CN108230915B - LCD screen splicing module - Google Patents

LCD screen splicing module Download PDF

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Publication number
CN108230915B
CN108230915B CN201810241944.6A CN201810241944A CN108230915B CN 108230915 B CN108230915 B CN 108230915B CN 201810241944 A CN201810241944 A CN 201810241944A CN 108230915 B CN108230915 B CN 108230915B
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liquid crystal
module
back plate
limiting
front frame
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CN201810241944.6A
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CN108230915A (en
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李全
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Huizhou China Star Optoelectronics Technology Co Ltd
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Huizhou China Star Optoelectronics Technology Co Ltd
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    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09FDISPLAYING; ADVERTISING; SIGNS; LABELS OR NAME-PLATES; SEALS
    • G09F9/00Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements
    • G09F9/30Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements
    • G09F9/302Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements characterised by the form or geometrical disposition of the individual elements
    • G09F9/3026Video wall, i.e. stackable semiconductor matrix display modules
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09FDISPLAYING; ADVERTISING; SIGNS; LABELS OR NAME-PLATES; SEALS
    • G09F9/00Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements
    • G09F9/30Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements
    • G09F9/35Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements being liquid crystals

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • Multimedia (AREA)
  • Chemical & Material Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Liquid Crystal (AREA)
  • Devices For Indicating Variable Information By Combining Individual Elements (AREA)

Abstract

The application relates to the field of liquid crystal screens, a liquid crystal screen splicing module, which comprises a first liquid crystal module, a front frame and a second liquid crystal module, wherein the first liquid crystal module comprises a first back plate and a first liquid crystal panel. The front frame comprises a connecting part, a first limiting part and a second limiting part. The second liquid crystal module comprises a second back plate and a second liquid crystal panel. The connecting part is simultaneously contacted and fixedly connected with the first back plate and the second back plate. The first back plate, the first liquid crystal panel and the first limiting portion are sequentially located on one side of the connecting portion, and the second back plate, the second liquid crystal panel and the second limiting portion are sequentially located on the other side of the connecting portion. This application LCD screen concatenation module unites two into one the preceding frames of the LCD module of two adjacent concatenations, has compressed the width of preceding frame, has rationally compressed the width of piece.

