CN105824356A - Display screen and electronic equipment - Google Patents

Abstract

The invention discloses a display screen which comprises a display module, and further comprises a light condensing structure, wherein the display module comprises a display panel; the light condensing structure is used for reducing an included angle between the upper surface of the display panel and light rays emitted from an edge of the upper surface of the display panel. The invention further discloses electronic equipment comprising the display screen. In a design form of an ultrathin display screen, the display screen provided by the embodiment of the invention can gather the scattered light rays emitted through the edge of the upper surface of the display panel by adopting an optical structure, the scattered light rays at the edge of the display module are utilized again and gathered again in a visual angle range of human eyes, and the visible area of the display panel is enlarged.

Description

A kind of display screen and electronic equipment

Technical field

The present invention relates to electronic device field, particularly relate to a kind of display screen and electronic equipment.

Background technology

The narrow frame design of mobile phone is a main trend in following mobile phone development direction, prior art is typically with constantly reducing viscose width or support width to reduce mobile phone border width, and reduces viscose glue width or support width can produce certain impact to the structure pasting quality and mobile phone of mobile phone to a certain extent.

The narrowest frame design also can be with the generation of leakage problem, display module itself can send the light of certain angle, a part of light is injected human eye and is defined the viewing area of display floater, and the part scattering light at edge must carry out covering in order to avoid the problem that light leak occurs at display floater edge.

How the scattering light of above-mentioned edge is re-used, again converge in the angular field of view of human eye, increase the visible area area of display floater, there is presently no reasonable solution.

Summary of the invention

The embodiment of the present invention provides a kind of display screen and electronic equipment, in order to how to solve by the scattering light re-using of display module edge, again converges in the angular field of view of human eye, the problem increasing the visible area area of display floater.

The embodiment of the present invention provides a kind of display screen, and including display module, display module includes display floater, and display screen also includes concentration structure, and concentration structure is for reducing the angle that the light sent from the edge of display floater upper surface is formed with display floater upper surface.

The embodiment of the present invention also provides for a kind of electronic equipment, including above-mentioned display screen.

The display screen that the embodiment of the present invention provides, by arranging concentration structure on a display screen, light through display screen is reflected to the central region of display screen when by concentration structure, reduce the angle that the light sent from the edge of display floater upper surface is formed with display floater upper surface, under display screen ultrathin design form, converge the scattering light sent by the edge of display floater upper surface, visually reduce the width of display module frame.And this programme have followed the principle of ultrathin design, improve the feasibility of electronic equipment ultrathin design.

Accompanying drawing explanation

Fig. 1 is the first embodiment structural representation of display screen of the present invention；

Fig. 2 is the second example structure schematic diagram of display screen of the present invention；

Fig. 3 is the 3rd example structure schematic diagram of display screen of the present invention；

Fig. 4 is the 4th example structure schematic diagram of display screen of the present invention.

Wherein in figure: 1, display floater；2, transparency carrier；3, contact panel；4, concentration structure；5, transparent protective film.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

Embodiment one

As shown in Figure 1, the embodiment of the present invention provides a kind of display screen, including display module, display module includes display floater 1, display screen also includes for reducing the concentration structure 4 of the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface and being stacked in the transparency carrier 2 of display floater 1 upper surface, concentration structure 4 is positioned at the first area of the upper surface of transparency carrier 2, and first area is that both sides of the edge to transparency carrier 2 center of the upper surface from transparency carrier 2 extends the region that predeterminable range is formed.

Concrete, display floater 1 arranges a transparency carrier 2, in the both sides of the edge of transparency carrier 2 upper surface to transparency carrier 2 center extends the first area that predeterminable range is formed, concentration structure 4 is set, concentration structure 4 includes multiple lenticule, multiple lenticulees are sequentially connected with, and form a curved surface with predefined curved radian.What the embodiment of the present invention was utilized is the principle of the micro-feature of Fresnel optics, and the micro-feature of Fresnel optics is based on the Fresnel zone plate with lensing, it is achieved the convergence of incident illumination, produces great light intensity.The present invention, is reflected through multiple lenticulees by light, and the angle that the light after superrefraction and display floater 1 upper surface are formed reduces, and then the central region realizing light alignment display floater 1 converges.Wherein the span of predeterminable range is 0.3mm～4mm, and the span of predeterminable range can be also 0.3mm～0.4mm or 0.3mm～0.8mm, and the span of predeterminable range is not limited to above-mentioned scope, is not described in detail in this.

