SU1461101A1 - Collimator - Google Patents

Abstract

The invention relates to the field of optical instrumentation and can be used in searchlights, car headlights, flashlights, and at the same time allows to increase the concentration of radiation and reduce the size. In the collimator, a step lens 2 with Fresnel rings 4 is made with connecting edges 6, providing optical matching of the reflector 1 with F focus of the collimator. Thus, the Fresnel rings 4 simultaneously work on refraction both along the axis of the collimator and in the direction to the reflector 1, 1 of silt. from €

Description

: (54) COLLIMATOR

Claims (2)

one The invention relates to the field of optical instrument making and can be used in automobiles, headlights, flashlights x. The aim of the invention is to increase the concentration of radiation and reduce its size. The drawing shows a schematic collimator. It contains a reflector 1, having a front part in front of the focus F of the collimator, in which the radiation source (not shown) is placed, and a stepped lens 2. The latter, on the inner concave side of the carrier layer 3, has Fresnel rings 4, having refractive 5 6 faces, providing optical alignment of the front part of the reflector 1 with the focus F of the collimator. (Ls in the case of the reflector 1 in the form of a cone, and the carrier layer 3 - as part of a sphere, the condition of optical matching for each Fresnel ring 4 is expressed by the relation sin (q, -if) sinj n -H-2 n2-sin4 (Cfo-Cf) where n is the refractive index of the lens material 2 J twice the angle of taper reflector 1; (- the angle between the axis of the collimator and the beam on the connecting face 6 { f is the angle between the connecting face b and the outer surface of the carrier layer 3. The device operates as follows. Rays of light emitted from sources ten IkbM) placed at the focus F of the collimator, V partially refracts the front end of a 5 speed lens 2 in the direction of the axis of the collimator (as in similar known Devices), the rest is due to the implementation of Fresnel 4 rings with connecting edges 6 providing optical matching the reflector 1 with the focus F of the collimator, is refracted by these edges 8 in the direction of the reflector 1 and then from it in the direction along the axis of the collimator (in the diagram, the rays are indicated by arrows). Thus, the Fresnel ring 4 simultaneously operates in two directions along the axis of the collimator, towards the reflector 1, which ensures the positive effect of the invention. 15 .R  L to about 20 - where F-v .. o; l and 3 found.and t. A collimator containing a reflector at least a part of which is located in front of the focus of the collimator, and a step lens with Fresnel rings on the inner carrier concave with the focusing layer facing the focus of the collimator, while in the lens: rings F1) Enel is made with a refraction index. R With foci and connecting edges, characterized in that, in order to increase / concentrate the radiation and reduce overall dimensions, the Fresnel rings are made with connecting edges providing optical matching of the focus of the collimator and the front part of the reflector. 2. The collimator in accordance with claim 1, 1, and TL is that the front part of the reflector is made conical and the supporting layer is stepped. LENSES - in the form of a part of a sphere with a center in the focus of the collimator; 0 five sanj - where n cho .fiDiyarifl. 0 P2-I-2-Jn -sinz (IV-) the refractive index of the lens material; double taper angle of the reflector; . angle between the collimator axis and the beam from the focus to the connecting face of the Fresnel ring | the angle between the connecting face and the surface of the carrier layer of the Fresnel ring.