RU2123633C1 - Lighting fixture - Google Patents

Abstract

FIELD: lighting apartments, public premises, and the like. SUBSTANCE: lighting fixture has hardware with holder, at least one lamp holder and bulb, ornamental parts with crystal-glass members suspended from them. Light-emitting diodes are fitted in lighting fixture and connected to power supply; they are provided with lenses whose optical axes are aimed at crystal-glass members and/or at chosen points of ornamental parts. Diodes may be installed on polygon-shaped panel surrounding the lamp holder or connected to electronic converter of supply mains, or to photoelectric generator (solar battery). Use may be made in lighting fixture of light-emitting diodes distinguished by super-high brightness and different color (blue, green, red, yellow) with dissipation angles of 0.3 to 20 deg. for 0.5 level of maximum light intensity. EFFECT: improved appearance and utilization factor of light flux. 5 cl, 3 dwg

Description

 The invention relates to lighting equipment, in particular to lighting devices, such as chandeliers, table lamps (candelabra) and other lamps with decorative reflective and refractive, for example, crystal elements.

 The device is intended for lighting residential premises, cafes, restaurants, churches, hotel rooms and other facilities.

 Known lighting devices (chandeliers, candelabra) [1.2], containing a tubular fixture holder with cartridges and lamps and surrounding decorative elements with crystal elements suspended on them, which refract and scatter the light flux emanating from the lamps into space.

 The disadvantages of the analogue are due to difficulties in giving the diffused light flux a variety of colors.

 A lighting device [3] is known, comprising a decorative cylindrical arm holder suspended from the ceiling with lampholders and lamps and coaxially mounted one, two or three annular decorative openwork elements with holes on the side walls, in which multifaceted crystal elements are placed, and crystal elements are suspended, ambient lamps.

 The device [3] selected as a prototype also does not impart a variety of color gamut to the diffused light flux, i.e. it does not decompose a part of the flux into the spectrum to improve decorative properties, nor does it make it possible to use part of the light flux scattered into the upper hemisphere (toward the ceiling).

 The aim of the invention is to improve the decorative properties while increasing the efficiency of the luminous flux of the lighting device.

 This goal is achieved by the fact that in the lighting device containing the fixture holder with at least one lamp holder and lamp, and decorative elements with elements refracting the light flux suspended from them, for example, crystal elements, as well as power supplies, are installed and connected to light emitting semiconductor diodes with lenses whose optical axes are directed at least to a portion of the refractive elements and / or to a selected portion of the decorative means explicit elements.

 The goal is achieved by the fact that light-emitting semiconductor diodes are mounted on the surrounding lampholder with a lamp panel in the form of a polyhedron and connected to power supplies.

 The achievement of the goal is also facilitated by the fact that the light emitting semiconductor diodes are connected to an electronic converter of the supply network assembled on the armature holder and covered by a decorative element.

 Another means of achieving the goal is that a photovoltaic generator (solar battery) is introduced into the armature, made in the form of one, two or more silicon plates or from gallium arsenal of plates with pn junctions mounted on the panel in the form of polyhedron and connected by external terminals to light emitting semiconductor diodes.

This goal is also achieved by the fact that superbright light-emitting semiconductor diodes of various colors with scattering angles in the range of 0.3 - 20 ^o at the level of 0.5 maximum radiation power are used.

 The most preferred embodiments of the device according to the invention are shown in the drawings.

In FIG. 1 shows a lighting device (chandelier) with a power supply network converter or with a photoelectric generator, side view, partially in section;
in FIG. 2 is the same as in FIG. 1, view AA;
in FIG. 3 is an optical diagram of the path of the rays of a light emitting diode with a lens and a refractive element mounted in the mandrel of a decorative element of a lighting device.

 Depicted in FIG. 1 and 2, the lighting device is made in the form of a cascade chandelier containing a tubular holder 1 of the armature, consisting of three hexagonal decorative elements 2, 3 and 4, mounted coaxially relative to the holder 1 and secured by braces 5 on the decorative cover 6 of the cartridge 7 assembled at the end of the holder with a lamp eight.

 At the opposite end of the holder 1 in the hexagonal decorative cup 9 is installed power supply 10, which is an electronic converter of the power supply, as well as a ring for hanging the chandelier on the ceiling. Refracting light flux elements are hung on decorative elements 2, 3, and 4, for example, crystal elements 11 and 12. Crystal beads 12 are suspended in window frames of decorative elements 2, 3, and 4. In the fixture of the lighting device, decorative panel 6 is mounted on a panel mounted on its side 13, and having the shape of a polyhedron, in particular a hexagon, light-emitting semiconductor diodes 14 are installed, made with lenses 15 (see FIG. 3), optical axes 0-0 of which are directed at least to a portion of the refractive elements 12 or 11, for example, for every second, third or fourth crystal element. In this case, the radiation beam emanating from the light emitting semiconductor diode 14 can also illuminate the part of the decorative element (mandrel) 2 adjacent to the crystal element 12, as shown in FIG. 3, or can only be directed to a selected part of the decorative element 2, 3 or 4.