Through the light of the display floater 1 light emission side multiple lenticulees in the first area through transparency carrier 2 upper surface, can reflect, the angle that light after superrefraction and display floater 1 upper surface are formed reduces, so that the central region of the light alignment display floater 1 after Zhe She converges, increase viewing area area, thus visually reduce the width of display module frame.And the display screen that provided of this programme have followed the principle of ultrathin design, improve the feasibility of electronic equipment ultrathin design.

Transparency carrier 2 is glass material or polymethyl methacrylate material.Glass material is used to make transparency carrier 2, with low cost and there is preferable light transmission.Polymethyl methacrylate material is that in synthesis transparent material, quality is excellent, and price is again than kind conveniently.And polymethyl methacrylate material is the material of asepsis environment-protecting, there is good chemical stability, be not likely to produce sharp-pointed fragment time broken and light transmission is good.Use polymethyl methacrylate material to make transparency carrier 2, both can ensure that the safety of electronic equipment user, and made the electronic equipment obtained simultaneously and also there is good chemical stability and light transmission.

The embodiment of the present invention is by arranging concentration structure 4 on a display screen, light through display screen is reflected to the central region of display screen when by concentration structure 4, reduce the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface, under display screen ultrathin design form, converge the scattering light sent by the edge of display floater 1 upper surface, visually reduce the width of display module frame.And use glass material to make transparency carrier 2, it is ensured that preferably light transmission；Use polymethyl methacrylate material to make transparency carrier 2, both can ensure that the safety of electronic equipment user, and made the electronic equipment obtained simultaneously and also there is good chemical stability and light transmission.

Embodiment two

As shown in Figure 2, the embodiment of the present invention provides a kind of display screen, including display module and concentration structure 4, display module includes display floater 1 and the contact panel 3 of the upper surface being stacked in display floater 1, display screen also includes the transparency carrier 2 being stacked in contact panel 3 upper surface, concentration structure 4 is positioned at the second area of the lower surface of transparency carrier 2, for reducing the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface, second area is that the both sides of the edge of the lower surface from transparency carrier 2 extend the region that predeterminable range is formed to transparency carrier 2 center.

Concrete, upper surface at display floater 1 arranges contact panel 3, upper surface at contact panel 3 arranges transparency carrier 2, extend in the second area that predeterminable range is formed to transparency carrier 2 center in the both sides of the edge of transparency carrier 2 lower surface and concentration structure 4 is set, wherein concentration structure 4 includes multiple lenticule, multiple lenticulees are sequentially connected with, and form a curved surface with predefined curved radian.The heat radiation light sent through display floater 1 light emission side passes contact panel 3, then enter and set to transparency carrier 2, during concentration structure 4 in the second area by transparency carrier 2 lower surface, owing to concentration structure 4 is made up of multiple lenticulees, light can reflect through lenticule, the angle that light after superrefraction and transparency carrier 2 are formed reduces so that the central region of the light alignment transparency carrier 2 after refraction converges, thus visually reduces the width of display module frame.It should be noted that transparency carrier 2 can be glass material or polymethyl methacrylate material.Wherein the span of predeterminable range is 0.3mm～4mm, and the span of predeterminable range can be also 0.3mm～0.4mm or 0.3mm～0.8mm, and the span of predeterminable range is not limited to above-mentioned scope, is not described in detail in this.Concentration structure 4 on transparency carrier 2 can be made by UV transfer printing process.

By arranging concentration structure 4 on the end face that transparency carrier 2 is connected with contact panel 3, make light through display floater 1 and after contact panel 3, in the range of being incident to second area, reflect during by multiple lenticule being sequentially connected with, light after refraction can converge to the middle part of transparency carrier 2, visually reduce the width of display module frame.And the display screen that provided of this programme have followed the principle of ultrathin design, improve the feasibility of electronic equipment ultrathin design.And use glass material to make transparency carrier 2, it is ensured that preferably light transmission；Use polymethyl methacrylate material to make transparency carrier 2, both can ensure that the safety of electronic equipment user, and made the electronic equipment obtained simultaneously and also there is good chemical stability and light transmission.

Embodiment three

As shown in Figure 3, the embodiment of the present invention provides a kind of display screen, including display module and concentration structure 4, display module includes display floater 1 and the contact panel 3 of the upper surface being stacked in display floater 1, concentration structure 4 is positioned at the 3rd region of contact panel 3 upper surface, for reducing the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface, the 3rd region is to extend the region that predeterminable range is formed to contact panel 3 center from the both sides of the edge of contact panel 3 upper surface.And the upper surface of contact panel 3 is provided with layer of transparent protecting film 5.

