RU129596U1 - LED HEATING RADIATOR HEAT RADIATOR (OPTIONS) - Google Patents

Abstract

1. Radiator heat dissipation of the LED radiation source, containing a set of plates, the seating surfaces of which are in contact with each other, characterized in that the plates are made with bent ends, while the contact area of each subsequent from the source of LED radiation of the plate from the previous decreases with distance from it .2. The heat sink radiator of the LED radiation source containing a set of plates, the seating surfaces of which are in contact with each other, characterized in that the plates are made with bent ends, while the contact area of the plates with each other increases as you approach the central one.

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.

Since the LED source emits a large amount of heat during operation, its effective cooling is necessary. If it heats above a predetermined temperature, malfunctions occur in it (burns out). 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.

An ideal radiator capable of efficiently dissipating the heat generated by an LED source is made of a material with high thermal conductivity, has a short heat-conducting path, a large heat-conducting area and a large heat transfer area and provides a uniform air flow in the heat transfer zone.

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, having a constant thickness of the radiator plates, regardless of the remoteness of the heat radiation source, the dimensions and weight of the device grow. In this case, the peripheral part of the plates is forced to take a large part of the heat, which, despite the high thermal conductivity of the material used, requires time for its removal.

The technical essence of the proposed utility model is the development of a heat sink radiator in heat radiation sources, in particular LED lamps, of the simplest design with a short thermal path.

The present technical essence according to the first embodiment is achieved by the fact that in the heat sink radiator of the LED radiation source containing a set of plates, the seating surfaces of which are in contact with each other, the plates are made with bent ends, and the contact area of each subsequent from the LED radiation source, the plate from the previous decreases with distance from it.

According to the second option, in the heat dissipation radiator of the LED radiation source containing a set of plates, the seating surfaces of which are in contact with each other, the plates are made with bent ends, while the contact area of the plates with each other increases as they approach the central one.

To solve these problems, a radiator is proposed, which consists of several flat plates with bent ends of different heights, made of a material having high thermal conductivity (aluminum, copper, etc.), installed so that their heat-conducting path is as short as possible. The technical idea also consists in optimizing the thermal area and the effects of air flow in the heat dissipation zone.

Figure 1-3 shows a diagram of the implementation of the radiator according to option one.

Figure 4 shows a diagram of the implementation of the radiator in option two.

The heat sink of the heat of the LED radiation source is made of a set of plates 1 in contact with each other, which have bent ends 4. The ends, about the first embodiment, can be bent both to one side (FIGS. 1 and 2) and to different (FIG. 3 ) The plates are in contact with each other by the seating surface 2. According to the first embodiment, the contact area of each subsequent from the plate 3 LED light source with the previous one decreases with distance from it. According to the second variant, the contact area of the plates with each other increases as they approach the central (central) of them, and the ends are bent in different directions.

The device operates as follows. The thermal energy generated by the LED radiation source 3 is transferred to a radiator made of a set of plates 1, from a material with a high coefficient of thermal conductivity. On the radiator, most of the heat is concentrated on the plates in its central part, where the total thickness is greatest. In this place, the largest upward thermal air flow is created, which weakens with distance to the periphery of the radiator. Its temperature decreases both with distance from the central part due to cooling, and a decrease in the thickness of the radiator, where the supply of thermal energy will no longer be so large. Air flows coming from the end space of the radiator plates, having different temperatures, and, consequently, speed, create turbulence of air around the lamp, which allows to accelerate heat removal from the radiator.

The radiator according to this utility model includes several plates mounted with the possibility of contacting each other and with an LED (LED) radiation source. Radiator plates can be made of a material with a high coefficient of thermal conductivity (aluminum, copper, composite materials, etc.) and have bent ends 4. In the case when the radiator plates are made of copper, the thermal conductivity increases, however, compared with aluminum significantly increases weight, which is undesirable. Separate radiator plates are fastened together by rivets (although they can be connected by screws, resistance welding, with glue, etc.). Riveting the radiator plates is most preferable among the above means from the point of view of the reuse of resources and the mechanical strength of the device.

To reduce the dimensions of the radiator, the ends of all or part of the plates can be additionally bent again (not shown in Fig.).

Claims (2)

1. Radiator heat dissipation of the LED radiation source, containing a set of plates, the seating surfaces of which are in contact with each other, characterized in that the plates are made with bent ends, while the contact area of each subsequent from the source of LED radiation of the plate from the previous decreases with distance from it . 2. The heat sink radiator of the LED radiation source, containing a set of plates, the seating surfaces of which are in contact with each other, characterized in that the plates are made with bent ends, while the contact area of the plates with each other increases as you approach the central one.

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