CN100472269C - Disc lens and point light source of backlight assembly - Google Patents

Abstract

A disc-shaped lens and a point light source of a backlight assembly, wherein the backlight assembly includes a reflective sheet, at least one point light source located on the reflective sheet, and a disc-shaped lens covering the point light source. The disc-shaped lens includes a transmission surface, which is the bottom surface of the disc-shaped lens and has an upper arc-shaped cross section; a reflection surface, which is the upper surface of the lens and has an upper arc-shaped cross section; an annular side edge, which connects the reflection surface and the side edge of the transmission surface; and a scattering surface, which is a convex circle formed in the middle of the reflection surface. In addition, the disc-shaped lens and the light-emitting semiconductor component are packaged into a light-emitting diode component to provide uniform backlight.

Description

The disk lens of backlight assembly and point source of light

The present invention is dividing an application of Chinese invention patent application (application number: 200510051624.7, the applying date: on February 8th, 2005, denomination of invention: the disk lens of backlight assembly and point source of light).

Technical field

The present invention relates to a kind of light source and lens thereof of backlight assembly, particularly relate to the point source of light and the disk lens thereof of the direct type backlight assembly that is used for LCD.

Background technology

Progress along with process conditions, light emitting diode (LED, light emitting diode) luminescence efficiency and luminous power all have significant progress, therefore light emitting diode be applied to the backlight liquid crystal display assembly therefrom, undersized side light inlet mode, towards use light emitting diode matrix (LED array) in, large-scale direct type backlight assembly.Because the emphasis of direct type backlight assembly maximum is exactly that the light source profile is eliminated, make the briliancy of picture can be more even.Yet, because light emitting diode is a pointolite,, solve in the mode that increases backlight assembly thickness usually if will eliminate the luminance nonuniformity that the light source profile causes, for example increase the distance of light source and diffusion sheet, or increase the thickness and the vaporific degree (Haze) of diffusion sheet.

Consult Fig. 1, backlight assembly 1 has diffusion sheet 11, reflector plate 13 and point source of light 14.Point source of light 14 is located between diffusion sheet 11 and the reflector plate 13, and the part light that it sent with upwards reflection of light, passes through diffusion sheet 11 to eliminate the profile of point source of light 14 by reflector plate 13 again.

The problem of known backlit assembly 1 is, point source of light 14 is too big with the reflector plate 13 light and shade differences of background, if want the head it off then must increasing with point source of light 14 and diffusion sheet 11 apart from d, so design can make the thickness of LCD increase, and the idea frivolous with present pursuit display volume runs in the opposite direction.

Consult Fig. 2 again, solve the point source of light 14 of backlight assembly 1 and the too big problem of reflector plate 13 light and shade differences of background, also can be by increasing the method for diffusion sheet 11a.Also promptly, diffusion sheet 11a on repeating repeatedly on the script diffusion sheet 11 utilizes the thickness that increases diffusion sheet 11,11a, and the profile of point source of light 14 is broken up, and reaches the uniform purpose of picture briliancy.But, increase diffusion sheet 11a cost is increased, the thickness of backlight assembly 1 is increased.Moreover,, overlap after the use, the efficiency of light energy utilization is more reduced because the light transmission of diffusion sheet 11,11a is low.Just must use more point source of light 14 so will reach the needed briliancy of large-sized monitor.

In addition, consult Fig. 3, this figure is the embodiment of No. the 6679621st, U.S. Patent number " SIDE EMITTING LEDAND LENS " patent specification.Lens 15 comprise second parts 152 that are funnel shaped first parts 151 and are located at the lens below, wherein first parts 151 are provided with a reflecting surface 153 and one first plane of refraction 154, have second plane of refraction 155 of a circular arc and the bottom surface 156 of a circular arc on second parts 152, when the light emitting diode (not shown) is located at the L point, the light that light emitting diode sent can pass bottom surface 156 and enter in the lens 15, after arriving reflecting surface 153, light can be to first plane of refraction, the 154 directions reflection of two sides, pass first plane of refraction 154 at last and leave lens 15, this is the light path of first light path 17.Other second light path 18 is that light is sent by light emitting diode, passes bottom surface 156 and enters in the lens 15, will leave lens 15 behind the light refraction via second parts 152 again.This piece instructions provides and utilizes lens 15 with pointolite refraction and reflection, and light is concentrated by side emitting.Because the technology that provides of this case is with providing the more backlight assembly of thin type so that reflecting plate 16 curvatures are slowed down,, also can't reaches and make the uniform purpose of picture briliancy so still can't solve the problem of brightness disproportionation between point source of light that leading portion mentions and the reflecting plate.

