CN109229963A

CN109229963A - Liquid crystal panel-packaging box

Info

Publication number: CN109229963A
Application number: CN201810917337.7A
Authority: CN
Inventors: 王生燕
Original assignee: Huizhou China Star Optoelectronics Technology Co Ltd
Current assignee: Huizhou China Star Optoelectronics Technology Co Ltd
Priority date: 2018-08-13
Filing date: 2018-08-13
Publication date: 2019-01-18

Abstract

The invention discloses a kind of liquid crystal panel-packaging boxes, including a bottom plate and multiple side plates being vertically installed on bottom plate；Side plate includes at least the first side plate and the second side plate, and the second side plate is parallel and is right against first side plate；First side plate and the second side plate are symmetrically arranged with several strip grooves；Strip groove includes: multiple lateral strip grooves and multiple longitudinal strip grooves, these lateral strip grooves and these longitudinal strip grooves on same side plate are interlaced, and it is latticed to form cross.Liquid crystal panel-packaging box of the invention is by being arranged latticed strip groove, the liquid crystal display panel of multi-thickness, size can be stored, the type of die sinking can effectively be reduced, the placement position of liquid crystal display panel can quickly be adjusted, the liquid crystal display panel that level is put such as is changed to vertical display, the limitation of the liquid crystal display panel modes of emplacement of existing packing case is further improved, and structure is simple, die sinking is convenient.

Description

Liquid crystal panel packing case

Technical Field

The invention relates to the field of liquid crystal display screen packaging and the like, in particular to a liquid crystal display panel packaging box.

Background

The liquid crystal panel is an important component for determining the brightness, contrast, color and visual angle of the liquid crystal display, the price trend of the liquid crystal panel directly influences the price of the liquid crystal display, and the quality and the technology of the liquid crystal panel are related to the overall performance of the liquid crystal display.

At present, the size of the liquid crystal panel is different due to different types, models or production processes, each size can only correspond to one packing box, and one packing box corresponds to one mould. Because the resistant quality in every model liquid crystal display panel surface is different, and the customer demand is also different, consequently, some liquid crystal display panels need keep flat, need erect to put a bit. However, the current packing box can only select one of the vertical placement and the horizontal placement, which causes the limitation of the placement mode of the panel.

When glass erects to put and has the quality unusual, need the adjustment to place the direction just can solve, perhaps keep flat and have the quality unusual, need adjust for vertical just can solve unusually, just need open a set of mould alone in addition this moment, unable sharing leads to the fact the mould extravagant.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a liquid crystal panel packaging box, which can freely select the placing direction of a liquid crystal panel, can adapt to the placing of liquid crystal panels with different specifications, and solves the problems of inconvenient placing of the existing liquid crystal panels and waste of molds.

In order to solve the technical problem, a liquid crystal panel packaging box is provided, which comprises a bottom plate and a plurality of side plates vertically arranged on the bottom plate; the side plates at least comprise a first side plate and a second side plate, and the second side plate is parallel to and opposite to the first side plate; the first side plate and the second side plate are symmetrically provided with a plurality of strip-shaped grooves; the bar groove includes: the transverse strip-shaped grooves and the longitudinal strip-shaped grooves are positioned on the same side plate and are staggered with each other to form a cross grid shape.

In a preferred embodiment of the present invention, the side plates further include a third side plate detachably and vertically connected to the first side plate, the second side plate, and the bottom plate.

In a preferred embodiment of the present invention, the side plates further include a fourth side plate, which is fixedly connected to the first side plate and the second side plate, and the third side plate and the fourth side plate are parallel to each other.

In a preferred embodiment of the present invention, the liquid crystal panel packing case further includes a top plate parallel to the bottom plate and detachably connected to the side plates.

In a preferred embodiment of the present invention, on the first side plate, each transverse strip-shaped groove extends horizontally forward from the rear end of the first side plate to the front end of the first side plate; each longitudinal strip-shaped groove vertically extends upwards from the bottom end of the first side plate to the top end of the first side plate; each transverse strip-shaped groove horizontally extends from the rear end of the second side plate to the front end of the second side plate on the second side plate; each longitudinal strip-shaped groove vertically extends upwards from the bottom end of the second side plate to the top end of the second side plate.

In a preferred embodiment of the present invention, the transverse strip-shaped grooves are arranged equidistantly on the same side plate, and the longitudinal strip-shaped grooves are arranged equidistantly on the same side plate.

