioning boards 306 are all provided with a plurality of positioning slots 307 corresponding to the receiving slots 305. The top cushioning structure 500 that is used in combination with the bottom cushioning structure 300 has a structure corresponding to that of the bottom cushioning structure 300.

To set up, the bottom cushioning structure 300 is first positioned in the box body 100. Next, liquid crystal display modules 700 are sequentially fit into the receiving slots 305 and the positioning slots 307. Finally, the top cushioning structure 500 is set on the tops of the liquid crystal display modules. It is sometimes necessary to use some cushioning substances in the process of packaging. Commonly used cushioning blocks are made of foaming substances, such as expandable polyethylene (EPE) and ethylene-vinyl acetate (EVA) copolymer. In minor applications, materials, such as corrugated boards, pulp packagings, and vacuum-formable substances, are used. Cushioning components made of these materials are disadvantageous of high space occupation rate, which affect the cost of transportation.

In addition, the structures of these cushioning devices are only protective for edges of the modules loaded therein and occupy a great amount of storage space. As shown in FIG. 2, they comprise a top cushioning structure 500 positioned on tops of liquid crystal display modules 700 and a bottom cushioning structure 300 positioned on bottoms of the liquid crystal display modules 700. The space between the liquid crystal display modules 700 that suspends in air is most susceptible to impact caused by abrupt acceleration or sudden stop of a vehicle during the transportation thereof. This may eventually lead to undesired damage of the liquid crystal display modules 700 during the process of transportation.

SUMMARY OF THE INVENTION

An object of the present invention is to provide a liquid crystal display module package box, which uses an air-column type cushioning unit to serve as a cushioning device for packaging liquid crystal display modules, wherein the cushioning device consumes a small amount of space for storage of packaging substance and provides a fully-covered protection from circumference to center of a liquid crystal display module loaded in the package box.

To achieve the object, the present invention provides a liquid crystal display module package box, which comprises a box body, a retention frame arranged in the box body, and a cushioning device arranged in the box body. The retention frame forms therein a plurality of receiving channels corresponding to liquid crystal display modules. The cushioning device comprises a first cushioning unit arranged between the retention frame and the box body and a plurality of second cushioning units arranged between the liquid crystal display modules and between the liquid crystal display modules and the box body. The first cushioning unit is formed by connecting a plurality of first air columns. The second cushioning unit is formed by connecting a plurality of second air columns.

The retention frame is of a U-shaped configuration, which comprises a bottom board and side boards mounted to two ends of the bottom board.

The first cushioning unit is of a U-shaped configuration corresponding to the retention frame.

The second cushioning units are each in the form of a plate like structure and are arranged between the liquid crystal display modules and between the liquid crystal display modules and the box body.

The cushioning device further comprises a third cushioning unit. The third cushioning unit is formed by connecting a plurality of third air columns to be of an L-shaped configuration positionable on corners of the liquid crystal display modules extending outside the retention frame.

The second cushioning units are each of a U-shaped configuration, which comprises a first cushioning section, a second cushioning section, and a connection section connecting the first cushioning section and the second cushioning section. The second cushioning unit is positionable on a side the liquid crystal display modules that is away from the retention frame.

The first cushioning section and the second cushioning section are of identical structure and size.

The first cushioning section, the second cushioning section, and the connection section are integrally formed.

The first, second, and third air columns of the first, second, and third cushioning units are each provided with an air-filling hole and a closure device corresponding to the air-filling hole.

The retention frame is made of a foamed cushioning substance, corrugated board, or a vacuum-formable substance.

