CN202511118U - Light-emitting module - Google Patents

Abstract

The utility model relates to a light-emitting module, which comprises a light source and a light guide plate. The light source emits light towards an incident light surface of the light guide plate, a light-exiting surface of the light guide plate is provided with a plurality of linear stereoscopic units, a reflecting surface of the light guide plate comprises a plurality of first stereoscopic unit groups and a second stereoscopic unit group; the first stereoscopic unit groups are relatively arranged at a vertical projection position, which is opposite to the reflecting surface, of the linear stereoscopic units, some of the first stereoscopic unit groups comprise first linear microstructures of a plurality of parallel linear stereoscopic units, the second stereoscopic unit group is positioned outside the first stereoscopic unit groups on the reflecting surface and consists of a plurality of second linear microstructures; the first linear microstructures and the second linear microstructures are different and parallel to the linear stereoscopic units and the incident light surface; and at least one of perpendicular throw, maximum width and distribution density of the second linear microstructures is proportional to distance between the second linear microstructures and the incident light surface. By the light-emitting module, unexpected linear bright rays of the light-exiting surface of the light guide plate are improved, so that brightness of the light-exiting surface of the light guide plate is uniform.

Description

Light emitting module

Technical field

The utility model relates to a kind of light emitting module, relates in particular to a kind of structure of light emitting module.

Background technology

In the light emitting module of present stage, contain in the LGP system of micro structured pattern of linear chase or raised line, its one side compartment of terrain disposes the micro structured pattern of a plurality of linear chases or raised line.Because LGP is when luminous, the position of corresponding each linear chase of exiting surface or raised line can demonstrate the linear bright rays of many correspondences; Cause the bright dipping of exiting surface integral body inhomogeneous; Must use more optics emulsion sheet to remedy, quite the consume material cost remains further to be improved.

For this reason,, can satisfy above-mentioned demand, or be at least and have this defective a kind of solution is provided, promptly become the important topic that one of needs to be resolved hurrily if a kind of design of light emitting module can be provided.

Summary of the invention

The utility model technical issues that need to address have provided a kind of light emitting module, are intended to solve the above problems.

In order to solve the problems of the technologies described above, the utility model is realized through following technical scheme:

The utility model comprises: one first light source; An and LGP; Described LGP comprises:

One exiting surface; This exiting surface comprises that a plurality of linear stereo-units are parallel to each other and the compartment of terrain is disposed on this exiting surface;

One reflecting surface; This reflecting surface and this exiting surface oppose each other;

One first incidence surface; This first incidence surface between this exiting surface and this reflecting surface, parallel each those the linear stereo-unit of this first incidence surface, this first light source is luminous towards this first incidence surface;

A plurality of first stereo-unit crowds; These a plurality of first stereo-unit crowds are positioned at one of corresponding these a little linear stereo-units of this reflecting surface upright projection position respectively one to one; Each those first stereo-unit crowd comprises a plurality of first linear micro-structurals that are parallel to each other, all parallel those the linear stereo-units of those first linear micro-structurals; And

One second stereo-unit crowd; This second stereo-unit crowd is positioned on this reflecting surface except those other zones first stereo-unit crowd; This second stereo-unit crowd is made up of a plurality of second linear micro-structurals that are parallel to each other; All parallel those the linear stereo-units of those second linear micro-structurals, normal throw, Breadth Maximum and the distribution density of those second linear micro-structurals on this reflecting surface at least one of them be along with those second linear micro-structurals respectively with being directly proportional of this first incidence surface apart from size; Those first linear micro-structurals are different from those second linear micro-structurals.

Compared with prior art, the beneficial effect of the utility model is: can improve the unexpected linear bright rays of LGP exiting surface, thus the emitting brightness of homogenising LGP exiting surface.

Description of drawings

The 1st figure illustrates the schematic perspective view of the utility model light emitting module.

2A figure illustrates the utility model light emitting module at the side view of first embodiment under a variation.

2B figure illustrates the utility model light emitting module at the side view of first embodiment under another changes.

2C figure illustrates the utility model light emitting module at the side view of first embodiment under another variation.

3A figure illustrates the utility model light emitting module at the side view of second embodiment under a variation.

3B figure illustrates the utility model light emitting module at the side view of second embodiment under another changes.

3C figure illustrates the utility model light emitting module at the side view of second embodiment under another variation.

4A figure illustrates the utility model light emitting module at the side view of the 3rd embodiment under a variation.

4B figure illustrates the utility model light emitting module at the side view of the 3rd embodiment under another changes.

4C figure illustrates the utility model light emitting module at the side view of the 3rd embodiment under another variation.

5A figure illustrates the utility model light emitting module at the side view of the 4th embodiment under a variation.

5B figure illustrates the utility model light emitting module at the side view of the 4th embodiment under another changes.

5C figure illustrates the utility model light emitting module at the side view of the 4th embodiment under another variation.

6A figure illustrates the utility model light emitting module at the side view of the 5th embodiment under a variation.

6B figure illustrates the utility model light emitting module at the side view of the 5th embodiment under another changes.

6C figure illustrate the utility model light emitting module in the 5th embodiment in the following side view of another variation.

The 7th figure illustrates the side view of the utility model light emitting module at the 6th embodiment.

