RU116966U1 - LIGHTING SYSTEM - Google Patents

Abstract

1. An illumination system using light sources, characterized in that it consists of modules consisting of a case, in which boards with LED light sources are installed using fasteners, and the modules are mounted on a supporting surface, for example, a ceiling or on structural elements directly or through a system of guides, which provides a continuous illuminating surface when mounted. ! 2. Lighting system according to claim 1, characterized in that the holes for the LED light sources are arranged in an order that provides the same distance between any pair of adjacent LED light sources in the lighting system. ! 3. The lighting system according to claim 1, characterized in that the lines connecting the centers of the holes of any triplet form an equilateral triangle, this geometry of the holes arrangement ensures the uniformity of the arrangement of the LED light sources in the lighting system. ! 4. The lighting system according to claim 1, characterized in that the ratio of the diameters of the holes for the LED light sources and the distance from the module case to the board with LED light sources is calculated in such a way as to ensure the passage of at least 95% of the radiation of the LED light source in accordance with the diagram directivity according to Lambert or in accordance with the parameters of the secondary optics when used. ! 5. The lighting system according to claim 1, characterized in that a light-scattering element, for example, a stretch ceiling material, frosted glass, or plastic, can be located on it. ! 6. Lighting system according to claim 1, characterized in that the module housing is made of sheets

Description

The utility model relates to the field of lighting engineering, in particular, to lighting interiors of both the private sector and public and industrial premises (concert halls, sports and other facilities).

Well-known lighting systems, consisting of individual light sources (lamps), providing the required level of illumination.

The disadvantages of this lighting solution are:

- uneven illumination (of the room / volume), due to the very principle of lighting using local light sources. In particular, directly beneath the luminaires, illumination is excessive, and in areas equally spaced from the luminaire, it is insufficient. As a result, to ensure sufficient illumination of the room (volume), an excessive number of fixtures is used, which leads to increased energy consumption. In addition, there is:

- high rate of discomfort (due to the presence of uncomfortably bright light sources in the field of view);

- blindedness;

- brilliance;

- increased power consumption.

The proposed utility model solves the problem of eliminating these shortcomings.

The closest technical solution to the proposed solution is the invention according to the patent of the Russian Federation No. 2247898, relating to lighting engineering, in particular to lighting in poultry facilities with multi-tiered content of poultry, greenhouses, warehouses, etc. The suspension and moving device of the luminaires comprises a support cable with free ends, a pair of fixtures mounted on ceiling anchors, and auxiliary cable segments connected to the support cable. The free ends of the carrier cable are mounted on the drums with the possibility of reciprocating motion. The connection of the supporting cable with the auxiliary segments of the cable is made by means of rollers mounted on the supporting cable and interfaced with them. At the same time, some ends of these segments of the cable are connected to the fixtures, while others are fixed on the ceiling anchor (1).

However, this invention is based on the well-known principle of lighting using local light sources.

The technical result of the proposed solution is the conversion of the selected area for installation (plane / surface) into a continuous (up to 100% of the illuminated area) light source.

The proposed lighting system consists of LED modules (figure 3), mounted in a single lighting surface, for example, on a supporting frame, ceiling, wall, etc.

The module is a housing 4 made of sheet material (possibly painted), for example, steel, on which boards 1 with LED light sources 2 are installed (single single-chip or multi-chip LEDs, or groups of LEDs).

The circuit board with LED light sources is shown in Fig. 1 and is a printed circuit board 1 made of foil material with mounting holes 3, on which LED light sources 2 and, possibly, other electronic components are installed (for example: resistors, zener diodes, protective diodes, etc. )

LED light sources 2 mounted on board 1 are selected based on the standards and technical specifications for the illumination of the room (light level, color temperature, color rendering index, etc.)

The LED lighting module is shown in FIGS. 2, 3 and consists of a housing 4 with mounting holes for boards 5, holes for LEDs 6, and mounting holes for mounting module 7.