Summary of the invention

In order to overcome above-mentioned shortcoming, the invention provides a kind of disk lens, comprising: a transmission plane for bottom surface and its section of this disk lens is arc on, and forms a space; One reflecting surface, the upper surface and its section that are positioned at this disk lens are last arc; One circumferential lateral edge is positioned at the joint face of this reflecting surface and this transmission plane side; And a scattering surface, be the middle part that a convexity is formed in this reflecting surface.

The present invention also provides a kind of light emitting diode, comprising: a luminescent diode component; And dish-shaped lens, it comprises: a transmission plane, and for bottom surface and its section of this disk lens is arc on, this transmission plane has a space, to coat this luminescent diode component; One reflecting surface, the upper surface and its section that are positioned at these lens are last arc; One circumferential lateral edge connects the side of this reflecting surface and this transmission plane; And a scattering surface, be the middle part that a convexity is formed in this reflecting surface.

The present invention also provides a kind of backlight assembly and disk lens and light emitting diode, and this backlight assembly comprises: a reflector plate, at least one point source of light, be positioned at this reflector plate on, and dish-shaped lens that coat this point source of light.This disk lens comprises a transmission plane, and this transmission plane is an arc on for bottom surface and its section of this disk lens; One reflecting surface, this reflecting surface is last arc for upper surface and its section of these lens; Second ring side, this circumferential lateral edge are positioned at this reflecting surface and this transmission plane side connects the formed charge level that inclines; And a scattering surface, this scattering surface is one to be formed at the dome of the middle part of this reflecting surface.

In addition, light emitting diode comprises: a light-emitting semi-conductor components and dish-shaped lens.This light emitting diode is coated in this disk lens, and the light launched of light-emitting semi-conductor components via this disk lens with light scatter and reflection, provide uniform light source to backlight assembly.

For above and other objects of the present invention, feature and advantage can be become apparent, enumerate preferred embodiment below especially, and in conjunction with the accompanying drawings, be described in detail below.

Description of drawings

Fig. 1 is the synoptic diagram for the known displays backlight assembly;

Fig. 2 is the synoptic diagram for the known displays backlight assembly;

Fig. 3 is the synoptic diagram for known lens directs light source;

Fig. 4 is disk lens synoptic diagram of the present invention;

Fig. 5 is the light path synoptic diagram for backlight assembly of the present invention;

Fig. 6 is light emitting diode synoptic diagram of the present invention.

The reference numeral explanation:

1～backlight assembly 11,11a～diffusion sheet

13～reflector plate, 14～pointolite

Distance 15～the lens of d～pointolite 14 and diffusion sheet 11

151～the first parts, 152～the second parts

153～reflecting surface, 154～the first planes of refraction

155～the second planes of refraction, 156～bottom surface

16～reflecting plate, 17～the first light paths

18～the second light paths L～pointolite lay down location

2～backlight assembly, 21～disk lens

211～transmission plane, 212～reflecting surface

213～circumferential lateral edge, 214～scattering surface

215～front-reflection layer, 216～back reflection layer

217～dented space, 218～plane

30～point source of light, 301～rear side light path

302～front side light path 303～reflected light path

304～directly scattering light paths 305～indirect scattering light path

306～the first side direction light paths, 307～the second side direction light paths