8A Tu-8D figure illustrates and plants external form more than linear stereo-unit or the linear micro-structural of the utility model light emitting module and change sketch map.

The specific embodiment

Below in conjunction with the accompanying drawing and the specific embodiment the utility model is described in further detail: a kind of light emitting module that the utility model provided comprises one first light source and a LGP.LGP comprises one first incidence surface, an exiting surface, a reflecting surface, a plurality of first stereo-unit crowd and one second stereo-unit crowd.First light source is luminous towards first incidence surface.Exiting surface comprises that a plurality of linear stereo-units are parallel to each other and the compartment of terrain is disposed on the exiting surface.Reflecting surface and exiting surface oppose each other.First incidence surface between exiting surface and reflecting surface, parallel each the linear stereo-unit of first incidence surface.The first stereo-unit crowd is positioned at one of corresponding these a little linear stereo-units of reflecting surface upright projection position respectively one to one, and each first stereo-unit crowd comprises a plurality of first linear micro-structurals that are parallel to each other, all parallel linear stereo-unit of the first linear micro-structural.The second stereo-unit crowd is positioned at other zone except the first stereo-unit crowd on the reflecting surface.The second stereo-unit crowd is made up of a plurality of second linear micro-structurals that are parallel to each other; The all parallel linear stereo-unit of the second linear micro-structural, normal throw, Breadth Maximum and the distribution density of the second linear micro-structural on reflecting surface at least one of them be along with the second linear micro-structural respectively with being directly proportional of first incidence surface apart from size.The first linear micro-structural is different from the second linear micro-structural.

Please with reference to shown in the 1st figure, the 1st figure illustrates the schematic perspective view of the utility model light emitting module under first embodiment.

Among first embodiment, light emitting module 100 comprises one first light source 200 and a LGP 300.First light source 200 for example is light-emitting diode light bar (LED light bar), comprises a plurality of light-emitting diode components 210.LGP 300 comprises one of a mutual opposition exiting surface 320 and a reflecting surface 330; And around 330 more than sides of its exiting surface 320 and reflecting surface; Wherein the area of arbitrary side is less than the area of exiting surface 320 or reflecting surface 330, and between exiting surface 320 and reflecting surface 330.Wherein a side can be used as one first incidence surface 310, so that first light source 200 is disposed at one of first incidence surface 310 side, and can supply towards first incidence surface 310 luminous.Parallel and compartment of terrain disposes a plurality of linear stereo-units 321 on the exiting surface 320.It is parallel with the major axis trend (like Y direction) of first incidence surface 310 that linear stereo-unit 321 common major axis move towards (like Y direction).Linear stereo-unit 321 is raised line (like V-type raised line 600B) in this embodiment, yet it is raised line or chase that the utility model is not limit linear stereo-unit in this embodiment.

Linear stereo-unit 321 has a normal throw V and a Breadth Maximum T and a distribution density.The normal throw V of linear stereo-unit 321 is the vertical maximum height of raised line or vertically spending the most deeply of chase.The Breadth Maximum T of linear stereo-unit 321 is the Breadth Maximum of the cross section achievement of raised line or chase.321 of for example visual wantonly two adjacent lines property stereo-units of the distribution density of these a little linear stereo-units 321 apart from the S size, its distance is more little, density is big more, otherwise little its distance is big more, density is more little.One of them is all identical each other at least for the normal throw V of linear stereo-unit 321, Breadth Maximum T and distribution density (as apart from S), and among this embodiment, the normal throw V of linear stereo-unit 321, Breadth Maximum T are all identical each other with distribution density (as apart from S).

The reflecting surface 330 of LGP 300 more comprises a plurality of first stereo-unit crowds 400 and one second stereo-unit crowd 500.These a little first stereo-unit crowds 400 fully are positioned at the upright projection position 330P that these a little linear stereo-units 321 correspond respectively to reflecting surface 330 respectively one to one.Each first stereo-unit crowd 400 is made up of a plurality of first 410 of the linear micro-structurals.The major axis of this a little first linear micro-structural 410 trend (like Y direction) is parallel to each other, and also is parallel to each other with the major axis trend (like Y direction) of the linear stereo-unit 321 and first incidence surface 310.

This a little first linear micro-structural 410 has the multiple first brightness variation, and the brightness variation means can influence the factor of reflection ray in the brightness of reflecting surface 330.The kind of the first brightness variation for example comprises normal throw and Breadth Maximum and the distribution density of this a little first linear micro-structural 410 on reflecting surface 330.Among this embodiment; The first brightness variation of this a little first linear micro-structural 410 among each first stereo-unit crowd 400 is all consistent, i.e. normal throw H, Breadth Maximum W and the distribution density (like spacing G) of this a little first linear micro-structural 410 on reflecting surface 330 among each first stereo-unit crowd 400 all consistent each other (consulting 2A figure).

The second stereo-unit crowd 500 is positioned on the reflecting surface 330 other zone except these a little first stereo-unit crowds 400.The second stereo-unit crowd 500 is made up of a plurality of second 510 of linear micro-structurals that are parallel to each other.Major axis trend (like Y direction) a little all therewith linear stereo-unit 321, the first linear micro-structurals 410 of the second linear micro-structural 510 and the major axis trend (like Y direction) of first incidence surface 310 are parallel to each other.

