KR20100039067A - Transport type packing assembly for liquid crystal display device - Google Patents

Abstract

PURPOSE: A packing assembly for a liquid crystal display is provide to minimize damages of the liquid crystal display compare to a conventional packing box by lying down the liquid crystal display after packing in a sealing pack. CONSTITUTION: A packing assembly for a liquid crystal display comprises the following: a sealing pack(300) wrapping the multiple a liquid crystal displays(100) into one bundle to pack the liquid crystal displays; a storing case(200) providing a storing space for the liquid crystal displays wrapped with the sealing pack; a box in which the storing case is inserted; an impact absorbing member(150a) on one side of the liquid crystal display; a second impact absorbing member(150b) on the other side of the liquid crystal display; a second liquid crystal display(100b) located on the upper side of the second impact absorbing member; and a third impact absorbing member on top of the second liquid crystal display.

Description

Transport type packing assembly for liquid crystal display device

The present invention relates to a transport packaging box for a liquid crystal display device, and more particularly to a transport packaging box that can accommodate a larger number of liquid crystal display device than the same floor area.

In line with the recent information age, the display field for displaying a large amount of data by an electric signal as a visual image has also been rapidly developed. Film Transistor (TFT) type liquid crystal display (TFT-LCD) has been developed to replace the existing cathode ray tube (CRT).

The image realization principle of such a liquid crystal display device uses optical anisotropy and polarization property of liquid crystal, and liquid crystal has a thin and long molecular structure, optical anisotropy having an orientation in an array, and its size when placed in an electric field. As a result, the orientation of the molecular arrangement changes.

The liquid crystal display is an essential component of a liquid crystal panel composed of a pair of transparent insulating substrates, each having a liquid crystal layer interposed therebetween and having a field generating electrode formed thereon. The liquid crystal panel includes two electrodes. By changing the electric field of the liver, the alignment direction of the liquid crystal molecules is artificially adjusted, and various images are displayed by the change of the transmittance of light.

On the other hand, such a liquid crystal display device may be packaged in a box unit for short-range or long-distance movement by each manufacturing process or manufacturing step, in this case, packaging box for transport to reduce the impact, logistics cost, transportation cost and time savings A plurality of liquid crystal display devices are packaged in a plurality of units.

1 is an exploded perspective view of a packaging box for transporting a general liquid crystal display.

As shown, the general transport packaging box 20 is usually made of a foamed synthetic resin such as styrofoam, the lower case 23 and the lower case for wrapping and fixing the opposite sides of the modular liquid crystal display 10 facing each other ( The upper case 21 of the lid role is configured to cover the upper portion of the liquid crystal display device 10 accommodated in the 23.

At this time, along the inner side surfaces of the lower case 23, the fitting grooves 22 are formed at a predetermined interval so that both edges of the liquid crystal display device 10 are fitted and fixed, and the respective liquid crystal display devices ( 10) is erected and fixed.

When the liquid crystal display device 10 is erected and fixed to the lower case 23, the upper case 21 is assembled and assembled with the lower case 23, and finally put into a cardboard box (not shown) or the like.

However, the above-described general liquid crystal display shipping box for transport 20 shows some problems, in particular, there is a limit to accommodate the liquid crystal display device 10 of various sizes, such as a laptop, desktop monitor, wall-mounted TV, the maximum storage The number of possible liquid crystal display devices 10 is limited.

In addition, in order to increase the quantity requires a larger floor area, there is a big disadvantage of the burden of logistics costs and transportation costs.

The present invention is to solve the above problems, an object of the present invention is to provide a packaging box for transporting a liquid crystal display device that can accommodate a larger number of liquid crystal display devices compared to the same floor area.

In order to achieve the above object, the present invention is a packaging sealing pack for wrapping a plurality of liquid crystal display device wrapped in a bundle; A storage case providing a storage space in which a plurality of liquid crystal display devices wrapped by the packing seal pack are laid and stored; And a box into which the storage case is inserted, and at least one surface of the plurality of liquid crystal display devices provides a packaging assembly for transporting a liquid crystal display device in which an impact absorbing member is located.