40～reflector plate, 50～diffusion sheet

601～light emitting diode

Embodiment

Consult Fig. 4, disk lens 21 comprises transmission plane 211, reflecting surface 212, circumferential lateral edge 213 and scattering surface 214.Transmission plane 211 be for the bottom surface of this disk lens 21 and its section be arc on.Upper surface and its section that reflecting surface 212 is positioned at this disk lens 21 are last arc.This reflecting surface 212 has reflected coat layer, and this reflected coat layer is in order to form a front-reflection layer 215 and a back reflection layer 216.Circumferential lateral edge 213 connects this reflecting surface 212 and this transmission plane 211.And scattering surface 214 is one to be formed at the dome at the optical axis position of this reflecting surface 212.Also be provided with a plane 218 on the transmission plane 211 in the present embodiment in addition.

In conjunction with consulting Fig. 4, Fig. 5, backlight assembly 2 comprises reflector plate 40, at least one point source of light 30 and lens 21.This point source of light 30 be located at reflector plate 40 on, disk lens 21 is positioned at point source of light 30 tops.The detailed structure of this disk lens 21 discloses in leading portion, and this section is no longer praised and stated.In addition, above backlight assembly 2, also be provided with a diffusion sheet 50.

The light that point source of light 30 of the present invention is sent comprises a rear side light path 301, a front side light path 302 and a horizontal optical path 308.This rear side light path 301 is after the light emission by this point source of light 30, penetrate towards these reflector plate 40 directions, again via these reflector plate 40 reflections and towards diffusion sheet 50 directions penetrate form.

Then by after these light source 30 emissions, light directly enters in these lens 21 and forms this front side light path 302.The front side light path 302 that enters behind the lens 21 comprises a reflected light path 303, one a direct scattered light road 304 and an indirect scattering light path 305.This reflected light path 303 be the light that sent by point source of light 30 by this back reflection layer 216 with this light towards this reflector plate 40 directions reflection, at last this reflector plate 40 again with this light towards these diffusion sheet 50 reflections and form.After the light that direct scattering light path 304 is then sent by light source 30 enters these lens 21, light is formed towards these diffusion sheet 50 direction scatterings by this scattering surface 214.In addition, after scattering light path 305 is meant that light enters these lens 21 indirectly, scatter on this front-reflection layer 215, by this front-reflection layer 215 this light is penetrated towards these diffusion sheet 50 directions again by this scattering surface 214.

In addition, because circumferential lateral edge 213 is forms for half transmitting, so after light source 30 was entered by lens 21, directly advancing towards diffusion sheet 50 directions towards the ejaculation of circumferential lateral edge 213 directions was the first side direction light path 306.The light path that can't penetrate second ring side 213 and return in the lens 21 is called the second side direction light path 307.

Above-mentioned lens 21 can with light-emitting semi-conductor components, be packaged together and become the LED assembly as LED, as shown in Figure 6.Its lens arrangement repeats no more with reference to above-mentioned description.

Though the present invention discloses as above with preferred embodiment; yet it is not in order to limit the present invention; any those skilled in the art; without departing from the spirit and scope of the present invention; certainly can do various changes and retouching, thus protection scope of the present invention should with claims scope was defined is as the criterion.

Claims (2)

1. disk lens comprises:

One transmission plane for bottom surface and its section of this disk lens is arc on, and forms a space;

One reflecting surface, the upper surface and its section that are positioned at this disk lens are last arc;

One circumferential lateral edge is positioned at the joint face of this reflecting surface and this transmission plane side; And

One scattering surface is the middle part that a convexity is formed in this reflecting surface.

2. light emitting diode comprises:

One luminescent diode component; And

One dish-shaped lens package is drawn together:

One transmission plane, for bottom surface and its section of this disk lens is arc on, this transmission plane has a space, to coat this luminescent diode component;

One reflecting surface, the upper surface and its section that are positioned at these lens are last arc;

One circumferential lateral edge connects the side of this reflecting surface and this transmission plane; And

One scattering surface is the middle part that a convexity is formed in this reflecting surface.

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