CN100549505C

CN100549505C - The LED lighting module

Info

Publication number: CN100549505C
Application number: CNB2006800007521A
Authority: CN
Inventors: R·奥波尔卡; A·蒂明格
Original assignee: TWO BROTHERS PHOTOELECTRONIC GmbH
Current assignee: LED Lenser Co., Ltd.
Priority date: 2005-05-12
Filing date: 2006-05-05
Publication date: 2009-10-14
Anticipated expiration: 2026-05-05
Also published as: DE502006003613D1; DE202005007500U1; EP1880139A1; ES2326389T3; DK1880139T3; EP1880139B1; ATE430286T1; CN101018975A; WO2006119735A1; HK1108730A1

Abstract

The present invention relates to a kind of LED lighting module, the auxiliary optics (10) that comprises the printing opacity of a LED (23) and a rotational symmetric single-piece, this auxiliary optics have the collector lens part (14) of a inside and the mirror portion (16) of an outside.Auxiliary optics (10) has an opening (11) that is arranged on the blind hole shape at the back side, LED (23) can move axially along optical axial (20) in this opening (11), therefore move by this and can produce cone angle≤12 ° and change until the light cone of the light cone of cone angle 〉=20 °, and on the LED position of at least one opening (11) with respect to auxiliary optics (10) on cross section perpendicular to throw light on the equably light cone zone of a inside of optical axial (20).Minimum diameter 〉=the 9mm of tapered opening.

Description

The LED lighting module

Technical field

The present invention relates to a kind of LED lighting module, the auxiliary optics (Vorsatzoptik) that comprises the printing opacity of a LED and a rotational symmetric single-piece, this auxiliary optics have the opening of the blind hole shape at the mirror portion of the collector lens part of a inside and an outside and a back side.

Background technology

Such LED lighting module for example is applied in the flashlight.By the flashlight of the known outfit incandescent lamp of prior art have at present one towards the end face taper the lamp holder that broadens, portion is provided with one and in most cases constitutes parabolical concave mirror within it, and incandescent lamp or its coiled-coil filament are set on the focus of concave mirror.By this layout should fidelity the best light efficient.Such concave reflection minute surface may pollute easily unfriendly or may fade by corrosion effect in the mirror surface, make that the reflection of light becomes a little less than.

Push to market at the flashlight that is equipped with light emitting diode period early.Light emitting diode obviously than incandescent lamp consumption still less the electricity and in most cases can carry out work with lower operating voltage, make little cell body (compact battery) just enough as power supply.Particularly by adopting the light emitting diode can the less flashlight of manufacturing structure mode, make them can be used as key carrier etc. and carry together easily.Except less power consumption, what be confirmed is, light emitting diode since reasons in structure also particularly for impacting and impacting insensitive.Light emitting diode has the extremely long life-span in addition, and therefore cancellation is changed at the incandescent lamp often essential than period morning.Both made under the situation of light emitting diode as light source, given light emission also should be utilized best.Part possible in principle application of detectable speculum in lamp has above-mentioned shortcoming.Expect that in addition this member also can save.

In some flashlights known by prior art, a collector lens is set on the light outgoing plane, it is arranged in the position that makes light emission under the situation on the focus of this collector lens can penetrate parallel light beam basically.In a kind of further developing, also advise a kind of lamp holder movably vertically, its allows to change the position of collector lens with respect to LED.Therefore can in certain boundary, change beam characteristics.But this version only can be used in such light emitting diode, and promptly its ray is brought together forward.If promptly with the angular emission higher with respect to its axis, this light does not utilize yet that it is the important a part of light of light emitting diode so towards the side.Present High Power LED constitutes at present like this, makes ray come out in the polarizers of big angle scope with respect to axis.For such light emitting diode, auxiliary optics is significant.

By the more known lenticular bodies of prior art, they constitute the end face of prismatic or cylindricality, solid, that have plane formula or slight convex bending.These lenticular bodies have a groove overleaf, embed the LED vitreum in groove.The ring surface of LED lamp socket entirely abuts on the respective annular face of lenticular body at this, be arranged to fixed-site like this at the light emission point of this LED, make the light that in the optical axial scope, sends to reflect into parallel light shafts by collimator effect towards the bore direction.When crossing so-called critical angle than the light that sends under the wide-angle, reflect fully and deflect according to surface curvature and consequent angle of reflection with respect to optical axial.A kind of so for example by US 6,478,453 B2 or US 6,547 in the known auxiliary optics of 423B2, determine the illumination characteristic of lamp.

