RU99853U1 - LED LIGHT INSTRUMENT - Google Patents

Abstract

 1. LED lighting device containing a metal casing with developed fins, in the internal volume of which there is a board of heat-conducting material with soldered LEDs, in front of which there is a diffuser in the hole of the metal casing, characterized in that the internal volume of the sealed metal casing is filled with translucent, electrically insulating, heat-conducting liquid. ! 2. The LED light device according to claim 1, characterized in that in the volume of the sealed metal casing is an elastic container filled with gas. ! 3. The LED light device according to claim 1, characterized in that on the side surface of the sealed metal case there is a cavity partially filled with gas. ! 4. The LED light device according to claims 1 to 3, characterized in that a diffuse diffuser in the form of a powder with a high reflection coefficient is added to the translucent, insulating, heat-conducting liquid.

Description

The utility model relates to lighting engineering and can be used in the manufacture of LED lighting fixtures.

A known design of an LED light fixture comprising a diffuser and a metal casing with developed fins, in which the LEDs are soldered onto a foil-aluminum plate, is attached by a heat-conducting paste to an aluminum plate. The heat generated by the LEDs from the aluminum plate is transferred through a heat-conducting tube through a heat-conducting paste to a body with well-developed finning (Vinokurov A., Selivanov M. Features of LED street lights. / Components and Technologies. 2008, No. 6. P. 80 -83.).

The disadvantage of this design is the dependence of heat removal from pn - the transition of the LEDs on the quality of the heat-conducting paste and on the quality of its application. In addition, during operation, due to vibration of the light device and a decrease in the ductility of the heat-conducting paste, its heat-conducting properties will deteriorate, which leads to a reduction in the life of the LEDs.

The technical result is to maintain the durability of the LED light fixture at the level of the life of the LEDs used.

The technical result is achieved by the fact that the LED light device contains a sealed metal case with developed fins, in the internal volume of which there is a board of heat-conducting material with soldered LEDs, in front of which a diffuser is located in the hole of the sealed metal case. The internal volume of the sealed metal casing is filled with a translucent, insulating heat-conducting fluid. An elastic container filled with gas is located in the volume of the sealed metal case. On the side surface of the sealed metal casing is a cavity partially filled with gas. A diffuse diffuser in the form of a powder with a high reflection coefficient is added to a translucent, insulating, heat-conducting liquid.

The essence of the utility model is illustrated by drawings. Figure 1 shows the design of the LED light fixture; figure 2 is a section of a LED light device along section AA; figure 3 - the design of the LED lighting device located in the volume of an elastic tank filled with gas; figure 4 - the design of the LED light fixture, on the side surface of the housing which is a cavity filled with gas.

The LED light device contains a sealed metal case 1 (Fig.1-2) with developed fins 2, in the internal volume of which a heat-conducting board 3 with LEDs 4 and a power supply unit 5 of LEDs 4 are fixed. A diffuser 6 is located in the hole of the upper part of the sealed metal case 1, made of shockproof heat-resistant translucent material. The internal volume of the sealed metal housing 1 is filled with a translucent, insulating heat-conducting liquid 7, for example Sovtol-10 or hexol. In the internal volume of the sealed metal case 1 (Fig. 3), filled with a translucent, insulating heat-conducting liquid 7, there is an elastic container 8 filled with gas 9. On the side surface of the sealed metal case 1 (Fig. 4) there is a sealed partition 10 with an opening 11, which forms a cavity 12, partially filled with gas 13. Into a translucent, insulating heat-conducting liquid 7 (Fig.1-2) add a diffuse diffuser (powder with a high reflection coefficient, for example about barium oxide or silicon dioxide).

The device operates as follows. The LED light fixture is positioned so that the outgoing light flux falls on the illuminated object. The LEDs 4 (Fig.1-2) during operation emit thermal energy, which is transmitted through the LED housing and the heat-conducting board 3 to a translucent, insulating heat-conducting liquid 7. The liquid 7 transfers thermal energy to the diffuser 6 and the housing 1, which has developed fins 2 for transferring heat to environment, thereby ensuring the nominal temperature conditions of the LEDs 4. With a change in temperature, all bodies change their size, including liquids change their volume. There are two ways to compensate for a change in fluid volume. In the first case (Fig. 3), an elastic container 8 filled with gas 9 is located in the internal volume of the sealed metal case 1 filled with a translucent, insulating heat-conducting liquid 7, which will compress in the container 8 with an increase in the volume of the liquid, so that the internal volume of the sealed metal case 1 will be unchanged. In the second case (figure 4), on the side surface of the sealed metal case 1 there is a sealed partition 10 with an opening 11 that forms the cavity 12. When assembling the light device, its internal volume is not completely filled with a translucent, insulating heat-conducting liquid 7, and leave a small amount of air and seal. Then, changing the position of the light device in space, move the remaining air through the hole 11 into the cavity 12, where the gas 13 is located in the upper part. In this case, as the volume of the liquid increases, gas 13 will be compressed in the cavity 12 and the internal volume of the sealed metal housing 1 will be unchanged.

The emitting body of the LED, as a rule, has small dimensions and high brightness, therefore, in order to uniformly scatter light and reduce the brightness of the light device, a diffuse diffuser is added as a powder with a high reflection coefficient in a translucent, insulating heat-conducting liquid 7.

Compared with the known solution, the proposed one allows maintaining the durability of the LED lighting device at the level of the life of the LEDs used.

Claims (4)

1. LED lighting device containing a metal casing with developed fins, in the internal volume of which there is a board of heat-conducting material with soldered LEDs, in front of which there is a diffuser in the hole of the metal casing, characterized in that the internal volume of the sealed metal casing is filled with translucent, electrically insulating, heat-conducting liquid. 2. The LED light device according to claim 1, characterized in that in the volume of the sealed metal casing is an elastic container filled with gas. 3. The LED light device according to claim 1, characterized in that on the side surface of the sealed metal case there is a cavity partially filled with gas. 4. The LED light device according to claims 1 to 3, characterized in that a diffuse diffuser in the form of a powder with a high reflection coefficient is added to the translucent, electrical insulating, heat-conducting liquid.