RU129594U1 - LED LAMP - Google Patents

Abstract

An LED lamp containing an upper base, on the upper side of which there are upper cooling elements forming an upper needle-shaped radiator, integral with the upper base, and on the lower side there is a board with at least one emitter placed on it, containing an LED connected to a power supply unit, and a lens, characterized in that the lower base is inserted, fixed to the board and / or on the upper base from their lower side, and lower cooling elements forming a lower needle radiator, made integrally with the lower base, and the emitter is equipped with a funnel-shaped reflector expanding downward, on the narrow side of which an LED is placed, a lens is fixed on the wide side, and the inner surface is made reflective, while the height of the lower cooling elements does not exceed the height of the reflector, which is integral with the lower base.

Description

The utility model relates to lighting devices and can be used primarily as a ceiling LED lamp for lighting office, administrative, public and technical premises.

A device is known that contains a LED board enclosed in an optically transparent shell, a heat pipe, in the evaporation zone of which a LED board is installed on the heat-conducting plate, and a cooling unit provided with a branched surface is placed in the condensation zone of the heat pipe, moreover, the heat pipe is placed between two longitudinal heat-conducting plates connected to the surface of the heat pipe with the possibility of heat exchange, the LED board is mounted on the first plate, while both the board and the first plate included in an optically transparent shell, and the cooling unit is located on the first and / or second plate [RU 123107, F21S 2/00, 12/20/2012].

The disadvantage of this device is the relatively low reliability due to an insufficiently efficient cooling system.

It is also known a device containing a housing and LEDs, in this case, the function of the lamp housing is performed by a radiator made of a heat-dissipating polymer composite, the LEDs are rigidly mounted on the lower surface of the radiator case in at least two rectangular recesses, and the ribs of the plastic radiator case are needle-shaped [RU 117575 , F21S 13/00, June 27, 2012].

This device provides an increase in the cooling area due to the use of a radiator case with needle-shaped fins. However, the disadvantage of the device is also the relatively low reliability due to an insufficiently efficient cooling system, which is caused, in particular, by the relatively small cooling area, since it does not provide for the placement of cooling elements in other places of the base, for example, from the bottom side of the base.

The closest in technical essence to the proposed one is a device containing a power supply and a base, on the upper side of which there are cooling elements, and on the lower flat side there are LEDs, moreover, each LED is mounted on a separate printed circuit board, which is a substrate, which, in its in turn, it is attached to the base, and between the substrate and the base there is a heat-conducting paste, while the LED and a separate printed circuit board form a radiator, which is a single assembly element entent, which additionally contains an LED lens, and each assembly element is connected to another electrical circuit, and the cooling elements located on the upper side of the base are a needle radiator, made integral with the base and occupying at least 85-90% of the base area, with the ratio the height of the needle to the thickness of the base in the range 4: 1-6: 1, the execution of the average diameter of the cross section of the cone in the range of 4-7 mm and the taper in the range of 1-2 °, while the base and the needle radiator are cast from aluminum or aluminum alloy [RU 108122, F21S 13/00, 09/10/2011].

The disadvantage of the closest technical solution is the relatively low reliability due to an insufficiently efficient cooling system, which is caused, in particular, by the fact that the cooling system (made in the form of cooling elements, which are a needle radiator, located on the upper side of the base and made integral with base) does not provide for the placement of cooling elements in other places of the base, for example, and from the bottom side of the base. This reduces the cooling surface area and makes the cooling system not efficient enough.

The aim of improving the closest technical solution is to increase the reliability of the LED lamp.

The required technical result, the achievement of which is aimed at improving the closest technical solution, is to increase the reliability of the LED lamp by developing and introducing an additional arsenal of technical means to improve heat dissipation by increasing the cooling surface area and thereby increasing the efficiency of the LED cooling means lamp.