Summary of the invention

The objective of the invention is further to improve a kind of lighting module that constitutes by LED and auxiliary optics.

Above-mentioned purpose solves by a kind of LED lighting module, it comprises the auxiliary optics of the printing opacity of a light emitting diode and a rotational symmetric single-piece, this auxiliary optics has the opening of the blind hole shape at the mirror portion of the collector lens part of a inside and an outside and a back side, this opening by a taper or cross section be the basal plane of the conical periphery of arc and a convex bending limit and this opening have one allow the LED body in this opening along the axially movable circle diameter of the optical axial of auxiliary optics, wherein the basal plane of the collector lens part convex bending by injecting face as light and the crooked light outgoing plane in same convex ground of a front side constitute, and mirror portion is injected the periphery of face by opening as light basically, light outgoing plane as the taper of the periphery of the shell type of the outside of the complete reflecting surface of light and a front constitutes, wherein all light are injected with the light outgoing plane light that tilts to occur are reflected like this, make the light that penetrates by LED be higher than that 85% ground penetrates forward and the moving and to produce cone angle≤12 ° and change vertically by LED until the light cone of the light cone of cone angle 〉=20 °, and at least one with respect to the LED position of the opening of auxiliary optics on cross section perpendicular to throw light on the equably light cone zone of a inside of optical axial, the minimum diameter 〉=9mm of tapered opening.

The auxiliary optics of the printing opacity of rotational symmetric single-piece has the opening of the blind hole shape at the mirror portion of the collector lens part of a inside and an outside and a back side, this opening by a taper or cross section be the conical periphery of arc

Limit with the basal plane of a convex bending and this opening have one allow the LED body in this opening along the axially movable circle diameter of the optical axial of attachment lens.Think under this, total the moving axially in blind hole shape opening that is made of LED vitreum and lamp socket is possible, the feasible different illumination characteristic that can regulate the different cone angle with light beam by LED with respect to blind hole shape opening along the relative motion of optical axial with changing.

Collector lens has the light outgoing plane of the convex bending similarly of the basal plane of a convex bending of injecting face as light and a front side.Basically the periphery, one of the blind hole shape opening by injecting face as light constitute as the light outgoing plane of the taper of the periphery of the shell type of the outside of the complete reflecting surface of light and a front direct-connected outside mirror portion in the scope of single-piece auxiliary optics.All light are injected face and light outgoing plane makes the light that tilts to occur reflect like this, makes the light that is penetrated by LED be higher than fully, especially basically that 85% ground penetrates forward and the moving and can produce cone angle≤12 ° and change until the light cone of the light cone of cone angle 〉=20 ° vertically by whole LED.At least one with respect to the LED relative position of the blind hole shape opening of auxiliary optics on cross section perpendicular to can throw light on the equably light cone zone of a inside of optical axial, preferred illumination like this makes at the 2.5m distance circle that diameter is 0.80m that throws light on equably.Because important only is LED relatively moves with respect to auxiliary optics, so this purpose can realize moving by axially displaceable LED or by the combination of auxiliary optics and LED by axially displaceable auxiliary optics or under the situation of the fixing assembling of auxiliary optics under the situation of the fixing assembling of LED.

Preferred such scheme, promptly auxiliary optics is arranged on one with respect in the axially displaceable lamp holder of common lamp body, and LED also is fixedly mounted in this lamp body.A vertically or spiral guider can be set in case of necessity for this reason.