In this case, a second shock absorbing member is further provided on the other surface of the liquid crystal display device, a second liquid crystal display device is positioned above the second shock absorbing member, and a third shock absorbing member is disposed above the second liquid crystal display device. It is interposed, the packaging sealing pack is charged.

In addition, the packaging seal pack is any one selected from a laminate of at least two films selected from an aluminum laminate bag or polyethylene terephthalate (PET), polyethylene, polyamide, and aluminum. One, the shock absorbing member is any one of interlayer and styrofoam or rubber made by foaming polypropylene (polypropylene: PP), polyethylene (polyethylene: PE) and polystyrene (polystyrene: PS).

Here, the storage case has a side surface and the four edges thereof protrude vertically to a predetermined height to define the storage space therein, the separation groove is formed in the direction facing each other on the two edges facing each other of the storage case. .

In addition, the storage case is a foamed synthetic resin material, a plurality of the storage case is inserted into the box.

In the box, a cushion is further provided to protect the upper and lower portions of the storage case.

As described above, according to the present invention, a plurality of liquid crystal display devices having shock absorbing members between them are packaged in a sealing pack for packaging and then placed in a storage case, and the plurality of storage cases are stacked in a box. By mounting the product, the damage of the liquid crystal display device can be minimized as compared to the conventional packing box for storing the liquid crystal display device upright, and the operator can conveniently store the liquid crystal display device in the packing box for transportation. have.

In addition, there is an effect that can prevent the problem that the thickness of the transport packaging box is thick, and also can accommodate a larger number of liquid crystal display devices by assembling the storage case in which the liquid crystal display device is stored in a multi-layer structure, this Through this, it is possible to reduce logistics costs and transportation costs.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

Prior to the full description, the accompanying Figure 2 is an exploded perspective view of the liquid crystal display device as a specific example of the liquid crystal display device accommodated in the transport packaging box according to the present invention.

As illustrated, the liquid crystal display device 100 applicable to the present invention includes a liquid crystal panel 110, a backlight unit 120, a support main 130, a cover bottom 150, and a top cover 140. .

Looking at each of them in more detail, first, the liquid crystal panel 110 plays a key role in image expression, and includes the first and second substrates 112 and 114 bonded to each other with the liquid crystal layer interposed therebetween. do.

In this case, under the premise of an active matrix method, although a plurality of gate lines and data lines are intersected on the inner surface of the first substrate 112, which is commonly referred to as a lower substrate or an array substrate, pixels are defined. In addition, a thin film transistor (TFT) is provided at each intersection point and is connected one-to-one with a transparent pixel electrode formed in each pixel.

In addition, the inner surface of the second substrate 114 called the upper substrate or the color filter substrate may correspond to each pixel, for example, a color filter of red (R), green (G), and blue (B) color, and each of them. A black matrix covering the non-display elements such as gate lines, data lines, and thin film transistors is provided. In addition, a transparent common electrode covering them is provided.

The gate and the data printed circuit boards 116 and 118 are connected along at least one edge of the liquid crystal panel 110, and are brought into close contact with the side of the support main 130 or the back of the cover bottom 150 during the modularization process.

In addition, although not clearly shown in the drawings, the upper and lower alignment layers for determining the initial molecular alignment direction of the liquid crystal are interposed between the two substrates 112 and 114 of the liquid crystal panel 110 and the liquid crystal layer, and filled therebetween. Seal patterns are formed along edges of both substrates 112 and 114 to prevent leakage of the liquid crystal layer.

In this case, polarizers (not shown) are attached to outer surfaces of the first and second substrates 112 and 114, respectively.

A backlight unit 120 for supplying light is provided on a rear surface of the liquid crystal panel 110 such that a difference in transmittance of the liquid crystal panel 110 is expressed to the outside.