In a preferred embodiment of the present invention, a first splicing groove corresponding to the transverse strip-shaped groove is formed at a corresponding position of the third side plate, and a width of the first splicing groove is identical to a width of the transverse strip-shaped groove.

In a preferred embodiment of the present invention, a second splicing groove corresponding to the longitudinal strip-shaped groove is formed at a corresponding position of the top plate, and the width of the second splicing groove is consistent with the width of the longitudinal strip-shaped groove.

In a preferred embodiment of the invention, the depth of the transverse strip-shaped groove is 15-30 mm; the depth of the longitudinal strip-shaped groove is 10-20 mm.

In a preferred embodiment of the present invention, the width of the transverse strip-shaped groove is 1mm-15 mm; the width of the longitudinal strip-shaped groove is 1mm-15 mm.

The invention has the advantages that: according to the liquid crystal panel packaging box, the latticed strip-shaped grooves are formed, liquid crystal panels with various thicknesses and sizes can be stored, the types of die sinking can be effectively reduced, the placing position of the liquid crystal panels can be rapidly adjusted according to needs, and if the liquid crystal panels placed horizontally are placed vertically, the limitation of the placing mode of the liquid crystal panels of the existing packaging box is further improved, the structure is simple, and the die sinking is convenient.

Drawings

The invention is further explained below with reference to the figures and examples.

Fig. 1 is an exploded view of a liquid crystal panel packaging case of an embodiment of the present invention.

Fig. 2 is a perspective view of a main structural part of the liquid crystal panel packaging box according to the embodiment of the present invention.

Fig. 3 is a schematic view of the inner side surface structure of the top plate in the liquid crystal panel packaging box according to the embodiment of the present invention.

Fig. 4 is a schematic view of the inner side surface structure of the third side plate in the liquid crystal panel packaging box according to the embodiment of the invention. Wherein,

1, packaging a box; 11 a base plate;

12 side plates; 13 a top plate;

14 a first insert;

121 a first side plate; 122 a second side plate;

123 a third side plate; 124 a fourth side panel;

125 strip-shaped grooves;

1251 transverse strip-shaped grooves; 1252 longitudinal strip-shaped grooves;

1231 a first snap groove; 1232 a first splice groove;

131 second splice groove.

Detailed Description

The following description of the embodiments refers to the accompanying drawings for illustrating the specific embodiments in which the invention may be practiced. The directional terms used in the present invention, such as "up", "down", "front", "back", "left", "right", "top", "bottom", etc., refer to the directions of the attached drawings. Accordingly, the directional terms used are used for explanation and understanding of the present invention, and are not used for limiting the present invention.

As shown in fig. 1, in one embodiment, the liquid crystal panel packaging box of the present invention has a rectangular parallelepiped shape, but may have a square shape. The liquid crystal panel packing box 1 mainly comprises a bottom plate 11 and a plurality of side plates 12 vertically arranged on the bottom plate 11. In this embodiment, the liquid crystal panel packaging case 1 of the present invention further includes a top plate 13 (see fig. 3) parallel to the bottom plate 11, the top plate 13 being positioned above the bottom plate 11, and the side plates 12 being detachably connected to enclose the entire liquid crystal panel packaging case 1.

As shown in fig. 1 and 2, the side plate 12 includes two first side plates 121 and two second side plates 122 disposed opposite to each other, and two third side plates 123 and four side plates 124 disposed opposite to each other. The first side plate 121 and the second side plate 122 are parallel and symmetrical, and the third side plate 123 and the fourth side plate 124 are parallel and perpendicular to each other to connect the first side plate 121 and the second side plate 122. Specifically, the third side plate 123 (see fig. 1) detachably connects the first side plate 121 and the second side plate 122, and the fourth side plate 124 fixedly connects the first side plate 121 and the second side plate 122. Further, the first side plate 121, the second side plate 122 and the fourth side plate 124 are fixedly connected to the bottom plate 11, and the third side plate 123 is detachably connected to the bottom plate 11.

In detail, in the present embodiment, the first side plate 121 is defined as a left side plate, the second side plate 122 is defined as a right side plate, the third side plate 123 is defined as a front side plate, and the fourth side plate 124 is defined as a rear side plate. The first side plate 121 and the second side plate 122 are respectively disposed on two opposite edges (such as left and right edges) of the bottom plate 11, the third side plate 123 and the fourth side plate 124 are respectively disposed on the other two opposite edges (such as front and rear edges) of the bottom plate 11, the third side plate 123 is detachably connected to front ends of the first side plate 121 and the second side plate 122, and the fourth side plate 124 is fixedly connected to rear ends of the first side plate 121 and the second side plate 122. That is, the first side plate 121, the second side plate 122, the third side plate 123 and the fourth side plate 124 are respectively located on the periphery of the bottom plate 11, forming an enclosing shape. During the actual mold opening, the first side plate 121, the second side plate 122, the fourth side plate 124 and the bottom plate 11 may be integrally formed. Thus, the integral firmness of the packing box can be relatively increased.