Description

LCD screen splicing module
Technical Field
The application relates to the field of liquid crystal screens, in particular to a liquid crystal screen module formed by splicing multiple liquid crystal screens.
Background
With the steady growth of the splicing display market of large-scale liquid crystal screens, domestic large-screen liquid crystal screen splicing enterprises will meet more development opportunities. Compared with the splicing of DLP and PDP, the liquid crystal display has the advantages of high resolution, rich picture, large area, small volume, longer display life and the like. However, the liquid crystal display splicing product has a short plate compared with the DLP, and the splicing problem is solved. At present, some ultra-narrow frame large liquid crystal screens which are close to seamless splicing are also appeared in the market, but the manufacturing cost and the selling price are much higher than those of the common liquid crystal spliced screens.
Based on the advantages of liquid crystal screen splicing, if the problem of splicing seams can be effectively solved, the cost is reduced, and the market share of large-screen products is inevitably further occupied.
Disclosure of Invention
The application provides a design of super narrow frame LCD screen concatenation module, simple structure and manufacturing cost are lower, include following technical scheme:
a liquid crystal screen splicing module comprises a first liquid crystal module, a front frame and a second liquid crystal module; the front frame comprises a connecting part, a first limiting part and a second limiting part, and the first limiting part and the second limiting part are both positioned at the same end of the connecting part; the connecting part is clamped between the first liquid crystal module and the second liquid crystal module, and is fixedly connected with the first back plate and the second back plate in the first direction; the first liquid crystal module comprises a first back plate and a first panel, the second liquid crystal module comprises a second back plate and a second panel, the first limiting part abuts against the first panel on the first back plate in a second direction perpendicular to the first direction, and the second limiting part abuts against the second panel on the second back plate; the connecting part is of an integral structure, or the connecting part is of at least two plate-shaped structures, and the at least two plate-shaped structures are not overlapped in the first direction.
The connecting portion extends in a third direction, the third direction is perpendicular to the first direction and the second direction, and the first limiting portion and the second limiting portion completely cover the edge of the first panel and the edge of the second panel in the third direction respectively.
The first limiting parts and the second limiting parts are distributed in a staggered mode in the third direction.
The projection of the first limiting part on the plane where the connecting part is located is not overlapped with the projection of the second limiting part on the plane where the connecting part is located.
The projection of the first limiting part on the plane where the connecting part is located is overlapped with the projection of the second limiting part on the plane where the connecting part is located.
The front frame comprises a first front frame and a second front frame, the first front frame is provided with a first connecting portion and a first limiting portion, the second front frame is provided with a second connecting portion and a second limiting portion, and the first connecting portion and the second connecting portion are sequentially connected in the third direction to form the connecting portions.
The liquid crystal screen splicing module further comprises a bolt, and the bolt penetrates through the first back plate, the connecting part and the second back plate simultaneously to connect the first liquid crystal module, the front frame and the second liquid crystal module.
The liquid crystal display splicing module further comprises a positioning piece, and the positioning piece penetrates through the first back plate, the connecting portion and the second back plate simultaneously to position the relative positions of the first liquid crystal module, the front frame and the second liquid crystal module.
The liquid crystal screen splicing module comprises a positioning bolt, and the positioning bolt penetrates through the first back plate, the connecting part and the second back plate simultaneously to connect the first liquid crystal module, the front frame and the second liquid crystal module and position the relative positions of the first liquid crystal module, the front frame and the second liquid crystal module simultaneously.
Fillet transition is arranged between the connecting part and the first limiting part and between the connecting part and the second limiting part.
This application LCD screen concatenation module, through will in the first direction connecting portion set up to simultaneously with first backplate with the contact of second backplate links firmly, has realized first LCD module with the concatenation location of second LCD module. Through in the second direction one side of connecting portion sets gradually first backplate the first panel with first spacing portion the opposite side of connecting portion sets gradually the second backplate the second panel with the spacing portion of second, and first spacing portion with first panel contact, the spacing portion of second with the second panel contact makes first panel with the second panel is in respectively first spacing portion with the effect of the spacing portion of second has realized fixedly, promptly through one the front bezel has just realized the panel fixed function of two adjacent liquid crystal module simultaneously. Correspondingly, the splicing thickness between the first liquid crystal module and the second liquid crystal module is reduced, and the effect of a narrow frame is realized. The application has the advantages of simple structure, low cost and good implementation effect.
Drawings
FIG. 1 is a schematic cross-sectional view of a liquid crystal display splicing module according to the present application;
FIG. 2 is a schematic view of a liquid crystal display splicing module according to the present application;
FIG. 3 is a schematic view of another embodiment of a liquid crystal display panel splicing module according to the present application;
fig. 4 is a schematic view of a liquid crystal display panel splicing module according to another embodiment of the present application.
Detailed Description
The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