 The carrier light-emitting semiconductor diodes 14 of the panel 13 is made of flexible foil fiberglass, and the diodes 14 are installed on it by a printed circuit with connection to the power supply 10.

 In the first embodiment of the lighting device, the light-emitting semiconductor diodes 14 are connected in parallel-series with ballast resistances (not shown in FIG.) To the power supply means 10 made on the basis of the electronic converter of the supply network, the current-carrying low-voltage wire 16 installed in the holder 1. When this lamp 8 is connected to the mains current-carrying wires, also located in the holder 1.

 In the second embodiment of the lighting device, instead of the converter 10, a photovoltaic generator (solar battery) 17 is introduced in its armature, made in the form of one, two or more facing silicon lamp 8 and refractive elements 11 and 12 of silicon or gallium arsenide plates with pn- transitions installed in the upper part of the panel 13 and connected by external terminals to the light emitting semiconductor diodes 14.

As light-emitting semiconductor diodes 14, superbright semiconductor diodes of various colors (green, blue red, amber) with scattering angles ranging from 0.3 to 20 ^o at a level of 0.5 of the maximum radiation intensity were used.

 Most preferred is the use of super-bright and powerful light-emitting diodes of the company "HEWLETTPACKAPDGmlH", Germany, the company "NICHIA" Japan or AOOT "Start" Russia. As domestic diodes, light emitting diodes of the type U-164A can be used; B, D; U-114A, B; U-118A, B. manufactured by AOOT "Start".

 Improving the decorative properties while increasing the efficiency of the luminous flux of the lighting device mainly in the lower hemisphere is achieved as follows.

 When the device is connected to the mains supply, the lamp 8 is simultaneously supplied with power and (for the first embodiment), light emitting semiconductor diodes 14 with lenses 15 guiding superbright light bulbs are connected through an electronic converter 10 of alternating current to direct or pulsating low voltage voltage (9-12 V) beams of different colors on the crystal elements 11 and 12 and / or decorative reinforcement elements. Refracting on the faces of crystal elements (see Fig. 3), as well as partially reflecting, light rays create a color gamut of radiation mixed with the light flux of the lamp, thereby improving the decorative properties of the lighting device.

 For the second embodiment of the device, when it is connected to the network, the lamp 8 generates a light flux that irradiates the plates of the photoelectric generator 17 (solar battery), based on the use of the phenomenon of the internal photoelectric effect, which creates photo emfs on the external terminals of these plates. Connected to the generator 17, light emitting semiconductor diodes 14 with lenses 15 then begin to generate light of different colors directed to the crystal elements 11 and 12 and / or to decorative reinforcement elements, similar to that described above for the first embodiment of the device.

 The increase in the efficiency of the light flux of the device is due to the possibility of localization and concentration of radiation on the crystal elements that refract and scatter the light flux in the interior.

 The advantages result from the additional and more efficient contribution of the light flux generated by the LEDs to the overall light flux of the device, as they have a light output, 2-2.5 times higher than that used in incandescent chandeliers.

Sources of information
1. Sysun V.V., Morozov E.P., Gorodishchanov A.A. "Lighting device." Pat. RF N 1776342. Bull. fig. N 42, 11/15/92.

 2. Bulatov Yu.O., Sysun V.V. Lighting device with tunable fixtures. Pat. RF N 2035006. Bull. fig. N 13, 05/10/95.

 3. Catalog "Kristall-Lenchten". Firm "Rudolf Molecs and Suhn Wien, Austria, 1992.

Claims (5)

 1. A lighting device comprising a fixture, including a holder, at least one cartridge and a lamp, decorative elements and elements that refract the luminous flux, for example, crystal, suspended on decorative elements, characterized in that it is equipped with light-emitting semiconductor diodes with lenses and power supply moreover, the light-emitting semiconductor diodes are connected to the power supply and installed in such a way that their optical axes are directed at least to some of the elements, ref yayuschih luminous flux and / or a selected portion of the decorative elements.  2. The lighting device according to claim 1, characterized in that it is provided with a panel in the form of a polyhedron surrounding a cartridge with a lamp on which light-emitting semiconductor diodes are installed.  3. The lighting device according to any one of paragraphs. 1 and 2, characterized in that as a means of power supply, an electronic converter of the supply network is used, mounted on a valve holder and closed with a decorative element.  4. The lighting device according to claim 2, characterized in that the photoelectric generator is used as a means of power supply, made in the form of one, two or more plates of silicon or gallium arsenide with pn junctions facing the lamp and the elements refracting the light flux, and mounted on a panel in the shape of a polyhedron. 5. A lighting device according to any one of claims 1 to 4, characterized in that ultra-bright light-emitting semiconductor diodes of various colors with scattering angles of 0.3 to 20 ^° at a level of 0.5 maximum radiation power are used as light emitting semiconductor diodes.

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