CN104658427B - Display with broad visible area - Google Patents

Abstract

The invention discloses a kind of display with broad visible area, it includes framework, display module and panel module.The display module is arranged in the framework, and the panel module is arranged in the framework and covers the display module.The panel module has visible area, and the visible area is Chong Die with the display module.The panel module includes the combination of transparent glass, the first bearing film and lenticule.First bearing film is arranged between the transparent glass and the display module.Lenticule combination is located in the visible area, and is arranged between the display module and the transparent glass.Lenticule optical characteristics of the combination with divergent rays.Display of the invention, the image light from display module is converged by lenticule combination, and then project image light diverging via transparent glass with by it, it is the size of visible area that panel module can be had the image zoom of viewing area, and forms the visual effect of narrow frame.

Description

Display with broad visible area

Technical field

The present invention provides a kind of display, and espespecially a kind of reduction framework size that is not required to just can have the display of broad visible area Device.

Background technology

It is to improve consumer's purchase that display device (such as computer screen and mobile phone screen) has the external appearance characteristic of super-thin frame Buy one of factor of desire.The ratio of the surface area that display image accounts for display device is bigger, and frame accounts for the surface area of display device The corresponding diminution of ratio regular meeting.Although the display of super-thin frame has the preferable market competitiveness, the viewing area of display device , equivalent to the size of the optical element (such as polaroid) of display module, the size of framework is then depending on structure design, product for scope The factor such as product assembling and security intensity is difficult to unrestrictedly reduce and narrows, therefore how to overcome the size limitations of framework, designs more The display device of narrow frame or Rimless is just the important development target of associated mechanisms industry.

The content of the invention

The present invention provides a kind of reduction framework size that is not required to just can have the display of broad visible area, above-mentioned to solve Problem.

Claim of the invention discloses a kind of display with broad visible area, and it includes framework, display Module and panel module.The display module is arranged in the framework, and the panel module is arranged in the framework and covers this and shows Show module.The panel module has visible area, and the visible area is Chong Die with the display module.The panel module comprising transparent glass, Bearing film and lenticule are combined.The bearing film is arranged between the transparent glass and the display module.The lenticule group Close and be located in the visible area, and be arranged between the display module and the transparent glass.Lenticule combination has divergent rays Optical characteristics.

Used as optional technical scheme, the panel module includes first line assembly, and it is saturating that the first line assembly is located at this Between light glass and the display module, the circuit assembly comprising first bearing film be arranged on the of first bearing film Control circuit simultaneously, lenticule combination is arranged on the second face of first bearing film, first face and the second face phase It is right.

Used as optional technical scheme, the panel module includes the second circuit assembly, and it is saturating that the second circuit assembly is located at this Adjacent to the side of the display module, first bearing film is arranged on the second circuit assembly light glass.

As optional technical scheme, the second circuit assembly comprising the second bearing film and be arranged at this second carry it is thin Two-sided or one side the control circuit of film.

Used as optional technical scheme, lenticule combination includes a plurality of plano-concave lens units, and a plurality of plano-concaves are saturating Mirror unit is arranged between first bearing film and the display module, and any plano-concave lens unit concave surface towards the display mould Group；Or a plurality of plano-concave lens units are arranged between first bearing film and the transparent glass, and any plano-concave lens The concave surface of unit is towards first bearing film.

Used as optional technical scheme, lenticule combination includes a plurality of planoconvex spotlight units, and a plurality of plano-convexs are saturating Mirror unit is arranged between first bearing film and the transparent glass, and any planoconvex spotlight unit convex surface facing the printing opacity glass Glass.

Used as optional technical scheme, lenticule combination is made up of transparent material, such as tin indium oxide (Indium tin Oxide, ITO) or other transparent materials, directly form or be fitted in bearing film or saturating with printing, impressing or etching mode On light glass.