Referring to fig. 1, the lcd panel splicing module 100 includes a first lcd module 10, a front frame 30 and a second lcd module 20. The first liquid crystal module 10 and the second liquid crystal module 20 are spliced with each other, and the front frame 30 is located between the first liquid crystal module 10 and the second liquid crystal module 20. The first liquid crystal module 10 includes a first back plate 12 and a first panel 11. The second liquid crystal module 20 includes a second back plate 22 and a second face plate 21. The front frame 30 includes a connecting portion 33, a first stopper portion 31, and a second stopper portion 33. The first limiting portion 31 and the second limiting portion 32 are both located at the same end of the connecting portion 33. In the first direction 001, the connection portion 33 is simultaneously in contact with and fixedly connected to the first back plate 12 and the second back plate 22. That is, the first back plate 12, the connection portion 33, and the second back plate 22 are sequentially contacted and fixed along the first direction 001. The first liquid crystal module 10 and the second liquid crystal module 20 are spliced and fixed together. In a second direction 002 perpendicular to the first direction 001, the first back plate 12, the first panel 11 and the first limiting portion 31 are sequentially located on one side of the connecting portion 33, and the second back plate 22, the second panel 21 and the second limiting portion 32 are sequentially located on the other side of the connecting portion 33. That is, the first back plate 12, the first panel 11, and the first position limiting portion 31 are symmetrically disposed on the other side of the second back plate 22, the second panel 21, and the second position limiting portion 32 with respect to the connecting portion 33. The first stopper portion 31 is in contact with the first panel 11, and the first panel 11 is fixed in the first direction 001 by the contact with the first stopper portion 31; the second stopper portion 32 is in contact with the second panel 21, and the second panel 21 is fixed in the first direction 001 by the contact with the second stopper portion 32. The connecting portion 33 is an integral structure, or the connecting portion 33 is at least two plate-shaped structures, and the at least two plate-shaped structures do not overlap in the first direction 001.
In the liquid crystal screen splicing module 100 of the present application, the first limiting portion 31 and the second limiting portion 32 of the front frame 30 respectively contact and fix the first liquid crystal module 10 and the second liquid crystal module 20, so that the first liquid crystal module 10 and the second liquid crystal module 20 share one front frame 30 during splicing, that is, only one connecting portion 33 exists between the first liquid crystal module 10 and the second liquid crystal module 20 and is fixed as a splicing seam. Compared with the existing liquid crystal splicing module, the arrangement has narrower splicing seams. Because the existing liquid crystal splicing module usually adopts the independent front frames between two mutually spliced liquid crystal modules, and then the two independent front frames are spliced together, namely the width of the splicing seam between the two adjacent spliced liquid crystal modules is the sum of the thicknesses of the two independent front frames. The liquid crystal display splicing module 100 has the advantage of narrow splicing seams.
It can be understood that, when this application two arbitrary mutual concatenations of LCD screen concatenation module 100 first LCD module 10 with all adopt between the second LCD module 20 during the setting of preceding frame 30, it is whole LCD screen concatenation module 100 can both possess narrower piece effect, and whole impression can effectively be promoted.
In the embodiment of fig. 2, the front frame 30 extends along a third direction 003 perpendicular to both the first direction 001 and the second direction 002 in the third direction 003. The first position limiting portion 31 and the second position limiting portion 32 completely cover the edge of the first panel 12 and the edge of the second panel 22 in the third direction 003 to provide the maximum pressing force to the first liquid crystal module 10 and the second liquid crystal module 20.
In one embodiment, see fig. 3, the first position-limiting portions 31 and the second position-limiting portions 32 are arranged alternately in the third direction 003 to form first notches 311 and second notches 321. The first notch 311 and the second notch 321 are arranged to save a part of material, and at the same time, the shielding area of the first limiting portion 31 and the second limiting portion 32 to the first panel 11 and the second panel 21 is reduced, so that the display area of the first panel 11 and the second panel 21 is increased. On the other hand, if the contact area of the first stopper portion 31 with respect to the first panel 11 is continuous contact, if the material of the first stopper portion 31 is different from the material of the first panel 11, the difference in thermal expansion coefficient between the first stopper portion 31 and the first panel under the same temperature change is likely to occur. That is, the amount of thermal expansion and contraction deformation of the two is different, and the continuous contact fixing mode is not beneficial to the thermal expansion and contraction deformation, or is described as being not beneficial to the stress release of the first limiting portion 31 or the first panel 11. Thus, the first notch 311 can protect the first stopper 31 and the first panel 11. Similarly, the second notch 321 can also protect the second limiting portion 32 and the second panel 21.
Furthermore, the number of the first position-limiting parts 31 is multiple, and a plurality of the first notches 311 are formed in the multiple first position-limiting parts 31; the second notches 32 are also plural, and the plural second limiting portions 32 form plural second notches 321. The plurality of first notches 311 and the plurality of second notches 321 can achieve a better stress relief effect. Meanwhile, the distribution of the first limiting portions 31 and the second limiting portions 32 in the third direction 003 is also beneficial to the respective contact and fixation of the front frame 30 to the first liquid crystal module 10 and the second liquid crystal module 20, so that the structural rigidity is more stable.
The staggered arrangement of the first limiting portions 31 and the second limiting portions 32 can be described as that at least one second limiting portion 32 is disposed between any two adjacent first limiting portions 31 in the third direction 003. On the contrary, at least one first limiting portion 31 may be disposed between any two adjacent second limiting portions 32. The first notch 311 and the second notch 321 are arranged in a staggered manner, so that the first limiting part 31 and the second limiting part 32 of the front frame 30 are uniformly distributed on two sides of the connecting part 33, the structure is more reasonable, and the rigidity is higher.
