SU1539817A1 - Directional-action light signaling device - Google Patents

Abstract

The invention relates to lighting technology and can be used in light signaling devices intended to operate under ambient light conditions, for example, in traffic signal lights and traffic lights. The purpose of the invention is to increase the functional reliability of the device - achieved by the mutual arrangement of the concave reflector 1 and absorber 2, with each point of the reflector corresponding to a certain area of the absorber, the angular dimensions of which are not less than the useful angle of the instrument and located on the side of the focal beam falling on the reflector. The light source 3 is located in the focus of the reflector 1. In the device version, the concave reflector 1, made in the form of a parabloid mirror, and the absorber 2 are separated by a cutting plane 5, passing at an arbitrary angle to the optical axis of the device and spaced from the distance Τ = G ^. SINζ, where G is the maximum distance from the focus to the line separating the mirror and the reflector

ζ is the scatter angle of the instrument. The light hole of the device is blocked by a protective glass - light filter 4. 1 Cp f-ly, 1 ill.

Description

The invention relates to lighting technology and can be used in light signaling devices intended to operate under ambient light conditions, for example, in traffic signal lights and traffic lights.

The purpose of the invention is to increase the functional reliability of the device.

The drawing shows one of the possible diagrams of the device.

The device contains a concave reflector 1, an absorber of 2 light rays and a source 3 of light located in the focus F of the reflector. 00G is the radiation axis of the instrument. The surface of the absorber 2 passes at an angle to the focal beams and is located with respect to the reflector surface on the side opposite to the focus, while any focal beam FA directed opposite to the focal beam FA falling on the reflector falls on the absorber section. The angular dimensions of the site q of the absorber are not less than 2%, where is the useful scattering angle of the instrument.

The reflector 1 of the device is made in the form of a paroboloid mirror, the surface of which is bounded by a light hole blocked by a protective glass filter and a cutting plane 5 passing at an arbitrary angle d to the axis 00 in front of its focus F. On the other side of the plane 5, extending the surface of the reflector and covering the source 3 on the side opposite to the light aperture, there is an absorbing surface 2 such that for an arbitrary point A of the paraboloid mirror there is an absorbing section a crossed by an extension HAND straight-AF at its center A.

The required angular dimensions of the sections are ensured by the fact that the section 5 plane passes from the focus F at a distance not less than the value corresponding to the ratio

With q. sin,

where q is the maximum distance from the focus to the line separating the mirror and the absorber; - useful angle of scattering device. The device works as follows. The beams 6 of the source 3 incident on the reflector 1 are radiated, being colored in the color of the signal by the light filter +, in

Observation space along axis 00 with a useful scattering angle. Beams 7 of ambient light sources (for example, the Sun), which entered the device at an arbitrary angle to axis 00, either directly fall onto the absorber 2, or fall onto the absorber after reflecting from mirror 1, or (after a series of reflections) go out through the light opening of the device at angles to the axis 00, exceeding the angle (f, i.e., outside the angular range of directions of observation for which the device is designed. Reflect at an angle to the axis 00, less or less from which point a reflecting The body of the ambient light beam cannot, since this would mean that at first it reflected from the corresponding area and the absorber, which is impossible

Claims (2)

1. A directional light-signaling device containing a light source located at the focus of a concave reflector and an absorber of light rays, characterized in that, in order to increase the functional reliability of the device, each point of the concave reflector corresponds to an area of the absorber whose angular dimensions are not less than the effective angle of scattering. Neither the device, the absorber site is located on the continuation of the focal beam incident on the reflector from the side opposite to the focus. 2. The device according to claim 1, characterized in that the concave reflector is made in the form of a paraboloid mirror, the surface of which is bounded by the light opening of the device and the cutting plane intersecting the axis of the device at an arbitrary angle ahead of its focus, the mirror and the absorber form the surface enveloping the source light from the side opposite to the light aperture, and the distance between the cutting plane and the focus is not less than the value satisfying the relation v q-sinЈ, where q is the maximum distance from the focus to the line separating the mirror and the absorber; - useful angle of scattering device.