CN101660706A

CN101660706A - LED lens for realizing light beam control

Info

Publication number: CN101660706A
Application number: CN200810220701A
Authority: CN
Inventors: 刘胜; 王恺; 罗小兵; 陈飞; 刘宗源; 陈明祥; 甘志银; 金春晓
Original assignee: Guangdong Shaoxin Opto-electrical Technology Co Ltd
Current assignee: GUANGDONG REAL FAITH LIGHTING TECHNOLOGY Co.,Ltd.
Priority date: 2008-12-31
Filing date: 2008-12-31
Publication date: 2010-03-03
Anticipated expiration: 2028-12-31
Also published as: CN101660706B

Abstract

The invention relates to a semiconductor lighting technology, in particular to an LED lens capable of controlling light beams precisely. The LED lens is characterized in that the lens is provided witha bottom surface which is a plane; a concave surface which is a light incident plane of the lens is arranged in the center of the bottom surface of the lens; a light emergent plane and the bottom surface of the lens are communicated, and the profile of the bottom surface is defined; the light emergent plane of the light is formed by splicing at least two free curve surfaces; the main body part ofthe lens is defined by a space surrounded by the bottom surface, the light incident plane and the light emergent plane of the lens together; and the lens also comprises mounting feet or flat plates which are arranged on the bottom surface. The LED lens has the advantages that the energy space distribution of emergent light beams is controlled precisely by changing the free curve surface types ofall separated light emergent planes of the lens, the light emergent efficiency of the lens is improved, and the spot shapes for meeting different illumination requirements and illuminance distributioncan be achieved. The LED lens also has the advantages of high light emergent efficiency, easy control of light beams (various spot shapes and high uniformity), small volume, and the like.

Description

A kind of LED lens of realizing Beam Control

Technical field

The present invention relates to technical field of semiconductor illumination, relate in particular to a kind of LED lens of realizing Beam Control.

Background technology

Light emitting diode (LED) is the electroluminescent device that a class can directly be converted into electric energy visible light and radiant energy.LED compares conventional light source and has the luminous efficiency height, and colour rendering is good, and power consumption is few, energy-conserving and environment-protective, security reliability height, the advantage of long service life, and begun to be used widely in a lot of fields, thought the main direction in lighting source market to have huge market potential by industry.

The LED outgoing of present various packing forms all be non-homogeneous circular light spot, but such hot spot can not satisfy the demand of actual illumination, be difficult to directly use, all need uniform rectangular light spot as road lighting, tunnel illumination, backlight, projecting apparatus, automobile headlamp etc., some room lightings, shot-light, searchlight, stage lighting etc. then need uniform circle or oval hot spot.Therefore when using, the LED illumination needs the secondary optics design.

Secondary optical system roughly can be divided into reflector control, lens control and reflector+lens and control three kinds.Reflector can only be controlled the emergent ray of LED wide-angle, do not have control action for the low-angle light of concentration of energy, so reflector can't effectively be controlled the LED bright dipping.Compare reflector, but lens have little, the in light weight modularized design of volume, be convenient to advantages such as array installation, be the secondary optical system method for designing that present LED light fixture mainly adopts.Yet at present the LED light fixture adopts round symmetric lens more, and hot spot be circular substantially, can not satisfy lighting requirements such as road lighting, tunnel illumination, backlight, projecting apparatus, automobile headlamp, and light loss (＞15%) greatly, and user feedback is relatively poor.

Summary of the invention

The objective of the invention is at the defective that exists in the prior art, a kind of novel light extraction efficiency height is provided, controls the secondary optical lens of the lighting apparatus light spot shape and the uniformity easily.

Purpose of the present invention can be achieved through the following technical solutions:

A kind of LED secondary optical lens is characterized in that lens have a bottom surface, and the bottom surface is the plane; There is a concave surface in lens bottom surface central authorities, are the plane of light incidence of lens; The beam projecting face of lens passes through mutually with the bottom surface, defines the profile of bottom surface; The beam projecting face is spliced to form by two free form surfaces at least; The main part of lens is by the common definition space that surrounds of bottom surface, plane of light incidence, beam projecting face of lens; Lens also comprise installation foot or the flat board that is arranged on the bottom surface.

Described plane of light incidence is sphere or the face of cylinder or sphere and face of cylinder composite surface.

Described beam projecting face is spliced to form by two free form surfaces at least, and the connecting portion of two curved surfaces is continuous transition or discontinuous transition.

The connection transition face of described two free form surfaces is plane or curved surface.

Described installation foot bottom surface is plane or inclined-plane or arc surface.

Described dull and stereotyped center and lens body part plane of light incidence corresponding region are processed with through hole, and through-hole side wall constitutes the lens plane of light incidence with lens body part plane of light incidence.

Described slab-thickness is 1～10mm.

Described lens be by PC or PMMA or PP or ABS or PVC or glass material by injection moulding or Precision Machining manufacturing, the plane of light incidence of lens and beam projecting face are through polishing.

Described lens are single or array format, and lens and light source corresponding relation are for one to one or one-to-many or many-to-one relationship during installation.

Advantage of the present invention is respectively to separate light exit facet free form surface face type by the change lens accurately to control the distribution of outgoing beam energy space, improves the lens light extraction efficiency, and can realize satisfying the light spot shape and the Illumination Distribution of the different needs that throw light on.LED lens of the present invention have light extraction efficiency height, light beam and control advantages such as (various spot shapes and high evenness), volume be little easily.

