JP6423966B2 - Liquid crystal panel and backlight module positioning adhesion structure and display device - Google Patents

Description

  The present invention requires priority of the prior application of the application number 20141081928.4 / Invention name “Liquid Crystal Panel and Backlight Module Positioning Adhesive Structure and Display Device” filed on December 24, 2014. Merged in the text with quotation.

  The present invention relates to a technical field of a liquid crystal panel, and more particularly, to a liquid crystal panel and a backlight module positioning adhesion structure and a display device.

  Currently, display devices are already widely applied to various electronic products as display devices for electronic devices. As electronic products become lighter, electronic device bezels are designed to be narrower. The backlight module is one of the important parts in the display device, and the bezel of the backlight module needs to be further narrowed.

  The backlight modules in the current technology all include a plastic frame, the light guide plate is surrounded by the plastic frame, and the optical film is fixed to the light guide plate and the plastic frame by a positioning light-shielding paint tape. The liquid crystal panel is positioned on the backlight unit's positioning light-shielding double-sided tape, and the width of the black double-sided tape is just invisible to the human eye, that is, the light emission position, and as the width of the bezel of the liquid crystal module gradually becomes narrower Since the width of the positioning light-shielding paint tape gradually decreases, the positioning strength between the positioning light-shielding paint tape and the optical film is reduced, and the film positioning tends to become unstable. In order to guarantee the stability of the positioning of the film, the width of the positioning light-shielding paint tape cannot be reduced without limitation, so that the black frame of the backlight unit is visible to the human eye through the liquid crystal panel. These situations affect the overall light transmission quality of the liquid crystal panel.

  An object of the present invention is to provide a liquid crystal panel and backlight module positioning adhesion structure and a display device that can be provided with a narrow bezel that does not affect the light transmission quality for the liquid crystal panel and the display device.

  The present invention provides a positioning adhesion structure for a liquid crystal panel and a backlight module. The backlight module includes a reflection plate, a plastic frame, a light guide plate, and an optical film. The reflection plate, the light guide plate, and the optical film are provided to overlap each other in order, and the plastic frame includes the reflection frame. Surrounds the plate, the light guide plate and the optical film. The backlight module further includes a double-sided tape, and the double-sided tape includes a first layer and a second layer overlapping the first layer, and the second layer is connected to the light shielding part and the light shielding part. And a translucent part. The double-sided tape adheres the liquid crystal panel and the backlight module, the light shielding portion is disposed at the optical film edge and the position of the plastic frame, and the light transmitting portion faces the transparent portion of the optical film. And stretch.

  Among them, the plastic frame has a side wall, a surface disposed on the same horizontal plane as the optical film is an upper surface of the side wall, and the first layer of the double-sided tape is an edge of the upper surface of the plastic frame and the edge of the optical film. It is affixed to.

  Among them, the second layer and the liquid crystal panel are bonded.

  Among them, the light shielding part of the double-sided tape is a black light shielding paint, and the light transmitting part is an optically processed light transmitting tape.

  Among them, the backlight module further includes a back panel, and the back panel includes a base plate and a side plate. The reflection plate is attached between a base plate and the light guide plate, and a part of the double-sided tape and the side plate are bonded.

  Among them, a transparent colloid is provided on the outer surfaces of the first layer and the second layer.

  The present invention further provides a display device, and the display device includes a backlight module and a liquid crystal panel. The liquid crystal panel includes a frame region and a translucent region, and the backlight module includes a reflective plate, a plastic frame, a light guide plate, and an optical film. The reflection plate, the light guide plate, and the optical film are provided so as to overlap in order, and the plastic frame surrounds the reflection plate, the light guide plate, and the optical film. The backlight module further includes a double-sided tape, and the double-sided tape includes a first layer and a second layer overlapping the first layer, and the second layer is connected to the light shielding part and the light shielding part. And a translucent part. The double-sided tape adheres the frame area of the liquid crystal panel and the backlight module, the light shielding portion is disposed at the edge of the optical film and the plastic frame, and the translucent portion is disposed on a transparent portion of the optical film. Stretch toward. The length of the double-sided tape and the width of the frame region are the same.

  Among them, the second layer and the frame region of the liquid crystal panel are bonded to each other, the translucent part is disposed in the frame region, and approaches the boundary line between the frame region and the translucent region.

  Among them, the plastic frame has a side wall, the surface arranged on the same horizontal plane as the optical film is the upper surface of the side wall, and the first layer of the double-sided tape is on the upper surface of the plastic frame and the edge of the optical film. It is pasted.

  Among them, the light shielding part of the double-sided tape is a black light shielding paint, and the light transmitting part is an optically processed light transmitting tape.

  Among them, the second layer and the liquid crystal panel are bonded.

  Among them, the backlight module further includes a back plate, and the back plate includes a base plate and a side plate. The reflection plate is attached between a base plate and the light guide plate, and a part of the double-sided tape and the side plate are bonded.

  Among them, a transparent colloid is provided on the outer surfaces of the first layer and the second layer.

