CN109884814A

CN109884814A - Splice liquid crystal display and production method in ultra-narrow side

Info

Publication number: CN109884814A
Application number: CN201811343174.2A
Authority: CN
Inventors: 吴添德; 季春玲; 洪乙又; 吴金华; 荆建新; 陈孝仙; 高慧芳; 樊卫华
Original assignee: CETC 55 Research Institute
Current assignee: CETC 55 Research Institute
Priority date: 2018-11-13
Filing date: 2018-11-13
Publication date: 2019-06-14

Abstract

A kind of ultra-narrow side splicing liquid crystal display and production method, the display screen includes the UV glue of edge sealing after glass cover-plate, liquid optical cement, sub- screen, preceding polaroid, rear polaroid, cutting, wherein two pieces of sub- screens are arranged in same plane, two pieces of son screen cutting edges are stitched together by liquid optical cement and are fitted on glass cover-plate, ultra-narrow side is formed and splices liquid crystal display.The production method includes that son gets rid of polaroid, liquid crystal cell glass-cutting up and down, sliver exposes liquid crystal cell section, liquid crystal cell section is coated or impregnated with UV glue and solidifies, polaroid after son screen attaches respectively, preceding polaroid is that whole piece is attached on glass cover-plate, and two pieces of son screen cutting edges are stitched together by liquid optical cement and are fitted on glass cover-plate, ultra-narrow side is formed and splices liquid crystal display.Liquid crystal display is spliced on ultra-narrow side, and physics piece is only 3.5 ~ 5.5mm between display area, has excellent whole display effect.

Description

Splice liquid crystal display and production method in ultra-narrow side

Technical field

The present invention relates to LCD technology, especially a kind of super large screen manufacturing technology, specifically a kind of ultra-narrow side Splice liquid crystal display and production method.

Background technique

With various figures, the continuous promotion of picture material quality, splices extra large screen liquid crystal display and show increasingly Concern mostly by industries such as finance, communication, traffic, the energy, safety, military affairs.

Currently, the connecting method of existing mosaic screen is generally divided into three kinds: (1) being spliced each sub- screen using splicing support； (2) directly each sub- screen is spliced；(3) removal screen frame is spliced.Due to the relationship of manufacture craft, what is obtained in the market is normal Rule liquid crystal display all has black or white frame, is spliced again if removing frame by force, can stability to liquid crystal display and Service life causes tremendous influence.If sub- liquid crystal display direct splicing will be formed biggish physics between two pieces of sub- liquid crystal displays Piece seriously affects viewing experience.

Summary of the invention

The purpose of the present invention is the problems larger for existing splicing liquid crystal display physics piece, invent a kind of ultra-narrow side Splice liquid crystal display, while its production method being provided, to improve the viewing experience of liquid crystal display.

Technical solution of the present invention first is that:

A kind of ultra-narrow side splice liquid crystal display, it is characterised in that it include glass cover-plate 1, liquid optical cement 3, sub- screen 4, it is preceding partially The UV glue 6 of edge sealing after mating plate 2, rear polaroid 5, cutting retains 1-2 millimeters after the splicing edge cutting of the son screen 4 of two pieces of splicings Black surround, cutting edge surface cure have UV glue 6, and UV glue 6 infilters liquid crystal cell section simultaneously and is sealed to it, mounts respectively after two pieces In the rear surface of corresponding sub- screen 4, preceding polaroid 2 is mounted on glass cover-plate 1, is passed through after two pieces of 4 attachment polaroids 5 of son screen Liquid optical cement 3, which is attached to, to be pasted on 2 glass cover-plate 1 of polaroid, to form ultra-narrow side splicing liquid crystal display.

Technical solution of the present invention second is that:

A kind of production method of ultra-narrow side splicing liquid crystal display, it is characterized in that it the following steps are included:

Step 1, first remove the front and back polaroid of two pieces of son screen liquid crystal cells, cell surface processing is clean；

Step 2, outside liquid crystal cell splicing edge effective display area, glass is equally wide above and below liquid crystal cell is cut to liquid crystal cell effective display area Outer reservation black surround 1-2mm or so, sliver expose liquid crystal cell section；

Step 3, liquid crystal cell and upper and lower glass section are coated or impregnated with UV glue, and placing 5 ~ 15 minutes makes UV glue part inspiration liquid crystal cell Inside solidifies UV glue；

Step 4, the son screen after two pieces of cuttings attaches the rear polaroid of correspondingly-sized respectively, while will be with spliced liquid crystal display The preceding polaroid that screen dimensions match is that whole piece is attached on glass cover-plate；

Step 5, two pieces of son screen cutting edges are stitched together by liquid optical cement and are fitted on glass cover-plate, form ultra-narrow side Splice liquid crystal display.

The glass cover-plate is strengthened glass, anti-dazzle glas or anti reflection glass.

The beneficial effects of the present invention are:

The present invention overcomes the problem that existing splicing liquid crystal display physics piece is larger, the ultra-narrow handled through the invention Liquid crystal display, the effectively width of control splicing liquid crystal display physics piece are spliced in side, greatly reduce the physics of mosaic screen Piece size, improves the viewing experience of liquid crystal display, and improves the vibration reliability of mosaic screen.