The backlight unit 120 includes a lamp 124 arranged along at least one edge length direction of the support main 130, a white or silver reflecting plate 122 seated on the cover bottom 150, and the reflecting plate 122. ) And a plurality of optical sheets 129 interposed thereon.

In addition, a lamp guide 128 for guiding the lamp 124 is further provided, and the lamp guide 128 surrounds the upper and lower sides of the lamp 124 with the inner side facing the light guide plate 126 open and the outer side of the lamp. Along with the protection of 124, light is focused in the light guide plate 126.

In this case, as the light source, the lamp 124 may be a fluorescent lamp such as a cold cathode fluorescent lamp or an external electrode fluorescent lamp. Alternatively, a light-emitting diode lamp may be used in addition to the fluorescent lamp, and when using the light-emitting diode lamp, the lamp guide 128 may be omitted.

At this time, the light guide plate 126 evenly spreads the light incident from the lamp 124 to the inside of the light guide plate 126 while propagating the inside of the light guide plate 126 by a plurality of total reflections to provide a surface light source to the liquid crystal panel 110. do.

The light guide plate 126 may include a pattern of a specific shape on the rear surface to supply a uniform surface light source.

In addition, the reflector plate 122 is positioned on the rear surface of the light guide plate 126 to improve the brightness of the light by reflecting the light passing through the rear surface of the light guide plate 126 toward the liquid crystal panel 110.

The plurality of optical sheets 129 on the light guide plate 126 include a diffusion sheet and at least one light collecting sheet, and diffuse or condense the light passing through the light guide plate 126 to provide a more uniform surface to the liquid crystal panel 110. Let the light source enter.

The liquid crystal panel 110 and the backlight unit 120 are modularized through the top cover 140, the support main 130, and the cover bottom 150. The top cover 140 is formed by the top edge of the liquid crystal panel 110 and the top cover 140. Configure to cover the side.

In addition, the cover bottom 150 on which the liquid crystal panel 110 and the backlight unit 120 are seated is configured to vertically bend the edge of the cover plate 150 in a rectangular plate shape.

A support main 130 having a rectangular frame shape seated on the cover bottom 150 and covering the edges of the liquid crystal panel 110 and the backlight unit 120 is combined with the top cover 140 and the cover bottom 150 to form a liquid crystal. The display device 100 is completed.

In this case, the top cover 140 may also be referred to as a case top or a top case, and the support main 130 may also be referred to as a guide panel, a main support, or a mold frame, and the cover bottom 150 may be referred to as a bottom cover or a lower cover. It is also built.

On the other hand, the above-described liquid crystal display device 100 is only one example of a flat panel display device accommodated in the transport packaging box according to the present invention, the detailed structure may be changed according to the purpose.

In addition, the liquid crystal panel 110 may not be combined with the backlight unit 120, the support main 130, the cover bottom 150, and the top cover 140.

3 is an exploded perspective view of a packing box for transportation according to an embodiment of the present invention.

As shown, the transport packaging box according to the present invention can be largely divided into two parts, a packing sealing pack 300 and a packing seal pack 300 so as to make a bundle by combining a plurality of liquid crystal display device 100 ) May be divided into a storage case 200 which provides a storage space for substantially accommodating the plurality of liquid crystal display devices 100.

Here, the packaging sealing pack 300 has an envelope structure having an opening at one side thereof, and a plurality of liquid crystal display devices 100 are inserted and packaged through the open portions, thereby providing a plurality of liquid crystal display devices 100. Consists of one bundle.

The sealing pack 300 for packaging is made of a synthetic resin, and is not particularly limited, such as an aluminum laminate bag in which a synthetic resin and an aluminum film are laminated, but in particular, polyethylene terephthalate (PET) and polyethylene (polyethylene). It is preferable to use a laminate of two or more films selected from polyamide and aluminum.