It can be understood that, when one of the second notches 321 is disposed between two adjacent first notches 311 and one of the first notches 311 is disposed between two adjacent second notches 321, the first notches 311 and the second notches 321 are staggered one by one in the third direction 003. In such a configuration, the first notch 311 and the second stopper portion 32 may be disposed on both sides of the connecting portion 33, and the second notch 321 and the first stopper portion 31 may also be disposed on both sides of the connecting portion 33. That is, the first position-limiting portions 31 and the second position-limiting portions 32 are arranged in a one-to-one staggered manner in the third direction 003. Thus, the projection of the first limiting part 31 on the plane of the connecting part 33 is not overlapped with the projection of the second limiting part 32 on the plane of the connecting part 33. The material saving is facilitated, and a plurality of sections of material can be divided at one end of the connecting portion 33, wherein one section of the material is bent toward one end of the first liquid crystal module 10 to form the first position-limiting portion 31, and the other section of the material is bent toward one end of the second liquid crystal module 20 to form the second position-limiting portion 32. The front frame 30 is made of one piece of material, which can save cost and simplify the assembly process.
In other embodiments, referring to fig. 3, in order to enhance the rigidity between the first position-limiting portion 31 and the second position-limiting portion 32, the first position-limiting portion 31 and the second position-limiting portion 32 may be sequentially connected. That is, in the third direction 003, the projection of the first stopper portion 31 completely covers the second notch 321, and the projection of the second stopper portion 32 completely covers the first notch 311. That is, the projection of the first position-limiting portion 31 on the connecting portion 33 and the projection of the second position-limiting portion 32 on the third direction 003 both have an intersection that coincides with each other. Thus, the first position-limiting portion 31 and the second position-limiting portion 32 are connected to each other, so that the rigidity is improved and the deformation is prevented.
For the embodiment that the connecting portion 33 has at least two plate-like structures, referring to fig. 4, the front frame 30 is divided into a first front frame 301 for positioning the first liquid crystal module 10 and a second front frame 302 for positioning the second liquid crystal module 20. The first front frame 301 is provided with a first connecting portion 331 and the first limiting portion 31, and the second front frame 302 is provided with a second connecting portion 332 and the second limiting portion 32. The first connecting portion 331 and the second connecting portion 332 are sequentially arranged in a non-overlapping manner along the third direction 003 to form the connecting portion 33, so that the arrangement of the first limiting portion 31 and the second limiting portion 32 can be more flexibly realized. The first front frame 301 is disposed at a position where the first liquid crystal module 10 needs to be contacted and fixed, and the second front frame 302 is disposed at a position where the second liquid crystal module 20 needs to be contacted and fixed, so that a better implementation effect can be achieved for some specially-shaped liquid crystal screen splicing modules 100. That is, when the lengths of the edges where the first liquid crystal module 10 and the second liquid crystal module 20 are spliced with each other in the third direction 003 are different, the flexible arrangement between the first front frame 301 and the second front frame 302 can respectively realize a better fixing effect on the first liquid crystal module 10 and the second liquid crystal module 20.
In some embodiments, the connection between the first liquid crystal module 10 and the second liquid crystal module 20 and the front frame 30 is implemented by using a bolt 41 and a positioning member 42. Referring to fig. 1, the bolts 41 simultaneously penetrate through the first back plate 12, the connecting portion 33 and the second back plate 22, so that the first liquid crystal module 10, the front frame 30 and the second liquid crystal module 20 are sequentially connected in the first direction 001. The positioning member 42, like the bolt 41, also penetrates through the first back plate 12, the connecting portion 33 and the second back plate 22, and the positioning member 42 is used for ensuring the relative position between the first liquid crystal module 10 and the second liquid crystal module 20. Specifically, the first liquid crystal module 10 and the second liquid crystal module 20 are located at opposite positions in the second direction 002. On the other hand, the positioning member 42 can also ensure that the front frame 30 effectively contacts the first panel 11 and the second panel 21, so as to achieve a fixing effect. That is, the positioning member 42 can simultaneously ensure the contact and fixation of the first position-limiting portion 31 and the first panel 11, and the contact and fixation of the second position-limiting portion 32 and the second panel 21.
In still other embodiments, the lcd panel splicing module 100 includes a positioning bolt 43, the positioning bolt 43 simultaneously penetrates through the first back plate 12, the connecting portion 33 and the second back plate 22 to connect the first lcd module 10, the front frame 30 and the second lcd module 20 in the first direction 001, and the positioning bolt 43 further positions the first lcd module 10, the front frame 30 and the second lcd module 20 in the second direction 002. It is understood that the positioning bolt 43 should include a positioning section 431 and a threaded section 432, and the positioning section 431 passes through the first back plate 12, the connecting portion 33 and the second back plate 22 for positioning therebetween. The threaded end 432 passes through the first back plate 43, the connecting portion 33 and the second back plate 22 before the positioning section 431, so as to achieve the connection function of the three.
In some embodiments, in order to eliminate the phenomenon of stress concentration, the boundary position between the connecting portion 33 and the first position-limiting portion 31 or the second position-limiting portion 32 is configured to be in fillet transition, so that cracks between the first position-limiting portion 31 and the connecting portion 33 or between the second position-limiting portion 32 and the connecting portion 33 due to stress concentration can be avoided, and the service life of the lcd panel splicing module 100 is prolonged.
The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims (6)