As shown in fig. 1, in order to detachably connect the third side plate 123 with the first side plate 121, the second side plate 122 and the bottom plate 11, in this embodiment, a first protruding insertion block 14 is disposed on the front side surface of the first side plate 121, a first protruding insertion block 14 is also disposed on the front side surface of the second side plate 122, a first locking groove 1231 matching with the first insertion block 14 is disposed at the corresponding position of the third side plate 123, and the first insertion block 14 is locked in the first locking groove 1231, so that the third side plate 123 can be detachably assembled on the first side plate 121 and the second side plate 122. Similarly, a first insert block 14 may be formed on the bottom plate 11 to further fix the third side plate 123. In addition, the top plate 13 (see fig. 3) can also be detachably connected with the design, which is similar to the detachable connection scheme of the third side plate 123 and will not be described again.

As shown in fig. 1 and fig. 2, a plurality of strip-shaped grooves 125 for accommodating liquid crystal panels are symmetrically disposed on the first side plate 121 and the second side plate 122. That is, one of the strip-shaped grooves 125 on the first side plate 121 is aligned with and parallel to one of the strip-shaped grooves 125 on the second side plate 122. In order to realize the horizontal placement and the vertical placement of the liquid crystal panel, the bar-shaped grooves 125 are divided into a plurality of transverse bar-shaped grooves 1251 and a plurality of longitudinal bar-shaped grooves 1252, and the transverse bar-shaped grooves 1251 and the longitudinal bar-shaped grooves 1252 on the same side plate 12 are staggered with each other to form a cross grid shape. Taking the first side plate 121 as an example, each of the transverse strip-shaped grooves 1251 extends horizontally forward from the rear end of the first side plate 121 to the front end of the first side plate 121, so as to form a plurality of transverse notches at the front end of the first side plate 121. Each of the longitudinal strip-shaped grooves 1252 extends vertically upward from the bottom end of the first side plate 121 to the top end of the first side plate 121, so as to form a plurality of longitudinal openings at the top end of the first side plate 121. Similarly, since the second side plate 122 has the same structure as the first side plate 121, a plurality of transverse notches are formed at the front end of the second side plate 122, and a plurality of longitudinal openings are formed at the top end of the second side plate 122. In the actual operation process, the liquid crystal panel is only required to be inserted from the transverse opening or the longitudinal opening.

In order to make the internal gravity of the liquid crystal panel packing box uniformly distributed after the liquid crystal panel is placed in the liquid crystal panel packing box, in this embodiment, the transverse strip-shaped grooves 1251 are arranged on the first side plate 121 or the second side plate 122 at equal intervals, and the same longitudinal strip-shaped grooves 1252 are also arranged on the first side plate 121 or the second side plate 122 at equal intervals.

When the liquid crystal display panel is placed horizontally, due to the influence of gravity, the liquid crystal display panel can be bent and deformed downwards in a micro mode, therefore, when the transverse strip-shaped grooves 1251 are designed, the distance between every two adjacent transverse strip-shaped grooves 1251 is a factor to be considered, if the distance is too large, the number of the liquid crystal display panels accommodated in one packing box is reduced, if the distance is too small, due to the micro deformation of the liquid crystal display panels, friction is easily generated between adjacent liquid crystals, the quality of the liquid crystal display panel is reduced, and generally, the distance between every two adjacent transverse strip-shaped grooves 1251 is 2-4 panel thickness. Although the liquid crystal panel inserted into the longitudinal bar-shaped grooves 1252 has no problem of bending deformation, in order to facilitate the placement of the liquid crystal panel, the distance between two adjacent longitudinal bar-shaped grooves 1252 is generally 2 to 3 panel thicknesses.

In order to further highlight that the liquid crystal panel packing case of the present invention can mount liquid crystal panels with different thicknesses, in this embodiment, the width of the transverse strip-shaped groove 1251 is set according to the thickness of the liquid crystal panel, and is 1mm to 15mm, and preferably 10 mm. Likewise, the width of the longitudinal strip-shaped groove 1252 is 1mm to 15mm, preferably 10 mm. Of course, the width of the longitudinal strip-shaped groove 1252 may be different from the width of the transverse strip-shaped groove 1251, and this is adjusted according to actual requirements when the mold is opened.