Please with reference to shown in the 1st figure, this a little second linear micro-structural 510 has the multiple second brightness variation, and the brightness variation means can influence the factor of reflection ray in the brightness of reflecting surface 330.The kind of the second brightness variation for example comprises normal throw and Breadth Maximum and the distribution density of this a little second linear micro-structural 510 on reflecting surface 330.One of them is being directly proportional apart from size along with the second linear micro-structural 510 and first incidence surface 310 for these a little second brightness variations; Just; The distance of the second linear micro-structural 510 and first incidence surface 310 is big more; The value of this second brightness variation is big more, can supply the brightness of reflection ray big more, sees the back literary composition for details.

Please with reference to shown in 2A Tu-2C figure, 2A figure illustrates the utility model light emitting module 101a in the side view of first embodiment under a variation; 2B figure illustrates the utility model light emitting module 101b at the side view of first embodiment under another changes; And 2C figure illustrates the utility model light emitting module 101c at the side view of first embodiment under another variation.

Consult shown in the 2A figure; The normal throw system of this a little second linear micro-structural 510a on reflecting surface 330 along with this a little second linear micro-structural 510a respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from the second linear micro-structural 510a of first incidence surface 310, its normal throw will increase gradually more.For instance; Near one of one of first incidence surface 310 second linear micro-structural 510a normal throw H1 less than away from one of one of first incidence surface 310 second linear micro-structural 510a normal throw H2; And this normal throw H2 is less than the normal throw H3 further from one of them second linear micro-structural 510a of first incidence surface 310, i.e. normal throw H1＜normal throw H2＜normal throw H3.In addition, the normal throw of this a little first linear micro-structural 410 of each first stereo-unit crowd 400 is all less than the normal throw of the second stereo-unit crowd's 500 the second linear micro-structural 510a.

Consult shown in the 2B figure; The Breadth Maximum of this a little second linear micro-structural 510b on reflecting surface 330 be along with this a little second linear micro-structural 510b respectively with being directly proportional of first incidence surface 310 apart from size; Meaning promptly; Along X-direction, away from the second linear micro-structural 510b of first incidence surface 310, its Breadth Maximum increases gradually more.For instance; Near one of one of first incidence surface 310 second linear micro-structural 510b Breadth Maximum W1 less than away from one of one of first incidence surface 310 second linear micro-structural 510b Breadth Maximum W2; And this Breadth Maximum W2 is less than the Breadth Maximum W3 further from one of them second linear micro-structural 510b of first incidence surface 310, i.e. Breadth Maximum W1＜Breadth Maximum W2＜Breadth Maximum W3.In addition, the Breadth Maximum of this a little first linear micro-structural 410 of each first stereo-unit crowd 400 is all less than the Breadth Maximum 510b of the second stereo-unit crowd's 500 the second linear micro-structural.

Consult shown in the 2C figure; The distribution density of this a little second linear micro-structural 510c on reflecting surface 330 be along with this a little second linear micro-structural 510c respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from the second linear micro-structural 510c of first incidence surface 310, its distribution density will change intensive gradually more.For instance; Near between the 2 second linear micro-structural 510c of first incidence surface 310 apart from G1 greater than away between the 2 second linear micro-structural 510c of first incidence surface 310 apart from G2; And this spacing G2 greater than further from first incidence surface 310 wherein between the 2 second linear micro-structural 510c apart from G3, i.e. spacing G1＞spacing G2＞spacing G3.In addition; Between this a little first linear micro-structural 410 of each first stereo-unit crowd 400 apart from all greater than the Breadth Maximum of the second stereo-unit crowd's 500 the second linear micro-structural 510c; Just, the distribution density of this a little first linear micro-structural 410 of each first stereo-unit crowd 400 is all less than the distribution density of the second stereo-unit crowd's 500 the second linear micro-structural 510c.

So; Since plant more than this a little first linear micro-structural the first brightness variation one of them less than plant more than this a little second linear micro-structural the second brightness variation one of them; Make other of linear stereo-unit of relative exiting surface partly just seem bright comparatively relatively; At this moment, the linear bright rays of the linear stereo-unit of exiting surface just seems and comparatively desalinates, and then produces the brightness of homogenising exiting surface integral body.Shown in please scheming to 3C with reference to 3A figure, 3A figure illustrates the utility model light emitting module 102a at the side view of second embodiment under a variation; 3B figure illustrates the utility model light emitting module 102b at the side view of second embodiment under another changes; 3C figure illustrates the utility model light emitting module 102c at the side view of second embodiment under another variation.

Among second embodiment, light emitting module 100 comprises one first light source 200 and a LGP 300.LGP 300 comprises an exiting surface 320, a reflecting surface 330 and first incidence surface 310, and exiting surface 320 comprises a plurality of linear stereo-units 321.The reflecting surface 330 of LGP 300 more comprises a plurality of first stereo-unit crowds 400 and one second stereo-unit crowd 500.Each first stereo-unit crowd 400 is made up of a plurality of first linear micro-structural 411a-411c.The second stereo-unit crowd 500 is made up of a plurality of second linear micro-structural 510a-510c that are parallel to each other.