1. A liquid crystal screen splicing module is characterized by comprising a first liquid crystal module, a front frame and a second liquid crystal module;
the front frame comprises a connecting part, a first limiting part and a second limiting part, and the first limiting part and the second limiting part are both positioned at the same end of the connecting part;
the connecting part is clamped between the first liquid crystal module and the second liquid crystal module, and is fixedly connected with the first back plate and the second back plate in the first direction;
the first liquid crystal module comprises a first back plate and a first panel, the second liquid crystal module comprises a second back plate and a second panel, the first limiting part abuts against the first panel on the first back plate in a second direction perpendicular to the first direction, and the second limiting part abuts against the second panel on the second back plate;
the connecting part is at least two plate-shaped structures which are not overlapped in the first direction, the liquid crystal screen splicing module comprises a positioning bolt which simultaneously penetrates through the first back plate, the connecting part and the second back plate to connect the first liquid crystal module, the front frame and the second liquid crystal module, simultaneously positioning the relative positions of the first liquid crystal module, the front frame and the second liquid crystal module, the first limiting parts and the second limiting parts are distributed in a staggered manner in a third direction, the front frame comprises a first front frame and a second front frame, the first front frame is provided with a first connecting part and the first limiting part, the second front frame is provided with a second connecting part and the second limiting part, the first connecting portion and the second connecting portion are sequentially connected along the third direction to form the connecting portion.
2. The liquid crystal display splicing module of claim 1, wherein a projection of the first limiting portion on a plane of the connecting portion is not coincident with a projection of the second limiting portion on a plane of the connecting portion.
3. The liquid crystal display splicing module of claim 1, wherein a projection of the first limiting portion on the plane of the connecting portion is overlapped with a projection of the second limiting portion on the plane of the connecting portion.
4. The liquid crystal screen splicing module of claim 1, further comprising a bolt, wherein the bolt simultaneously penetrates through the first back plate, the connecting portion and the second back plate to connect the first liquid crystal module, the front frame and the second liquid crystal module.
5. The liquid crystal display splicing module of claim 1, further comprising a positioning member, wherein the positioning member simultaneously penetrates through the first back plate, the connecting portion and the second back plate to position the first liquid crystal display module, the front frame and the second liquid crystal display module at relative positions.
6. The liquid crystal display splicing module of claim 1, wherein rounded corner transitions are arranged between the connecting portion and the first position-limiting portion, and between the connecting portion and the second position-limiting portion.
CN201810241944.6A 2018-03-22 2018-03-22 LCD screen splicing module Active CN108230915B (en)

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CN109830188B (en) * 2019-01-16 2024-07-23 江苏凡润电子有限公司 Processing technology of ultra-narrow clamping screen frame of liquid crystal spliced screen
CN111399276A (en) * 2020-04-23 2020-07-10 江苏欧帝电子科技有限公司 Light leakage prevention spliced screen and combined screen thereof

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