Description of drawings

Fig. 1 is the first embodiment of the invention side view;

Fig. 2 is a vertical view among Fig. 1;

Fig. 3 is a upward view among Fig. 1;

Fig. 4 is a C0 cutaway view among Fig. 2;

Fig. 5 is a C1 cutaway view among Fig. 2;

Fig. 6 is the second embodiment of the invention side view;

Fig. 7 is the third embodiment of the invention side view;

Fig. 8 is a vertical view among Fig. 7;

Fig. 9 is the four embodiment of the invention schematic diagram;

Figure 10 is a four embodiment of the invention simulation hot spot.

The specific embodiment

Below in conjunction with legend each embodiment among the present invention is described.

Fig. 1 is a street lamp lens to Figure 5 shows that the first embodiment of the present invention.First embodiment has a flat bottom surface 105; There is a round LED installing hole 104 the lens bottom surface, and the curved surface in the installing hole is made of sphere or the face of cylinder or the combinatorial surface of the two, and this face and dull and stereotyped 103 through-hole side wall constitute the plane of light incidence of lens; The beam projecting face 106 of lens is made up of at least two free form surfaces 101 splicing, can continuous transition or discontinuous transition between two free form surfaces; The fillet surface 102 that connects two free form surfaces can be plane or curved surface; The bottom surface 105 of lens, plane of light incidence 104, the beam projecting face 106 common spaces that surround are the entity part 10 of LED lens; Have on the bottom surface 105 of LED lens 10 one certain thickness dull and stereotyped 103, dull and stereotyped 103 is parallel with lens bottom surface 105, and contact with the bottom surface, dull and stereotyped installing hole 104 same positions at lens 10 have a same big or small through hole, the thickness of flat board is 1mm～10mm.The material of lens can be PC or PMMA or PP or ABS or PVC or glass in the present embodiment.Plane of light incidence 104 in the present embodiment, and beam projecting face 106 needs through polishing.

Figure 6 shows that the second embodiment of the present invention, be a street lamp lens.The difference of second embodiment and first embodiment is to have added installation foot 203 rather than flat board among second embodiment on the lens bottom surface, and the height of installation foot 203 has concrete LED model decision, and material is identical with lens.

Fig. 7 is a Tunnel Lamp lens to Figure 8 shows that the third embodiment of the present invention.The 3rd embodiment has a flat bottom surface 304; There is a round LED installing hole lens bottom surface, and the curved surface in the installing hole is made of sphere or the face of cylinder or the combinatorial surface of the two, and this face and dull and stereotyped 303 through-hole side wall constitute the plane of light incidence of lens; The beam projecting face of lens is made up of at least two free form surfaces 301 splicing, can continuous transition or discontinuous transition between two free form surfaces; The fillet surface 302 that connects two free form surfaces can be plane or curved surface; The bottom surface 304 of lens, plane of light incidence, the beam projecting face 305 common spaces that surround are the entity part of LED lens; Have on the bottom surface 304 of LED lens one certain thickness dull and stereotyped 303, dull and stereotyped 303 is parallel with lens bottom surface 304, and contact with the bottom surface, dull and stereotyped installing hole same position at lens has a same big or small through hole, the thickness of flat board is 1mm～10mm.The material of lens can be PC or PMMA or PP or ABS or PVC or glass in the present embodiment.Plane of light incidence in the present embodiment, beam projecting face 305 needs through polishing.

Fig. 9 is the fourth embodiment of the present invention, is a profile a LED street lamp different with second embodiment.The LED lens 401 that use among the 4th embodiment are the second embodiment of the present invention.Figure 10 is the simulation hot spot of the 4th embodiment.

Claims

1. a LED secondary optical lens is characterized in that, lens have a bottom surface, and the bottom surface is the plane; There is a concave surface in lens bottom surface central authorities, are the plane of light incidence of lens; The beam projecting face of lens passes through mutually with the bottom surface, defines the profile of bottom surface; The beam projecting face is spliced to form by two free form surfaces at least; The main part of lens is by the common definition space that surrounds of bottom surface, plane of light incidence, beam projecting face of lens; Lens also comprise installation foot or the flat board that is arranged on the bottom surface.

2. LED secondary optical lens according to claim 1 is characterized in that: described plane of light incidence is sphere or the face of cylinder or sphere and face of cylinder composite surface.

3. LED secondary optical lens according to claim 1 is characterized in that: described beam projecting face is spliced to form by two free form surfaces at least, and the connecting portion of two curved surfaces is continuous transition or discontinuous transition.

4. LED secondary optical lens according to claim 3 is characterized in that: the connection transition face of described two free form surfaces is plane or curved surface.

5. lens LED secondary optical lens according to claim 1 is characterized in that: described installation foot bottom surface is plane or inclined-plane or arc surface.

6. LED secondary optical lens according to claim 1, it is characterized in that: described dull and stereotyped center and lens body part plane of light incidence corresponding region are processed with through hole, and through-hole side wall constitutes the lens plane of light incidence with lens body part plane of light incidence.

7. LED secondary optical lens according to claim 1 is characterized in that: described slab-thickness is 1～10mm.

8. LED secondary optical lens according to claim 1 is characterized in that: described lens be by PC or PMMA or PP or ABS or PVC or glass material by injection moulding or Precision Machining manufacturing, the plane of light incidence of lens and beam projecting face are through polishing.

9. LED secondary optical lens according to claim 1 is characterized in that: described lens are single or array format, and lens and light source corresponding relation are for one to one or one-to-many or many-to-one relationship during installation.