  The double-sided tape having a backlight module positioning and adhesion structure according to the present invention includes a light shielding portion and a light transmitting portion. The entire double-sided tape can be bonded to the frame area of the liquid crystal panel, the plastic frame of the backlight module corresponding to the frame area, and the edge of the optical film. Strengthening the bond strength to the LCD panel and preventing the backlight module and LCD panel quality from being affected during the assembly and testing process, and at the same time, the translucent part with the same adhesive effect leads to the light beam as quickly as possible. It can pass through the light plate, guarantee the light intensity of the liquid crystal panel, and realize the technical effect of narrow frame.

  In order to further understand the embodiments of the present invention and the prior art, the drawings necessary for describing the embodiments and the prior art will be briefly described below. Of course, the following drawings are only a part of the embodiments of the present invention, and general engineers in this field will be able to use other drawings based on these drawings without carrying out creative labor. You can come up with a drawing.

It is sectional drawing of the liquid crystal panel containing the backlight module positioning adhesion structure of this invention. FIG. 2 is a schematic view illustrating a structure of a double-sided tape having the backlight module positioning adhesive structure of FIG. 1.

  In the following, together with the accompanying drawings in the embodiments of the present invention, the technical solutions in the embodiments of the present invention are clearly organized and depicted. Of course, the depicted embodiments are only a part of the embodiments of the present invention and not all of the embodiments. Based on the embodiments of the present invention, a general engineer in the field can come up with other embodiments without creative labor, all of which are within the protection scope of the present invention.

  Please refer to FIG. 1 and FIG. The preferred embodiment of the present invention provides a liquid crystal panel 20 and a backlight module positioned in a plastic structure. The liquid crystal panel 20 includes a frame region 21 and a light transmitting region 22. The frame region 21 is provided so as to surround the transparent region 22. The backlight module 10 includes a reflection plate 12, a plastic frame 13, a light guide plate 15, and an optical film 17. The reflection plate 12, the light guide plate 15, and the optical film 16 are provided so as to overlap in order, and the plastic frame 13 surrounds the reflection plate 12, the light guide plate 15, and the optical film 16. The backlight module further includes a double-sided tape 18, and the double-sided tape 18 includes a first layer 181 and a second layer 182 that overlaps the first layer 181, and the second layer 182 includes a light-shielding portion 183. And a light transmitting part 185 connected to the light shielding part 183. The double-sided tape 18 adheres the liquid crystal panel 20 and the backlight module 10, the light shielding part 183 is disposed at the edge of the optical film 17 and the plastic frame 13, and the light transmitting part 185 is the optical part. The film 17 is stretched toward the transparent portion. The length of the double-sided tape 18 and the width of the frame region 21 are the same. A transparent colloid is applied to the surfaces of the first layer 181 and the second layer 182 and is used to realize the adhesive effect of the double-sided tape.

  Further, the back plate 11 includes a base plate 111 and a side plate 112. The base plate 111 and the side plate 112 surround and form a storage space, and the storage space is used to store the plastic frame 13, the light guide plate 15, and the optical film 17. The reflection plate 12 is attached between the back plate 111 and the light guide plate 15, and a part of the double-sided tape 18 and the side plate 112 are bonded.

  In this embodiment, the plastic frame 13 includes a side wall 131, and the surface located on the same horizontal plane as the optical film 17 is the surface of the side wall 131 (not shown in the figure). The first layer 181 of the double-sided tape 18. Is affixed to the surface of the plastic frame 13 and the edge of the optical film 17. In the present embodiment, the first layer 181 is a transparent layer.

  Further, the second layer 182 and the liquid crystal panel 20 are bonded. In the present embodiment, the second layer 182 and the frame region 21 of the liquid crystal panel 20 are bonded, and the light transmitting portion 185 is disposed in the frame region 21, and the boundary between the frame region 21 and the light transmitting region 22. Approach the line. The length of the double-sided tape 18 and the width of the frame region 21 are equal, and the light transmitting portion 185 extends from the light shielding portion 183 to the position of the boundary line between the frame region 21 and the light transmitting region 22.

  Further, the light shielding portion 183 of the double-sided tape 18 is a black light shielding paint. The translucent portion 185 is an optically processed translucent tape. When the light ray enters the optical film 17 from the liquid crystal panel, the inclined light ray can similarly enter the optical film 17 through the light transmitting portion 185 and then enter the light guide plate 15. Does not affect entry and exit. In another embodiment, a black light-shielding paint layer is applied at a position where the outer surface of the first layer 181 and the light-shielding part 183 face each other, and a transparent colloid is provided outside the black light-shielding paint layer.

  The double-sided tape 18 having a backlight module positioning and adhesion structure according to the present invention includes a light shielding portion 183 and a light transmitting portion 185. The entire double-sided tape 18 can be adhered to the frame region 21 of the liquid crystal panel, the plastic frame 13 of the backlight module 10 to which the frame region 21 corresponds, and the edge of the optical film 17. Thereby, the bonding force of the double-sided tape 18 to the backlight module 10 and the liquid crystal panel 20 is strengthened, and the influence on the quality of the backlight module and the liquid crystal panel in the assembly and testing process is prevented, and at the same time, the same adhesion The translucent part 185 having an effect can reflect the light beam through the light guide plate 15 and guarantees the light beam intensity of the liquid crystal panel 20. Further, when viewed with the naked eye from the liquid crystal display, the translucent portion 183 is not visible, and a technical effect of a narrow frame is realized.