The present invention also provides a liquid crystal display module package box, which comprises a box body, a retention frame arranged in the box body, and a cushioning device arranged in the box body, the retention frame forming therein a plurality of receiving channels corresponding to liquid crystal display modules, the cushioning device comprising a first cushioning unit arranged between the retention frame and the box body and a plurality of second cushioning units arranged between the liquid crystal display modules and between the liquid crystal display modules and the box body, the first cushioning unit being formed by connecting a plurality of first air columns, the second cushioning unit being formed by connecting a plurality of second air columns;

wherein the retention frame is of a U-shaped configuration, which comprises a bottom board and side boards mounted to two ends of the bottom board;

wherein the first cushioning unit is of a U-shaped configuration corresponding to the retention frame;

wherein the second cushioning units are each in the form of a plate like structure and are arranged between the liquid crystal display modules and between the liquid crystal display modules and the box body;

wherein the cushioning device further comprises a third cushioning unit, the third cushioning unit being formed by connecting a plurality of third air columns to be of an L-shaped configuration positionable on corners of the liquid crystal display modules extending outside the retention frame; and

wherein the first, second, and third air columns of the first, second, and third cushioning units are each provided with an air-filling hole and a closure device corresponding to the air-filling hole; and

wherein the retention frame is made of a foamed cushioning substance, corrugated board, or a vacuum-formable substance.

The efficacy of the present invention is that the present invention provides a liquid crystal display module package box, which uses an air column type cushioning unit to serve as a package cushioning device for liquid crystal display modules. The cushioning device comprises separate components that are installed separately so that besides the improved protection effect provided to the liquid crystal display modules by air layers formed by the air columns, the separately installed cushioning device allows of fully covered protection from a circumference to center of the liquid crystal display modules received in the box body. In addition, the cushioning device is made of a material that is of low cost, saves the transportation space, and thus lowers down the expense of transportation.

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.

BRIEF DESCRIPTION OF THE DRAWINGS

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:

FIG. 1 is a schematic view illustrating an operational flow of a conventional way of packaging a liquid crystal display module;

FIG. 2 is a side elevational view schematically illustrating a cushioning device of FIG. 1 matching a liquid crystal display module;

FIG. 3 is a schematic view illustrating an operational flow of packaging liquid crystal display modules with a liquid crystal display module package box according to an embodiment of the present invention;

FIG. 4 is a perspective view showing a first cushioning unit of FIG. 3;

FIG. 5 is a schematic view illustrating packaging liquid crystal display modules with a liquid crystal display module package box according to another embodiment of the present invention; and

FIG. 6 is a perspective view showing a second cushioning unit of FIG. 5.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

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 FIGS. 3 and 4, the present invention provides a liquid crystal display module package box, which comprises a box body (not shown), a retention frame 2 arranged in the box body, and a cushioning device arranged in the box body.

The retention frame 2 is of a U-shaped configuration, which comprises a bottom board 22 and side boards 24 mounted to two ends of the bottom board 22. The retention frame 2 forms therein a plurality of receiving channels 26 respectively corresponding to liquid crystal display modules 10. To set up, the liquid crystal display modules 10 are sequentially fit into the plurality of receiving channels 26. During transportation, the retention frame 2 provides an excellent fixing effect to the liquid crystal display modules 10 received in the retention frame 2. The retention frame 2 is made of foamed cushioning substances, corrugated boards, or vacuum-formable substances, and is preferably made of corrugated boards. The corrugated boards provide a more secure protection to the liquid crystal display modules 10. In view of the nature of corrugated boards, corrugated boards show a pressure resistance characteristic that is far better than regular packaging materials and is more environmentally conservative than traditional packaging. The retention frame 2 made of corrugated boards can replace the traditional cushioning materials and this is environment friendly and provides improved strength for resisting pressure, making them an excellent cushioning material and retaining material.

The cushioning device comprises a first cushioning unit 4 arranged between the retention frame 2 and the box body and a plurality of second cushioning units 6 arranged between the liquid crystal display modules 10 and between the liquid crystal display modules 10 and the box body. The first cushioning unit 4 is formed by connecting a plurality of first air columns 41. The second cushioning units 6 are each formed by connecting a plurality of second air columns 61. The first cushioning unit 4 is of a U-shaped configuration corresponding to the retention frame 2. The U-shaped configuration of the first cushioning unit 4 protects the bottom board 22 and the side boards 24 of the retention frame 2 by completely covering outside surface of the retention frame 2 thereby effecting protection of the liquid crystal display modules 10 received in the retention frame 2.

