RU130039U1 - LIGHT EMERGENCY MODULE - Google Patents

Abstract

1. The module of the light-emitting device containing at least one board on which light sources, ballasts and a housing made in the form of a rectangular profile with a constant cross-section along the length, on the end surface of which the boards are fixed, and ribs are made on the sides at least two ribs, characterized in that the ribs in cross section are made in the form of isosceles triangles located with the base to the body, which contains at least one closed floor nce with protrusions in its inner part disposed opposite base edges, and each light source is set so that the heat sink portion is located over vystupami.2. The light emitting device module according to claim 1, characterized in that the sides of the isosceles triangles are made wavy. The light emitting device module according to claim 1, characterized in that a heat-conducting gasket is installed between the housing and the board. The light-emitting device module according to claim 1, characterized in that the closed cavity of the housing contains a heat-conducting sealing compound.

Description

The utility model relates to lighting engineering, namely, to light sources, mainly on LED emitters and can be used in the manufacture of various lamps for outdoor and indoor lighting.

A lighting device is known that contains light sources in the form of LED emitters mounted on a heat sink base and equipped with individual reflectors. Each reflector is made in a shape close to the shape of a tetrahedral truncated pyramid, in the small base of which is placed an LED emitter. Each reflector is equipped with docking elements in the form of protrusions made on two sides of the larger base of the pyramid, and reciprocal protrusions of grooves made on its other two sides, providing a dovetail-type reflector connection. (RF patent for utility model No. 99591, IPC F21S 8/00, published on November 20, 2010)

The disadvantages of this lighting device are the limited possibilities of heat removal from the emitter and the limited options for constructive assembly of the light emitter from the modules, as well as the complexity of assembling a light emitting device with a large number of light emitters.

Closest to the proposed technical solution is a module of a light-emitting device containing at least one board on which are placed light sources, ballasts and a housing made in the form of a rectangular profile with a constant cross section along the length, ribs are made on the sides of the housing, at least at least two ribs on opposite sides are made with mutually complementary grooves and locking protrusions, the boards are fixed to the end surface of the housing. Grooves are made on the ribs and end surfaces of the housing with the possibility of screwing screws into them, and longitudinal grooves are made in the housing along its length. (RF patent for utility model No. 114505, IPC F21S 8/00, publ. 03/27/2012)

The disadvantage of this technical solution is the relatively high thermal resistance from the LED emitter to the heat sink surface of the housing, as well as the difficulty of sealing the LED emitters.

The technical problem to which the proposed device is directed is to increase the heat transfer from the outer surface of the housing, reduce the thermal resistance from light sources to the external heat transfer surface of the housing, and increase the degree of sealing of the module of the light-emitting device.

To solve this problem, a module of a light-emitting device is proposed, comprising at least one board on which light sources, ballasts and a housing are made in the form of a rectangular profile with a constant cross-section along the length, on the end surface of which boards are fixed, and on the sides ribs made of at least two ribs. The ribs in cross section are made in the form of isosceles triangles located with the base to the body and with a wavy surface, which contains at least one closed cavity with protrusions in its inner part opposite the base of the ribs. Each light source is installed in such a way that the heat sink part is located above the protrusions.

The implementation of the ribs in the cross section in the form of isosceles triangles located with the base to the body, and the sides of the isosceles triangles as wavy leads to an increase in surface area, which in turn ensures uniform heating of the wavy heat-transferring surface of the ribs, and thereby ensures efficient heat transfer from the body to surrounding area.

Installing a heat-conducting gasket between the case and the board leads to a uniform distribution of heat from the board with light sources on the end surface of the case.

Setting the light sources in such a way that the heat-removing part is located above the protrusions of the closed cavity, and filling the internal cavity of the housing with a heat-conducting sealing compound allows to reduce the thermal resistance from light sources to the external heat-transfer surface of the housing, which in turn reduces the difference between the temperature of the light-emitting surface of the light source and heat-releasing body surface.

The increase in heat transfer from the outer surface of the casing and the reduction of thermal resistance between the light sources and the outer surface of the casing made it possible to reduce the metal consumption of the module casing while maintaining the minimum difference between the temperatures of the light source and the heat transferring external surface of the casing. This in turn allowed to reduce the weight of the case.

The enclosed body cavity contains a heat-conducting sealing compound, which significantly increases the degree of sealing of the internal cavity of the light-emitting module, where the power wires, ballasts, and fasteners for the heat-conducting gasket and circuit board with light sources are located.

The essence of the proposed utility model is illustrated by drawings, where

figure 1 shows a view of the module of the light-emitting device from below (from the side of the board), on which the light sources are placed;

figure 2 is a view of the module of the light-emitting device from above;

figure 3 is a view on the module of the light-emitting device from the side;

figure 4 is a perspective view of the module of the light-emitting device (view from the side of the board on which the light sources are placed);

The light emitting device module comprises a board 1; light sources (in particular, LEDs) 2, the housing 3, which is made in the form of a rectangular (for example, aluminum) profile with a constant cross-section along the length, on the end surface of which there is a board 1. The housing 3 has at least one closed cavity 4, allowing you to place additional ballasts and connecting wires (not shown) in it. The aforementioned closed cavity 4 is also used to fill with a heat-conducting compound 5 in order to reduce thermal resistance from the board to the case. The housing 3 has ribs 6 on the side surface made in cross section in the form of isosceles triangles located with the base to the housing, the side surfaces of the ribs 6 are made wavy. The closed cavity 4 of the housing 3 is made with protrusions 7 in its inner closed part, located opposite the base of the ribs 6. Between the board 1 and the housing 3 there is a heat-conducting gasket 8 of a much larger area than the board, which can further reduce the thermal resistance between the case and the board. Each light source 2 is installed in such a way that the heat sink part is located above the protrusions 7. In the housing 3 along its length there are longitudinal grooves 9 with the possibility of screwing screws and grooves 10 into them with the possibility of inserting fasteners into them.

Increasing the heat transfer of the outer surface of the housing and reducing heat resistance between the light sources and the outer surface of the housing in the proposed design of the module of the light-emitting device allows to reduce the metal consumption of the housing of the module while maintaining the minimum difference between the temperatures of the light source and the heat-transferring external surface of the housing. This in turn allowed to reduce the weight of the case.

Claims (4)

1. The module of the light-emitting device containing at least one board on which light sources, ballasts and a housing made in the form of a rectangular profile with a constant cross-section along the length, on the end surface of which the boards are fixed, and ribs are made on the sides at least two ribs, characterized in that the ribs in cross section are made in the form of isosceles triangles located with the base to the body, which contains at least one closed floor nce with protrusions in its inner part disposed opposite base edges, and each light source is set so that the heat sink portion is located over the projections. 2. The module of the light-emitting device according to claim 1, characterized in that the sides of the isosceles triangles are made wavy. 3. The module of the light-emitting device according to claim 1, characterized in that a heat-conducting gasket is installed between the housing and the board. 4. The module of the light-emitting device according to claim 1, characterized in that the closed cavity of the housing contains a heat-conducting sealing compound.

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