RU2460938C1 - Heatsink for light-emitting diode lamp - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: in the heatsink for a light-emitting diode lamp, having a housing on whose inner side surface there are longitudinally aligned fins, wherein the body of the fins has at least one through-channel for air passage, according to the invention the through-channel is in form of a through-recess passing across the fin on its entire thickness.

EFFECT: improved conditions for heat removal from the heatsink in its horizontal position.

3 cl, 3 dwg

Description

The invention relates to lighting technology, namely, radiators for LED lamps designed to replace incandescent lamps.

LED lamps as radiation sources contain LEDs or a group of semiconductor light-emitting crystals, which during operation emit a significant amount of heat.

For heat dissipation, various designs of radiators are used, which are installed to ensure thermal contact with the radiation sources of LED lamps.

Known radiator for LED lamps, described in RU 102746.

This radiator contains a housing having longitudinally oriented ribs on the outer side surface, the presence of which provides an increase in its surface, and therefore, an increase in the heat sink of the radiator. In addition, with the vertical position of the radiator in the gaps between the ribs, free movement of ascending flows of warm air occurs, which contributes to better heat removal from the radiator.

However, with the horizontal position of the radiator in question, a part of the ribs creates an obstacle to the free movement of the ascending air flows, which worsens the heat removal conditions.

As the closest analogue of the claimed invention, a radiator for an LED lamp is selected [CN 101701701].

This radiator comprises a housing having longitudinally oriented ribs on the outer side surface, in the body of each of which a longitudinal through channel is made in the form of a through groove. These channels provide air flow inside the ribs in the longitudinal direction, which contributes to better heat dissipation from the radiator in its vertical position.

However, in this radiator, as well as in the radiator described above, with its horizontal position, part of the ribs creates an obstacle to the free movement of the ascending flows of warm air, which worsens the conditions of heat removal.

The task of the invention is to improve the conditions of heat removal from the radiator in its horizontal position.

The essence of the invention lies in the fact that in the radiator for an LED lamp containing a housing, longitudinally oriented fins are located on the outer side surface of the fins, at least one through channel for air passage is made in the fins body, according to the invention, the through channel is made in as a through slot extending across the rib to its entire thickness.

In the particular case of the invention, the ribs have an arched profile in cross section.

In the particular case of the invention, in each pair of adjacent ribs one of the ribs has a shorter length.

The presence in the inventive radiator of longitudinally oriented fins provides an increase in its surface, and consequently, an increase in the heat sink of the radiator. In addition, with the vertical position of the radiator in the gaps between the ribs there is free movement of upward flows of warm air, which contributes to better heat removal from the radiator in the specified position.

It is fundamentally important in the inventive radiator that the body of the rib has at least one through channel made in the form of a through slot extending across the entire thickness of the rib.

The presence of the specified through channel allows air to pass through it in the direction transverse to the rib. That is, thanks to the indicated channels formed in the body of the fins, when the radiator is in a horizontal position, the fins do not impede the passage of ascending flows of warm air, which contributes to better heat removal from the radiator in the indicated position.

Thus, the technical result achieved by the implementation of the claimed invention is to improve the conditions of heat removal from the radiator in its horizontal position.

A through slot extending across the rib to its entire thickness can be made in the form of a recess made in the rib body over part of its length over the entire thickness of the rib, in the form of a through hole or groove passing through the rib along its thickness, etc.

In the case when the fins have an arched profile in cross section, their area increases and, accordingly, the heat transfer area of the radiator increases without increasing its overall dimensions. In this case, the fins are located on the side surface of the radiator with a swirl, due to which the vertical position of the radiator provides turbulent upward air flow in the gaps between the fins, which improves the heat removal conditions.

In the case when in each pair of adjacent fins one of the fins has a shorter length, the manufacturing process of the radiator using injection molding technology is simplified.

Figure 1 presents a General view of the radiator (front view); figure 2 is the same (bottom view); figure 3 presents a view of the radiator in a perspective view.

The radiator comprises a housing 1, on the outer side surface of which are longitudinally oriented ribs 2 (in FIG. 2 and FIG. 3, two ribs are indicated by the position). In the body of the rib 2, a through slot 3 is made (in Fig. 1 and Fig. 3, the position indicates the slots in two ribs), passing across the rib 2 to its entire thickness. In particular, the slot 3 is made in the form of a recess located on the inside of the rib 2 in its upper part.

The ribs 2 have an arched profile in cross section and are located on the side surface of the housing 1 with a twist (see figure 2).

In each pair of adjacent ribs 2, one of the ribs has a shorter length.

The radiator is as follows.

When the radiator is operating as part of an LED lamp, it is in thermal contact with an LED light source that generates heat during light emission. The generated heat is removed from the light source in the process of convective heat transfer between the surface of the radiator and the air in contact with it.

In this case, in the vertical position of the radiator, the ascending flows of warm air freely pass in the gaps between the fins 2, and in the horizontal position of the radiator, the fins 2 do not impede the free passage of the ascending flows of warm air due to the presence of through slots 3 in the fins 2.

Thus, the design of the radiator provides improved heat dissipation in both its vertical and horizontal position.

Claims (3)

1. A radiator for an LED lamp, comprising a housing, on the outer lateral surface of which are longitudinally oriented ribs, wherein at least one through channel for air passage is made in the rib body, characterized in that the through channel is made in the form of a through slot, passing across the rib to its entire thickness. 2. The radiator according to claim 1, characterized in that the ribs have an arched profile in cross section. 3. The radiator according to claim 1, characterized in that in each pair of adjacent ribs one of the ribs has a shorter length.

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