WO2015099557A1 - Lighting device - Google Patents

Abstract

The invention relates to lighting technology, and more particularly to lighting devices having a source of light and reflectors for wide-format illumination. The technical result is achieved in that a lighting device comprising a concentrating reflector, a source of light, and a re-reflecting reflector with an apex, which re-reflecting reflector is disposed opposite the focusing reflector and has its apex oriented toward said focusing reflector, is characterized in that the re-reflecting reflector with an apex comprises regions with a reflective surface which lie in a direction from the apex toward the edges of the re-reflecting reflector and have different light reflection angles, wherein the reflective surfaces of adjacent regions are angled at between 90 and 270 degrees to each other.

Description

 Lighting fixture

Technical field

 The invention relates to lighting equipment, namely to lighting devices having a radiation body of a light flux and reflectors for wide-format lighting.

State of the art

 For lighting, lamps of numerous designs are usually used. But to increase the efficiency of lighting devices, as a rule, reflectors are used. For example, in the automotive industry they use parabolic focusing reflectors, which repeatedly compact the luminous flux and allow you to see in the dark at a distance of 50 - 100 meters with a small lamp power of 40 - 60 watts, which is impossible without a parabolic reflector.

The disadvantages of such a lighting device include its narrow focus, since a lighting device with a parabolic reflector is a point. Therefore, to illuminate large areas using lighting devices with a spherical or similar reflector. But these reflectors cannot multiply the luminous flux, but simply are reflectors that reflect the luminous flux from the lamp. Therefore, such lighting devices achieve a sufficient level of lighting through the use of powerful lamps of 500 - 1000 watts, which is uneconomical. Therefore, the most effective lighting devices for lighting large areas are lighting devices, the design of which contains a focusing parabolic reflector, directing its multiply compacted light flux to the reflective reflector.

 The closest lighting fixture to the present invention is a lighting fixture that contains a light flux emitting body mounted in a parabolic cylindrical (parabolic) reflector, a reflector with a vertex opposite the parabolic cylindrical reflector, with its apex pointing inside the parabolic cylindrical reflector (1).

The essence of this patent lies in the fact that the parabolocylindrical (parabolic) reflector, in which the body of radiation of the light flux is located, is the focusing reflector and directs the repeatedly amplified light flux to the re-reflecting reflector directed by its apex to the center of the parabolic cylindrical reflector. Since the reflective reflector with the apex has a concave lateral surface around the apex, the luminous flux of the focusing reflector changes its direction and spreads in all directions, illuminating the area around the lighting device. In this patent, a re-reflecting reflector with a vertex is called an umbrella-cone reflector, since it resembles an umbrella, in which instead of a handle there is a conical peak, in which the side reflective surface smoothly bends into an umbrella reflective surface. The disadvantage of this invention relates to a large unevenness of lighting. A reflecting reflector with a peak effectively reflects the light flux from the focusing reflector only over a large distance, while under the illumination device itself there is not enough lighting, that is, there is a large difference in the distribution of light fluxes.

 The technical result to which the claimed invention is directed is to improve the distribution of light fluxes, to increase the uniformity of illumination of the territory, to increase the controllability of light fluxes.

Disclosure of invention

 The present invention allows to increase the area of uniform illumination by a lighting device, allows to produce a lighting device with an improved distribution of light fluxes, with increased controllability of light fluxes.

The technical result is achieved in that a lighting device comprising a focusing reflector, a light flux emitting body, a reflecting reflector with a vertex located opposite the focusing reflector, directed with its apex toward the focusing reflector, differs in that the reflecting reflector with a vertex contains sections with a reflecting surface located in the direction from the top to the edges of the reflective reflector with different angles of reflection of the light flux, while pressing surfaces of adjacent sections located in the range from 90 degrees to 270 degrees relative to each other.

 The drawings show:

 In FIG. 1 - a lighting device containing a focusing reflector 1, a light flux radiation body 2 installed inside the focusing reflector 1, a reflecting reflector 3, in which the reflective surfaces of adjacent sections are in the range from 90 degrees to 270 degrees relative to each other.

 In FIG. 2 - a lighting device containing a focusing reflector 1, a light flux radiation body 2 installed inside the focusing reflector 1, a reflecting reflector 3, in which some reflective surfaces of adjacent sections are in the range from 90 degrees to 180 degrees relative to each other and form an internal angle 4, and other reflective surfaces of adjacent sections are in the range from 180 to 270 degrees relative to each other and form an external angle 5.

The lighting device of FIG. 1 comprises a focusing reflector 1, in which a light flux radiation body 2 is located. Like a lantern with a parabolic reflector or a car headlight, the focusing reflector 1 multiplies the light flux and directs it upward to the reflecting reflector 3 with a peak located opposite the focusing reflector 1 and directed with its apex toward the focusing reflector 1. Due to the configuration of the reflective reflector 3, the light flux of the focusing reflector 1 is dissected by its apex, and is also reflected by the lateral surface of the reflective reflector 3, consisting of many sections with a reflective surface located at different angles of reflection of the light flux. The luminous flux changes its direction and spreads in all directions, illuminating the territory located around the lighting device.

