CN105353439A - Light guide particle free light guide plate structure - Google Patents

Abstract

The invention provides a light guide particle free light guide plate structure. The structure comprises a light guide plate body; the light guide plate body includes a light input surface, a light output surface and a bottom surface, wherein a light beam is guided into the light guide plate body via the light input surface, the light input surface is placed in the lateral portion of the light guide plate body, the light beam is guided out of the light guide plate body via the light output surface, and the bottom surface of a planar structure is opposite to the light output surface; multiple spherical projections which are molded with the light guide plate body in an integrated manner are arranged at the light output surface in an array, the spherical projections in the array are arranged in rows and columns in a staggered manner, and the spherical projections are made of an MS material; and the diameter of each spherical projection ranges from 205 to230 micron, the height of the spherical projection ranges from 155 to 175 micron, and the spacing between the adjacent spherical projections in each row/column ranges from 260 to 290 micron.

Description

A kind of without guide-lighting particle light conducting plate structure

Technical field

The present invention relates to a kind of for liquid crystal display without guide-lighting particle light conducting plate structure.

Background technology

In recent years, along with colorize and the maximization of liquid crystal display, its application is more extensive, as notebook, various desk-top computer, LCD TV etc.Because liquid crystal itself does not have the characteristics of luminescence, thus, do not reach display effect, need the light source providing a light-source system as display, as backlight module, backlight module mainly comprises light guide plate, light source, reflector plate and one or more blooming piece.Wherein, light guide plate is the significant components in backlight module, for guiding the transmission direction sending light beam from light source, line source or pointolite is converted to area source injection, for representing the brightness of backlight and display screen, there is again the requirement of printing opacity briliancy and transmission uniformity simultaneously.From back light injection, propagate inside light guide plate, and reflect at dot surface, reflect and be totally reflected, part light is absorbed by light guide plate, and remaining light passes the exiting surface of light guide plate, incides liquid crystal material, by control circuit to realize liquid crystal display.

Traditional light guide plate reaches needs add guide-lighting particle to improve light efficiency in the process of processing, and processing technology is complicated, and cost is high.In addition, the general exiting surface of existing light guide plate is V-type groove or U-type groove structure, there is following shortcoming: 1. because the groove of exiting surface is micron-sized microstructure, usually needs to adopt laser engraving technique to produce, and production efficiency is low and cost is higher; 2. its reflection of U-type groove, refraction effect not as V-type groove, and bottom V-shaped groove are tapering structure, and difficulty of processing is large, and very easily occur process defective and affect product quality, therefore this kind of U-type groove or V-type groove more and more can not meet the needs of social development.

Summary of the invention

The present invention proposes a kind of without guide-lighting particle light conducting plate structure, solves in prior art the technical matters that light guide plate light efficiency is low, processing technology is complicated, trench structure difficulty of processing is large.

Technical scheme of the present invention is achieved in that a kind of without guide-lighting particle light conducting plate structure, comprise light conducting plate body, described light conducting plate body comprises and to be imported by light beam in light conducting plate body and be positioned at the incidence surface of light conducting plate body sidepiece, the exiting surface that light beam is derived in light conducting plate body and the bottom surface relative with exiting surface, described bottom surface is smooth planar structure, on described exiting surface, array arranges multiple hemisphere jut integrated with light conducting plate body, and the hemisphere jut of described array becomes the arranged in form of interlaced multiple lines and multiple rows, described hemisphere jut adopts MS material to make, the diameter of described hemisphere jut is 205-230um, the height of described hemisphere jut is 155-175um, spacing between adjacent hemisphere jut is 260-290um.

Wherein, described light conducting plate body adopts MS material to make.

Particularly, the thickness of described light conducting plate body is 2.0-3.0mm.

Further, described light conducting plate body is plate shaped.

Further, the plurality of hemisphere jut is staggered equidistantly arranges and structure is identical.

