RU2182287C2 - Solar luminaire (modifications) - Google Patents

Abstract

FIELD: tubular, cone-shaped and combination luminaires designed for illumination often-closed spaces in the day time. SUBSTANCE: the tubular solar luminaire (according to the first modification) has a solar conduit and an extension piece, the solar conduit and the extension piece are made with an internal mirror surface, and the extension piece is made tapered and provided with a glass pipe for better scattering of solar flux. According to the second modification, the solar luminaire has a detector of solar energy, main solar conduit 4 and extension piece 6, main solar conduit 4 has mirror 7 for sending the flux to extension piece 6 and tap 5 from main solar conduit 4 for extraction of part of the solar flux, and extension piece 6 is made in the form of a hollow cone with an external mirror surface for better scattering of solar flux in the room. The combination solar luminaire according to the third modification differs from the luminaire according to the second modification by the fact that an electric lamp is installed inside extension piece 6, the lamp is automatically cut in the electric circuit by a signal from the transducer of solar flux density at its reduction to the lower tolerance limit and gets disconnected from the electric circuit at the upper flux density limit. The first two modifications may be assembled irrespective of the electric network at illumination of the mounting grounds and passages between metro stations, as well as at illumination of tunnels and trunks with the use of solar energy, and the third modification of luminaires may be assembled in complex with electric luminaires in the lusters of the halls of metro stations. EFFECT: saved electric power and prolonged service life of electric luminaires, in particular for the Moscow metro, the saved power may make up to 65.7 mln kW per year. 3 cl, 2 dwg

Description

 The invention relates to the field of energy-saving technologies, in particular when saving energy used to illuminate enclosed spaces, such as subways, tunnels, mines, ship holds in the daytime.

 Known devices for receiving and transporting solar energy in enclosed spaces [1,2].

 Known tubular solar lamp, consisting of a receiver of solar energy, the solar duct - the fiber and the nozzle at its end [3].

 This lamp provides lighting in the production of underground, underwater works, serves to bring light into the inaccessible cavities of machine parts, as well as to the internal organs of a person.

 The application proposes a number of options for a solar luminaire that can be used to illuminate closed rooms in the daytime using solar energy.

 The present invention is aimed at obtaining energy savings, in particular for the Moscow Metro, this savings can be up to 65.7 million kWh per year.

 The specified technical problem is solved by the fact that in the tubular solar lamp, consisting of a waveguide and a nozzle, they are made with an internal mirror surface, while the nozzle is made conical and equipped with a glass pipe for better diffusion of the solar flux (according to the first embodiment), as well as that in a solar luminaire consisting of a solar energy receiver, a main solar conduit and a nozzle, the main solar conduit contains a flat mirror to direct the flow to the nozzle and divert from it To select a portion of the solar flux, the nozzle is made in the form of a hollow cone with an external mirror surface for better diffusion of the solar flux in the room. In the third embodiment, a combined solar luminaire is proposed, which consists of a main solar cable and nozzle, while the main solar cable contains a flat mirror and a tap from the main solar cable, and the nozzle is made in the form of a hollow cone with an external mirror surface, inside of which an electric lamp is mounted, which is automatically connected to the mains by the signal from the solar flux density sensor when it is reduced to an acceptable lower limit and disconnected from the mains when the upper limit of pl otnost flow.

Figure 1 shows a tubular solar lamp similar to fluorescent lamps, which is indicated by:
1 - a solar duct with an internal mirror surface;
2 - cones with an internal mirror surface;
3 - a glass tube that disperses the solar flux indoors;
Ф _с - the flux entering the lamp, conical nozzles 2 are used to convert the flux Фс with parallel beams in the solar conductor 1 into a scattering stream in a frosted glass tube 3.

 Such lamps can be widely used for lighting landing sites or subway crossings, as well as in tunnels and mines.

Figure 2 shows a conical lamp made in the form of a hollow cone with a mirrored outer surface, on which is indicated:
4 - trunk solar line from the receiver of solar energy;
5 - tap from the main solar duct;
6 - a hollow conical solar lamp with an external mirror surface;
7 - a directing mirror for a part of a solar stream Ф _c1 ;
Ф _с - solar flux in the main solar pipeline from the solar energy receiver;
Ф _с2 - diffused solar stream with a cone 6, which can be suspended with a strong thread from the mirror 7, part of the stream Ф _с , reflected from the mirror 7, is directed to the mirror cone 6, reflected from which is scattered in the room, illuminating it.

 The cone 6 can be directed both downward, as shown in the drawing, and upward, if the suspension thread is replaced with a rigid thin rod.

 A type of lamp (figure 2) can be combined using both solar and electric energy for lighting, an electric lamp with power supply is placed in the inner cavity of the cone through a tube inside which an electric wire is placed. When the solar flux disappears (at sunset), the solar flux density sensor gives a signal to automatically turn on the electric lighting of the room.

 For aesthetic design, cone 3 can be mounted in chandeliers that illuminate the halls of the subways or large halls of palaces.

Sources of information
1. RU 2133926 from 07.27.99.

 2. US patent 5195503 from 03.03.93.

 3. SU 144349, 01/27/1962.

Claims (3)

 1. A tubular solar lamp, consisting of a waveguide and a nozzle, characterized in that the waveguide and the nozzle are made with an internal mirror surface, while the nozzle is made conical and equipped with a glass tube for better diffusion of the solar flux.  2. A solar lamp, consisting of a solar energy receiver, a trunk and a nozzle, characterized in that the trunk contains a mirror to direct the flow to the nozzle and a tap from the trunk to select part of the solar stream, and the nozzle is made in the form of a hollow cone with an external mirror surface for better diffusion of solar flux in the room.  3. A combined solar luminaire consisting of a main solar cable and nozzle, characterized in that the main solar cable contains a flat mirror and a tap from the main solar pipe, and the nozzle is made in the form of a hollow cone with an external mirror surface, inside of which an electric lamp is mounted, which is automatically connected to the mains by the signal from the solar flux density sensor when it decreases to an acceptable lower limit.

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