In order to further highlight that the liquid crystal panel packing case of the present invention can mount liquid crystal panels with different sizes, in this embodiment, the depth of the transverse strip-shaped groove 1251 is 15-30mm, preferably 20 mm. The depth of the longitudinal strip-shaped groove 1252 is 10-20mm, preferably 15 mm.

In order to prevent the liquid crystal panel from being in hard contact with the packing box during the insertion process of the liquid crystal panel, in this embodiment, the material of the packing box may be an elastic material, such as foam. The steel structure can also be selected, but the groove surface of the strip-shaped groove is required to be coated with a layer of elastic material, such as polyester fiber material and the like.

As shown in fig. 1 and 4, in order to completely fix the liquid crystal panel in the bar groove 125 and facilitate assembling and splicing of the packing box, the inner surface of the third side plate 123 has a plurality of first splicing grooves 1232 corresponding to the transverse bar grooves 1251. As shown in fig. 3, the top plate 13 has a plurality of second splicing grooves 131 corresponding to the longitudinal strip-shaped grooves 1252 on the inner surface thereof. The width of the first splicing groove 1232 is consistent with that of the transverse strip-shaped groove 1251; the width of the second splicing groove 131 is the same as the width of the longitudinal strip-shaped groove 1252. The groove surface of the first splicing groove is coated with an elastic protection layer, and the second splicing groove is also coated with an elastic protection layer. The material of the elastic protective layer can be selected from polyester fiber materials and the like.

After the liquid crystal panel is placed, the third side plate 123 is sequentially assembled on the first side plate 121 and the second side plate 122, the top plate 13 is covered, and the liquid crystal panel is packed and bound to be delivered.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The liquid crystal display panel packing box is characterized by comprising a bottom plate and a plurality of side plates vertically arranged on the bottom plate;

the side plates at least comprise a first side plate and a second side plate, and the second side plate is parallel to and opposite to the first side plate; the first side plate and the second side plate are symmetrically provided with a plurality of strip-shaped grooves; the bar groove includes: the transverse strip-shaped grooves and the longitudinal strip-shaped grooves are positioned on the same side plate and are staggered with each other to form a cross grid shape.

2. The liquid crystal panel packaging case of claim 1, wherein the side panels further comprise a third side panel detachably and vertically connecting the first side panel, the second side panel, and the bottom panel.

3. The liquid crystal panel packaging case of claim 2, wherein the side panels further comprise a fourth side panel fixedly connecting the first side panel and the second side panel, and the third side panel and the fourth side panel are parallel to each other.

4. The liquid crystal panel packaging case of claim 1, further comprising a top panel parallel to the bottom panel and detachably connected to the side panels.

5. The liquid crystal panel packaging case of claim 1, wherein on the first side panel, each transverse strip-shaped groove extends horizontally forward from a rear end of the first side panel to a front end of the first side panel; each longitudinal strip-shaped groove vertically extends upwards from the bottom end of the first side plate to the top end of the first side plate; and

on the second side plate, each transverse strip-shaped groove horizontally extends from the rear end of the second side plate to the front end of the second side plate; each longitudinal strip-shaped groove vertically extends upwards from the bottom end of the second side plate to the top end of the second side plate.

6. The liquid crystal panel packaging case of claim 1, wherein the horizontal bar-shaped grooves are arranged equidistantly on the same side plate, and the vertical bar-shaped grooves are arranged equidistantly on the same side plate.

7. The liquid crystal panel packaging box according to claim 2, wherein the inner side surface of the third side plate is provided with a plurality of first splicing grooves corresponding to the transverse strip-shaped grooves, and the width of each first splicing groove is consistent with that of each transverse strip-shaped groove.

8. The liquid crystal panel packaging box according to claim 4, wherein the inner side surface of the top plate is provided with a plurality of second splicing grooves corresponding to the longitudinal strip-shaped grooves, and the width of the second splicing grooves is consistent with that of the longitudinal strip-shaped grooves.

9. The liquid crystal panel packaging box according to claim 1, wherein the depth of the transverse strip-shaped groove is 15-30 mm; the depth of the longitudinal strip-shaped groove is 10-20 mm.

10. The liquid crystal panel packaging box according to claim 1, wherein the width of the transverse strip-shaped groove is 1mm-15 mm; the width of the longitudinal strip-shaped groove is 1mm-15 mm.