Concrete, upper surface at display floater 1 arranges contact panel 3, in the both sides of the edge of the upper surface of contact panel 3, concentration structure 4 is set in the 3rd region that contact panel 3 center extension predeterminable range is formed, wherein concentration structure 4 includes multiple lenticule, multiple lenticulees are sequentially connected with, and form a curved surface with predefined curved radian.The heat radiation light sent through display floater 1 light emission side passes contact panel 3, when then entering the concentration structure 4 set to the 3rd region of contact panel 3 upper surface, owing to concentration structure 4 is made up of multiple lenticulees, light can reflect through lenticule, the angle that light after superrefraction and contact panel 3 are formed reduces, the central region making the light alignment contact panel 3 after refraction converges, thus visually reduces the width of display module frame.Wherein the span of predeterminable range is 0.3mm～4mm, and the span of predeterminable range can be also 0.3mm～0.4mm or 0.3mm～0.8mm, and the span of predeterminable range is not limited to above-mentioned scope, is not described in detail in this.

And the upper surface of contact panel 3 is provided with transparent protective film 5; contact panel 3 can be played certain protective effect; prevent user's scuffing in use to contact panel 3, and after transparent protective film 5 is set so that display screen has preferable waterproof and dustproof characteristic.It should be noted that the multiple lenticulees on contact panel 3 can be transferred by UV or the technique such as etching makes.

By arranging concentration structure 4 on the upper surface of contact panel 3, make light through display floater 1 and through contact panel 3, it is incident in the 3rd regional extent, reflect during by multiple lenticule being sequentially connected with, light after refraction can converge to the middle part of contact panel 3 upper surface, visually reduce the width of display module frame.And the display screen that provided of this programme have followed the principle of ultrathin design, improve the feasibility of electronic equipment ultrathin design.Display screen can be played certain protective effect by the transparent protective film 5 arranged on contact panel 3.

Embodiment four

As shown in Figure 4, the embodiment of the present invention provides a kind of display screen, including display module and concentration structure 4, display module includes display floater 1 and the contact panel 3 of the upper surface being stacked in display floater 1, concentration structure 4 is positioned at the 4th region of contact panel 3 lower surface, for reducing the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface, the 4th region is to extend the region that predeterminable range is formed to contact panel 3 center from the both sides of the edge of contact panel 3 lower surface.And the upper surface of contact panel 3 is provided with layer of transparent protecting film 5.

Concrete, upper surface at display floater 1 arranges contact panel 3, in the both sides of the edge of the lower surface of contact panel 3, concentration structure 4 is set in the 4th region that contact panel 3 center extension predeterminable range is formed, wherein concentration structure 4 includes multiple lenticule, multiple lenticulees are sequentially connected with, and form a curved surface with predefined curved radian.Wherein the span of predeterminable range is 0.3mm～4mm, and the span of predeterminable range can be also 0.3mm～0.4mm or 0.3mm～0.8mm, and the span of predeterminable range is not limited to above-mentioned scope, is not described in detail in this.

The heat radiation light sent through display floater 1 light emission side, when entering the concentration structure 4 set to the 4th region of contact panel 3 lower surface, owing to concentration structure 4 is made up of multiple lenticulees, light can reflect through lenticule, the angle that light after superrefraction and contact panel 3 are formed reduces, the central region making the light alignment contact panel 3 after refraction converges, thus visually reduces the width of display module frame.

And the upper surface of contact panel 3 is provided with transparent protective film 5, contact panel 3 can be played certain protective effect, simultaneously so that display screen has preferable waterproof and dustproof characteristic.

By arranging concentration structure 4 on the lower surface of contact panel 3, make light being incident in the 4th regional extent through display floater 1, reflect during by multiple lenticule being sequentially connected with, light after refraction can converge to the middle part of contact panel 3, visually reduce the width of display module frame.And the display screen that provided of this programme have followed the principle of ultrathin design, improve the feasibility of electronic equipment ultrathin design.Display screen can be played certain protective effect by the transparent protective film 5 arranged on contact panel 3.

It should be noted that those skilled in the art can set first area, second area, the 3rd region and the concrete numerical value of the 4th regional extent as required, it is not limited to numerical value cited in embodiment.

Embodiment five

The embodiment of the present invention also provides for a kind of electronic equipment, and including the display screen described by embodiment one to embodiment four, this electronic equipment can be the equipment such as smart mobile phone, panel computer, notebook computer.

Wherein, electronic equipment may include that a display screen, display screen includes showing module, display module includes display floater 1, display screen also includes the transparency carrier 2 being stacked in display floater 1 upper surface, being provided with the concentration structure 4 for reducing the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface in the first area of the upper surface of transparency carrier 2, first area is that both sides of the edge to transparency carrier 2 center of the upper surface from transparency carrier 2 extends the region that predeterminable range is formed.