The board is fixed to the module case through the fastener 8.

The holes 6 for the LED light sources 2 are arranged in order to ensure the same distance between any pair of adjacent LEDs in the lighting system. The lines connecting the centers of the holes of any three form an equilateral triangle. This geometry of the location of the holes ensures the maximum uniformity of the location of the LED light sources in the lighting system. The ratio of the diameters of the holes for the LED light sources and the distance from the module housing to the board with LED light sources is calculated so as to ensure that at least 95% of the radiation of the LED light source passes in accordance with the radiation pattern of the applied LED light sources (Fig. 4) or in accordance with the parameters of secondary optics (when using one). Figure 4 schematically shows the Lambertian spatial distribution of the radiation intensity of the LED. On the left side of the figure - in polar coordinates, on the right - in Cartesian.

Modules are mounted on a bearing surface (for example, a ceiling) or on structural elements directly or through a guide system. An installation example is shown in FIG.

On the supporting surface 10, frame elements (guides) 11 are installed using fasteners 12.

To the frame by means of fasteners 9, LED lighting modules are attached.

Further, a light-diffusing element 13 may be located, for example, a stretch ceiling material, frosted glass, plastic, etc.

Unlike point light sources with a radiating surface, occupying about 5% of the illuminated area of the room, the proposed lighting system turns the area selected for installation (plane / surface) into a solid (up to 100% of the illuminated area) light source.

The fundamental absence of local (point) light sources on the selected plane (surface) as the light source provides the most comfortable perception of lighting by the organs of vision of humans and animals.

There is no dazzling effect from the light source, which provides the minimum indicators:

- discomfort;

- blindedness;

- gloss (according to SNiP 23-05-95).

Since stabilized power supplies are used to power LED light sources, the ripple of lighting is determined by the output characteristics of the power supply, and does not exceed 1% at the maximum allowable value of 15-20% at the workplace (SNiP 23-05-95) and 5% in rooms, equipped with computers (SanPiN 2.21 / 2.1.1 / 1278-03).

The modular principle of building a lighting system provides the possibility of zonal division of the room (illuminated volume) according to the degree of illumination.

The zonal separation according to the degree of illumination is provided by the following (but not exhaustive) system features:

- installation of LED modules (panels) with a given geometry of the location of the diodes;

- installation of LED modules (panels) with the required parameters of LED light sources;

- the ability to adjust the illumination for the entire room (selected for lighting volume), and separately for various functional areas.

The source of information

1 - Patent of the Russian Federation No. 22787898 C1, DEVICE FOR SUSPENSION AND MOVEMENT OF LUMINAIRES IN PRODUCTION ROOMS, IPC F21V 21/00, publ. 03/10/2005

Claims (6)

1. A lighting system using light sources, characterized in that it consists of modules consisting of a housing in which boards with LED light sources are mounted using fasteners, and the modules are mounted on a bearing surface, for example, a ceiling or directly onto structural elements or through a system of guides, which provides a solid illuminated surface when mounted. 2. The lighting system according to claim 1, characterized in that the openings for the LED light sources are arranged in an order that provides the same distance between any pair of adjacent LED light sources in the lighting system. 3. The lighting system according to claim 1, characterized in that the lines connecting the centers of the holes of any three form an equilateral triangle, this geometry of the location of the holes ensures uniform distribution of LED light sources in the lighting system. 4. The lighting system according to claim 1, characterized in that the ratio of the diameters of the holes for the LED light sources and the distance from the module housing to the board with LED light sources is calculated in such a way as to ensure the passage of at least 95% of the radiation of the LED light source in accordance with the diagram directivity according to Lambert or in accordance with the parameters of secondary optics when using it. 5. The lighting system according to claim 1, characterized in that a light-scattering element can be located on it, for example, material of a stretch ceiling, frosted glass, plastic. 6. The lighting system according to claim 1, characterized in that the housing of the module is made of sheet material.