The arrangement of the characteristic of first light source 200 of second embodiment, the characteristic of LGP 300, linear stereo-unit 321 and the arrangement of the second linear micro-structural 510a-510c are all roughly the same with first embodiment; Below only describe with regard to difference, its something in common is just no longer given unnecessary details.

Among this second embodiment; One of them is being directly proportional apart from size along with the first linear micro-structural 411a-411c and first incidence surface 310 for these a little first brightness variations; Meaning promptly; The distance of the first linear micro-structural 411a-411c and first incidence surface 310 is big more, and the value of this first brightness variation is big more, can supply the brightness of reflection ray big more.Just, one of them is being directly proportional apart from size along with the first linear micro-structural 411a-411c and first incidence surface 310 to normal throw, Breadth Maximum and the distribution density of this a little first linear micro-structural 411a-411c on reflecting surface 330 at least.

Consult shown in the 3A figure; The normal throw of this a little first linear micro-structural 411a on reflecting surface 330 be along with this a little first linear micro-structural 411a respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from the first linear micro-structural 411a of first incidence surface 310, its normal throw will increase gradually more.For instance; Near one of one of first incidence surface 310 first linear micro-structural 411a normal throw H4 less than away from one of one of first incidence surface 310 first linear micro-structural 411a normal throw H5; And this normal throw H5 is less than the normal throw H6 further from one of them first linear micro-structural 411a of first incidence surface 310, i.e. normal throw H4＜normal throw H5＜normal throw H6.In addition, the normal throw of this a little first linear micro-structural 411a of each first stereo-unit crowd 400 is all less than the normal throw of this a little second linear micro-structural 510a in the second stereo-unit crowd 500 of its two opposite sides.

Consult shown in the 3B figure; The Breadth Maximum of this a little first linear micro-structural 411b on reflecting surface 330 be along with this a little first linear micro-structural 411b respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from the first linear micro-structural 411b of first incidence surface 310, its Breadth Maximum increases gradually more.For instance; Near one of one of first incidence surface 310 first linear micro-structural 411b Breadth Maximum W4 less than away from one of one of first incidence surface 310 first linear micro-structural 411b Breadth Maximum W5; And this Breadth Maximum W5 is less than the Breadth Maximum W6 further from one of them first linear micro-structural 411b of first incidence surface 310, i.e. Breadth Maximum W4＜Breadth Maximum W5＜Breadth Maximum W6.In addition, the Breadth Maximum of this a little first linear micro-structural 411b of each first stereo-unit crowd 400 is all less than the Breadth Maximum of this a little second linear micro-structural 510b in the second stereo-unit crowd 500 of its two opposite sides.

Consult shown in the 3C figure; The distribution density of this a little first linear micro-structural 411c on reflecting surface 330 be along with this a little first linear micro-structural 411c respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from the first linear micro-structural 411c of first incidence surface 310, its distribution density will change intensive gradually more.For instance; Near between the 2 first linear micro-structural 411c of first incidence surface 310 apart from G4 greater than away between the 2 first linear micro-structural 411c of first incidence surface 310 apart from G5; And this spacing G5 greater than further from first incidence surface 310 wherein between the 2 first linear micro-structural 411c apart from G6, i.e. spacing G4＞spacing G5＞spacing G6.The distribution density of this a little first linear micro-structural 411c of each first stereo-unit crowd 400 is all greater than the distribution density of this a little second linear micro-structural 510c in the second stereo-unit crowd 500 of its two opposite sides.

Shown in please scheming to 4C with reference to 4A figure, 4A figure illustrates the utility model light emitting module 103a at the side view of the 3rd embodiment under a variation; 4B figure illustrates the utility model light emitting module 103b at the side view of the 3rd embodiment under another changes; And 3C figure illustrate the utility model light emitting module 103c at the 3rd embodiment at a side view under changing.

Among the 3rd embodiment, light emitting module 100 comprises one first light source 200 and a LGP 300.LGP 300 comprises an exiting surface 320, a reflecting surface 330 and first incidence surface 310, and exiting surface 320 comprises a plurality of linear stereo-units 321.The reflecting surface 330 of LGP 300 more comprises a plurality of first stereo-unit crowds 400 and one second stereo-unit crowd 500.Each first stereo-unit crowd 400 is made up of a plurality of first linear micro-structural 412a-412c.The second stereo-unit crowd 500 is made up of a plurality of second linear micro-structural 510a-510c that are parallel to each other.

The arrangement of the characteristic of first light source 200 of the 3rd embodiment, the characteristic of LGP 300, linear stereo-unit 321 and the arrangement of the second linear micro-structural 510 are all roughly the same with first embodiment; Below only describe with regard to difference, its something in common is just no longer given unnecessary details.

Among this 3rd embodiment, one of them is that the direction of the first linear micro-structural 412a-412c produces and successively decreases towards its both sides respectively with the first linear micro-structural 412a-412c that is positioned at intermediate address for these a little first brightness variations of all those the first linear micro-structural 412a-412c among each first stereo-unit crowd 400.Just; The first linear micro-structural 412a-412c of cis-position in the middle of one of among all first linear micro-structural 412a-412c that are arranged in parallel among each first stereo-unit crowd 400 (as N) (N/2 or (N/2)+1); For example all first linear micro-structural 412a-412c that are arranged in parallel of this first stereo-unit crowd 400 are N, and the first linear micro-structural of middle cis-position is N/2 or (N/2)+1.Specifically, one of them is that the direction of the first linear micro-structural 412a-412c produces and successively decreases towards its both sides respectively along with the first linear micro-structural 412a-412c of middle cis-position to normal throw V, Breadth Maximum T and the distribution density of this a little first linear micro-structural 412a-412c on reflecting surface 330 at least.Normal throw, Breadth Maximum and the distribution density of this a little second linear micro-structural 510a-510c on reflecting surface 330 be one of them being directly proportional apart from size along with the second linear micro-structural 510a-510c and first incidence surface 310 still at least.