In particular, the packaging sealing pack 300 of the present invention is characterized in that the antistatic treatment using an antistatic agent such as graphite powder. Thus, the influence of static electricity on the precision components of the liquid crystal display device 100 is prevented. In addition, it is possible to prevent the occurrence of problems caused by dust and dust by not inhaling the dust and surrounding dust in the atmosphere by static electricity.

After the liquid crystal display device 100 is inserted into the packaging sealing pack 300, the opening may be easily heat sealed.

Here, a shock absorbing member 150 is provided between each of the plurality of liquid crystal display devices 100 packaged in the packing seal pack 300, and at the bottom and top thereof to absorb and cushion external shocks.

That is, in more detail, the first shock absorbing member 150a is provided on the bottom surface thereof, and the first liquid crystal display device 100a is laid on the upper side of the first shock absorbing member 150a to receive the first liquid crystal display. One surface of the device 100a is received against one surface of the first shock absorbing member 150a.

Then, the second shock absorbing member 150b is provided on the other surface of the first liquid crystal display device 100a, the second liquid crystal display device 100b is accommodated thereon, and the upper portion of the second liquid crystal display device 100b is provided. The third shock absorbing member (150c) is provided in the. Repeatedly, the third liquid crystal display device 100c is accommodated on the third shock absorbing member 150c, and a plurality of liquid crystal display devices 100 such as the fourth shock absorbing member 150d are disposed on the sealing pack for packaging. Packed by 300).

Here, the shock absorbing member 150 is a polypropylene (PP), polyethylene (PE) and polystyrene (polystyrene :) for the shock mitigation to absorb the external shock to protect the liquid crystal display 100 It is possible to use any one of kanji and styrofoam or rubber prepared by foaming PS) to be resistant to external impacts.

In addition, the plurality of liquid crystal display devices 100 packaged in the packing seal pack 300 are accommodated in the storage space of the storage case 200, and the storage case 200 has the liquid crystal display device 100 storage space therein ( A) is provided in the shape of a rectangular box (box) having a bottom surface of the rectangular shape and the four edges thereof protruded vertically vertically by a predetermined height, and the front facing the bottom opening is opened through the front opening A plurality of liquid crystal display devices 100 packed in one bundle by the packing seal pack 300 in the storage space (A) of the box is laid down and accommodated.

At this time, the storage case 200 is a separation groove to facilitate the operation when separating the liquid crystal display device 100 accommodated in the storage space (A) at least inside the two edges facing each other from the storage case 200. 210 is formed.

The number of liquid crystal display devices 100 accommodated in the storage case 200 may accommodate a plurality of liquid crystal display devices within a limit not exceeding the side height of the storage case 200. Since the shock absorbing member 150 is provided therebetween, the liquid crystal display 100 may be protected from an external shock.

In addition, the storage case 200 may be made of expanded synthetic resin such as expanded polystyrene (expended polystyrene), urethane foam (polyurethanefoam), expanded polypropylene (expended polypropylene), double foamed polystyrene is often made of styrofoam or styropor (styropor) It is a product called polycarbonate resin, which is manufactured by infusing a polystyrene resin with hydrocarbon gas such as pentane or butane and inflating it, and foaming it. About 98% of the volume is made of air. It is well known for being light and excellent in water resistance, restorability and buffering properties.

In addition, the expanded polypropylene is a product containing a large number of beads (bead) in the form of beads by physically foaming the polypropylene, 5 times, 8 times, 15 times, 20 times, depending on the expansion ratio of the bead particles It can be divided into 30 times, 45 times, 60 times and the like, but in the present invention, it is advantageous to use 15 times or more.

As a result, it has excellent oil resistance, fire resistance, and heat resistance, and has a low thermal expansion rate due to temperature change, thus maintaining a stable specification, and having excellent durability and buffering properties.

Accordingly, the storage case 200 according to the present invention is light in weight and has strength corresponding to the purpose, so that the storage case 200 is suitable for accommodating more liquid crystal display devices 100.

