CN104658427A

CN104658427A - Display with wide visible range

Info

Publication number: CN104658427A
Application number: CN201510073230.5A
Authority: CN
Inventors: 赖彦勋; 郭泰佑
Original assignee: Qisda Suzhou Co Ltd; Qisda Corp
Current assignee: Qisda Suzhou Co Ltd; Qisda Corp
Priority date: 2015-02-12
Filing date: 2015-02-12
Publication date: 2015-05-27
Anticipated expiration: 2035-02-12
Also published as: CN104658427B

Abstract

The invention discloses a display with a wide visible range, which comprises a frame body, a display module and a panel module. The display module is arranged in the frame body; the panel module is arranged on the frame body and covers the display module; the panel module is provided with the visible range; the visible range is overlapped with the display module; the panel module comprises light-transmitting glass, a first bearing thin film and a micro lens combination; the first bearing thin film is arranged between the light-transmitting glass and the display module; the micro lens combination is positioned in the visible region and is arranged between the display module and the light-transmitting glass; the micro lens combination has the optical characteristic of diverging light. According to the display disclosed by the invention, image light of the display module is converged by the micro lens combination so as to diverge the image light to enable the image light to be emitted out through the light-transmitting glass, the panel module can have visual effects of amplifying an image of a display region into the size of the visible range and forming a narrow border.

Description

There is the display of broad visible area

Technical field

The invention provides a kind of display, espespecially a kind of need reduces the display that framework size just can have broad visible area.

Background technology

The external appearance characteristic that display device (such as computer screen and mobile phone screen) has super-thin frame is one of factor improving consumer's desire to purchase.The ratio that show image accounts for the surface area of display device is larger, and frame accounts for that the ratio regular meeting of the surface area of display device is corresponding to be reduced.Although the display of super-thin frame has the better market competitiveness, but the viewing area scope of display device is equivalent to the size of the optical element (such as polaroid) showing module, the size of framework then depends on that the factors such as structural design, assembling product and security intensity are difficult to unrestrictedly reduce narrow, therefore how overcoming the size limitations of framework, the display device designing narrower frame or Rimless is just the important development target of associated mechanisms industry.

Summary of the invention

The invention provides a kind of need and reduce the display that framework size just can have broad visible area, to solve the above problems.

Claim of the present invention discloses a kind of display with broad visible area, and it includes framework, display module and panel module.This display module is arranged in this framework, and this panel module to be arranged in this framework and to cover this display module.This panel module has visible area, and this visible area is overlapping with this display module.This panel module comprises the combination of transparent glass, bearing film and lenticule.This bearing film is arranged between this transparent glass and this display module.The combination of this lenticule is positioned at this visible area, and is arranged between this display module and this transparent glass.The combination of this lenticule has the optical characteristics of divergent rays.

As optional technical scheme, this panel module comprises first line assembly, this first line assembly is between this transparent glass and this display module, this circuit assembly comprises this first bearing film and the control circuit of first surface being arranged on this first bearing film, the combination of this lenticule is arranged on second of this first bearing film, and this first surface is relative with this second.

As optional technical scheme, this panel module comprises the second circuit assembly, and this second circuit assembly is positioned at the side of this transparent glass this display module contiguous, and this first bearing film is arranged on this second circuit assembly.

As optional technical scheme, the control circuit that this second circuit assembly comprises the second bearing film and is arranged at the two-sided of this second bearing film or one side.

As optional technical scheme, the combination of this lenticule comprises a plurality of plano-concave lens unit, and this plurality of plano-concave lens unit is arranged between this first bearing film and this display module, and this display module concave surface facing of arbitrary plano-concave lens unit; Or this plurality of plano-concave lens unit is arranged between this first bearing film and this transparent glass, and this first bearing film concave surface facing of arbitrary plano-concave lens unit.

As optional technical scheme, this lenticule combination comprise a plurality of plano-convex lens unit, this plurality of plano-convex lens unit is arranged between this first bearing film and this transparent glass, and arbitrary plano-convex lens unit convex surface facing this transparent glass.

As optional technical scheme, lenticule combination is made up of transparent material, such as tin indium oxide (Indiumtin oxide, ITO) or other transparent material, to print, to impress or etching mode is directly formed or is fitted on bearing film or transparent glass.

As optional technical scheme, the overlapping range of this panel module and this display module is this visible area, and this visible area comprises main viewing area and secondary viewing area, and this secondary viewing area is between this main viewing area and this framework.

As optional technical scheme, the combination of this lenticule is arranged in this secondary viewing area.

As optional technical scheme, also comprise: image process unit, in order to revise the image of this secondary viewing area.

Display of the present invention need not change framework size, but utilizes the lenticule be arranged between display module and transparent glass combine and remove refracted ray, by this by the image zoom of display module output to the scope of visible area, the visual effect of narrow frame is provided.Lenticule combination can be arranged on the first bearing film or transparent glass, and the sensing change according to its setting position and lens unit correspondingly can comprise multiple plano-convex lens unit or plano-concave lens unit.The effect of lenticule combination is to converge the image light from display module, and then image light is dispersed it to be penetrated via transparent glass, allows panel module can have the image zoom of viewing area the visual effect of the size being visible area.Compare prior art, display of the present invention has the light and handy and assembling of volume and is easy to advantage, can form broad visible area and cause the visual effect of narrow frame, not needing physically to narrow the structural strength that frame size removes destruction display.

