RU178424U1 - Lighting device - Google Patents

Abstract

Lighting device refers to lighting engineering and can be used for lighting rooms. The inventive device contains a longitudinal linear radiation sources and reflectors, the longitudinal axis of each of which is aligned with the longitudinal axis of each radiation source, with each reflector made up of several series-connected sections. The reflector in cross section is a broken line with angles of 172 °, 164 °, 166 °, 172 ° and 175 °, composed of the following six segments of length L located on both sides of the central longitudinal axis of the radiation source: L, L-2, 5 mm, L, L, L + 0.5 mm, L + 11.7 mm, where L is the distance from the central longitudinal axis of the radiation source to the first bend angle, while L is in the range from 8.5 to 12.5 mm Each reflector at both edges has bends for installation and fastening in the housing. The lighting device can be made in the form of several radiation sources located parallel to each other with reflectors installed in the housing. The proposed device is technologically advanced in manufacture and is characterized by increased light output.

Description

Lighting device refers to lighting engineering and can be used for lighting industrial, sports and other premises.

Known lighting device [1] with a reflector made in the form of an open pentagonal prism or an open hexagonal prism, in which the light flux is increased due to the multiple reflective surface of the reflector, the light source is located in front of the reflector. The disadvantage of this invention is the creation of local lighting near the source. In addition, the relationship between the dimensions of the radiation source, its position inside the emitting region and the surface profile of the concentrating reflector has not been determined.

The invention is known [2], used for the concentration of optical radiation, which contains a radiation source and a concentrating reflector with a reflective surface made in the form of a surface of revolution with a generatrix composed of several successively connected sections. The disadvantage of this technical solution is the presence of concentrated illumination near the light source.

Known reflector lamp [3], having a curved reflective surface formed by an involute curve. The reflector of the lamp is characterized by increased light output, however, it does not have the simplicity and manufacturability of manufacture when installing the lamp.

Closest to the claimed technical solution is a lamp with an adjustable reflector [4]. The luminaire comprises a longitudinal linear radiation source and a reflector, the longitudinal axis of which is aligned with the longitudinal axis of the radiation source. By changing the position of the reflector profile, it is possible to achieve a wide range of radiation. The disadvantage of this lamp is the complexity of manufacture and the lack of stability of the optical properties of the reflector.

The technical task of the proposed utility model is to increase light output in the presence of a simple design of the proposed device having manufacturability due to the used geometry of the reflector profile. An additional technical task is to ensure the stability of the optical properties of the reflector.

This object is achieved in that the lighting device comprising a housing, longitudinal linear radiation sources and reflectors, the longitudinal axis of which is aligned with the longitudinal axis of the radiation sources, each reflector made up of several series-connected sections, according to the proposed technical solution, the reflector in cross section a broken line with angles of 172 °, 164 °, 166 °, 172 ° and 175 °, composed of the following six segments of length L, located on both sides of the central the native axis of the radiation source: L, L-2.5 mm, L, L, L + 0.5 mm, L + 11.7 mm, where L is the distance from the central longitudinal axis of the radiation source to the first bend angle, while L ranges from 8.5 to 12.5 mm. Each reflector at both edges has bends for installation and fastening in the housing.

In the lighting device, radiation sources with reflectors are installed in the housing parallel to each other.

The design of the utility model is illustrated by drawings:

FIG. 1 - general view;

FIG. 2 - cross section of the reflector;

FIG. 3 - a lighting device with radiation sources and reflectors installed in the housing.

The lighting device (Fig. 1) contains radiation sources 1 and reflectors 2. The longitudinal axis of each radiation source 1 coincides with the longitudinal axis of each reflector 2. The profile of each reflector in cross section is a broken line. A broken line is obtained by approximating a curve described by a second-order curve, in particular, a parabola. The reflector surface is formed by the angles 172 °, 164 °, 166 °, 172 ° and 175 ° between the segments L, L-2.5 mm, L, L, L + 0.5 mm, L + 11.7 mm, where L - the distance from the central longitudinal axis of the radiation source to the bend angle and ranges from 7.5 to 11.5 mm.

The lighting device can be used as a multi-lamp ceiling lamp. In this case, bends 3 are made on both edges of each reflector for installation and fastening in the housing 4. Several radiation sources with reflectors are installed in the housing parallel to each other.

Lighting device operates as follows. The beam from the light source 1 enters the surface of the reflector 2. Due to the curved shape of the surface of the reflector, an increase in light output is achieved and light absorption is maximally prevented.

The proposed device is high-tech in the manufacture and installation of reflector profiles. The lighting device is characterized by high energy illumination with a minimum number of light sources and allows us to solve the problem of lighting high rooms, for example, up to 30 m high.

Information sources:

1. EP 1566589, F21V 7/00, F21V 7/05, 2003

2. RF patent No. 2047876, F21V 7/08, 1993

3. CN 101737714, F21V 7/04, F21V 7/10, 2010.

4. EP 0959296, F21V 7/16, 1999.

Claims (3)

1. A lighting device comprising a housing, longitudinal linear radiation sources and reflectors, the longitudinal axis of which is aligned with the longitudinal axis of the radiation sources, wherein each reflector is composed of several successively connected sections, characterized in that the reflector in cross section is a broken line with angles 172 °, 164 °, 166 °, 172 ° and 175 °, composed of the following six segments of length L, located on both sides of the central longitudinal axis of the radiation source: L, L-2.5 mm, L, L, L + 0 5 mm, L + 11.7 mm, where L is the distance from the central longitudinal axis of the radiation source to the first bend angle, while L is in the range from 8.5 to 12.5 mm. 2. The lighting device according to claim 1, characterized in that each reflector at both edges has bends for installation and fastening in the housing. 3. The lighting device according to paragraphs. 1 and 2, characterized in that the radiation sources with reflectors are installed in the housing parallel to each other.

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