RU93929U1 - ENERGY SAVING LIGHT - Google Patents

Abstract

 1. An energy-saving lamp containing an LED light source, lighting fixtures in the form of a ribbed or needle-shaped radiator body with an integrated current stabilizer and a diffuser lamp made of plastic, with diffuse or directionally scattering light transmission, characterized in that the light source is made in the form a printed circuit board mounted on a radiator case with a metal base, on the surface of which planar LEDs are installed by automatic surface mounting, at m the board is mounted on a radiator case with contact heat transfer from the base of the board heated by LEDs, and fillers in the form of photoluminophores based on garnet of the general formula A3B5O12: M are introduced into the plastic, where A is yttrium, gadolinium or lutetium, B is aluminum or gallium, M - cerium, europium or chromium, or mixtures thereof, as well as modifications containing them with organosilicon or zinc silicate, or zirconium, or phosphate treatment, changing the color rendering of the LEDs. ! 2. The lamp according to claim 1, characterized in that fillers are introduced into the composition of the plastic, which change the color rendering towards the amplification of the yellow-green part of the spectrum and scattering additives based on aluminum or silicon oxides, barium sulfide, waxes, polycarbonate is used as plastic, and The radiator case is made of ceramic or cermet with a base mounted in it. ! 3. The lamp according to claim 1 or claim 2, characterized in that the lighting fixture is made in the form of an axisymmetric body with a bowl-shaped shock-resistant diffuser and a base type E27. ! 4. The lamp according to claim 1, characterized

Description

The utility model relates to energy-saving luminaires based on LED light sources, including emergency light sources.

LED lamps and luminaires with a power of 3 to 25 W are known, providing a light output of 5-8 times greater than incandescent lamps of the same power, and having a life of several tens of thousands of hours (http://www.nebesa.com). These devices contain a light source in the form of one or more LEDs mounted on a ribbed or needle-shaped aluminum radiator case, a current stabilizer integrated in it, and a glass or plastic bulb or diffuser with diffuse or directionally diffusing light transmission mounted on the housing -radiator, which, in the particular case, due to colored coatings or colored fillers of the material of the bulb or diffuser diffuser change the color rendering of the LEDs. On some types of fixtures, this is achieved by the fact that a layer of photoluminophore is applied to the inner surface of the diffuser lamp.

The disadvantage of these devices is the insufficient change in the color rendering of the LEDs or the inability to convert the ultraviolet and visible blue parts of the emission spectrum of LEDs into visible light of a satisfactory color perception for the human eye, and the diffuser shades used do not have impact resistance and afterglow.

The technical result of the proposed model is to expand the color gamut of light emission of luminaires, including the use of shock-resistant diffuser shades with a long afterglow, with the possibility of high-performance automatic manufacturing of a light source and cheapening the materials from which the radiator body is made.

The specified technical result is achieved by the fact that the luminaire includes a light source made in the form of a printed circuit board with a heat-conducting metal base, on the surface of which a planar, relatively cheap LEDs emitting, are installed using a known method of automatic high-performance surface mounting (the so-called "SMD mounting") , for example, in the ultraviolet and blue parts of the spectrum. In this case, the board is mounted on a radiator case with contact heat transfer from the base of the board heated by LEDs, and fillers in the form of photoluminophores based on garnet of the general formula A ₃ B ₅ O ₁₂ : M, where A is yttrium, gadolinium, are introduced into the plastic composition or lutetium, B - aluminum or gallium, M - cerium, europium or chromium or mixtures thereof, as well as modifications containing them with organosilicon or zinc silicate, or zirconium, or phosphate treatment, which change the color rendering of the LEDs. Additionally, fillers can be introduced into the composition of the plastic to increase its impact resistance, as well as dispersing additives based on aluminum or silicon oxides, barium sulfide, and waxes.

This is also achieved by the fact that fillers are introduced into the composition of the plastic, changing the color rendering in the direction of strengthening the yellow-green part of the spectrum, fireproof polycarbonate is used as plastic, and the radiator case is made of ceramic or cermet with a base mounted in it.

This is also achieved by the fact that the lighting fixtures are made in the form of an axisymmetric body with a bowl-shaped impact-resistant diffuser and a base type E27.

This is also achieved by the fact that the diffuser converts the radiation of the LEDs into visible radiation of increased color perception.

This is also achieved by the fact that photoluminophores from the phosphorus class with an afterglow duration of at least one hour and a luminescence intensity of no more than 30% during the same time were used as plastic fillers to provide emergency lighting.

As an example, Fig. 1 shows an energy-saving fire-safe vacuum-free lamp in the form of a white lamp with E27 cap, a shockproof polycarbonate lamp, a circuit board in the form of a circle with five LEDs, located around the circle in the area of thermal contact of the base of the board with the casing made of a radiator-radiator . The luminaire can be used instead of a standard incandescent lamp with a power of 40 W with the same luminous intensity, but with a power consumption of 5 W. At the same time, the lamp life is 60,000 hours.

Claims (5)

1. An energy-saving lamp containing an LED light source, lighting fixtures in the form of a ribbed or needle-shaped radiator body with an integrated current stabilizer and a diffuser lamp made of plastic, with diffuse or directionally scattering light transmission, characterized in that the light source is made in the form a printed circuit board mounted on a radiator case with a metal base, on the surface of which planar LEDs are installed by automatic surface mounting, at m board fastened to-radiator package providing the contact heat transfer thereto from the base plate, the heated LEDs and of the plastic introduced fillers in the form of photoluminescent phosphors based garnet of the formula A ₃ B ₅ O _12: M, where A - yttrium, gadolinium or lutetium, B - aluminum or gallium, M - cerium, europium or chromium or mixtures thereof, as well as modifications containing them with organosilicon or zinc silicate, or zirconium, or phosphate treatment, which change the color rendering of the LEDs. 2. The lamp according to claim 1, characterized in that fillers are introduced into the composition of the plastic, which change the color rendering towards the amplification of the yellow-green part of the spectrum and scattering additives based on aluminum or silicon oxides, barium sulfide, waxes, polycarbonate is used as plastic, and The radiator case is made of ceramic or cermet with a base mounted in it. 3. The lamp according to claim 1 or claim 2, characterized in that the lighting fixture is made in the form of an axisymmetric body with a bowl-shaped shock-resistant diffuser and a base type E27. 4. The lamp according to claim 1, characterized in that the diffuser converts the radiation of the LEDs into visible radiation of increased color perception. 5. The luminaire according to claim 3, characterized in that for providing emergency lighting, photophosphors from the phosphorus class with an afterglow duration of at least one hour and a luminous intensity loss of no more than 30% are used as plastic fillers.