Accompanying drawing explanation

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

Fig. 2 is the cut-open view of display shown in Fig. 1.

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

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

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

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

Embodiment

Refer to Fig. 1 and Fig. 2, Fig. 1 is the explosive view of display 10 of the present invention, and Fig. 2 is for display 10 shown in Fig. 1 is along the cut-open view of profile line A-A '.Display 10 comprises framework 12, display module 14 and panel module 16.Display module 14 has viewing area Rd, and display module 14 is arranged in the accommodation space 18 of framework 12.Panel module 16 is arranged in framework 12 to cover display module 14.The show image of display module 14 outwards projects via viewing area Rd and panel module 16, watches for user.Panel module 16 has transparent glass 20, first bearing film 22 and lenticule combination 24.The image zoom of viewing area Rd can be the size of the visible area Rv meeting panel module 16 by lenticule combination 24.The scope of viewing area Rd is same as the size of display module 14, and the scope of visible area Rv is greater than the scope of viewing area Rd and is overlapped in framework 12, therefore display 10 still can have the visual effect of featheredge frame when not changing framework 12 size.

First bearing film 22 and lenticule combine 24 and are all arranged between transparent glass 20 and display module 14.First bearing film 22 utilizes optical cement to fit in transparent glass 20 usually.Lenticule combination 24 is positioned at visible area Rv, and has the optical characteristics of divergent rays.The relative position of the first bearing film 22 and lenticule combination 24 and the optical element of lenticule combination 24 can have corresponding change according to different embodiment.For example, lenticule combination 24 is when be made up of plano-concave lens unit, and it to be arranged on the first bearing film 22 and towards showing module 14 or being arranged on transparent glass 20 and towards the first bearing film 22; When lenticule combination 24 is made up of plano-convex lens, be then be arranged on the first bearing film 22 and towards transparent glass 20, be so not limited thereto.

Viewing area Rd is distinguished into main viewing area R1 and secondary viewing area R2.Secondary viewing area R2 can be frame shape, and around being arranged on main viewing area R1 periphery, the position of meaning and secondary viewing area R2 is between main viewing area R1 and framework 12.Lenticule combination 24 is goodly arranged in secondary viewing area R2, is used for reflecting the light by the border (such as secondary viewing area R2) of viewing area Rd, with by the scope of the image zoom of viewing area Rd for visible area Rv.But the setting area of lenticule combination 24 is not limited to described in the embodiment of prostatitis, the lenticule combination 24 of such as part also can be arranged in main viewing area R1.Everyly can combine 24 through lenticule and go refracted ray all to belong to design category of the present invention with the technology of magnified image, so no longer enumerate explanation respectively to other embodiment.

Refer to Fig. 3, Fig. 3 is the part-structure cut-open 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 between transparent glass 20 and display module 14.First line assembly 26 comprises the first bearing film 22 and control circuit 28.Control circuit 28 is arranged on the first surface 221 of the first bearing film 22, and lenticule combination 24 is arranged on the second face 222 of the first bearing film 22, and first surface 221 is relative with the second face 222.In a first embodiment, lenticule combination 24 comprises a plurality of plano-concave lens unit 30, is separately positioned on the second face 222 of the first bearing film 22, and the concave surface facing display module 14 of any one plano-concave lens unit 30.

Refer to Fig. 4, Fig. 4 is the part-structure cut-open view of the panel module 16B of the display of second embodiment of the invention.Panel module 16B separately comprises the second circuit assembly 32, is positioned at the side of transparent glass 20 contiguous display module 14.Second circuit assembly 32 has the second bearing film 34 and is arranged on the control circuit 36 of the two-sided or one side of the second bearing film 34.First bearing film 22 separates in the second circuit assembly 32 and is individual member, is positioned between the second circuit assembly 32 and display module 14.Lenticule combination 24 is arranged on the first surface of the first bearing film 22, and the second surface of the first bearing film 22 is arranged on the second circuit assembly 32 to paste mode, and wherein, first surface is relative with second surface.In a second embodiment, a plurality of plano-concave lens unit 30 of lenticule combination 24 are between the first bearing film 22 and display module 14, and the concave surface facing display module 14 of any one plano-concave lens unit 30.

Refer to Fig. 5, Fig. 5 is the part-structure cut-open 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 arranged on the single or double of bearing film 34, and the second circuit assembly 32 is positioned between transparent glass 20 and display module 14.First bearing film 22 of the 3rd embodiment separates in the second circuit assembly 32 and is individual member, and is positioned between transparent glass 20 and the second circuit assembly 32.Lenticule combination 24 is arranged on the first surface of the first bearing film 22, and the second surface of the first bearing film 22 is pasted and is arranged on the second circuit assembly 32, and wherein, first surface is relative with second surface.First bearing film 22 of the 3rd embodiment is pasted in the side of the second circuit assembly 32 towards transparent glass 20, therefore lenticule combination 24 comprises a plurality of plano-convex lens unit 38, its position between the first bearing film 22 and transparent glass 20, and any one plano-convex lens unit 38 convex surface facing transparent glass 20.

