CN108292054A - A kind of liquid crystal display device - Google Patents

Abstract

A kind of liquid crystal display device, including form the shell (240) of display module accommodating cavity (241) and be set to the display module (220) of display module accommodating cavity (241)；The annular faying surface (242) being open towards display module accommodating cavity (241) is formed on the side wall of display module accommodating cavity (241), each hierarchical structure of display module (222) and at least one layer of formation in protective glass (221) are convex to the bonding layer (224) of display module accommodating cavity (241) side wall, bonding layer (224) is overlapped away from the side of display module accommodating cavity (241) opening with faying surface (242), and the gap between the side wall of display module accommodating cavity (241) and display module (220) is divided into two parts, and gap is located at bonding layer (224) and is filled partially with sealant (230) towards the opening side of display module accommodating cavity (241)；Gap depth in liquid crystal display device for filling sealing agent (230) is shallower, and dispensing process is easily controllable, improves the working efficiency of dispensing process；And the probability that sealant (230) penetrates into backlight is reduced, improve the yields of display device.

Description

A kind of liquid crystal display device Technical field

The present invention relates to field of display technology, in particular to a kind of liquid crystal display device.

Background technique

With the increase of display screen size in the promotion of display module technology in the universal of the electronic equipments such as mobile phone, electronic equipment and electronic equipment, the compactness that screen accounting and promotion complete machine are pursued by the narrow frame design of electronic equipment has become a new innovation direction for promoting product competitiveness.

In the prior art, for realizing there are many means of electronic equipment narrow frame design, such as:

As illustrated in figs. 1A and ib; in implementation one; after glass 111 being protected to be bonded with liquid crystal display panel 112; sealant 115 is applied in the side wall of liquid crystal display panel 112 and backlight module 113; structure as shown in Figure 1a is formed, then using laser cutting parameter cut-out protection glass 111 and part sealant 115, forms narrow side mount structure as shown in Figure 1 b; the shell of liquid crystal display device and liquid crystal display panel 112 and backlight module 113 are bonded again, form liquid crystal display device.

In above-mentioned implementation, due to that need to carry out dispensing in the side wall of liquid crystal display panel 112 and backlight 113, the region for filling sealing agent 115 is deeper, causes dispensing amount larger and is not easily controlled and multiple glue is needed to wipe, the efficiency of dispensing work is lower；Lead to reduce display effect to avoid sealant 115 from penetrating into backlight 113, protecting frame 114 need to be arranged to avoid the infiltration of sealant 115 in the periphery of backlight 113, its structure is complex compared with conventional backlit product-derived, increases the manufacturing cost of display device.In addition, increasing the manufacturing cost of product, and further decrease the production efficiency of product because needing to carry out laser cutting parameter to protection glass 111 and sealant 115 in the implementation.

As shown in Fig. 2, the corner of protection glass 121 is cambered surface in implementation two, the visual effect of narrow frame is generated by the refraction of cambered surface.In the implementation, sealant 123 need to be applied in the side of protection glass 121 and display module 122, shell 124 and protection glass 121 and display module 122 are bonded, liquid crystal display device is formed.

In above-mentioned implementation, due to that need to carry out dispensing in the side wall of backlight module 122, the region for filling sealing agent 123 is deeper, causes dispensing amount larger and is not easily controlled and multiple glue is needed to wipe, the efficiency of dispensing work is lower；Simultaneously because the side of display module 122 is directly contacted with sealant 123, sealant 123 easily penetrates into the backlight of display module 122, reduces display effect, influences yield.In addition, the implementation is to realize narrow frame effect, the thickness of protection glass 121 need to be increased, increase the thickness and overall weight of liquid crystal display device.

In conclusion reducing the production efficiency and yields of liquid crystal display device because dispensing depth is larger compared with deep and dispensing amount in the common narrow frame design implementation of both the above.

Therefore, how to avoid reducing the production efficiency of liquid crystal display device and one of the technical issues of yields is those skilled in the art's urgent need to resolve because dispensing depth is larger compared with deep and dispensing amount.

Summary of the invention

The present invention provides a kind of liquid crystal display devices, can reduce dispensing depth and dispensing amount, improve dispensing efficiency；And the probability that sealant penetrates into backlight is reduced, improve the yields of product.