When the plurality of liquid crystal display devices 100 are stored in the storage case 200, the storage case 200 and the packing sealing pack 300 are firmly fixed through an adhesive tape (not shown), and the storage case 200 is provided. ) And the sealing sealing pack 300 to prevent the departure from the storage case 200.

As such, when the liquid crystal display device transport packaging box according to the present invention is accommodated by lying down the liquid crystal display device 100, the liquid crystal display device 100 is wrapped by the storage case 200, and the conventional liquid crystal display device transport packaging packaged upright. Compared to the box 20 of FIG. 1, damage to the liquid crystal display 100 may be minimized.

In addition, in the conventional liquid crystal display packaging box for transport (20 of FIG. 1), the operator directly sets the liquid crystal display device 100, which is transported by lying down to accommodate the liquid crystal display device 100, standing up for transport (box 1). 20), but in the present invention, the operator can conveniently store the liquid crystal display device 100 in a packing box for transportation.

In addition, it is possible to prevent a problem that the thickness of the transport packaging box (20 of FIG. 1) is increased by fitting protrusions (22 of FIG. 1) for storing the conventional liquid crystal display device 100 upright.

And, as shown in Figure 4, the storage case 200 is put in a box 400, such as corrugated cardboard, and finally the packaging is completed, a plurality of boxes into one box 400 for space utilization and material cost reduction The storage case 200 is mounted together.

In more detail, the second storage case 200b which is positioned below the first storage case 200a and coupled to the first storage case 200a is formed in the same structure as the first storage case 200a. A plurality of liquid crystal display devices 100 are also stored in the storage space of the second storage case 200b.

That is, the second storage case 200b also has a rectangular box shape having a bottom surface of the quadrilateral shape and four edges thereof protruding a predetermined height vertically so that the liquid crystal display device storage space A is provided therein, facing the bottom surface. A plurality of liquid crystal display devices 100, which are packaged by the packaging sealing bag 300, are received through the front opening of the viewing opening.

In addition, the third, fourth, and nth storage cases may be continuously positioned below the second storage case 100b, and the structures of the third, fourth, and nth storage cases may also be first and second. Since the same as the structure of the storage case (200a, 200b) will not be described separately.

That is, the storage case 200 of the present invention forms a multi-layered multilayer structure in a box 400 such as cardboard.

In addition, the outer side of each of the first and n-th storage case further includes a cushion (500) for absorbing the impact from the outside, to reduce the impact polypropylene (polypropylene: PP), polyethylene (polyethylene: PE) and polystyrene (PS) can be used either foamed or styrofoam or rubber prepared to resist external impact.

Hereinafter, the packaging method of the shipping box according to the present invention will be described with reference to Figures 5a to 5e and the packaging method in order with reference to Figures 3 and 4 above.

First, as shown in FIG. 5A, the first shock absorbing member 150a is laid horizontally on the bottom surface thereof, and the first liquid crystal display device 100a is laid down on the upper portion thereof as shown in FIG. 5B.

The second shock absorbing member 150b is disposed on the first liquid crystal display device 100a, and the second liquid crystal display device 100b is seated on the second shock absorbing member 150b. At least eight liquid crystal display devices 100 are stacked through the operation such as providing a third shock absorbing member 150c on the upper portion 100b.

Here, the shock absorbing members 150 are provided between the eight liquid crystal display devices 100, and the shock absorbing members 150 are provided at the top and the bottom of the stacked liquid crystal display devices 100. In stacking two liquid crystal display devices 100, a total of nine shock absorbing members 150 are provided.

Thereafter, the plurality of stacked liquid crystal display devices 100 as shown in FIG. 5C are inserted through the openings of the packing seal pack 300 and packaged in a bundle.

After the liquid crystal display device 100 packed by the packing seal pack 300 is laid in the storage space A of the storage case 200, as shown in FIG. 5D, the adhesive tape 600 is stored therein. Fix it.

Then, the process is repeated to accommodate the plurality of liquid crystal display devices 100, which are packaged by the packing seal pack 300, in at least three storage cases 200.

