摘要:
The invention relates to a heat sink (1) for cooling a heat source, the heat sink comprising a heat distributor (12) comprising a 3-dimensional body with a side wall (13) arranged around a main axis (14), and a plurality of plates (11) coupled to and extending from the side wall, each of the plurality of plates being curved in a cross section perpendicular to the main axis, wherein the plates are twisted along the main axis (14) of the heat distributor. The present invention solves the excessive fin length issue that is needed for higher values of the external diameter vs. the internal diameter of the fins section. The fins have curvature in all directions, which is referred to as double curvature. This double curvature is the result of two curving of each fin in a radial direction and twisting of the fins along the axial direction.
权利要求:
CLAIMS:
1. A heat sink (1) for cooling a heat source, the heat sink comprising:
a heat distributor (12) comprising a 3-dimensional body with a side wall (13) arranged around a main axis (14);
a plurality of plates (11) coupled to and extending from the side wall (13), each of the plurality of plates (11) being curved in a cross section perpendicular to the main axis (14), wherein the plates (11) are twisted along the main axis (14) of the heat distributor
(12), and wherein a fin spacing, being a distance between two neighboring plates, increases with an increasing radial position. 2. Heat sink according to claim 1, wherein the side wall has a cylindrical or conical shape.
3. Heat sink according to any one of the preceding claims, wherein in the cross section perpendicular to the main axis (14), each plate forms a two-dimensional spiral.
4. Heat sink according to any one of the preceding claims, wherein in the cross section perpendicular to the main axis (14), each plate (11) leaves the side wall of the heat distributor in a radial direction with respect to the main axis (14). 5. Heat sink according to any one of the preceding claims, wherein each plate has at least three edges, and wherein a first edge which is connected the side wall, forms a first helix having a first radius equal to an outer diameter of the heat distributor (12).
6. Heat sink according to claim 5, wherein each plate has four edges, and wherein a second edge lying opposite of the first edge, forms a second helix having a second radius larger than the outer diameter of the heat distributor (12).
7. Heat sink according to claim 5, wherein each plate has four edges, and wherein a second edge (18) lying opposite of the first edge, forms a conical spiral.
8. Heat sink according to any one of the preceding claims, wherein the fin spacing linearly increases with an increasing radial position starting from an inner radius of the plates.
9. Heat sink according to any one of the preceding claims, wherein the fin spacing at an outer radius of the plates is about 10% to 20% greater than the fin spacing at the inner radius of the plates.
10. Heat sink according to any one of the preceding claims, wherein a maximum value of the fin spacing is less than twice a minimum value of the fin spacing.
11. Heat sink according to any one of the preceding claims, wherein a twist of the plates of the heat sink, as specified as the number of full turns per meter is up to 0.28/r_outer, where r outer is the outer radius of the heat sink.
12. Heat sink according to any one of the preceding claims, wherein the heat sink further comprises an enclosure arranged around the heat sink fins, which enclosure fully or partially covers the fins in the radial direction.
13. A forced convection cooler comprising a heat sink according to any one of the preceding claims, and an axial ventilator axially aligned with the heat sink and arranged to blow air through the plates.
14. A lamp comprising at least one light emitting device and a forced convection cooler according to claim 13.
15. Lamp according to claim 14, wherein the light emitting device is a light emitting diode.
16. A luminaire comprising at least one lamp according to claim 14 or 15.