First aspect, a kind of liquid crystal display device is provided, including forming the shell of display module accommodating cavity and being set to the display module of the display module accommodating cavity, the display module includes backlight assembly, display component and the protective glass being arranged successively by the bottom surface of the display module accommodating cavity towards opening direction, and the display component has hierarchical structure；Wherein, the annular faying surface being open towards the display module accommodating cavity is formed on the side wall of the display module accommodating cavity, at least one layer of formation in each hierarchical structure of the display component is convex to the bonding layer of the display module accommodating cavity side wall or the protection glass forms the bonding layer for being convex to the display module accommodating cavity side wall, the bonding layer is overlapped away from the side of display module accommodating cavity opening and the faying surface, and the gap between the side wall and display module of the display module accommodating cavity is divided into two parts, and the gap is located at the sealant that is filled partially with for bond the display module and the shell of the bonding layer towards the opening side of the display module accommodating cavity.

With reference to the above first aspect, in the first possible implementation, the display module accommodating cavity has ladder slot structure, and the cascaded surface of the ladder slot structure forms the faying surface.

With reference to the above first aspect, in the second possible implementation, the side wall of the display module accommodating cavity has an annular convex platform for being convex to the display module accommodating cavity, and the table top of the annular convex platform towards display module accommodating cavity opening side forms the faying surface.

With reference to the above first aspect, in the third possible implementation, it is bonded between the bonding layer and the faying surface by sealant.

With reference to the above first aspect, the first possible implementation, second of possible implementation, the third possible implementation, in the fourth possible implementation, bonding layer hierarchical structure made of the non-glass material in the display component is formed.

With reference to the above first aspect, the first possible implementation, second of possible implementation, the third possible implementation, the 4th kind of possible implementation, in a fifth possible implementation, the bonding layer is formed by the upper polaroid that display panel light emission side in the display component is arranged.

With reference to the above first aspect, the first possible implementation, second of possible implementation, the third possible implementation, the 4th kind of possible implementation, the 5th kind of possible implementation; in a sixth possible implementation, pass through transparent glue sticking between the upper polaroid and the protection glass.

With reference to the above first aspect, the first possible implementation, second of possible implementation of first aspect, first aspect the third possible implementation formed on the protection glass in the 7th kind of possible implementation State bonding layer.

With reference to the above first aspect, the first possible implementation, second of possible implementation, the third possible implementation, the 4th kind of possible implementation, the 5th kind of possible implementation, the 6th kind of possible implementation, the 7th kind of possible implementation; in the 8th kind of possible implementation; it is formed on the side of the protection glass around the annular protrusion for protecting glass one week and be convex to the display module accommodating cavity side wall, the annular protrusion forms the bonding layer.

With reference to the above first aspect, the first possible implementation, second of possible implementation, the third possible implementation, the 4th kind of possible implementation, the 5th kind of possible implementation, the 6th kind of possible implementation, the 7th kind of possible implementation, the 8th kind of possible implementation; in the 9th kind of possible implementation, the side of the annular protrusion towards the faying surface is concordant with the protection side of glass towards display module accommodating cavity bottom surface.

In the liquid crystal display device that above-mentioned first aspect provides, the faying surface formed on shell and the bonding layer formed on display component or protection glass mutually overlap, and the gap between the side wall and display module of display module accommodating cavity is divided into two parts, the dispensing region for being used for filling sealing agent is formed positioned at the gap of bonding layer towards the opening side of display module accommodating cavity, the side of display module is only in contact in dispensing region with sealant, therefore the dispensing depth of the liquid crystal display device is shallower, to reduce dispensing amount, keep dispensing process easily controllable, and then improve the working efficiency of dispensing process；The backlight assembly in display module is separated because of faying surface and bonding layer simultaneously, the sealant in dispensing region is not contacted with backlight assembly, reduces the probability that sealant penetrates into backlight assembly, this improves the yields of display device.

Detailed description of the invention

To describe the technical solutions in the embodiments of the present invention more clearly, the drawings to be used in the embodiments are briefly described below, apparently, drawings in the following description are only some embodiments of the invention, for those of ordinary skill in the art, without any creative labor, it is also possible to obtain other drawings based on these drawings.

