The present invention relates generally to a heat sink, and more particularly to a heat sink having a plurality of fins to remove heat from an electronic heat-generating component, wherein the fins have an improved structure.
Heat sinks are usually used to remove heat from electronic heat-generating components, such as central processing units (CPUs) etc., to keep the components in stable operation. A typical heat sink comprises a base for contacting with the heat-generating component to absorb the heat of the heat-generating component and a plurality of parallel planar fins attached to the base by soldering or adhering. The fins are used for dissipating the heat to ambient air. For enhancing heat dissipation efficiency, a fan is usually mounted on a top or a side of the heat sink to impel air to flow between the fins.
To meet a requirement of heat removal from the heat-generating component which generates more and more heat, it is current way to enlarge the total outer area of the fins by increasing the number of the fins or enlarging a dimension of each fin. However, such thermal resolutions have their limitations. Because a space in a computer enclosure is crowded by various components and the space available for the heat sink cannot be readily increased, an increase of the size of the fins is not feasible. Furthermore, the larger number the fins have, the denser the fins are, and further the narrower the channels between the fins are. If the air channels are too narrow, the air cannot smoothly flow through the channels, which impedes the heat dissipation of the heat sink even if the number of the fins is increased.
What is needed is a heat sink in which has a great heat dissipating efficiency by means of improving heat exchange between the fins and air flowing through the heat sink under a condition that the size and number of the fins are not necessary to be increased.
A heat sink in accordance with a preferred embodiment of the present invention comprises a base for absorbing heat from a heat-generating component, and a plurality of parallel fins having channels defined therebetween. Each of the fins comprises a main body standing on the base. A row of protruding portions and openings is arranged on the main body along a direction from one lateral side to an opposite lateral side of the heat sink. The protruding portions and the openings are alternately arranged. The protruding portions disturb and deflect an airflow flowing in the channels. The opening intercommunicates the channels with each other so that the airflow can flow from one of the channels to the other of the channels.
Other advantages and novel features will become more apparent from the following detailed description of preferred embodiments when taken in conjunction with the accompanying drawings, in which:
Referring to
The base 10 is a flat heat conducting plate, and comprises a bottom surface (not shown) for absorbing heat from a heat-generating component (not shown) and a top surface (not labeled).
Each fin 20 comprises a main body 21 and a flange 23 bent perpendicular from a bottom edge of the main body 21. The flange 23 extends from a front face of each fin 20. A plurality of rectangular protruding portions 25 is formed on the main body 21 of each fin 20. The protruding portions 25 are stamped from a rear face of the main body 21 to the front face of the main body 21. Thus, the protruding portions 25 protrude from the front face of the main body 21 and depress at the rear face of the main body 21. A plurality of rectangular openings 27 is defined in the main body 21. The protruding portions 25 and the openings 27 are alternately and separately arranged on a substantially central portion of the main body 21 along a length direction of each fin 20. The protruding portions 25 and the openings 27 are lined in a row.
In an assembly of the heat sink 1, all of the flanges 23 of the fins 20 corporately define a coplanar plane which is attached to the top surface of the base 10 so that the fins 20 are mounted onto the top surface of the base 10 side by side to define a plurality of channels 29 therebetween. An airflow generated by a fan (not shown) enters the channels 29 from a lateral side of the heat sink 1 and leaves the channels 29 from an opposite lateral side of the heat sink 1. The protruding portions 25 and the openings 27 of each fin 20 are alternately arranged between the two opposite sides along the corresponding channel 29. The protruding portions 25 are disposed in the channels 29. The openings 27 make the channels 29 intercommunicated with each other. The protruding portions 25 each have a front wall 252 parallel to the main body 20.
In use of the heat sink 1, the base 10 absorbs heat from the heat-generating component and transfers the heat to the fins 20 because the flanges 23 of the fins 20 are attached on the top surface of the base 10 and thermally connect therewith. The heat is dissipated via the fins 20 to the ambient air. The fan (not shown) can be mounted at the side of the heat sink 1 to form the forced airflow through the heat sink 1. In the channels 29, the airflow impinges the protruding portions 25 and is deflected. The channels 29 are intercommunicated by the openings 27 and thus airflow can flow from one of the channels 29 to the other of the channels 29. Therefore, disturbance and turbulence of the airflow is formed. Heat transferred from the fins 20 to the airflow is increased, thereby to increase heat dissipation efficiency of the heat sink 1. Furthermore, the protruding portions 25 can increase a contact area between the airflow and the fins 20, thereby further enhancing the heat dissipation efficiency of the heat sink 1.
In an alternative embodiment as shown in
It is believed that the present embodiments and their advantages will be understood from the foregoing description, and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the invention or sacrificing all of its material advantages, the examples hereinbefore described merely being preferred or exemplary embodiments of the invention.