RU105403U1 - LED LAMP - Google Patents

Abstract

 LED lamp, which includes LEDs, an optical device, the front surface of which is emitting, and on the opposite side it is made of individual optically inhomogeneous elements, and the power supply of the LEDs, characterized in that the light-emitting surface has the shape of a hemisphere and is end-mounted on a metal cover, on the outside of which is the base of the incandescent lamp, and on the inside is the power supply of the LEDs, while the light-emitting surface is made two oynoy inner layer is made of optical plastic, and the outer layer comprises a photoluminescent phosphor material and filter, and the LEDs are arranged in an end face of the radiating surface.

Description

The utility model relates to energy-saving lamps, which can be used as a light source in domestic and industrial premises and in transport.

Known LED lamp described in US patent No. 2007091539 (A1), MKI F21V 7/04, published 04/26/2007, designed to illuminate the interior. In this LED lamp, the optical device is made in the form of a transparent panel with an end LED backlight. The operation of such luminaires is based on the phenomenon of scattering on optically heterogeneous elements obtained by engraving with a mechanical cutter or laser.

The disadvantage of these devices is the impossibility of changing the color rendering of LEDs or converting the ultraviolet and visible blue parts of the emission spectrum of the cheapest LEDs into visible light of a satisfactory color perception for the human eye.

The closest technical solution is the lamp described in the RF patent for utility model No. 95793, MKI F21V 7/04, published July 10, 2010, which includes LEDs, a power source and an optical device in the form of a transparent light panel, the front side of the light panel is light emitting . On the opposite side of the light panel there are individual optically inhomogeneous elements, the combination of which scatters the light flux emitted from the panel towards the frontal surface, propagating inside it due to the effect of total internal reflection. In the center of the panel from the side opposite the front, a cavity is made in which a low-profile power source is placed and LEDs are placed at the ends of the cavity.

A disadvantage of the known LED luminaire is that the flat design does not provide uniform illumination, and the spectral composition of the light contains radiation harmful to the eye with a wavelength of 460 nm. In addition, this lamp cannot replace traditional incandescent lamps without replacing all the fixtures and wiring in the room.

The utility model is based on the requirements for the design of the LED lamp, which will increase the uniformity of lighting, eliminate the need for alteration of electrical fittings in the room when replacing incandescent lamps with LED lamps, and provide protection of vision from harmful radiation.

The problem is solved in that the LED lamp incorporates LEDs, an LED power source and an optical device. The front surface of the optical device is emitting, and on the opposite side it is made of individual optically inhomogeneous elements. The light-emitting surface of the luminaire is in the form of a hemisphere and is end-mounted on a metal cover, on the outside of which there is a typical lamp base, and on the inside there is a LED power supply. The light-emitting surface is made of two layers: the inner layer is made of optical plastic, and the outer layer contains a photophosphor and a material that is a light filter. LEDs are located at the end of the light emitting surface.

Figure 1 shows the design of the LED lamp. The light-emitting surface 1 has the shape of a hemisphere and is made of a two-layer material: the inner layer 2 is an optical plastic, and the outer layer 3 contains a photoluminophore polymer and a light filter material. The LEDs 4 are fixed to the metal cover 5 at the end of the radiating surface. On the outside of the metal cover there is a standard base 6 of an incandescent lamp, and on its inside there is a power supply of 7 LEDs.

The implementation of the radiating surface of the lamp in the form of a hemisphere ensures uniform illumination of the surrounding space. The LEDs 1, powered by a power source 7, emit light into the end of the hemisphere from optical plastic 2, the optically inhomogeneous elements of which scatter the emitted light flux propagating inside it due to the effect of total internal reflection. The outer hemisphere layer 3 contains a photoluminophore for changing the color rendering of LEDs, due to the photoluminescence effect, and a light filter material, for example, C ₇₀ fullerene with a maximum of light absorption at λ = 460 nm to exclude radiation harmful to human vision. Thanks to the photoluminescent material, it becomes possible to use more powerful blue LEDs in the design of the energy-saving lamp. A typical lamp base is located on the metal cover 5, so that the lamp can be used instead of traditional incandescent lamps without replacing the fittings and wiring in the room. In addition, the metal cover acts as a radiator.

Thus, the proposed design of the LED lamp solves the tasks: it provides uniform lighting, does not contain radiation harmful to human vision, and thanks to the use of a standard base, the LED lamp can be used in standard household appliances.

Claims (1)

LED lamp, which includes LEDs, an optical device, the front surface of which is emitting, and on the opposite side it is made of individual optically inhomogeneous elements, and the power supply of the LEDs, characterized in that the light-emitting surface has the shape of a hemisphere and is end-mounted on a metal cover, on the outside of which is the base of the incandescent lamp, and on the inside is the power supply of the LEDs, while the light-emitting surface is made two oynoy inner layer is made of optical plastic, and the outer layer comprises a photoluminescent phosphor material and filter, and the LEDs are arranged in an end face of the radiating surface.