Detailed description of the invention

Fig. 1 is the ultra-narrow side splicing liquid crystal display the schematic diagram of the section structure of the specific embodiment of the invention.

Fig. 2 is the schematic top plan view of the ultra-narrow side splicing liquid crystal display of the specific embodiment of the invention.

In figure: 1- glass cover-plate；Polaroid before 2-；3- liquid optical cement；4- screen；Polaroid after 5-；It is sealed after 6- cutting UV glue.

Specific embodiment

The present invention is further illustrated with reference to the accompanying drawings and examples.It should be understood that described herein Specific embodiment is merely to illustrate and explain the present invention, and is not intended to restrict the invention.

As shown in Figs. 1-2.

Liquid crystal display is spliced on a kind of ultra-narrow side, it include glass cover-plate 1, liquid optical cement 3, sub- screen 4, preceding polaroid 2, Afterwards after polaroid 5, cutting edge sealing UV glue 6, retain 1-2 millimeters of black surrounds after the splicing edge cutting of the son screen 4 of two pieces of splicings, cut Cut edge surface cure has UV glue 6, and UV glue 6 infilters liquid crystal cell section simultaneously and is sealed to it, is mounted on correspondence respectively after two pieces Son screen 4 rear surface on, preceding polaroid 2 is mounted on glass cover-plate 1, two pieces son screen 4 attachment polaroids 5 after pass through liquid light Glue 3, which is attached to, to be pasted on 2 glass cover-plate 1 of polaroid, to form ultra-narrow side splicing liquid crystal display.As shown in Figs. 1-2, Specific making step is as follows:

Step 1, two pieces of son 4 liquid crystal cells of screen remove polaroid, and cell surface processing is clean；

Step 2, outside liquid crystal cell splicing edge effective display area, upper and lower glass equally wide be cut to outside liquid crystal cell effective display area retains The mm of black surround 1mm ~ 2, sliver expose liquid crystal cell section；

Step 3, liquid crystal cell and glass section are coated or impregnated with UV glue, and liquid crystal cell section is placed 5 ~ 15 minutes upward, make 6, UV glue The inside for dividing inspiration liquid crystal cell, solidifies UV glue 6；

Step 4, polaroid 5 after the son screen 4 after two pieces of cuttings attaches respectively, preceding polaroid 2 are that whole piece is attached to glass cover-plate 1 On, glass cover-plate 1 is strengthened glass, anti-dazzle glas or anti reflection glass, the preceding polaroid 2 and 1 size of glass cover-plate and is spelled Screen dimensions are connect to be consistent；

Step 5, two pieces of son 4 cutting edges of screen are stitched together by liquid optical cement 3 and are fitted on glass cover-plate 1, formed super Narrow side splices liquid crystal display.

Glass cover-plate 1 of the present invention is strengthened glass, anti-dazzle glas or the anti reflection glass of 2mm or the above thickness, It may insure that the positive surface intensity of liquid crystal display is spliced on ultra-narrow side using this glass cover-plate 1, anti-dazzle glas or anti reflection glass can mention High viewing effect.

The present invention selects UV glue 6 to seal cutting section, and 6 curing rate of UV glue is fast, has chemical property after solidification Stablize, is bonded firm property.

The present invention is cut by 4 splicing edge of antithetical phrase screen, effectively the width of control splicing liquid crystal display physics piece, Physics piece is only the UV glue thickness 1.5mm on 3.5 ~ 5.5mm(section glass between display area), greatly reduce mosaic screen Physics piece size, improves the viewing experience of liquid crystal display, and improves the vibration reliability of mosaic screen.

The invention patent is exemplarily described above in conjunction with attached drawing, it is clear that the invention patent specific implementation not by The limitation of aforesaid way, as long as the various unsubstantialities carried out using the method concept and technical solution of the invention patent change Into, or it is not improved the conception and technical scheme of the invention patent are directly applied into other occasions, in the invention patent Protection scope within.

Part that the present invention does not relate to is same as the prior art or can be realized by using the prior art.

Claims

1. liquid crystal display is spliced on a kind of ultra-narrow side, it is characterised in that it includes glass cover-plate (1), liquid optical cement (3), sub- screen (4), after preceding polaroid (2), rear polaroid (5), cutting edge sealing UV glue (6), the splicing edge of the son screen (4) of two pieces of splicings cuts Retain 1-2 millimeters of black surrounds after cutting, cutting edge surface cure has UV glue (6), and UV glue (6) infilters liquid crystal cell section simultaneously and carries out to it It seals, polaroid (5) is mounted on respectively in the rear surface of corresponding sub- screen (4) after two pieces, and preceding polaroid (2) is mounted on glass cover On plate (1), two pieces of son screen (4) attachments polaroid (5) are attached to by liquid optical cement (3) afterwards is pasted with polaroid (2) glass On cover board (1), to form ultra-narrow side splicing liquid crystal display.

2. a kind of production method of splicing liquid crystal display in ultra-narrow side described in claim 1, it is characterized in that it includes following step It is rapid:

3. according to the method described in claim 2, the glass cover-plate is strengthened glass, anti-dazzle glas or anti reflection glass.