Refer to Fig. 6, Fig. 6 is the part-structure cut-open 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 can be arranged on the single or double of the second bearing film 34.Specifically, the lenticule combination 24 of the 4th embodiment is arranged on the side of transparent glass 20 towards display module 14, and the first bearing film 22 is between lenticule combination 24 and the second circuit assembly 32.Therefore lenticule combination 24 comprises a plurality of plano-concave lens unit 30, concave surface facing first bearing film 22 of any one plano-concave lens unit 30.First bearing film 22 can be used to avoid lenticule to combine 24 and directly touches the second circuit assembly 32 when transparent glass 20 pressurized.

Because the edge of image output showing module 14 can be combined 24 amplifications by lenticule, display 10 is better comprises image process unit 40, to be arranged in framework 12 and electrical connection display module 14, as shown in Figure 1.Display 10 utilizes image process unit 40 correction display module 14 to be formed in the image of viewing area Rd, guarantees that image amplifies rear (meaning and image are adjusted to the size meeting visible area Rv) via lenticule combination 24 and can not cause image distortion because of torsional deformation.

Comprehensive, display of the present invention need not change framework size, but utilize the lenticule be arranged between display module and transparent glass combine and remove refracted ray, by this by the image zoom of display module output to the scope of visible area, the visual effect of narrow frame is provided.Lenticule combination can be arranged on bearing film or transparent glass, and the sensing change according to its setting position and lens unit correspondingly can comprise multiple plano-convex lens unit or plano-concave lens unit.The effect of lenticule combination is to converge the image light from display module, and then image light is dispersed it to be penetrated via transparent glass, allows panel module can have the image zoom of viewing area the visual effect of the size being visible area.

Lenticule combination is made up of transparent material, such as tin indium oxide (Indium tin oxide, or other transparent material ITO), directly form or be fitted in bearing film or transparent glass with printing, impression or etching mode, therefore use lenticule combination to produce the number of assembling steps that magnified image can not increase display.Compare prior art, display of the present invention has the light and handy and assembling of volume and is easy to advantage, can form broad visible area and cause the visual effect of narrow frame, not needing physically to narrow the structural strength that frame size removes destruction display.

The foregoing is only preferred embodiment of the present invention, all equalizations done according to the present patent application the scope of the claims change and modify, and all should belong to covering scope of the present invention.

Claims

1. have a display for broad visible area, it is characterized in that, this display includes:

Framework;

Display module, it is arranged in this framework; And

Panel module, it to be arranged in this framework and to cover this display module, and this panel module has visible area, and this visible area is overlapping with this display module, and this panel module also comprises:

Transparent glass;

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

Lenticule combines, and it is in this visible area and be arranged between this display module and this transparent glass, and the combination of this lenticule has the optical characteristics of divergent rays.

2. display as claimed in claim 1, it is characterized in that, this panel module comprises first line assembly, this first line assembly is between this transparent glass and this display module, this circuit assembly comprises this first bearing film and the control circuit of first surface being arranged on this first bearing film, the combination of this lenticule is arranged on second of this first bearing film, and this first surface is relative with this second.

3. display as claimed in claim 1, it is characterized in that, this panel module comprises the second circuit assembly, and this second circuit assembly is positioned at the side of this transparent glass this display module contiguous, and this first bearing film is arranged on this second circuit assembly.

4. display as claimed in claim 3, is characterized in that, the control circuit that this second circuit assembly comprises the second bearing film and is arranged at the two-sided of this second bearing film or one side.

5. display as claimed in claim 1, it is characterized in that, the combination of this lenticule comprises a plurality of plano-concave lens unit, and this plurality of plano-concave lens unit is arranged between this first bearing film and this display module, and this display module concave surface facing of arbitrary plano-concave lens unit; Or this plurality of plano-concave lens unit is arranged between this first bearing film and this transparent glass, and this first bearing film concave surface facing of arbitrary plano-concave lens unit.

6. display as claimed in claim 1, it is characterized in that, this lenticule combination comprise a plurality of plano-convex lens unit, this plurality of plano-convex lens unit is arranged between this first bearing film and this transparent glass, and arbitrary plano-convex lens unit convex surface facing this transparent glass.

7. the display as described in claim 5 or 6, is characterized in that, the combination of this lenticule is made up of transparent material, to print or to impress or etching mode is arranged on this first bearing film.

8. display as claimed in claim 1, it is characterized in that, the overlapping range of this panel module and this display module is this visible area, and this visible area comprises main viewing area and secondary viewing area, and this secondary viewing area is between this main viewing area and this framework.

9. display as claimed in claim 8, is characterized in that, the combination of this lenticule is arranged in this secondary viewing area.

10. display as claimed in claim 8, is characterized in that, also comprise: image process unit, in order to revise the image of this secondary viewing area.