Fig. 1 a is a kind of structural schematic diagram of liquid crystal display device in the prior art；

Fig. 1 b is structural schematic diagram of the liquid crystal display device after laser cutting parameter shown in Fig. 1 a；

Fig. 2 is the structural schematic diagram of another liquid crystal display device in the prior art；

Fig. 3 is the structural schematic diagram for the liquid crystal display device that an embodiment of the present invention provides；

Fig. 4 is the partial structure diagram for the liquid crystal display device that an embodiment of the present invention provides；

Fig. 5 is the partial structure diagram for the liquid crystal display device that an embodiment of the present invention provides；

Fig. 6 is the partial structure diagram for the liquid crystal display device that an embodiment of the present invention provides.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, shall fall within the protection scope of the present invention.

Fig. 3, Fig. 4, Fig. 5 and Fig. 6 are please referred to, Fig. 3 is the structural schematic diagram for the liquid crystal display device that an embodiment of the present invention provides；Fig. 4 is the partial structure diagram for the liquid crystal display device that an embodiment of the present invention provides；Fig. 5 is the partial structure diagram for the liquid crystal display device that an embodiment of the present invention provides；Fig. 6 is the partial structure diagram for the liquid crystal display device that an embodiment of the present invention provides.

As shown in Fig. 3, Fig. 4, Fig. 5 and Fig. 6, the embodiment of the invention provides a kind of liquid crystal display devices, including forming the shell 240 of display module accommodating cavity 241 and being set to the display module 220 of display module accommodating cavity 241, display module 220 includes backlight assembly 223, display component 222 and the protective glass 221 being arranged successively by the bottom surface of display module accommodating cavity 241 towards opening direction, and display component 222 has hierarchical structure；Wherein, the annular faying surface 242 being open towards display module accommodating cavity 241 is formed on the side wall of display module accommodating cavity 241, 221 at least one layer of formation is convex to the bonding layer 224 of 241 side wall of display module accommodating cavity in each hierarchical structure and protection glass of display component 222, bonding layer 224 is overlapped away from the side that display module accommodating cavity 241 is open and faying surface 242, and the gap between the side wall of display module accommodating cavity 241 and display module 220 is divided into two parts, and gap is located at bonding layer and is filled partially with sealant 230 towards the opening side of display module accommodating cavity 241, display module 220 and shell 240 to be bonded.

In above-mentioned liquid crystal display device, the faying surface 242 formed on shell 240 and 224 phase of bonding layer formed on display component 222 or protection glass 221 overlap, and the gap between the side wall of display module accommodating cavity 241 and display module 220 is divided into two parts, the dispensing region for being used for filling sealing agent 230 is formed positioned at the gap of bonding layer 224 towards the opening side of display module accommodating cavity 241, the side of display module 220 is only in contact in dispensing region with sealant 230, therefore the dispensing depth of the liquid crystal display device is shallower, to reduce dispensing amount, keep dispensing process easily controllable, and then improve the working efficiency of dispensing process；The backlight assembly 223 in display module 220 is separated with dispensing region with bonding layer 224 because of faying surface 242 simultaneously, the sealant 230 in dispensing region is not contacted with backlight assembly 223, the probability that sealant 230 penetrates into backlight assembly 223 is reduced, to improve the yields of display device.

In a kind of preferred embodiment, as shown in figure 3, display module accommodating cavity has ladder slot structure, and the cascaded surface of ladder slot structure forms faying surface 242.

Furthermore, to further decrease the probability that sealant 230 penetrates into 223 region of backlight assembly, as shown in Figure 4 and Figure 5, display module accommodating cavity also has groove structure 243, the opening of groove structure 243 can be used for accommodating sealant 230 towards display module accommodating cavity, reduce the probability that sealant 230 oozes out from there, and the contact area between sealant 230 and shell 240 is increased, therefore improve the strong adhesion degree of sealant 230.

Shown in Figure 6, in a kind of preferred embodiment, the side wall of display module accommodating cavity has an annular convex platform 244, and annular convex platform 244 is convex to display module accommodating cavity, and its table top towards display module accommodating cavity opening side forms faying surface 242。

In a kind of preferred embodiment, to increase leakproofness and connectivity robustness between bonding layer and faying surface, pass through sealant bonding between bonding layer and faying surface.