The second cushioning units 6 are in the form of a plate like structure, which is arranged between the liquid crystal display modules 10 and between the liquid crystal modules 10 and the box body. During transportation, when a vehicle is suddenly accelerated or is abruptly stopped, the second cushioning units 6 that are arranged between the liquid crystal module 10 and between them and the box body provide excellent protection between the liquid crystal display modules 10 and them and the box body to effectively reduce damage caused during the transportation of the liquid crystal display modules 10 and increase the safety factor of shipping and warehousing of the liquid crystal display modules 10.

The cushioning device further comprises third cushioning units 8. The third cushioning units 8 are each formed by connecting a plurality of third air columns 81 to be of an L-shaped configuration for being positionable on corners of the liquid crystal display modules 10 that extend outside the retention frame 2. The third cushioning units 8 provide an excellent protection layer to top side of the liquid crystal display modules 10.

The first, second, and third air columns 41, 61, 81 of the first, second, and third cushioning units are each provided with an air-filling hole (not shown) and a closure device (not shown) corresponding to the air-filling hole. Through filling of air made with the air-filling hole, the entire device is inflated. After the inflation, the air-filling hole is closed by the closure device in order to realize a cushioning effect. Since the air-filling holes are respectively provided to each of the first, second, and third air columns 41, 61, 81 and since each of the first, second, and third air columns 41, 61, 81 is not in communication with the air column adjacent thereto, any one of the first, second, and third air columns 41, 61, 81 damaged does no affect the cushioning effect of the cushioning units.

To ship the cushioning device, the internal air is first released to reduce the space occupation ratio and thus lowering down transportation expense.

Referring to FIGS. 5 and 6, schematic views of a liquid crystal display module package box according to another embodiment of the present invention are given, which comprises a box body (not shown), a retention frame 2 arranged in the box body, and a cushioning device arranged in the box body.

The retention frame 2 is of a U-shaped configuration, which comprises a bottom board 22 and side boards 24 mounted to two ends of the bottom board. The retention frame 2 forms therein a plurality of receiving channels 26 respectively corresponding to liquid crystal display modules 10. To set up, the liquid crystal display modules 10 are sequentially fit into the plurality of receiving channels 26. During transportation, the retention frame 2 provides an excellent fixing effect to the liquid crystal display modules 10 received in the retention frame 2. The retention frame 2 is made of foamed cushioning substances, corrugated boards, or vacuum-formable substances, and is preferably made of corrugated boards. The corrugated boards provide a more secure protection to the liquid crystal display modules 10. In view of the nature of corrugated boards, corrugated boards show a pressure resistance characteristic that is far better than regular packaging materials and is more environmentally conservative than traditional packaging. The retention frame 2 made of corrugated boards can replace the traditional cushioning materials and this is environment friendly and provides improved strength for resisting pressure, making them an excellent cushioning material and retaining material.

The second cushioning units 6′ are each formed by connecting a plurality of second air columns 61′ to show a U-shaped configuration that comprises a first cushioning section 62′, a second cushioning section 66′, and a connection section 64′ connecting between the first cushioning section 62′ and the second cushioning section 66′. The second cushioning units 6′ are positionable on the side of the liquid crystal display modules 10 that is away from the retention frame. The first cushioning section 62′, the second cushioning section 66′, and the connection section 64′ are integrally formed. The first cushioning section 62′ and the second cushioning section 66′ are of identical structure and size. To install, the first cushioning section 62′ and the second cushioning section 66′ are respectively set at front and rear surfaces of one liquid crystal display module 10 with the connection section 64′ positioned on a top of the liquid crystal display module 10. The second cushioning unit 6′ provides excellent protection to the front and rear surfaces and the top of the liquid crystal display module 10 and allows of the omission of a cushioning unit that protects the top of the liquid crystal display module 10 so as to reduce cost. Further, the second cushioning unit 6′ is integrally formed, showing a simple structure and easy installation.