Consult shown in the 4A figure; The normal throw of this a little first linear micro-structural 412a on reflecting surface 330 among arbitrary first stereo-unit crowd 400 is that the direction of the first linear micro-structural 412a produces and successively decreases towards its both sides respectively along with the first linear micro-structural 412a of middle cis-position; Just; More away from the first linear micro-structural 412a of cis-position (being positioned at an imaginary center line C through linear stereo-unit 321 summits) in the middle of being positioned at, its normal throw is more little among this a little first linear micro-structural 412a.For instance, the normal throw H7 of first of the middle cis-position linear micro-structural 412a is greater than the normal throw H8 of the first linear micro-structural 412a on one of which side.

Consult shown in the 4B figure; The Breadth Maximum of this a little first linear micro-structural 412b on reflecting surface 330 among arbitrary first stereo-unit crowd 400 is that the direction of the first linear micro-structural 412b produces and successively decreases towards its both sides respectively along with the first linear micro-structural 412b of middle cis-position; Just; More away from the first linear micro-structural 412b of cis-position (being positioned at an imaginary center line C through linear stereo-unit 321 summits) in the middle of being positioned at, its Breadth Maximum is more little among this a little first linear micro-structural 412b.For instance, the Breadth Maximum W7 of first of the middle cis-position linear micro-structural 412b is greater than the Breadth Maximum W8 of the first linear micro-structural 412b on one of which side.

Consult shown in the 4C figure; The distribution density of this a little first linear micro-structural 412c on reflecting surface 330 among arbitrary first stereo-unit crowd 400 is that the direction of the first linear micro-structural 412c produces and successively decreases towards its both sides respectively along with 2 first linear micro-structural 412c of middle cis-position; Just; In the adjacent spacing to each other of this a little first linear micro-structural 412c; Away from the first linear micro-structural 412c of cis-position (being positioned at an imaginary center line C through linear stereo-unit 321 summits) in the middle of being positioned at, its spacing is big more more.For instance, between the 2 first linear micro-structural 412c of middle cis-position apart from G7 less than between the 2 first linear micro-structurals on one of which side apart from G8.

Shown in please scheming to 5C with reference to 5A figure, 5A figure illustrates the utility model light emitting module 104a at the side view of the 4th embodiment under a variation; 5B figure illustrates the utility model light emitting module 104b in the side view of the 4th embodiment under another changes; And 5C figure illustrates the utility model light emitting module 104c at the side view of the 4th embodiment under another variation.

Among the 4th embodiment, light emitting module 100 comprises one first light source 200 and a LGP 300.LGP 300 comprises an exiting surface 320, a reflecting surface 330 and first incidence surface 310, and exiting surface 320 comprises a plurality of linear stereo-units 321.The reflecting surface 330 of LGP 300 more comprises a plurality of first stereo-unit crowds 400 and one second stereo-unit crowd 500.Each first stereo-unit crowd 400 is made up of a plurality of first 410 of the linear micro-structurals.The second stereo-unit crowd 500 is made up of a plurality of second 510 of linear micro-structurals that are parallel to each other.

The arrangement of the characteristic of first light source 200 of the 4th embodiment, the characteristic of LGP 300, the first linear micro-structural 410 and the arrangement of the second linear micro-structural 510 are all roughly the same with first embodiment; Below only describe with regard to difference, its something in common is just no longer given unnecessary details.

Among this embodiment, the normal throw V of these a little linear stereo-unit 322a-322c, Breadth Maximum T and distribution density (as apart from S) at least one of them be along with linear stereo-unit 322a-322c respectively with being directly proportional of first incidence surface 310 apart from size.

Consult shown in the 5A figure; The normal throw of these a little linear stereo-unit 322a on light-emitting area 320 be along with these a little linear stereo-unit 322a respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from the linear stereo-unit 322a of first incidence surface 310, its normal throw will increase gradually more.For instance; Near the normal throw V1 of one of first incidence surface 310 linear stereo-unit 322a less than away from the normal throw V2 of one of first incidence surface 310 linear stereo-unit 322a; And this normal throw V2 is less than the normal throw V3 further from one of them linear stereo-unit 322a of first incidence surface 310, i.e. normal throw V1＜normal throw V2＜normal throw V3.

Consult shown in the 5B figure; The Breadth Maximum of these a little linear stereo-unit 322b on light-emitting area 320 be along with these a little linear stereo-unit 322b respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from the linear stereo-unit 322b of first incidence surface 310, its Breadth Maximum will increase gradually more.For instance; Near the Breadth Maximum T1 of one of first incidence surface 310 linear stereo-unit 322b less than away from the Breadth Maximum T2 of one of first incidence surface 310 linear stereo-unit 322b; And this Breadth Maximum T2 is less than the Breadth Maximum T3 further from one of them linear stereo-unit 322b of first incidence surface 310, i.e. Breadth Maximum T1＜Breadth Maximum T2＜Breadth Maximum T3.