Specifically, above-mentioned bonding layer can be realized by mode as described below:

Mode one: above-mentioned bonding layer can be formed by the hierarchical structure in display component.

Specifically, above-mentioned bonding layer hierarchical structure can be formed made of the hierarchical structure made of the non-glass material in display component or glass material, preferably, for the use intensity for guaranteeing bonding layer, it can preferentially select hierarchical structure made of the non-glass material in display component to form bonding layer, the probability that bonding layer damages due to by external impacts or vibration can be reduced.

Preferably, as shown in figure 3, bonding layer 224 is formed by the upper polaroid 2221 that display panel light emission side in display component 222 is arranged.

Preferably, to improve upper polaroid 2221 and protecting the bond strength between glass 221, as shown in figure 3, be bonded by transparent adhesive tape 225 between upper polaroid 2221 and protection glass 221.

Mode two: as shown in figure 4, the annular protrusion 2211 of 241 side wall of display module accommodating cavity is formed with around protection glass 221 1 weeks and is convex on the side of protection glass 221, the formation bonding layer 224 of annular protrusion 2211.

Preferably, the side of annular protrusion towards faying surface is concordant with the protection side of glass towards display module accommodating cavity bottom surface.

Mode three: as shown in figure 5, above-mentioned bonding layer can also be formed by the periphery of protection glass 221, i.e. the periphery of protection glass 221 is overlapped on faying surface 242.

Obviously, those skilled in the art can carry out various modification and variations without departing from the spirit and scope of the present invention to the embodiment of the present invention.If then the present invention is also intended to include these modifications and variations in this way, these modifications and changes of the present invention is within the scope of the claims of the present invention and its equivalent technology.

Claims (10)

1. A kind of liquid crystal display device, including forming the shell of display module accommodating cavity and being set to the display module of the display module accommodating cavity, the display module includes backlight assembly, display component and the protective glass being arranged successively by the bottom surface of the display module accommodating cavity towards opening direction, and the display component has hierarchical structure；It is characterized in that, the annular faying surface being open towards the display module accommodating cavity is formed on the side wall of the display module accommodating cavity, at least one layer of formation in each hierarchical structure of the display component is convex to the bonding layer of the display module accommodating cavity side wall or the protection glass forms the bonding layer for being convex to the display module accommodating cavity side wall, the bonding layer is overlapped away from the side of display module accommodating cavity opening and the faying surface, and the gap between the side wall and display module of the display module accommodating cavity is divided into two parts, and the gap is located at the sealant that is filled partially with for bond the display module and the shell of the bonding layer towards the opening side of the display module accommodating cavity.
2. Liquid crystal display device according to claim 1, which is characterized in that the display module accommodating cavity has ladder slot structure, and the structure cascaded surface forms the faying surface.
3. Liquid crystal display device according to claim 1, it is characterized in that, the side wall of the display module accommodating cavity has an annular convex platform for being convex to the display module accommodating cavity, and the table top of the annular convex platform towards display module accommodating cavity opening side forms the faying surface.
4. Liquid crystal display device according to claim 1, which is characterized in that bonded between the bonding layer and the faying surface by sealant.
5. Liquid crystal display device according to claim 1-4, which is characterized in that bonding layer hierarchical structure made of the non-glass material in the display component is formed.
6. Liquid crystal display device according to claim 5, which is characterized in that the bonding layer is formed by the upper polaroid that display panel light emission side in the display component is arranged.
7. Liquid crystal display device according to claim 6, which is characterized in that pass through transparent glue sticking between the upper polaroid and the protection glass.
8. Liquid crystal display device according to claim 1-4, which is characterized in that be formed with the bonding layer on the protection glass.
9. Liquid crystal display device according to claim 8, which is characterized in that be formed on the side of the protection glass around the annular protrusion for protecting glass one week and be convex to the display module accommodating cavity side wall, the annular protrusion forms the bonding layer.
10. Liquid crystal display device according to claim 9, which is characterized in that the side of the annular protrusion towards the faying surface is concordant with the protection side of glass towards display module accommodating cavity bottom surface.