RU76418U1 - LIGHT SOURCE - Google Patents

Abstract

The utility model relates to the field of lighting engineering and can be used in lighting devices as a light source based on LEDs, which are widely used in technology.

The technical result consists in simplifying the design, improving the cooling conditions of the LEDs and, accordingly, increasing the lighting parameters of the light source.

In a light source containing LEDs, a radiator, socles, LEDs are mounted on separate printed circuit boards with electrical leads, which are located and fixed in a row on the radiator, made in the form of a carrier U-shaped profile with holes for electrical wires, while the electrical leads of the printed circuit boards , with the LEDs installed on them, are connected into a serial electric circuit by wires located on the inside of the radiator profile, and the free ends of the electric wires are connected to the connection nym between a conductive caps pins that are installed and fixed at the ends of the radiator by means of adapters.

A distinctive feature of the proposed utility model is the constructive integration into a single unit of light diodes, each of which is mounted on a separate printed circuit board with electrical leads, a cooling radiator in the form of a supporting U-shaped profile and final electrical leads for connection to a power source in the form of conductive pins of socles. This proposed design of the light source allows you to expand the functionality by installing it in standard holders for fluorescent lamps used in various lighting installations. 1 formula of the utility model, 2 ill.

Description

The utility model relates to the field of lighting engineering and can be used in lighting devices as a light source based on LEDs, which are widely used in technology, and currently require small-sized, highly efficient light sources with high radiation power.

A known matrix of light emitting diodes [patent EP 0398575 A2, 1990], which contains a printed circuit board with regularly mounted LEDs and a common lens made by forming from epoxy resin.

Significant disadvantages are the large dimensions determined by the total dimensions of the case LEDs included in it, significant loss of light power due to the absorption of part of the radiation by the structural elements of adjacent LEDs.

A well-known light source, which is an LED line and consisting of a series of LEDs mounted on a linear printed circuit board, providing their serial electrical connection and the ability to connect to a power source (see PROSOFT product catalog, section semiconductor lighting and optoelectronics. Issue 2 - 2006 / 07, 117437. Moscow, Profsoyuznaya St. 108).

A disadvantage of the known light source, made in the form of an LED line, is the need for a tight screw

fixing it to ensure the desired thermal regime of the LEDs on a cooling radiator installed in the housing of the lighting device. When replacing an LED line that has failed during operation, it is necessary to perform complex installation operations that require significant skilled labor and do not allow quick and easy replacement of the LED line, used as a light source.

The closest technical solution to the proposed model is a tube lamp containing an optically transparent tube with an internal light source, a combination of spot LEDs located on the heat sink end heatsink-base of the tube and directed towards each other, with one or more focusing lenses, is used as a light source optical elements and a reflective surface around the LEDs, as well as a light-reflecting and light-scattering spiral on the surface tube. In this case, the conductive plugs at the ends of the tube are of the same type and size as that of tubular fluorescent lamps of the corresponding size (see RF patent for utility model No. 69612 "Tubular lamp", IPC F21S 3/02).

The disadvantages of the known design of a tubular lamp as a light source include the complexity of the design, significant loss of light flux when it is redistributed in the lenses, on the spiral, the outer bulb, in the material of the bulb itself, which leads to the minimal advantage of using LEDs with their initially high light return, and, accordingly, insignificant power makes it inappropriate to use it in everyday life, and the increase in power is associated with the need to install developed radiators on ah lamp whose design does not provide this possibility.

The technical task of the proposed utility model is to create a unified light source by expanding functionality by using it in luminaires with standard fluorescent lamps, simplifying the design, improving the cooling conditions of LEDs and increasing lighting parameters by increasing efficiency.

The technical result consists in simplifying the design, improving the cooling conditions of the LEDs and, accordingly, increasing the lighting parameters of the light source.

The technical result is achieved by the fact that in a light source containing LEDs, a radiator, socles, LEDs are installed on separate printed circuit boards with electrical leads, which are located and fixed in a row on the radiator, made in the form of a carrier U-shaped profile with holes for electric wires, in this case, the electrical terminals of the printed circuit boards, with the LEDs installed on them, are connected into a serial electric circuit by wires located on the inside of the radiator profile, and the free ends ektricheskih wires are connected to the interconnected conductive pins caps which are mounted and fixed at the ends of the radiator by means of adapters.

A distinctive feature of the proposed utility model is the constructive integration into a single unit of light diodes, each of which is mounted on a separate printed circuit board with electrical leads, a cooling radiator in the form of a supporting U-shaped profile and final electrical leads for connection to a power source in the form of conductive pins of socles. Such

the proposed design of the light source allows you to expand the functionality by installing it in standard holders for fluorescent lamps used in various lighting installations.

The proposed light source is illustrated by drawings.

Figure 1 shows the design of the light source, figure 2 is a section aa of figure 2.

The proposed design of the light source consists of LEDs 1, each of which is soldered to a separate aluminum printed circuit board 2, having electrical leads 3. The printed circuit boards 2, with the LEDs 1 mounted on them, are arranged in a row and fastened with screws 4 to the radiator 5, made in the form supporting U-shaped profile with holes on the upper part for electrical leads 3. The design of the radiator 5 in the form of a supporting U-shaped profile allows you to combine simultaneously the functions of the supporting element and the cooling radiator. U-shaped profile of the radiator 5 is made of duralumin. At the ends of the radiator 5, adapters 7 are fixed by means of rivets 6, on which the base 8 is mounted and fixed. Moreover, the adapters are made of plastic and provide for the installation of base 8 on them for standard fluorescent lamps. The electrical leads 3 of the printed circuit boards 2, with the LEDs 1 installed on them, are connected in series with the wires 9 and are located on the inside of the radiator 5 profile. The free ends of the electrical leads 3 are connected to the conductive pins 10 of the socles 8.

It should be noted that the electrical connection of the LEDs 1 is made by insulated wires 9, passing inside the profile of the supporting U-shaped radiator 5, and connected to

conductive pins 10 socles 8, which allows for safe operation and reliable operation.

Structural integration in the proposed light source into a single unit of light diodes 1 installed on printed circuit boards 2, cooling the light diodes 1 of the radiator, made in the form of a carrier U-shaped profile 5, of the final electrical leads for connecting to a power source in the form of conductive pins 10 socles 8 for fluorescent lamps, it allows to ensure the optimal thermal mode of operation of LEDs, to simplify and accelerate the replacement of a light source on LEDs in a lighting installation.

It should also be noted that this design of the light source on the LEDs in comparison with analogs allows you to increase lighting parameters by 30-40%, improve working conditions by creating an optimal thermal regime, and expand functionality by using it in various standard lamps instead of fluorescent lamps .

Claims (1)

A light source containing LEDs, a radiator and socles, characterized in that the LEDs are mounted on separate printed circuit boards with electrical leads, which are located and fixed in a row on the radiator, made in the form of a carrier U-shaped profile with holes for electric wires, while electric the outputs of the printed circuit boards, with the LEDs installed on them, are connected into a serial electric circuit by wires located on the inner side of the radiator profile, and the free ends of the electric wires connected to the interconnected conductive pins of the socles, which are installed and fixed at the ends of the radiator by means of adapters.