Electronic equipment can also include: a display screen, display screen includes showing module, display module includes display floater 1 and the contact panel 3 of the upper surface being stacked in display floater 1, display screen also includes the transparency carrier 2 being stacked in contact panel 3 upper surface, the second area of the lower surface of transparency carrier 2 is provided with the concentration structure 4 for reducing the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface, and second area is that the both sides of the edge of the lower surface from transparency carrier 2 extend the region that predeterminable range is formed to transparency carrier 2 center.

Electronic equipment can also include: a display screen, display screen includes showing module, display module includes display floater 1 and the contact panel 3 of the upper surface being stacked in display floater 1, being provided with the concentration structure 4 for reducing the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface in 3rd region of contact panel 3 upper surface, the 3rd region is to extend the region that predeterminable range is formed to contact panel 3 center from the both sides of the edge of contact panel 3 upper surface.And the upper surface of contact panel 3 is provided with layer of transparent protecting film 5.

Electronic equipment can also include: a display screen, display screen includes showing module, display module includes display floater 1 and the contact panel 3 of the upper surface being stacked in display floater 1, being provided with the concentration structure 4 for reducing the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface in 4th region of contact panel 3 lower surface, the 4th region is to extend the region that predeterminable range is formed to contact panel 3 center from the both sides of the edge of contact panel 3 lower surface.And the upper surface of contact panel 3 is provided with layer of transparent protecting film 5.

The span of described predeterminable range is 0.3mm～4mm, and the span of predeterminable range can be also 0.3mm～0.4mm or 0.3mm～0.8mm, and the span of predeterminable range is not limited to above-mentioned scope, is not described in detail in this.

By arranging concentration structure 4 on a display screen, light through display screen is reflected to the central region of display screen when by concentration structure 4, reduce the angle that the light sent from the edge of display floater 1 upper surface is formed with display floater 1 upper surface, under display screen ultrathin design form, converge the scattering light sent by the edge of display floater 1 upper surface, visually reduce the width of display module frame.And this programme have followed the principle of ultrathin design, improve the feasibility of electronic equipment ultrathin design.

It should be noted that the display screen that the embodiment of the present invention provides is applicable to all electronic equipments including above-mentioned display screen, above-mentioned electronic equipment is not limited to smart mobile phone, also includes the electronic equipment such as panel computer, PAD, is not described in detail in this.

The above is the preferred embodiment of the present invention; it should be pointed out that, for those skilled in the art, on the premise of without departing from principle of the present invention; can also make some improvements and modifications, these improvements and modifications also should be regarded as protection scope of the present invention.

Claims (11)

1. a display screen, including display module, described display module includes display floater, it is characterised in that, described display screen also includes concentration structure, and described concentration structure is for reducing the angle that the light sent from the edge of display floater upper surface is formed with described display floater upper surface.

Display screen the most according to claim 1, it is characterized in that, described display screen also includes the transparency carrier being stacked in described display floater upper surface, described concentration structure is positioned at the first area of the upper surface of described transparency carrier, and described first area is that both sides of the edge to the transparency carrier center of the upper surface from described transparency carrier extends the region that predeterminable range is formed.

Display screen the most according to claim 1, it is characterised in that described display module also includes that contact panel, described contact panel are stacked in the upper surface of described display floater.

Display screen the most according to claim 3, it is characterized in that, described display screen also includes the transparency carrier being stacked in contact panel upper surface, described concentration structure is positioned at the second area of the lower surface of described transparency carrier, and described second area is that the both sides of the edge of the lower surface from described transparency carrier extend the region that predeterminable range is formed to transparency carrier center.

Display screen the most according to claim 3, it is characterized in that, described concentration structure is positioned at the 3rd region of contact panel upper surface, and described 3rd region is to extend the region that predeterminable range is formed to contact panel center from the both sides of the edge of described contact panel upper surface.

Display screen the most according to claim 3, it is characterized in that, described concentration structure is positioned at the 4th region of contact panel lower surface, and described 4th region is to extend the region that predeterminable range is formed to contact panel center from the both sides of the edge of described contact panel lower surface.

7. according to the display screen described in claim 5 or 6, it is characterised in that the upper surface of described contact panel is provided with layer of transparent protecting film.

8. according to the display screen described in any one of claim 1 to 6, it is characterised in that described concentration structure includes multiple lenticule.

Display screen the most according to claim 8, it is characterised in that the plurality of lenticule is sequentially connected with, and form a curved surface with predefined curved radian.

10. according to the display screen described in claim 2 or 4, it is characterised in that described transparency carrier is glass material or polymethyl methacrylate material.

11. 1 kinds of electronic equipments, it is characterised in that described electronic equipment includes the display screen as described in any one of claim 1 to 10.