Used as optional technical scheme, the panel module is the visible area with the overlapping range of the display module, and this is visual Area includes main viewing area and secondary viewing area, and the secondary viewing area is located between the main viewing area and the framework.

Used as optional technical scheme, lenticule combination is arranged in the secondary viewing area.

As optional technical scheme, also include：Image process unit, is used to correct the image of the secondary viewing area.

Display of the invention need not change framework size, but utilize and be arranged between display module and transparent glass Refracted light is gone in lenticule combination, the scope of the image zoom for thereby exporting display module to visible area, there is provided narrow frame Visual effect.Lenticule combination may be provided on the first bearing film or transparent glass, according to its set location and lens unit Pointing to change can accordingly comprising multiple planoconvex spotlight units or plano-concave lens unit.The effect of lenticule combination is that convergence comes from The image light of display module, and then image light diverging is projected with by it via transparent glass, panel module can be had It is the visual effect of the size of visible area to have the image zoom of viewing area.Prior art is compared, display of the invention has Volume is light and handy and the easy advantage of assembling, can form broad visible area and cause the visual effect of narrow frame, is not required to physically Frame size is narrowed to go to destroy the structural strength of display.

Brief description of the drawings

Fig. 1 is the explosive view of display of the invention.

Fig. 2 is the sectional view of display shown in Fig. 1.

Fig. 3 is the part-structure sectional view of the panel module of the display of first embodiment of the invention.

Fig. 4 is the part-structure sectional view of the panel module of the display of second embodiment of the invention.

Fig. 5 is the part-structure sectional view of the panel module of the display of third embodiment of the invention.

Fig. 6 is the part-structure sectional view of the panel module of the display of fourth embodiment of the invention.

Specific embodiment

Refer to Fig. 1 and explosive view that Fig. 2, Fig. 1 are display of the invention 10, Fig. 2 is display 10 shown in Fig. 1 along cuing open The sectional view of upper thread A-A '.Display 10 includes framework 12, display module 14 and panel module 16.Display module 14 has aobvious Show area Rd, display module 14 is arranged in the accommodation space 18 of framework 12.Panel module 16 is arranged in framework 12 aobvious to cover Show module 14.The display image of display module 14 is outwards projected via viewing area Rd and panel module 16, for user's viewing.Face Template die group 16 has transparent glass 20, the first bearing film 22 and lenticule combination 24.Lenticule combination 24 will can show The image zoom of area Rd is the size of the visible area Rv for meeting panel module 16.The scope of viewing area Rd is same as display module 14 Size, the scope of the scope of visible area Rv more than viewing area Rd and be overlapped in framework 12, therefore display 10 is not changing framework The visual effect with featheredge frame is remained in the case of 12 sizes.

First bearing film 22 combines 24 with lenticule and is all arranged between transparent glass 20 and display module 14.First holds Carry film 22 and generally fit in transparent glass 20 using optical cement.Lenticule combination 24 is located in visible area Rv, and with diverging The optical characteristics of light.The optical element of the relative position and lenticule combination 24 of the first bearing film 22 and lenticule combination 24 There can be correspondence change according to different embodiments.For example, when lenticule combination 24 is made up of plano-concave lens unit, it sets Put on the first bearing film 22 and towards display module 14 or be arranged on transparent glass 20 and towards the first bearing film 22；Lenticule combination 24 is planoconvex spotlight when being made up of, then be provided on the first bearing film 22 and towards transparent glass 20, so Not limited to this.

Viewing area Rd is distinguished into main viewing area R1 and pair viewing area R2.Secondary viewing area R2 can be frame shape, around setting Put on main viewing area R1 peripheries, imply that the position of secondary viewing area R2 between main viewing area R1 and framework 12.Lenticule Combination 24 is preferably arranged in secondary viewing area R2, for reflecting the light by the border (such as pair viewing area R2) of viewing area Rd Line, with by the image zoom of viewing area Rd as visible area Rv scope.However, the setting area of lenticule combination 24 is not limited to Described in the implementation method of prostatitis, the lenticule combination 24 of such as part can be also arranged in main viewing area R1.It is every can pass through it is micro- Lens combination 24 goes refracted light to come under design category of the invention with the technology of magnified image, so no longer implementing to other Mode enumerates explanation respectively.

