RU137149U1 - RADIATOR OF HEAT RETAIN OF THE LED SOURCE OF RADIATION - Google Patents

Abstract

The heat sink radiator of the LED radiation source containing a set of heat-dissipating plates assembled in a bag and installed with a gap relative to each other, characterized in that it further comprises heat-transferring plates placed between the heat-dissipating and contacting surfaces, while heat-dissipating and heat-transmitting plates on one from the faces of the packet form a common section of the plane, the area of which is less than or equal to the surface area of the face.

Description

The utility model relates to cooling elements of electronic devices and can be used to remove heat from semiconductor light-emitting diodes used for indoor and outdoor lighting.

The need for cooling the LED radiation source is due to the fact that during operation it emits a large amount of heat, which leads to malfunctions and failures in operation. Therefore, a radiator is installed together with them, which dissipates the heat generated by them into the surrounding air, thereby lowering the temperature of the LED source.

Known heat sink radiator containing a set of plates (RU 56558, 09/10/2006). The disadvantage of this device is that it is difficult to operate, since it requires additional installation of an electric fan to remove the heat flux.

The closest in its technical essence is a heat sink radiator of an LED radiation source, containing a set of plates, the seating surfaces of which are in contact with each other (RU 115549, 10.11.2011).

The disadvantage of this device is that it is difficult to manufacture and massive in its performance. Since for mounting plates contains a housing. In addition, due to the fact that the heat-removing plates are placed around the circumference of the case, the outer plates obscure the internal ones, reduce the efficiency of removal and require time-consuming heat removal from them.

The problem solved by this utility model is the creation of an efficient and cheap radiator for removing heat from a light source. The technical result in solving this problem is to increase the manufacturability of the design of the radiator based on the requirements of mass and mass production, improve weight and size characteristics while maintaining the thermal mode of operation and, as a result, reduce the cost of the design of the radiator.

The present technical essence is achieved in that the heat sink radiator of the LED radiation source, comprising a set of heat-dissipating plates assembled in a bag and installed with a gap relative to each other, further comprises heat-transferring plates placed between the heat-dissipating and contacting surfaces, while heat-dissipating and heat-transmitting plates on one of the faces of the packet form a common section of the plane, the area of which is less than or equal to the surface area of the face.

In FIG. 1 side view.

In FIG. 2 front view

In FIG. 3 isometric view of a radiator.

The radiator consists of a set of alternating heat-dissipating 1 and heat-transferring 2 plates assembled into a package 3, one face 4 of which has a common section 5 of the plane in which heat-dissipating 1 and heat-transferring 2 plates lie. The area of this section is less than or equal to the total area of the face 4. Package 3 is made in such a way that heat transfer 2 is placed between the heat-dissipating plates 1 and air gaps 6 are formed.

The device operates as follows. A heat source is attached to a joint portion 5 of face 4 of heat transfer 2 and heat dissipating 1 plates (not shown in FIG.). The heat from the source enters the joint portion 5 of the heat transfer 2 and heat dissipating 1 plates, and the latter is intensively removed to the atmosphere through peripheral sections and air gaps 6. At the same intervals, an influx of cold air is carried out. The process of heat dissipation is also facilitated by the fact that the heat dissipating plates have an area larger than the area of the heat transferring plates. Performing a common section 5 of the plane less than or equal to the plane of the surface of the face on which it is located allows you to vary the shape of the heat-dissipating plates depending on the purpose and conditions of placement of the LED radiation source (vertically, horizontally, at an angle, etc.).

The material of a set of heat transfer and heat dissipating plates can be either metallic (copper, aluminum, etc.) or plastic or composite with high thermal conductivity.

The bag can be fastened into a single structure by soldering, gluing, resistance welding, riveting or stapled.

Claims (1)

The heat sink of the heat emitting diode radiation source containing a set of heat-dissipating plates assembled in a package and installed with a gap relative to each other, characterized in that it further comprises heat-transferring plates placed between heat-dissipating and contacting surfaces, while heat-dissipating and heat-transmitting plates on one from the faces of the packet form a common section of the plane, the area of which is less than or equal to the surface area of the face.

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