HEAT SINKS WITH VIBRATION ENHANCED HEAT TRANSFER
First Claim
1. A heat sink with vibration enhanced heat transfer, comprising:
- a thermally conductive housing having at least one contact face and at least one wall;
a first body of high thermal conductivity material disposed within the thermally conductive housing, the first body of high thermal conductivity material having at least one contact face adapted for direct contact with a heat source to be cooled; and
a vibrating base, the vibrating base disposed in direct contact with the at least one contact face of the thermally conductive housing;
wherein the vibrating base is configured to propagate oscillating waves through the thermally conductive housing and the first body of high thermal conductivity material to reach the at least one contact face adapted for direct contact with the heat source; and
wherein the first body of high thermal conductivity material is Capable of forming an at least partially liquid conductive melted high thermal conductivity material layer in direct contact with the heat source; and
the heat source to be cooled is a liquid.
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Accused Products
Abstract
The heat sinks with vibration enhanced heat transfer are heat sinks formed from a first body of high thermal conductivity material. The first body of high thermal conductivity material is received within a thermally conductive housing such that at least one contact face of the first body of high thermal conductivity material is exposed, forming a direct contact interface with a heat source requiring cooling. The heat source requiring cooling may be a liquid heat source, including but not limited to water. The thermally conductive housing is disposed such that at least one contact face of the thermally conductive housing is in direct contact with the vibrating base. The vibrating base applies oscillating waves to the heat sink, thereby increasing heat transfer between the heat source and the heat sink.
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Citations
20 Claims
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1. A heat sink with vibration enhanced heat transfer, comprising:
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a thermally conductive housing having at least one contact face and at least one wall; a first body of high thermal conductivity material disposed within the thermally conductive housing, the first body of high thermal conductivity material having at least one contact face adapted for direct contact with a heat source to be cooled; and a vibrating base, the vibrating base disposed in direct contact with the at least one contact face of the thermally conductive housing;
wherein the vibrating base is configured to propagate oscillating waves through the thermally conductive housing and the first body of high thermal conductivity material to reach the at least one contact face adapted for direct contact with the heat source; andwherein the first body of high thermal conductivity material is Capable of forming an at least partially liquid conductive melted high thermal conductivity material layer in direct contact with the heat source; and
the heat source to be cooled is a liquid. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A heat sink with vibration enhanced heat transfer, comprising:
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a thermally conductive housing having at least one contact face and at least one wall; a first body of high thermal conductivity material disposed within the thermally conductive housing, the first body of high thermal conductivity material having at least one contact face adapted for direct contact with a heat source to be cooled; and a vibrating base, the vibrating base disposed in direct contact with the at least one contact face of the thermally conductive housing;
wherein the vibrating base is configured to propagate oscillating waves through the thermally conductive housing and the first body of high thermal conductivity material to reach the at least one contact face adapted for direct contact with the heat source; andwherein the first body of high thermal conductivity material is a liquid and the heat source to be cooled is a liquid. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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Specification