Fig. 3 is referred to, Fig. 3 is the part-structure sectional view of the panel module 16A of the display of first embodiment of the invention. The first line assembly 26 of panel module 16A is located between transparent glass 20 and display module 14.First line assembly 26 is included First bearing film 22 and control circuit 28.Control circuit 28 is arranged on the first face 221 of the first bearing film 22, lenticule group 24 the second faces 222 for being arranged on the first bearing film 22 are closed, the first face 221 is relative with the second face 222.In the first embodiment, Lenticule combination 24 includes a plurality of plano-concave lens units 30, is separately positioned on the second face 222 of the first bearing film 22, and appoint One concave surface of plano-concave lens unit 30 is towards display module 14.

Fig. 4 is referred to, Fig. 4 is the part-structure sectional view of the panel module 16B of the display of second embodiment of the invention. Panel module 16B additionally comprises the second circuit assembly 32, positioned at transparent glass 20 adjacent to the side of display module 14.Second circuit is total There is the second bearing film 34 into 32 and two-sided or one side the control circuit 36 of the second bearing film 34 is arranged on.First carries Film 22 is separated and is individual member in the second circuit assembly 32, positioned between the second circuit assembly 32 and display module 14.It is micro- Microscope group is closed and 24 is arranged on the first surface of the first bearing film 22, and the first bearing film 22 second surface pasting mode It is arranged on the second circuit assembly 32, wherein, first surface is relative with second surface.In a second embodiment, lenticule combination 24 a plurality of plano-concave lens units 30 are located between the first bearing film 22 and display module 14, and any one plano-concave lens list The concave surface of unit 30 is towards display module 14.

Fig. 5 is referred to, Fig. 5 is the part-structure sectional view of the panel module 16C of the display of third embodiment of the invention. The second circuit assembly 32 of panel module 16C also has the second bearing film 34 and control circuit 36, and control circuit 36 can be set On the single or double of bearing film 34, and the second circuit assembly 32 is located between transparent glass 20 and display module 14.3rd First bearing film 22 of embodiment is separated and is individual member in the second circuit assembly 32, and positioned at transparent glass 20 and Between two circuit assemblies 32.Lenticule combination 24 is arranged on the first surface of the first bearing film 22, the first bearing film 22 Second surface is pasted and is arranged on the second circuit assembly 32, wherein, first surface is relative with second surface.The of 3rd embodiment One bearing film 22 is pasted in the second circuit assembly 32 towards the side of transparent glass 20, therefore lenticule combination 24 is comprising a plurality of Planoconvex spotlight unit 38, its position is between the first bearing film 22 and transparent glass 20, and any one planoconvex spotlight unit 38 convex surface facing transparent glass 20.

Fig. 6 is referred to, Fig. 6 is the part-structure sectional view of the panel module 16D of the display of fourth embodiment of the invention. The second circuit assembly 32 of panel module 16D has the second bearing film 34 and control circuit 36, and control circuit 36 may be provided at On the single or double of the second bearing film 34.Specifically, the lenticule combination 24 of fourth embodiment is arranged on transparent glass 20 are located between lenticule combination 24 and the second circuit assembly 32 towards the side of display module 14, and the first bearing film 22. Therefore lenticule combination 24 includes a plurality of plano-concave lens units 30, the concave surface of any one plano-concave lens unit 30 carries towards first Film 22.First bearing film 22 can be used to avoid lenticule combination 24 from directly touching the second circuit when transparent glass 20 is pressurized Assembly 32.