  The above disclosed matters are only preferred embodiments of the present invention, and of course, the scope of rights of the present invention cannot be limited. A general engineer in the field can actually understand all or a partial process of the above-described embodiment, and equivalent changes made based on the rights requirement of the present invention Belongs to the range included.

20 Liquid crystal panel 21 Frame area 22 Light transmission area 10 Backlight module 12 Reflection plate 13 Plastic frame 15 Light guide plate 17 Optical film 18 Double-sided tape 181 First layer 182 Second layer 185 Light transmission part 183 Light shielding part 11 Back plate 111 Base plate 112 Side plate 131 side wall

Claims (11)

LCD panel and backlight module positioning adhesion structure,
The backlight module is
A reflection plate;
With a plastic frame,
A light guide plate;
An optical film,
The reflection plate, the light guide plate, and the optical film are provided to overlap in order,
The plastic frame surrounds the a reflecting plate, a light guide plate, and a the optical film,
The backlight module further comprises a double-sided tape,
The double-sided tape, a first layer, a second layer overlapping the first layer, made of,
Said second layer, and a light shielding portion, a transparent portion that is connected to the light-shielding portion made of,
The double-sided tape, and bonding the backlight module and the LCD panel,
The light shielding portion is disposed at the edge and the position of the previous SL plastic frame of the optical film,
The translucent part is provided in a transparent part of the optical film ,
The backlight module further includes a back plate,
The back plate is composed of a base plate and a side plate,
The reflection plate is attached between the base plate and the light guide plate,
The LCD panel and a backlight module positioning adhesive structure the side plates and a portion of the double-sided tape you characterized by bonding. In the liquid crystal panel and backlight module positioning adhesive structure according to claim 1,
Before SL plastic frame is provided with a side wall surface located in the same horizontal plane as the optical film is a top surface of said side wall,
Wherein the first layer surface and the liquid crystal panel and a backlight module positioning adhesive structure characterized in that affixed to the edge of the optical film on the plastic frame of the double-sided tape. In the liquid crystal panel and backlight module positioning adhesive structure according to claim 2,
Before SL liquid crystal panel and a backlight module positioning adhesive structure that the liquid crystal panel and the second layer be characterized by the adhesive. In the liquid crystal panel and backlight module positioning adhesive structure according to claim 3,
Before Symbol the light shielding portion of the double-sided tape is black shading paint, the light transmitting portion is the LCD panel and a backlight module positioning adhesive structure you being a translucent tape that is optically processed. In the liquid crystal panel and backlight module positioning adhesive structure according to claim 1,
Before Symbol first layer and the second layer liquid crystal panel and a backlight module positioning adhesive structure on the outer surface characterized in that the transparent colloid is provided for. A table shows apparatus,
The display device comprises a backlight module positioning adhesion structure and a liquid crystal panel,
The liquid crystal panel is composed of a frame region and a translucent region,
The backlight module is
A reflection plate;
With a plastic frame,
A light guide plate;
An optical film,
The reflection plate, the light guide plate, and the optical film are provided to overlap in order,
The plastic frame surrounds the a reflecting plate, a light guide plate, and a the optical film,
The backlight module further comprises a double-sided tape,
The double-sided tape is composed of a first layer, the second layer overlapping the first layer,
Said second layer, and a light shielding portion, a transparent portion that is connected to the light-shielding portion made of,
The double-sided tape, and bonding the frame region of the liquid crystal panel and said backlight module,
The light shielding portion is disposed at the edge and the position of the previous SL plastic frame of the optical film,
The translucent part is provided in a transparent part of the optical film ,
Frame area of the liquid crystal panel and pre-Symbol second layer adheres,
Wherein with the light-transmitting portion is disposed in the frame region, the display device you characterized by that Sessu the boundary line of the frame region and the translucent region. The display device according to claim 6,
The plastic frame has a side wall surface located in the same horizontal plane as the optical film is a top surface of said side wall,
The first layer of double-sided tape, the display device you characterized in that it is affixed to the upper surface and edge of the optical film of the plastic frame. The display device according to claim 6,
Shielding portion before Symbol sided tape is a black shielding paint,
The light transmission portion Viewing device you being a translucent tape that is optically processed. The display device according to claim 6,
Before SL Viewing device the liquid crystal panel and the second layer you characterized by bonding. The display device according to claim 6,
Before Symbol backlight module further comprises a back plate,
The back plate is composed of a base plate and a side plate,
The reflective plate is attached to the light guide plates and the base plate,
Viewing device the double-sided tape portion and the side plate of you characterized by bonding. The display device according to claim 6,
Viewing device you characterized in that is provided a transparent colloid to the outer surface of the front Symbol the second layer and the first layer.