Consult shown in the 5C figure; The distribution density of these a little linear stereo-unit 322c on light-emitting area 320 be along with these a little linear stereo-unit 322c respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from these a little linear stereo-unit 322c of first incidence surface 310, its distribution density will be intensive gradually more.For instance; Near two linear stereo-unit 322c of first incidence surface 310 apart from S1 greater than away from two linear stereo-unit 322c of first incidence surface 310 apart from S2; And this apart from S2 greater than further from wherein two linear stereo-unit 322c of first incidence surface 310 apart from S3, promptly apart from S1＜apart from S2＜apart from S3.

Shown in please scheming to 6C with reference to 6A figure, 6A figure illustrates the utility model light emitting module 105a at the side view of the 5th embodiment under a variation; 6B figure illustrates the utility model light emitting module 105b at the side view of the 5th embodiment under another changes; And 6C figure illustrates the utility model light emitting module 105c at the side view of the 5th embodiment under another variation.

Among the 5th embodiment, light emitting module 100 comprises one first light source 200 and a LGP 300.LGP 300 comprises an exiting surface 320, a reflecting surface 330 and first incidence surface 310, and exiting surface 320 comprises a plurality of linear stereo-unit 322a-322c.The reflecting surface 330 of LGP 300 more comprises a plurality of first stereo-unit crowds 400 and one second stereo-unit crowd 500.Each first stereo-unit crowd 400 is made up of a plurality of first linear micro-structural 412a-412c.The second stereo-unit crowd 500 is made up of a plurality of second linear micro-structural 510a-510c that are parallel to each other.

The arrangement of the characteristic of first light source 200 of the 5th embodiment, the characteristic of LGP 300, the first linear micro-structural 410 and the arrangement of the second linear micro-structural 510 are all roughly the same with the 3rd embodiment; Below only describe with regard to difference, its something in common is just no longer given unnecessary details.

Among this embodiment, the normal throw V of these a little linear stereo-unit 322a-322c, Breadth Maximum T and distribution density (as apart from S) at least one of them be along with linear stereo-unit 322a-322c respectively with being directly proportional of first incidence surface 310 apart from size.

Consult shown in the 6A figure; The normal throw system of these a little linear stereo-unit 322a on light-emitting area 320 along with these a little linear stereo-unit 322a respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from the linear stereo-unit 322a of first incidence surface 310, its normal throw will increase gradually more.Can be with reference to the example of 5A figure; Near the normal throw V1 of one of first incidence surface 310 linear stereo-unit 322a less than away from the normal throw V2 of one of first incidence surface 310 linear stereo-unit 322a; And this normal throw V2 is less than the normal throw V3 further from one of them linear stereo-unit 322a of first incidence surface 310, i.e. normal throw V1＜normal throw V2＜normal throw V3.

Consult shown in the 6B figure; The Breadth Maximum system of these a little linear stereo-units on light-emitting area along with these a little linear stereo-units respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from the linear stereo-unit of first incidence surface 310, its Breadth Maximum will increase gradually more.Can be with reference to the example of 5B figure; Near the Breadth Maximum T1 of one of first incidence surface 310 linear stereo-unit 322b less than away from the Breadth Maximum T2 of one of first incidence surface 310 linear stereo-unit 322b; And this Breadth Maximum T2 is less than the Breadth Maximum T3 further from one of them linear stereo-unit 322b of first incidence surface 310, i.e. Breadth Maximum T1＜Breadth Maximum T2＜Breadth Maximum T3.

Consult shown in the 6C figure; The distribution density of these a little linear stereo-units on light-emitting area be along with these a little linear stereo-units respectively with being directly proportional of first incidence surface 310 apart from size; Just; Along X-direction, away from these a little linear stereo-units of first incidence surface 310, its distribution density will be intensive gradually more.Can be with reference to the example of 5C figure; Near two linear stereo-unit 322c of first incidence surface 310 apart from S1 greater than away from two linear stereo-unit 322c of first incidence surface 310 apart from S2; And this apart from S2 greater than further from wherein two linear stereo-unit 322c of first incidence surface 310 apart from S3, promptly apart from S1＜apart from S2＜apart from S3.

Please with reference to shown in the 7th figure, the 7th figure illustrates the side view of the utility model light emitting module at the 6th embodiment.

Light emitting module 106 comprises a LGP 300, one first light source 200 and a secondary light source 220.First light source 200 for example is light-emitting diode light bar (LED light bar) with secondary light source 220, comprises a plurality of light-emitting diode component 210a (shown in the 1st figure).LGP 300 comprises one of a mutual opposition exiting surface 320 and a reflecting surface 330; And around 330 more than sides of its exiting surface 320 and reflecting surface; Wherein the area of arbitrary side is less than the area of exiting surface 320 or reflecting surface 330, and between exiting surface 320 and reflecting surface 330.Wherein the limit, two opposite sides can be used as one first incidence surface 310 and second incidence surface 312.It is other that first light source 200 is disposed at one of first incidence surface 310, and can supply towards first incidence surface 310 luminous.It is other that secondary light source 220 is disposed at one of second incidence surface 312, and can supply towards second incidence surface 312 luminous.Parallel and compartment of terrain disposes a plurality of linear stereo-units 321 on the exiting surface 320.