Subsequently, as shown in FIG. 5E, a plurality of storage cases 200 are mounted in the box 400 to complete packaging.

Therefore, a plurality of liquid crystal display devices are packaged in the sealing pack 300 for packaging with the shock absorbing member 150 interposed therebetween, and are stored in the storage case 200, and the plurality of storage cases 200 are stored therein. It is provided to form a multi-layer in the box 400.

In this case, it is preferable to further include a cushion 500 for shock alleviation at the bottom and the top of the plurality of storage cases 200 mounted in the box 400.

By Isa yisa thereto after the shock absorption member is packaging a plurality of liquid crystal display device provided in the packing seal pack housed lay it in the carrying case, to occur with multi-layer the number of the storing case such as this in a box mounted as described above, In addition, the damage of the liquid crystal display device 100 can be minimized as compared to the conventional packaging box for storing the liquid crystal display device (20 in FIG. 1), and the conventional packaging box for transportation for the liquid crystal display device (20 in FIG. 1) Although the operator has to erect the liquid crystal display device 100, which is laid down and transported in order to store the liquid crystal display device 100 upright, has to be stored in a transport packing box (20 in FIG. 1), but in the present invention, the worker More conveniently, the liquid crystal display device 100 may be stored in a shipping box.

In addition, it is possible to prevent the problem that the thickness of the transport packaging box (20 of FIG. 1) is thick due to the fitting groove (22 of FIG. 1) for storing the conventional liquid crystal display device 100 upright.

In addition, the storage case 200 in which the liquid crystal display device 100 is accommodated may be assembled in a multilayer structure to accommodate a larger number of liquid crystal display devices 100, thereby improving productivity, such as reducing material costs and logistics costs. have.

The present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit of the present invention.

1 is an exploded perspective view of a typical liquid crystal display packaging box.

2 is an exploded perspective view of a liquid crystal display device;

3 is an exploded perspective view of a packing box for transportation according to an embodiment of the present invention.

4 is an exploded perspective view schematically illustrating a state in which a packing box for transportation is mounted inside a box.

Figure 5a ~ 5e is a photograph showing the packaging method of the packaging box for transportation according to an embodiment of the present invention.

Claims (10)

A packing seal pack for wrapping a plurality of liquid crystal display devices in a bundle; A storage case providing a storage space in which a plurality of liquid crystal display devices wrapped by the packing seal pack are laid and stored; A box into which the storage case is inserted And at least one surface of the plurality of liquid crystal display devices, wherein the shock absorbing member is positioned. The method of claim 1, A second shock absorbing member is further provided on the other surface of the liquid crystal display device, a second liquid crystal display device is positioned on the second shock absorbing member, and a third shock absorbing member is interposed on the second liquid crystal display device. Liquid crystal display shipping assembly. The method of claim 1, The packaging sealing pack is a packaging assembly for transporting the liquid crystal display device. The method of claim 3, wherein The packing seal pack is any one selected from an aluminum laminate bag or a laminate of two or more films selected from polyethylene terephthalate (PET), polyethylene, polyamide, and aluminum. Liquid crystal display shipping assembly. The method of claim 1, The shock absorbing member is a packaging assembly for transporting a liquid crystal display device which is any one of kanji and styrofoam or rubber manufactured by foaming polypropylene (PP), polyethylene (PE) and polystyrene (PS). The method of claim 1, And the storage case has a bottom surface and a side surface at which four edges thereof protrude vertically to a predetermined height to define the storage space therein. The method of claim 6, Packaging assembly for transporting a liquid crystal display device having a separation groove formed in the direction facing each other on two opposite edges of the storage case. The method of claim 1, The storage case is a packaging assembly for transporting a liquid crystal display device made of a foamed synthetic resin. The method of claim 1, The storage case is a packaging assembly for transporting a liquid crystal display device is inserted into the plurality of boxes. The method of claim 9, And a cushion for protecting the upper and lower portions of the storage case in the box.

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