Demand-based charging of a heat pipe
First Claim
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1. A method for dynamically charging a heat pipe with a liquid, the method comprising:
- providing the heat pipe comprising;
an interface for thermally coupling a heat source to the heat pipe;
a substantially horizontal portion charged with a first quantity of liquid and coupled to the interface;
a reservoir that contains a second quantity of the liquid, the reservoir overlying the substantially horizontal portion and having a width and a height, where the width is substantially greater than the height;
a capillary connection that connects the reservoir to the substantially horizontal portion, wherein the capillary connection has a diameter of 0.1 millimeters (mm) to 0.3 mm;
a heater thermally coupled to the reservoir;
a temperature sensor in proximity to the interface; and
a controller coupled to the heater and the temperature sensor;
detecting when a temperature detected by the temperature sensor exceeds a predetermined threshold; and
in response to the detecting when the temperature detected by the temperature sensor exceeds the predetermined threshold, turning on the heater to cause at least a portion of the second quantity of liquid in the reservoir to pass from the reservoir through the capillary connection into the substantially horizontal portion;
detecting when the temperature detected by the temperature sensor is less than the predetermined threshold; and
in response to the detecting when the temperature detected by the temperature sensor is less than the predetermined threshold, turning off the heater to cause at least a portion of the second quantity of liquid in the substantially horizontal portion to pass from the substantially horizontal portion through the capillary connection into the reservoir via capillary action as the reservoir cools.
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Accused Products
Abstract
A heat pipe includes a reservoir of liquid that is connected to a horizontal portion of the heat pipe via a capillary connection. The heat pipe includes a temperature sensor in proximity to a heat interface in the horizontal portion and a controller that controls a heater for the reservoir. As power into the heat pipe increases, the controller turns on the heater, causing the temperature of the liquid in the reservoir to rise. Liquid then passes from the reservoir through the capillary connection into the horizontal portion, thereby dynamically increasing the amount of liquid in the heat pipe, which increases performance of the heat pipe at higher power levels. When the heater is off, as the heat pipe cools, the liquid condenses and flows back through the capillary connection into the reservoir. The result is a heat pipe that provides demand-based charging of the liquid based on power level.
27 Citations
9 Claims
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1. A method for dynamically charging a heat pipe with a liquid, the method comprising:
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providing the heat pipe comprising; an interface for thermally coupling a heat source to the heat pipe; a substantially horizontal portion charged with a first quantity of liquid and coupled to the interface; a reservoir that contains a second quantity of the liquid, the reservoir overlying the substantially horizontal portion and having a width and a height, where the width is substantially greater than the height; a capillary connection that connects the reservoir to the substantially horizontal portion, wherein the capillary connection has a diameter of 0.1 millimeters (mm) to 0.3 mm; a heater thermally coupled to the reservoir; a temperature sensor in proximity to the interface; and a controller coupled to the heater and the temperature sensor; detecting when a temperature detected by the temperature sensor exceeds a predetermined threshold; and in response to the detecting when the temperature detected by the temperature sensor exceeds the predetermined threshold, turning on the heater to cause at least a portion of the second quantity of liquid in the reservoir to pass from the reservoir through the capillary connection into the substantially horizontal portion; detecting when the temperature detected by the temperature sensor is less than the predetermined threshold; and in response to the detecting when the temperature detected by the temperature sensor is less than the predetermined threshold, turning off the heater to cause at least a portion of the second quantity of liquid in the substantially horizontal portion to pass from the substantially horizontal portion through the capillary connection into the reservoir via capillary action as the reservoir cools. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for manufacturing a heat sink comprising:
constructing a heat pipe comprising; an interface for thermally coupling a heat source to the heat pipe; a substantially horizontal portion charged with a first quantity of liquid and coupled to the interface; a reservoir that contains a second quantity of the liquid, the reservoir overlying the substantially horizontal portion and having a width and a height, where the width is substantially greater than the height; a capillary connection that connects the reservoir to the substantially horizontal portion and draws liquid from the substantially horizontal portion into the reservoir via capillary action when a temperature of the reservoir is less than a temperature of the substantially horizontal portion, wherein the capillary connection has a diameter of 0.1 millimeters (mm) to 0.3 mm; a heater thermally coupled to the reservoir; a temperature sensor in proximity to the interface; and a controller coupled to the heater and the temperature sensor; and thermally coupling a plurality of thermally-conductive fins to the heat pipe. - View Dependent Claims (9)
Specification
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Current AssigneeInternational Business Machines Corporation
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Original AssigneeInternational Business Machines Corporation
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InventorsAnderl, William J., Elison, Bret P., Mann, Phillip V., Sinha, Arvind K.
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Primary Examiner(s)Teitelbaum, David
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Assistant Examiner(s)ARANT, HARRY E
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Application NumberUS15/044,594Publication NumberTime in Patent Office1,036 DaysField of SearchUS Class CurrentCPC Class CodesF28D 15/0275 Arrangements for coupling h...F28D 15/0283 Means for filling or sealin...F28D 15/046 characterised by the materi...F28D 15/06 Control arrangements thereforF28D 2015/0216 having particular orientati...F28D 2021/0028 for cooling heat generating...F28F 21/085 from copper or copper alloysF28F 3/02 Elements or assemblies ther...H01L 23/3672 Foil-like cooling fins or h...H01L 23/427 Cooling by change of state,...
