RU19900U1 - LAMP (OPTIONS) - Google Patents

Abstract

LAMP (OPTIONS)

The utility model relates to lighting engineering, namely to lighting devices having general application, for example, to non-portable lighting devices - wall or ceiling.

The problem solved by the utility model: expanding the range of lighting devices, namely the creation of a lamp with an effect

afterglow.

A light source equipped with current-carrying fittings is placed in the lamp housing. The diffuser is made of a translucent composite material, the basis of which is glass or a polymeric material, the photoluminophore particles are introduced into the mass, in the following ratio of components,% of the mass: photoluminophore particles - 1-20, glass or polymeric material - the rest is up to 100.

In the second variant, it is new that a reflector is additionally installed in the luminaire, the working surface of which is covered with a layer of phosphor-containing material.

In the third embodiment, a phosphor-containing coating on the reflective surface of the housing is new.

ESSAY

Description

LAMP (OPTIONS)

A group of utility models relates to lighting engineering, namely to lighting devices having general application, for example, to non-portable lighting devices - wall or ceiling.

A known lamp is the patent of the Russian Federation 2035657, including an incandescent lamp fixed with a bracket on the wall of a room. The luminaire has a box-shaped housing, current-carrying fittings and a diffuser made of a translucent material, for example, whatman paper, and having the shape of a hollow cylinder.

The lamp Abstract was selected as a prototype. Abstract to the application for the invention of the Russian Federation 97121395, including a light source located in the housing with the corresponding current-carrying fittings, a reflector and a diffuser, made in the form of a translucent panel. Translucent panel made of impact resistant material.

There is a social need for lighting devices having an afterglow effect, i.e. capable of highlighting the accumulated light sums within 8-12 hours after the cessation of external lighting. Such products, glowing in the dark, in addition to performing purely decorative functions, can dimly illuminate the internal volume of a room. The application of photoluminescent coatings on the structural elements of the lamp, for example, on the surface of the disperser, is not technologically advanced.

The utility model is based on the task of steaming the range of lighting devices, namely the creation of a lamp with an afterglow effect.

F21V 11/00 The task of the HCpBONfy version is solved by the fact that in the lamp,

including a light source located in the casing, equipped with current-carrying fittings and a diffuser made of translucent material, a new one, according to a utility model, is that a composite material based on glass or a polymeric material with photoluminophore particles introduced into it is used as a translucent material , in the following ratio of components,% mass .:

particles of photoluminophore - 1-20 glass or polymeric material - the rest is up to 100.

It is advisable to use as a photoluminophore a mixture of dialuminium tetraoxide of calcium and dialuminium trioxide of aluminum with the addition of rare-earth metals, with a particle size of the photoluminophore of 10100 μm. As the polymeric material can be used polystyrene, polycarbonate, polyvinyl chloride, polypropylene, polyethylene.

In the second variant, it is new that a reflector is additionally installed in the luminaire, the working surface of which is covered with a layer of phosphor-containing material.

In the third embodiment, a phosphor-containing coating on the reflective surface of the housing is new.

The specific form of manufacture of the elements of the lamp can be any and depends on the purpose of the lamp and design.

An example of the implementation of the utility model is the ceiling lamp shown in the Figure.

2 The lamp has a housing 1, inside which the necessary

current-carrying fittings (not shown in the Figure) and a light source, for example, an incandescent lamp 2. From below, for example, a diffuser 3 is mounted directly on the housing, which may take the form of a sheet, box, or any other suitable shape. Windows can be made in the side walls of the box-shaped case, in which diffusers 4 are also installed. The diffusers are made of a translucent composite material, the basis of which is glass or a polymer material, into the mass of which photoluminophore particles are introduced. Depending on the shape of the diffuser and / or on the basis of the composite material, it can be made by extrusion, pressing, molding in injection molding machines, and casting into molds. Phosphor particles are introduced into the main material (glass or polymer) when it is in an unstable state of aggregation and has the degree of viscosity at which the photophosphor particles can be uniformly distributed throughout the mass when mixed in the mass (exclude sedimentation of the phosphor particles). The presence of photoluminophore particles does not significantly affect the light transmission of the diffuser and the manufacturability of its manufacture.

Under the influence of the light from the lamps of the lamp or in the daytime from natural light, the diffuser accumulates energy, which allows it (in the future (when the lamps are turned off in the dark to ciTOK) to emit light for 6-12 hours.

The lamp may not have a diffuser, but according to the second variant, a reflector (not shown in the Figure) can be additionally installed in it, on the working surface of which a layer of phosphor-containing material is applied. According to the third embodiment, a layer of luminescent material may also be applied on the reflective surface of the housing. Coatings on luminaire construction surfaces as well as diffuser

accumulates light energy, and in the future they can emit light in the dark and when the lamps are turned off for 6-12 hours

The use of luminaires made according to the utility model provides the possibility of safe movement in an unlit space in the absence or emergency shutdown of lighting due to the afterglow effect.

Claims (5)

1. A luminaire comprising a light source located in the housing, equipped with current-carrying fittings and a diffuser made of a translucent material, characterized in that a composite material based on glass or a polymeric material into the mass of which the phosphor particles are introduced is used as a translucent material; in the following ratio of components, wt.%:
Photophosphor particles - 1-20
Glass or polymer material - Else up to 100
2. The lamp according to claim 1, characterized in that as a photoluminophore, a mixture of dialuminium tetraoxide calcium and dialuminium aluminum trioxide with the addition of rare earth metals is used.  3. The lamp according to claim 1, characterized in that the particles of the photoluminophore have a size of 10-100 microns.  4. The lamp according to claim 3, characterized in that polystyrene, polycarbonate, polyvinyl chloride, polypropylene, and polyethylene are used as the polymeric material.  5. A luminaire comprising a light source located in the housing, equipped with current-carrying fittings, characterized in that it further comprises a reflector, the working surface of which is covered with a layer of phosphor-containing material. 6. A luminaire comprising a light source located in the housing, equipped with current-carrying fittings, characterized in that the reflective surface of the housing is coated with a layer of phosphor-containing material.