RU112341U1 - LED LAMP - Google Patents

Abstract

LED luminaire containing a housing with a printed circuit board fixed in it, on which light-emitting diodes with an integrated primary optical system are placed, each of which has a secondary optical system, as well as a protective screen made of optically transparent material, characterized in that it additionally contains applied to the inner surface of the protective screen is a layer of an optically transparent mass having a relief formed by a set of lenses made in a three-dimensional coordinate system over the entire surface of the layer, which is a tertiary optical system.

Description

The inventive utility model relates to lighting equipment, namely to lamps and lanterns in which light-emitting diodes are used as a light source.

A device is known, described in the patent of the Russian Federation No. 94310, IPC F21S 8/00, priority dated March 11, 2010 for a utility model: "LED lamp". The device contains a metal base and LED modules mounted on it. Each module is a thin-walled composite substrate on which light diodes are placed, each of which has a protective outer layer made in the form of a translucent shell made of a polymeric translucent material with high mechanical strength, for example, polycarbonate plastic, and a protective inner layer made of cured translucent polymer mass, which is a translucent compound, a phosphor, a polymerized translucent resin or mixtures thereof. The combination of a protective outer layer in the form of a translucent sheath and a protective inner layer formed by a cured translucent polymer mass forms a primary optical system for each LED with predetermined optical characteristics, such as, for example, the scattering angle and the light transmittance.

The known device does not allow to form the required light intensity curve with a high optical efficiency due to large reflection losses, since it does not provide refraction to optical rays located at the periphery.

The closest analogue to the claimed utility model is the patent of the Russian Federation No. 100179, IPC F21S 8/00, priority dated July 19, 2010 for utility model: "LED lamp for local lighting." The known device comprises a housing with a printed circuit board fixed on it, on which light-emitting diodes with an integrated primary optical system are placed, each of which has a secondary optical system, as well as a protective screen made of optically transparent material.

The known device does not allow to form the required light intensity curve with a high optical efficiency due to large reflection losses, since it does not provide refraction to optical rays located at the periphery.

The task to which the present utility model is directed is to create an LED lamp that provides the formation of a given light intensity curve with a high optical efficiency.

The task is achieved due to the fact that the LED lamp containing a housing with a printed circuit board fixed on it, on which light-emitting diodes with an integrated primary optical system are placed, each of which has a secondary optical system, as well as a protective screen made of optically transparent material, according to a utility model, further comprises a layer of optically transparent mass deposited on the inner surface of the protective screen having a relief formed by a combination of lenses, Making a three-dimensional coordinate system in the entire surface of the layer, which is the tertiary optical system.

The inventive device includes a layer of optically transparent mass deposited on the inner surface of the protective screen, having a relief formed by a set of lenses made in a three-dimensional coordinate system over the entire surface of the layer, which allows to obtain high accuracy of the formation of the light intensity curve and, thereby , effectively use the generated luminous flux.

The inventive device provides a high optical efficiency, both due to the minimum number of optical transitions of the media, and due to the relief of the layer of optically transparent mass deposited on the inner surface of the protective screen, which provides refraction to optical rays incident on this layer, and does not allow reflected rays, thereby practically eliminating the loss of Fresnel reflection directed into the body, especially for peripheral rays.

The inventive device in comparison with the closest analogue has high environmental properties, since the scattering properties of the layer structure exclude a blinding effect, while a uniform shadow reduces eye fatigue and thereby positively affects the reaction rate of the human eye.

The inventive device, in contrast to the closest analogue, provides high safety during its use, since in case of destruction of the protective shield made, for example, of glass, a layer of optically transparent mass deposited on its inner surface fastens and holds fragments of this glass.

The essence of the utility model is illustrated by the drawing, which shows the design of the LED lamp.

In accordance with the drawing, the LED lamp contains a housing 1 with a printed circuit board 2 fixed to it, on which light-emitting diodes 3 are mounted with an integrated primary optical system 4, each of which has a secondary optical system 5. The housing has a protective screen 7 designed to protect against external impacts made of optically transparent material. In addition, the lamp contains a tertiary optical system formed by a layer 6 of optically transparent mass deposited on the inner surface of the protective shield 7. Layer 6 has a relief formed by a combination of lenses made in a three-dimensional coordinate system over the entire surface of the layer, which can be formed by various methods such as casting, engraving, pressing, and spraying.

Such a combination of lenses makes it possible to reduce light losses associated with the reflection of a part of the light incident on a flat interface between two homogeneous media with different reflection indices (Fresnel reflection), which increases the transmittance of a protective shield made of optically transparent material.

LED lamp works as follows. Light-emitting diodes 3 mounted on a printed circuit board 2 located in the housing 1 are supplied with electricity. Light-emitting diodes 3 emit light, while the light flux emitted from them sequentially passing through the primary optical system 4, the secondary optical system 5, enters the tertiary optical system formed by a layer 6 of optically transparent mass deposited on the inner surface of the protective screen 7 and having a relief formed by a set of lenses made in a three-dimensional coordinate system over the entire surface of the layer, where it is redistributed, forming with a minimum loss and high accuracy a light intensity curve, which allows you to effectively use the generated light flux.

Thus, the claimed utility model provides high accuracy of the formation of the luminous intensity curve, which allows efficient use of the generated luminous flux, and also provides a high optical efficiency due to the minimum number of optical transitions of the media, as it eliminates the loss of Fresnel reflection directed inside the case, providing refraction to optical rays located at the periphery.

Claims (1)

An LED lamp comprising a housing with a printed circuit board fixed on it, on which light-emitting diodes with an integrated primary optical system are placed, each of which has a secondary optical system, as well as a protective screen made of optically transparent material, characterized in that it additionally contains the inner surface of the protective screen is a layer of optically transparent mass having a relief formed by a set of lenses made in a three-dimensional coordinate system throughout the surface of the layer, which is a tertiary optical system.