Therefore obtain narrow or wide irradiation by the known LED of prior art is corresponding from the focus of lenticular body or moving in principle, that is to say to have less or larger-diameter light beam from focal plane towards both direction.But mainly pursue so far, produce the light beam of the collimated light beam as far as possible of each light.But in the collimation of the light of the strictness of being pursued, the zone of throwing light under the situation that adopts the point type light source is subjected to the restriction of auxiliary optics diameter.Though LED is from the mobile expansion that causes light cone of focal plane, along with the growth of the distance of leaving optical axial, light intensity is radially successively decreased outwardly.Constitute a collector lens part and a mirror portion by auxiliary optics by the form of Fresnel lens, the reflection characteristic of the auxiliary optics of the collimation property of combined light gathering lens and outside part in such a way, make light that converge and that disperse at light emitting diode with respect to auxiliary optics uniform face of illumination on the allocation really, be 80cm especially at 2.5m distance diameter.

The surface of refracted ray or complete reflection ray can be calculated by means of the size cutting method (2D-Ma β schneiderverfahren) of two dimension.

Therefore the light outgoing plane of mirror portion is chosen as between 35 ° and 40 ° preferred 37 ° with respect to an inclination angle perpendicular to the vertical plane setting of optical axial.The minimum diameter of tapered opening should be minimum 9mm, therefore allows all light emitting diodes commonly used to comprise that lamp socket can move vertically, makes LED can be pushed in the rear opening together with lamp socket in this opening.The total height of auxiliary optics should be between 9mm and 16mm, and this combination by collector lens part and the mirror portion of an outside is possible.The internal diameter of preferred collector lens part is than the most much 1mm of maximum gauge of the opening of auxiliary optics.

By another structure of the present invention, mirror portion can have the edge surface section of outside, and they are arranged to be parallel to the optical axial of auxiliary optics.Therefore guarantee the existence in the astigmatic edge region.

Mirror portion can have the ring surface section in addition, and they are arranged to around opening and perpendicular to optical axial and/or be arranged in front side outside and perpendicular to optical axial.The thickness of the collector lens of the inside preferably between 0.6 and 0.65, is preferably 0.614 with respect to the ratio of the height of auxiliary optics.The collector lens of last the inside partly has a light outgoing plane, and its radius of curvature is injected the radius of curvature of face less than light.Partly have one at least 40 ° preferred 42 ° angular apertures by collector lens of the present invention.

Preferably particularly PMMA or glass constitute auxiliary optics by plastics.

Description of drawings

Explain other advantages of the present invention by means of accompanying drawing.

Fig. 1 to 4 shows the different illumination characteristic that have two different auxiliary optics respectively in schematic form;

Fig. 5 shows the cross-sectional view by concrete auxiliary optics of the present invention.

The specific embodiment

Play the opening 11 that the auxiliary optics of lenticular body effect has the blind hole shape at a back side, this opening limits by the periphery 12 of a taper and the basal plane 13 of a convex bending.Basal plane 13 also is that the light of the collector lens part 14 of the inside is injected face, and this collector lens part has the light outgoing plane 15 of a convex bending in the front side.Collector lens part 14 is surrounded by a mirror portion 16, and this mirror portion periphery 12 by injecting face as light and basically constitutes as the light outgoing plane 18 of the taper of the periphery 17 of the outer hull shape of the outside of the complete reflecting surface of light and a front.As shown in the figure, mirror portion 16 can also have the wall section 19 that is parallel to optical axial, can also have the

fringe region

21,22 perpendicular to optical axial in addition.Overall diameter in the auxiliary optics shown in Fig. 5 can for example be 20mm, 25mm or 36mm, respectively for the situation of the structure height of 9mm, 11mm or 16mm.Opening 11 is that the diameter of wide like this or this opening is big like this at this, makes a LED who schematically illustrates in Fig. 5 23 to move along optical axial (seeing double-head arrow 24) together with lamp socket.Obtain different illumination characteristic by Fig. 1 to 4.In situation, obtain narrow relatively bringing together, have the disc of the 0.8m that for example evenly throws light at the 2.5m place by Fig. 1.The light that is sent by LED 23 as long as it runs into light and inject face 13, just is refracted and leaves collector lens inside 14 with light refraction again by light outgoing plane 15.Marginal ray arrives outer circumference surface 17 by the conical surface 12, reflects at this conical surface 12, occurs forward after this outer circumference surface reflection fully takes place and reflects on light outgoing plane 18 at last.The light cone of bringing together by the illumination characteristic that obtains with auxiliary optics 10 and lens 23 in the illustrated case with comprising a relative narrower with small-angle.