The goal is realized, and the required technical result is achieved by the fact that, in the device containing the upper base, on the upper side of which there are upper cooling elements forming the upper needle radiator, made integral with the upper base, and on the lower side there is a board mounted on it at least one emitter comprising an LED connected to the power supply and a lens has a lower base fixed to the board and / or upper base from their lower side, and lower elements cooling, forming a lower needle radiator, integral with the lower base, moreover, the emitter is equipped with a funnel-shaped reflector expanding downward, on the narrow side of which an LED is placed, a lens is fixed on the wide side, and the inner surface is made reflective, while the height of the lower cooling elements is not exceeds the height of the reflector, made at the same time with the lower base.

In addition, the desired technical result is achieved in that, the cooling elements are made in the form of either cylinders, or truncated cylinders, or pyramids, or prisms.

The drawing shows: in Fig.1 - LED lamp (a special case of using one emitter with a cylindrical shape of the outer wall); figure 2 - LED lamp (a special case of using one emitter with a cylindrical shape of the outer wall and the lens removed); figure 3 - LED lamp in assembled form.

The LED lamp comprises an upper base 1, on the upper side of which there are upper cooling elements 2 forming an upper needle-shaped radiator, made mainly along with the upper base 1.

In addition, in the LED lamp on the lower side of the upper base 1, a board 3 is fixed with at least one emitter 4 located on it, containing an LED connected to a power supply (not shown), lens 5 and reflector 6.

In addition to the one indicated in the LED lamp, there is a lower base 7 mounted on the board 3 and / or on the upper base 1 from their lower side, and lower cooling elements 8, forming a lower needle-shaped radiator, made integral with the lower base 7.

In the LED lamp, the emitter 4, as noted above, is equipped with a funnel-shaped reflector 6 expanding downward, on the narrow side of which an LED is placed, and a lens 5 is fixed on the wide side, and the inner surface of the reflector 6 is made reflective.

An advantageous condition is that the height of the lower cooling elements 8 does not exceed the height of the reflector 6, made integral with the lower base 7. This ensures unhindered passage of radiation to the illuminated object.

The upper 1 and lower 7 bases can be made of metal, for example aluminum, from a heat-dissipating polymer composite or other heat-conducting materials.

The LED lamp is used as follows.

LED lamp is a design containing the upper 1 and lower 7 base, which are made in the form of needle radiators. When the LEDs are turned on, they form the radiation used to illuminate office, administrative, public and technical premises. Moreover, thanks to the emitters 4, equipped with lenses 5, which can be focusing, scattering, etc., the required luminous flux from the LED lamp is provided.

In addition, in the upper base 1 there are upper cooling elements 2, forming the upper needle heat sink, made integral with the upper base 1. It is designed to remove heat that occurs when the LEDs. The use of needle radiators allows you to increase the area of heat dissipation. Additionally, the LED lamp contains lower cooling elements 8, which together with the lower base 7 form a lower needle radiator, which allows to further increase heat dissipation and, ultimately, increase the reliability of the LED lamp. The shape of the cooling elements can be very different. For technological reasons, it is advisable to use a cylindrical shape or the shape of a truncated cone, which have a slightly larger area, which increases heat dissipation without increasing the dimensions of the device.

Thus, thanks to the improvement of the known device by introducing an additional arsenal of technical means, in particular, introducing the lower base and lower cooling elements, made integral with the lower part of the base, forming the lower needle radiator, the required technical result is achieved, which consists in increasing the reliability of the LED lamp for by improving heat dissipation and thereby increasing the efficiency of the cooling means of the LED lamp.

Claims (1)

An LED lamp containing an upper base, on the upper side of which there are upper cooling elements forming an upper needle-shaped radiator, integral with the upper base, and on the lower side there is a board with at least one emitter placed on it, containing an LED connected to a power supply unit, and a lens, characterized in that the lower base is inserted, fixed to the board and / or on the upper base from their lower side, and lower cooling elements forming a lower needle radiator, made integrally with the lower base, and the emitter is equipped with a funnel-shaped reflector expanding downward, on the narrow side of which an LED is placed, a lens is fixed on the wide side, and the inner surface is made reflective, while the height of the lower cooling elements does not exceed the height of the reflector, which is integral with the lower base.

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