Because the edge of the image output of display module 14 can be amplified by lenticule combination 24, display 10 preferably includes shadow As processing unit 40, it is arranged in framework 12 and electrical connection display module 14, as shown in Figure 1.Display 10 utilizes image processing The amendment of unit 40 display module 14 is formed in the image of viewing area Rd, it is ensured that image (is implied that after amplifying via lenticule combination 24 Image is adjusted to the size for meeting visible area Rv) will not because of torsional deformation and caused by image distortion.

For synthesis, display of the invention need not change framework size, but utilize and be arranged on display module and printing opacity Refracted light is gone in lenticule combination between glass, and the image zoom for thereby exporting display module is carried to the scope of visible area For the visual effect of narrow frame.Lenticule combination may be provided on bearing film or transparent glass, according to its set location and lens The sensing change of unit can accordingly comprising multiple planoconvex spotlight units or plano-concave lens unit.The effect of lenticule combination is to converge The poly- image light from display module, and then image light diverging is projected with by it via transparent glass, allows panel module It is the visual effect of the size of visible area that can have the image zoom of viewing area.

Lenticule combination is made up of transparent material, for example tin indium oxide (Indium tin oxide, ITO) or other are transparent Material, directly forms or is fitted in bearing film or transparent glass, therefore combine using lenticule with printing, impressing or etching mode Producing magnified image will not increase the number of assembling steps of display.Prior art is compared, display of the invention has volume light and handy With assemble easy advantage, broad visible area can be formed and cause the visual effect of narrow frame, be not required to physically narrow frame Size goes to destroy the structural strength of display.

The foregoing is only presently preferred embodiments of the present invention, all impartial changes done according to scope of the present invention patent with Modification, should all belong to covering scope of the invention.

Claims (8)

1. a kind of display with broad visible area, it is characterised in that the display includes：

Framework；

Display module, it is arranged in the framework；And

Panel module, it is arranged in the framework and covers the display module, and the panel module has visible area, the visible area with The display module is overlapped, and the panel module is also included：

Transparent glass；

First bearing film, it is arranged between the transparent glass and the display module；And

Lenticule is combined, and it is located in the visible area and is arranged between the display module and the transparent glass, the lenticule group Close the optical characteristics with divergent rays；

Wherein, the overlapping range of the panel module and the display module is the visible area, the visible area comprising main viewing area and Secondary viewing area, the secondary viewing area is located between the main viewing area and the framework, and lenticule combination is arranged in the secondary viewing area.

2. display as claimed in claim 1, it is characterised in that the panel module includes first line assembly, the First Line Road assembly is located between the transparent glass and the display module, the circuit assembly comprising first bearing film be arranged on this The control circuit in the first face of one bearing film, lenticule combination is arranged on the second face of first bearing film, and this first Face is relative with second face.

3. display as claimed in claim 1, it is characterised in that the panel module includes the second circuit assembly, second line Road assembly is located at the transparent glass adjacent to the side of the display module, and first bearing film is arranged at the second circuit assembly On.

4. display as claimed in claim 3, it is characterised in that the second circuit assembly includes the second bearing film and setting In two-sided or one side the control circuit of second bearing film.

5. display as claimed in claim 1, it is characterised in that lenticule combination includes a plurality of plano-concave lens units, A plurality of plano-concave lens units are arranged between first bearing film and the display module, and any plano-concave lens unit Concave surface is towards the display module；Or a plurality of plano-concave lens units be arranged at first bearing film and the transparent glass it Between, and any plano-concave lens unit concave surface towards first bearing film.

6. display as claimed in claim 1, it is characterised in that lenticule combination includes a plurality of planoconvex spotlight units, A plurality of planoconvex spotlight units are arranged between first bearing film and the transparent glass, and any planoconvex spotlight unit Convex surface facing the transparent glass.

7. the display as described in claim 5 or 6, it is characterised in that lenticule combination is made up of transparent material, to print Or impressing or etching mode are arranged on first bearing film.

8. display as claimed in claim 1, it is characterised in that also include：Image process unit, is used to correct the pair and shows The image in area.