Compared with prior art, beneficial effect of the present invention is: structure is simple, and without the need to adding guide-lighting particle, light efficiency can reach more than 70lm/w, and quality is high.Hemisphere jut be arranged so that light conducting plate body refraction, uniform in light emission, do not exist between hemisphere jut and light conducting plate body light transmit interface, light loss reduce; Technique is simple, and when processing light conducting plate body, to pass through a mould one-body molded for hemisphere jut and light conducting plate body, and production efficiency is high, and processing cost is low; And, the effect of even bright dipping can be reached without the need to printing light guide ink site, efficiency is high, quality is high, cost is low, pollution-free.In addition, the parameter of material to hemisphere jut of light conducting plate body is optimized, and by can improve the light source briliancy that light conducting plate body sends to the optimization of hemisphere jut diameter, height and spacing, and then improves the light emission rate of light conducting plate body.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of invention;

Fig. 2 is the vertical view of Fig. 1;

Fig. 3 is the structure for amplifying schematic diagram at A position in Fig. 2;

Fig. 4 is beam exit index path in light conducting plate body in the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Embodiment 1

See Fig. 1 to Fig. 4, a kind of without guide-lighting particle light conducting plate structure, comprise light conducting plate body 220, described light conducting plate body 220 comprises and to be imported by light beam 300 in light conducting plate body 220 and be positioned at the incidence surface 222 of light conducting plate body 220 sidepiece, the exiting surface 224 that light beam 300 is derived in light conducting plate body 220 and the bottom surface 226 relative with exiting surface 224, described bottom surface 226 is smooth planar structure, on described exiting surface 224, array arranges multiple hemisphere jut 240 integrated with light conducting plate body 220, and the arranged in form of the interlaced multiple lines and multiple rows of the hemisphere jut 240 one-tenth of described array, the plurality of hemisphere jut 240 is staggered equidistantly to be arranged and structure is identical, the arrangement form of this hemisphere jut 240 makes light conducting plate body 220 light emission rate higher, light emission rate is 6.5kcd/m ², scattering, bright dipping evenly, homogeneity reaches more than 87%,

Described hemisphere jut adopts MS material to make, and its characteristic is as follows:

The diameter of described hemisphere jut 240 is 205-230um, and the height of described hemisphere jut 240 is 155-175um, and the spacing between hemisphere jut 240 adjacent in each row and column is 260-290um.Structure of the present invention is simple, and without the need to adding guide-lighting particle, light efficiency can reach more than 70lm/w, and quality is high, and cost is low, and technique is simple.The setting of hemisphere jut 240 and arrangement form thereof, make light conducting plate body 220 reflect higher, bright dipping evenly, there is not light between hemisphere jut 240 and light conducting plate body 220 and transmit interface, light loss reduces; Technique is simple, and when processing light conducting plate body 220, hemisphere jut 240 and light conducting plate body 220 are formed by a mould time processing, and production efficiency is high, and processing cost is low; And bottom surface 226 can reach the effect of even bright dipping without the need to printing light guide ink site, efficiency is high, quality is high, cost is low, pollution-free.In addition, the parameter of material to hemisphere jut 240 of light conducting plate body 220 is optimized, by can improve the light source briliancy that light conducting plate body 220 sends to the optimization of hemisphere jut 240 diameter, height and spacing, and then improve the light emission rate of light conducting plate body 220.

Exiting surface 224 is arranged the plurality of hemisphere jut 240 is staggered equidistantly to be arranged and structure is identical, the material of hemisphere jut 240 be MS hemisphere jut 240 diameter, height should be all the time, cross the thickness that conference increases light conducting plate body 220, affect transmittance, the too small dispersion effect that can affect light conducting plate body 220 pairs of light beams 300, finds, when light conducting plate body 220 material is MS through measuring, the diameter of hemisphere jut 240 at 205-230um, highly for 155-175um is best; In addition, the spacing of adjacent hemisphere jut 240 is being best for 260-290um, the excessive dispersion effect affecting light guide plate light beam 300, too small mutual interference can occur.In the present embodiment, the diameter of hemisphere jut 240 is 205um, is highly 155um, and the spacing between adjacent hemisphere jut 240 is 260um, and light conducting plate body 220 is plate shaped, and the thickness of light conducting plate body 220 is 2.0mm.