 In FIG. 2 shows a reflecting reflector 3 with an apex, which contains sections with a reflecting surface forming an internal (concave) angle 4 of reflection of the light flux, since the reflecting surfaces of these sections are in the range from 90 degrees to 180 degrees relative to each other and one section with a reflecting surface can reflect light flux to another section with a reflecting surface, as well as sections with a reflecting surface forming an external (convex) angle 5 of reflection of the light flux, since reflecting NOSTA portions are arranged in the range from 180 to 270 degrees relative to each other and the portions with reflective surfaces may not pereotrazhat luminous flux on each other.

That is, if a rectangle is projected onto the edges of one reflecting portion on one side, then the other reflecting portion forming the inner corner 4 will be located outside the other side of the rectangle - FIG. 2, that is, in the range of 90 to 180 degrees. Also, if a rectangle is projected on one side from the inside of the reflecting portion (at its edges), then the other reflecting portion forming the outer corner 5 will be located on the outside of the rectangle - FIG. 2, that is, in the range of 180 to 270 degrees. The reflective reflector 3 with the apex may comprise areas with a flat reflective surface, areas with a concave reflective surface, and also areas with a convex reflective surface. The lateral reflective surface of the rereflective reflector 3 can consist, for example, only of sections with a reflective surface that form an internal angle 4 of reflection of the light flux or alternating sections with a reflective surface that form an internal angle 4 with each other with sections with a reflective surface forming an outer angle 5, and any section can take part in the formation of both the inner corner 4 and the outer corner 5 - FIG. 2. It is possible to manufacture a reflective reflector 3 with other options for alternating sections with reflective surfaces. For example, section A forms an internal angle 4 with section B, section B forms an internal angle 4 with section C, and section C forms an external angle 5 of reflection of the light flux with section D. There are many options for manufacturing a reflector 3, it all depends on the technical result, which need to achieve.

 By arranging areas with a reflective coating relative to each other, uniformity of illumination can be achieved, priority (stronger) illumination of some parts of the territory and less illumination of other parts of the territory can be achieved.

Areas with a reflecting surface of the re-reflecting reflector 3 can reflect the light flux from the focusing reflector 1 both directly to the territory located around the lighting device and to another area with a reflecting surface that will reflect to the territory Around the lighting device is already compacted luminous flux. The luminous flux is denser due to the direction of the light reflecting reflector 3 from the focusing reflector 1 and from the neighboring reflecting reflector 3, which forms the inner corner 4, to the given section.

 By changing the angle between the sections of the rereflective reflector 3, the controllability of the light flux increases, thereby achieving a technical result.

 The maximum perimeter of the side reflective surface of the reflector 3 can be round, teardrop-shaped, in the form of a sector, square, oval or other, and the top of the reflector 3 in a vertical projection can be in the center or be an eccentric.

Examples of the implementation of lighting

 The declared lighting devices are mainly intended for lighting parks, squares, alleys, streets. By changing the configuration of the reflective reflector, by changing the angle of reflection of the light flux by the surface sections of the reflecting reflector, it is possible to manufacture many variants of lighting devices with different wide-format lighting diagrams, depending on the task.

 Literature:

 1) Patent RU N ° 2198345 dated May 6, 2000 “Lighting device”, IPC F21V1 1/00, F21V7 / 16, F21V7 / 09.

Claims

 Lighting fixture  Claim A lighting device comprising a focusing reflector, a light flux emitting body, a reflecting reflector with a vertex located opposite the focusing reflector, directed with its apex toward the focusing reflector, characterized in that the reflecting reflector with a vertex contains portions with a reflecting surface located in the direction from the top to the edges a reflecting reflector with different angles of reflection of the light flux, while the reflecting surfaces of nearby Astkov are located in the range from 90 degrees to 270 degrees relative to each other.  The lighting device according to claim 1, characterized in that the reflective reflector with the apex contains sections with a reflective surface forming an internal angle of reflection of the light flux, since the reflective surfaces of these sections are located in the range from 90 degrees to 80 degrees relative to each other, and one section with a reflective surface can reflect light flux to another area with a reflective surface. The lighting device according to claim 1, characterized in that the reflective reflector with the apex contains sections with a reflective surface forming an external angle of reflection luminous flux, since the reflecting surfaces of these sections are located in the range from 180 degrees to 270 degrees relative to each other, and sections with reflective surfaces cannot reflect the light flux on top of each other.  4. The lighting device according to claim 1, characterized in that the reflective reflector with the apex contains sections with a flat reflective surface.  5. The lighting device according to claim 1, characterized in that the reflective reflector with the apex contains sections with a concave reflective surface.  6. The lighting device according to claim 1, characterized in that the reflective reflector with the apex contains areas with a convex reflective surface.