Opposite in the situation of the LED 23 that presses Fig. 2, LED further moves in the opening 11, obtain a kind of illumination characteristic, wherein converged by the divergence of beam of collector lens part 14 refraction and the light that comes from mirror portion, this obtains by different refraction angles and angle of reflection.

In Fig. 1 and 2, adopt the flat relatively lens of frame mode.The difference of the lens of describing in Fig. 3 and 4 is bigger structure height, and wherein periphery 17 " forward and backwards " prolongs, and therefore obtains darker relatively blind hole 11 and the front 18 light outgoing plane 15 further overhangs with respect to the inside.In Fig. 3 and Fig. 4, light emitting diode 23 respectively on different positions, obtains corresponding different light characteristic with respect to auxiliary optics 10 thus.

Within the scope of the invention, following version also is possible, promptly surface 12 can spherical earth or aspheric surface ground constitute, and

surface

14 and 15 can spherical earth or flat ground (and the ground of the aspheric surface shown in being different from) constitute.

Auxiliary optics preferably is made of PMMA and particularly can and uses in flashlight in the 12V illumination.

Claims

1. LED lighting module, the auxiliary optics (10) that comprises the printing opacity of a light emitting diode (23) and a rotational symmetric single-piece, this auxiliary optics has the opening (11) of the blind hole shape at the mirror portion (16) of the collector lens part (14) of a inside and an outside and a back side, this opening by a taper or cross section be that the basal plane (13) of the conical periphery (12) of arc and a convex bending limits and this opening has one and allows LED body (23) axially movable circle diameter of optical axial (20) along auxiliary optics (10) in this opening (11), wherein collector lens part (14) by injecting the convex bending of face as light basal plane (13) and crooked light outgoing plane (15) formation in same convex ground of a front side, and mirror portion (16) is injected the periphery (12) of face by opening as light basically, the light outgoing plane (18) of the taper of a periphery as the shell type of the outside of the complete reflecting surface of light (17) and a front constitutes, wherein all light are injected and light outgoing plane (12,13,15,18) light that tilts to occur is reflected like this, make the light that penetrates by LED be higher than that 85% ground penetrates forward and the moving and to produce cone angle≤12 ° light cone variation vertically by LED (23) until the light cone of cone angle 〉=20 °, and on the LED position of at least one opening (11) with respect to auxiliary optics (10) on cross section perpendicular to throw light on the equably light cone zone of a inside of optical axial, the minimum diameter 〉=9mm of tapered opening.

2. by the LED lighting module of claim 1, it is characterized in that: the light outgoing plane (18) of mirror portion (16) is between 35 ° and 40 ° with respect to an inclination angle (α) that is provided with perpendicular to the vertical plane of optical axial (20).

3. by the LED lighting module of claim 1 or 2, it is characterized in that: the total height of auxiliary optics is between 9mm and 16mm.

4. by the LED lighting module of claim 1 or 2, it is characterized in that: the diameter of collector lens part is than the most much 1mm of maximum gauge of the opening (11) of auxiliary optics (10).

5. by the LED lighting module of claim 1 or 2, it is characterized in that: mirror portion (16) has the annular surface section (19) of outside, and they are arranged to be parallel to the optical axial of auxiliary optics.

6. by the LED lighting module of claim 1 or 2, it is characterized in that: mirror portion (16) has the ring surface section (22) of the outside of a rear side, and it is arranged to around opening (11) and perpendicular to optical axial; And the ring surface section (21) with outside of a front side, it is arranged in outside the front side and perpendicular to optical axial.

7. by claim 1 or 2 LED lighting module, it is characterized in that: the thickness of the collector lens of the inside with respect to the ratio of the height of auxiliary optics between 0.6 and 0.65.

8. by the LED lighting module of claim 1 or 2, it is characterized in that: the radius of curvature of the light outgoing plane (15) of the collector lens part (14) of the inside is injected the radius of curvature of face (13) less than the light of the collector lens part (14) of the inside.

9. by claim 1 or 2 LED lighting module, it is characterized in that: collector lens part (14) has angular aperture 〉=40 °.

10. by the LED lighting module of claim 1 or 2, it is characterized in that: auxiliary optics is made of plastics or glass.