The reflecting surface 330 of LGP 300 more comprises a plurality of first stereo-unit crowds 400 and one second stereo-unit crowd 500.Each first stereo-unit crowd 400 is made up of a plurality of first 410 of the linear micro-structurals.The second stereo-unit crowd 500 is made up of a plurality of second 510 of linear micro-structurals that are parallel to each other.These a little linear stereo-units 321 are all identical each other, and promptly the normal throw of these a little linear stereo-units 321, Breadth Maximum are all identical each other with distribution density.All first linear micro-structurals 410 among each first stereo-unit crowd 400 are all identical each other, and promptly normal throw, the Breadth Maximum of all the first linear micro-structurals 410 among each first stereo-unit crowd 400 are all identical each other with distribution density.The brightness variation of this a little second linear micro-structural 510 (for example normal throw, Breadth Maximum and distribution density at least one of them) is successively decreased towards the direction of first incidence surface 310 and second incidence surface 312 respectively by separated time K in one of exiting surface 320 imagination gradually; Just; More near this a little second linear micro-structural 510 of first incidence surface 310 and second incidence surface 312; Its brightness variation is more little, can supply the brightness of reflection ray more little.Separated time K is meant one of vertical with X-direction center line on the exiting surface in the above-mentioned imagination, and this center line is consistent with the distance of second incidence surface to first incidence surface respectively.For instance, near the normal throw H9 of one of separated time K in the imagination 510 tools of the second linear micro-structural just greater than away from the normal throw H10 of 510 tools of another second linear micro-structural of separated time K in the imagination.

In addition, the normal throw of each first stereo-unit crowd's 400 the first linear micro-structural 410 (like H11, the 7th figure) is less than the normal throw (like H10, the 7th figure) of the second linear micro-structural 510; Perhaps/and the Breadth Maximum of each first stereo-unit crowd's 400 the first linear micro-structural 410 is less than the Breadth Maximum (not shown) of the second linear micro-structural 510; Perhaps/and the distribution density of each first stereo-unit crowd's 400 the first linear micro-structural 410 is less than the distribution density (not shown) of the second linear micro-structural 510.

The arrangement of the characteristic of the characteristic of first light source 200 of the 6th embodiment, the characteristic of secondary light source 200, LGP 300, the arrangement of the first linear micro-structural 410 and the second linear micro-structural 510 is all roughly the same with first embodiment, below just no longer gives unnecessary details.

Please with reference to shown in the 8A Tu-8D figure, 8A Tu-8D figure illustrates and plants external form more than linear stereo-unit or the linear micro-structural of the utility model light emitting module and change sketch map.

All symbolic animal of the birth year is with the linear optics micro-structural of kind for linear stereo-unit among above-mentioned each embodiment, the first linear micro-structural or the second linear micro-structural, and its external form is not limit the linear optics micro-structural of linear optical microstructures of protrusion and depression.Protrude linear optical microstructures and for example can be a V-type raised line 600B or U type raised line 600C (8C figure), yet the utility model is not limited thereto.The linear optics micro-structural of depression for example can a V-type chase 600A (8A figure) or U type chase 600D (8D figure), yet the utility model is not limited thereto.

In addition, see also again shown in the 8A figure, two opposed inner walls of V-type chase 600A are convex arc shaped, or, see also again shown in the 8B figure, the another kind of external form of the linear stereo-unit of the utility model, for example the two opposite side walls of V-type raised line 600B is concave arc shape.

Need recognize, continue to use to give a definition in above-mentioned each embodiment:

The normal throw that this a little first linear micro-structural (or the second linear micro-structural, linear stereo-unit) is demonstrated on reflecting surface or exiting surface, be meant this a little first linear micro-structural (or the second linear micro-structural, linear stereo-unit) from reflecting surface or exiting surface surface the vertical range towards its recessed farthest/salient point.The Breadth Maximum that this a little first linear micro-structural (or the second linear micro-structural, linear stereo-unit) is demonstrated on reflecting surface or exiting surface means the Breadth Maximum distance of the sectional area of this a little first linear micro-structural (or the second linear micro-structural, linear stereo-unit).

The distribution density that this a little first linear micro-structural (the second linear micro-structural or linear stereo-unit) is demonstrated on reflecting surface or exiting surface; Be meant that following of unit are has the site density degree each other of equal number; When the distribution density of this a little first linear micro-structural (the second linear micro-structural or linear stereo-unit) on reflecting surface big more; This a little first linear micro-structural (the second linear micro-structural or linear stereo-unit) is crowded more each other, each other apart from more little; Otherwise when the distribution density of this a little first linear micro-structural (the second linear micro-structural or linear stereo-unit) on reflecting surface is more little, this a little first linear micro-structural (the second linear micro-structural or linear stereo-unit) is become estranged each other more, each other apart from big more.

The utility model discloses among each embodiment as above; Be not in order to limit the utility model; Anyly have the knack of this skill; In spirit that does not break away from the utility model and scope, when can doing various changes and retouching, so the protection domain of the utility model is when looking being as the criterion that the accompanying Claim scope defined.