When exiting surface 224 as light conducting plate body 220 does not arrange hemisphere jut 240, the light beam 300 of bottom surface 226 scattering and reflection is incident with α angle for the exiting surface 224 of light-passing board, and when α angle is less than the angle of total reflection, this light beam 300 penetrates with β angle through exiting surface 224.The present invention arranges hemisphere jut 240 at the exiting surface 224 of light conducting plate body 220, then this light beam 300 is after the arc-shaped curved surface 242 of hemisphere jut 240 is totally reflected, this arc-shaped curved surface 242 γ angle is incident relatively again, and when γ angle is less than the angle of total reflection, light beam 300 penetrates with ε angle through arc-shaped curved surface 242.The high refractive index medium light conducting plate body that this light beam 300 is n (n>1) by refractive index enters the air dielectric that refractive index is 1, formula is: n=sini/sin ω, wherein, n is the refractive index of high refractive index medium, n>1, i is emergence angle, and ω is incident angle.Known, light beam 300 through arc-shaped curved surface 242 penetrate after with perpendicular line angle be greater than light beam 300 after exiting surface 224 outgoing with the angle of perpendicular line, namely the exiting surface 224 of the relative light conducting plate body 220 of the arc-shaped curved surface 242 of hemisphere jut 240 has the function of astigmatism in certain ranges of incidence angles, and this certain ranges of incidence angles depends on the factor such as the refractive index of MS material and the radian of arc-shaped curved surface 242.Meanwhile, in formulation diameter L, the radian of this arc-shaped curved surface 242 increases gradually, then the height D protruded deepens gradually, and the emergence angle ε of light beam 300 will increase gradually, and dispersion effect also will be more remarkable.

Embodiment 2

The present embodiment is identical with the structure of embodiment 1, difference is: the diameter of hemisphere jut 240 is 217.5um, the height of hemisphere jut 240 is 165um, and the spacing in each row and column between adjacent hemisphere jut 240 is 275um, and the thickness of light conducting plate body 220 is 2.5mm.

Embodiment 3

The present embodiment is identical with the structure of embodiment 1, difference is: the diameter of hemisphere jut 240 is 230um, the height of hemisphere jut 240 is 175um, and the spacing in each row and column between adjacent hemisphere jut 240 is 290um, and the thickness of light conducting plate body 220 is 3.0mm.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. one kind without guide-lighting particle light conducting plate structure, comprise light conducting plate body, described light conducting plate body comprises and to be imported by light beam in light conducting plate body and be positioned at the incidence surface of light conducting plate body sidepiece, the exiting surface that light beam is derived in light conducting plate body and the bottom surface relative with exiting surface, it is characterized in that: described bottom surface is smooth planar structure, on described exiting surface, array arranges multiple hemisphere jut integrated with light conducting plate body, and the hemisphere jut of described array becomes the arranged in form of interlaced multiple lines and multiple rows, described hemisphere jut adopts MS material to make, the diameter of described hemisphere jut is 205-230um, the height of described hemisphere jut is 155-175um, spacing between adjacent hemisphere jut is 260-290um.

2. one according to claim 1 is without guide-lighting particle light conducting plate structure, it is characterized in that: described light conducting plate body adopts MS material to make.

3. one according to claim 1 and 2 is without guide-lighting particle light conducting plate structure, it is characterized in that: the thickness of described light conducting plate body is 2.0-3.0mm.

4. one as claimed in any of claims 1 to 3 is without guide-lighting particle light conducting plate structure, it is characterized in that: described light conducting plate body is plate shaped.

5. one according to claim 1 is without guide-lighting particle light conducting plate structure, it is characterized in that: the plurality of hemisphere jut is staggered equidistantly to be arranged and structure is identical.