RU163832U1 - ELECTRIC CARTRIDGE FOR LED LAMP - Google Patents

Abstract

The utility model relates to the field of lighting engineering and can be used in the operation of LED lamps.

The objective of the utility model is to develop the design of the electric cartridge, which eliminated the main disadvantage of the prototype by increasing the size of the threaded sleeve and replacing its material with a material having a higher specific thermal conductivity, which will increase the heat sink and thermal conductivity of the electric cartridge.

The technical result of the utility model is:

1) increasing the service life and luminous flux of LED lamps by reducing the temperature of the lamp housing and, accordingly, the temperature of the LED crystal;

2) the possibility of increasing the power of the lamps, while maintaining the temperature of the housing of LED lamps;

3) ensuring resource saving by reducing the mass of radiators in the production of LED lamps and maintaining the temperature of their housing.

The technical result is achieved by the fact that in the electric cartridge for the LED lamp containing the outer housing in which the threaded sleeve is located, and the bottom on which the ceramic holder of electrical contacts is located, according to this utility model, the threaded sleeve is made with a wall thickness of 2.5-3 , 5 mm from a material with a thermal conductivity of more than 150 W (m · ° C).

The threaded sleeve has a length of 10-18 mm.

The outer side surface of the threaded sleeve is cylindrical.

The threaded sleeve is fixed in the outer casing with hot-melt adhesive.

Using the utility model will further increase the life of the LED lamp by 9-12 thousand hours, at the initial temperature of the LED crystal about 80 ° C, and the initial luminous flux by 4-5%.

4 s.p. f-ly, 2 ill.

Description

The utility model relates to the field of lighting engineering and can be used in the operation of LED lamps.

From GOST R IEC 60238-99 "Threaded lampholders for lamps" (prototype), an electric lampholder for connecting electric light bulbs is known, comprising an outer casing in which a threaded sleeve is placed and a bottom on which a ceramic holder of electrical contacts is located.

The main disadvantage of the known electric cartridge is that due to its poor heat removal from the crystal of LEDs, a decrease in the luminous flux and the service life of LED lamps.

This is due to the fact that the threaded sleeve of the cartridge has a small thickness and a corrugated shape of the outer wall, and steel having low thermal conductivity is used as its material.

The objective of the utility model is to develop the design of the electric cartridge, in which the main disadvantage of the prototype is eliminated by increasing the size of the threaded sleeve and using a material with higher thermal conductivity for its manufacture.

The technical result of the utility model is:

1) increasing the service life and luminous flux of LED lamps by reducing the temperature of the lamp housing and, accordingly, the temperature of the LED crystal;

2) the possibility of increasing the power of the lamps, while maintaining the temperature of the housing of LED lamps;

3) ensuring resource saving by reducing the mass of radiators in the production of LED lamps and maintaining the temperature of their housing.

The technical result is achieved by the fact that in the electric lampholder for an LED lamp containing an outer casing in which a threaded sleeve is located and a bottom in which a ceramic holder of electrical contacts is located, according to this utility model, the threaded sleeve is made with a wall thickness of 2.5-3 , 5 mm from a material with a thermal conductivity of more than 150 W (m · ° C).

The threaded sleeve has a length of 10-18 mm.

The outer side surface of the threaded sleeve is cylindrical.

The threaded sleeve is fixed inside the cartridge case with hot-melt adhesive.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows the proposed electric cartridge for an LED lamp, and FIG. 2 shows a threaded sleeve.

In the drawings, the numbers indicate:

1 - outer casing;

2 - threaded sleeve;

3 - the outer side surface of the threaded sleeve;

4 - a layer of hot glue;

5 - electrical contacts;

6 - ceramic contact holder;

7 - bottom.

a is the thickness of the threaded sleeve;

b is the length of the threaded sleeve;

The electric cartridge for the LED lamp contains an outer casing 1, in which a threaded sleeve 2 is placed, and a bottom 7, on which a ceramic holder 6 of electrical contacts 5 is located.

The difference of the proposed electric cartridge is that the threaded sleeve is made with a wall thickness "a" of 2.5-3.5 mm from a material having a thermal conductivity of more than 150 W (m · ° C).

The outer side surface 3 of the threaded sleeve 2 is made of a cylindrical shape.

The threaded sleeve 2 has a length "b" of 10-18 mm.

The threaded sleeve 2 is fixed inside the housing 1 with hot-melt adhesive 4.

In an example of a specific embodiment, the threaded sleeve 2 of the electric cartridge is made for the base E27 of aluminum alloy LA5 having a thermal conductivity of 160 W (m · ° C) with a wall thickness “a” of 3.0 mm and a length of “b”, equal to 15 mm, while its outer side surface 3 is made of a cylindrical shape, and for fixing the threaded sleeve 2 inside the housing 1, hot-melt adhesive 3 of AlSil grade 5 was used.

A 5.5 W Komtex LED lamp was used.

The threaded sleeve 2 can also be made of a copper alloy L62 having a thermal conductivity of 200 W (m · ° C).

The electric cartridge for the LED lamp operates as follows.

After the LED lamp is turned on in the mains, the temperature of the LED crystal increases. At the same time, there is a heat sink from the LED crystal through the base of the LED lamp and the threaded sleeve 2, which performs the function of a radiator, the outer case 1 of the cartridge.

The proposed electric cartridge for the LED lamp, in contact with the lamp base, increases the heat sink from the crystal LEDs.

Due to the proposed modification of the electric cartridge, the temperature of the housing of the Komtex LED lamp with a power of 5.5 W decreases and, accordingly, the temperature of the LED crystal by 7-8 ° C with its initial value of about 80 ° C. The latter allows you to further increase the life of the LED lamp by 9-12 thousand hours, and the initial luminous flux by 4-5%.

Thus, the use of a utility model for the operation of LED lamps will allow, in comparison with the prototype, to increase the service life and initial luminous flux of LED lamps by lowering the temperature of the lamp housing and, accordingly, the crystal temperature of the LEDs, increase the lamp power or reduce the mass of the radiator of the LED lamps while maintaining the temperature their bodies are at the same level.

Claims (4)

1. An electric lamp holder for an LED lamp, comprising an outer casing in which a threaded sleeve is fixed, and a bottom on which a ceramic holder of electrical contacts is located, characterized in that the threaded sleeve is made with a wall thickness of 2.5-3.5 mm from a material with thermal conductivity more than 150 W (m ° C). 2. The electric cartridge according to claim 1, characterized in that the threaded sleeve has a length of 10-18 mm 3. The electric cartridge according to claim 1 or 2, characterized in that the outer side surface of the threaded sleeve is cylindrical. 4. The electric cartridge according to claim 1 or 2, characterized in that the threaded sleeve inside its body is fixed with hot-melt adhesive.

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