Claims (16)

1. a light emitting module comprises: one first light source; An and LGP; It is characterized in that: described LGP comprises:

One exiting surface; This exiting surface comprises that a plurality of linear stereo-units are parallel to each other and the compartment of terrain is disposed on this exiting surface;

One reflecting surface; This reflecting surface and this exiting surface oppose each other;

One first incidence surface; This first incidence surface between this exiting surface and this reflecting surface, parallel each those the linear stereo-unit of this first incidence surface, this first light source is luminous towards this first incidence surface;

A plurality of first stereo-unit crowds; These a plurality of first stereo-unit crowds are positioned at one of corresponding these a little linear stereo-units of this reflecting surface upright projection position respectively one to one; Each those first stereo-unit crowd comprises a plurality of first linear micro-structurals that are parallel to each other, all parallel those the linear stereo-units of those first linear micro-structurals; And

One second stereo-unit crowd; This second stereo-unit crowd is positioned on this reflecting surface except those other zones first stereo-unit crowd; This second stereo-unit crowd is made up of a plurality of second linear micro-structurals that are parallel to each other; All parallel those the linear stereo-units of those second linear micro-structurals, normal throw, Breadth Maximum and the distribution density of those second linear micro-structurals on this reflecting surface at least one of them be along with those second linear micro-structurals respectively with being directly proportional of this first incidence surface apart from size; Those first linear micro-structurals are different from those second linear micro-structurals.

2. light emitting module according to claim 1 is characterized in that: normal throw, Breadth Maximum and the distribution density of those first linear micro-structurals of each those first stereo-unit crowd at least one of them normal throw, Breadth Maximum and distribution density less than those second linear micro-structurals at least one of them.

3. light emitting module according to claim 1 is characterized in that: one of them is all identical each other at least for the normal throw of those linear stereo-units, Breadth Maximum and distribution density.

4. light emitting module according to claim 3 is characterized in that: one of them is all identical each other at least for the normal throw of all those the first linear micro-structurals among each those first stereo-unit crowd, Breadth Maximum and distribution density.

5. light emitting module according to claim 3 is characterized in that: normal throw, Breadth Maximum and the distribution density of all those the first linear micro-structurals among each those first stereo-unit crowd at least one of them be along with those first linear micro-structurals respectively with being directly proportional of this first incidence surface apart from size.

6. light emitting module according to claim 3 is characterized in that: one of them is that the direction of those first linear micro-structurals produces and successively decreases towards its both sides respectively with this one first linear micro-structural of being positioned at intermediate address to normal throw, Breadth Maximum and the distribution density of all those the first linear micro-structurals among each those first stereo-unit crowd at least.

7. light emitting module according to claim 1 is characterized in that: the normal throw of those linear stereo-units, Breadth Maximum and distribution density at least one of them be along with those linear stereo-units respectively with being directly proportional of this first incidence surface apart from size.

8. light emitting module according to claim 7 is characterized in that: the normal throw of those second linear micro-structurals on this reflecting surface be along with those second linear micro-structurals respectively with being directly proportional of this first incidence surface apart from size.

9. light emitting module according to claim 7 is characterized in that: one of them is to produce towards the direction of those first linear micro-structurals of its both sides respectively with this one first linear micro-structural of being positioned at intermediate address to successively decrease to normal throw, Breadth Maximum and the distribution density of all those the first linear micro-structurals among each those first stereo-unit crowd at least.

10. light emitting module according to claim 1 is characterized in that also comprising: a secondary light source, and this LGP also comprises: one second incidence surface; Said LGP comprises around more than exiting surface and the reflecting surface side, and wherein the area of arbitrary side is less than the area of exiting surface or reflecting surface, and between exiting surface and reflecting surface; Wherein the limit, two opposite sides can be used as one first incidence surface and second incidence surface; And this secondary light source is luminous towards this second incidence surface.

11. light emitting module according to claim 10; It is characterized in that: major axis trend that one of those linear stereo-units are common is parallel to each other with the major axis trend of this first incidence surface and this second incidence surface; And one of them is all identical each other at least for the normal throw of those linear stereo-units, Breadth Maximum and distribution density; One of them is all identical each other at least for the normal throw of all those the first linear micro-structurals among each those first stereo-unit crowd, Breadth Maximum and distribution density, and normal throw, Breadth Maximum and the distribution density of those first linear micro-structurals of each those first stereo-unit crowd at least one of them normal throw, Breadth Maximum and distribution density less than those second linear micro-structurals at least one of them.

12. light emitting module according to claim 1 is characterized in that: each those linear stereo-unit is a V-type chase or V-type raised line.

13. light emitting module according to claim 1 is characterized in that: each those first linear micro-structural is a V-type chase or V-type raised line.

14. light emitting module according to claim 1 is characterized in that: each those second linear micro-structural is a V-type chase or V-type raised line.

15. according to claim 12 or 13 or 14 described light emitting modules, it is characterized in that: two opposed inner walls of this V-type chase are convex arc shaped.

16. according to claim 12 or 13 or 14 described light emitting modules, it is characterized in that: the two opposite side walls of this V-type raised line is concave arc shape.

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