In summary, the present invention provides a liquid crystal display module package box, which uses an air column type cushioning unit to serve as a package cushioning device for liquid crystal display modules. The cushioning device comprises separate components that are installed separately so that besides the improved protection effect provided to the liquid crystal display modules by air layers formed by the air columns, the separately installed cushioning device allows of fully covered protection from a circumference to center of the liquid crystal display modules received in the box body. In addition, the cushioning device is made of a material that is of low cost, saves the transportation space, and thus lowers down the expense of transportation.

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.

Claims

1. A liquid crystal display module package box, comprising a box body, a retention frame arranged in the box body, and a cushioning device arranged in the box body, the retention frame forming therein a plurality of receiving channels corresponding to liquid crystal display modules, the cushioning device comprising a first cushioning unit arranged between the retention frame and the box body and a plurality of second cushioning units arranged between the liquid crystal display modules and between the liquid crystal display modules and the box body, the first cushioning unit being formed by connecting a plurality of first air columns, the second cushioning unit being formed by connecting a plurality of second air columns.

2. The liquid crystal display module package box as claimed in claim 1, wherein the retention frame is of a U-shaped configuration, which comprises a bottom board and side boards mounted to two ends of the bottom board.

3. The liquid crystal display module package box as claimed in claim 2, wherein the first cushioning unit is of a U-shaped configuration corresponding to the retention frame.

4. The liquid crystal display module package box as claimed in claim 1, wherein the second cushioning units are each in the form of a plate like structure and are arranged between the liquid crystal display modules and between the liquid crystal display modules and the box body.

5. The liquid crystal display module package box as claimed in claim 1, wherein the cushioning device further comprises a third cushioning unit, the third cushioning unit being formed by connecting a plurality of third air columns to be of an L-shaped configuration positionable on corners of the liquid crystal display modules extending outside the retention frame.

6. The liquid crystal display module package box as claimed in claim 1, wherein the second cushioning units are each of a U-shaped configuration, which comprises a first cushioning section, a second cushioning section, and a connection section connecting the first cushioning section and the second cushioning section, the second cushioning unit being positionable on a side the liquid crystal display modules that is away from the retention frame.

7. The liquid crystal display module package box as claimed in claim 6, wherein the first cushioning section and the second cushioning section are of identical structure and size.

8. The liquid crystal display module package box as claimed in claim 6, wherein the first cushioning section, the second cushioning section, and the connection section are integrally formed.

9. The liquid crystal display module package box as claimed in claim 5, wherein the first, second, and third air columns of the first, second, and third cushioning units are each provided with an air-filling hole and a closure device corresponding to the air-filling hole.

10. The liquid crystal display module package box as claimed in claim 1, wherein the retention frame is made of a foamed cushioning substance, corrugated board, or a vacuum-formable substance.

11. A liquid crystal display module package box, comprising a box body, a retention frame arranged in the box body, and a cushioning device arranged in the box body, the retention frame forming therein a plurality of receiving channels corresponding to liquid crystal display modules, the cushioning device comprising a first cushioning unit arranged between the retention frame and the box body and a plurality of second cushioning units arranged between the liquid crystal display modules and between the liquid crystal display modules and the box body, the first cushioning unit being formed by connecting a plurality of first air columns, the second cushioning unit being formed by connecting a plurality of second air columns;

wherein the retention frame is of a U-shaped configuration, which comprises a bottom board and side boards mounted to two ends of the bottom board;

wherein the first cushioning unit is of a U-shaped configuration corresponding to the retention frame;

wherein the second cushioning units are each in the form of a plate like structure and are arranged between the liquid crystal display modules and between the liquid crystal display modules and the box body;

wherein the cushioning device further comprises a third cushioning unit, the third cushioning unit being formed by connecting a plurality of third air columns to be of an L-shaped configuration positionable on corners of the liquid crystal display modules extending outside the retention frame;

wherein the first, second, and third air columns of the first, second, and third cushioning units are each provided with an air-filling hole and a closure device corresponding to the air-filling hole; and

wherein the retention frame is made of a foamed cushioning substance, corrugated board, or a vacuum-formable substance.