Heat exchanger assembly for an electronic display
First Claim
1. A heat exchanger assembly for cooling a power module having a brick, the assembly comprising:
- a plurality of thermally conductive heat exchanger layers arranged with spaces therebetween, the spaces between certain heat exchanger layers configured to convey only external air and the spaces between certain other heat exchanger layers configured to convey only circulating gas;
blocking elements residing within the circulating gas conveying spaces of the heat exchanger to define closed loop pathways, the blocking elements located along opposing edges of the heat exchanger;
a top heat exchanger layer placed in conductive thermal communication with the power module brick; and
a metallic plate located within each of the spaces between heat exchanger layers and aligned with the power module brick to form a conductive heat path from the power module brick through the heat exchanger layers;
wherein the external air pathway through the heat exchanger is configured to promote the convective removal of heat that has been conductively transferred from the power module brick to the heat exchanger layers and the metallic plates.
1 Assignment
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Accused Products
Abstract
The exemplary embodiments disclosed herein are directed to a heat exchanger assembly for cooling power module bricks, the heat exchanger assembly having a plurality of spaced apart heat exchanger layers between which external air and a closed loop gas are separately circulated. A series of metallic plates may be located within the spaces between some or all of the heat exchanger layers to conduct heat from the power modules. Circulating fans may be employed to circulate external air and circulating gas through the heat exchanger. Pass through junctions may be positioned near edges of the heat exchanger to permit the circulating gas to cross paths with the external air without allowing the two gas flows to mix with one another.
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Citations
20 Claims
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1. A heat exchanger assembly for cooling a power module having a brick, the assembly comprising:
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a plurality of thermally conductive heat exchanger layers arranged with spaces therebetween, the spaces between certain heat exchanger layers configured to convey only external air and the spaces between certain other heat exchanger layers configured to convey only circulating gas; blocking elements residing within the circulating gas conveying spaces of the heat exchanger to define closed loop pathways, the blocking elements located along opposing edges of the heat exchanger; a top heat exchanger layer placed in conductive thermal communication with the power module brick; and a metallic plate located within each of the spaces between heat exchanger layers and aligned with the power module brick to form a conductive heat path from the power module brick through the heat exchanger layers; wherein the external air pathway through the heat exchanger is configured to promote the convective removal of heat that has been conductively transferred from the power module brick to the heat exchanger layers and the metallic plates. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A heat exchanger assembly for cooling discrete power modules, each power module having a brick, the assembly comprising:
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a number of fixed but separate and thermally conductive heat exchanger layers arranged with spaces therebetween, an outer heat exchanger layer placed in conductive thermal communication with the power module bricks; a number of separate gas pathways defined by the spaces between heat exchanger layers, some of the gas pathways being external air pathways that are configured to convey air from outside of the heat exchanger and some of the gas pathways being circulating gas pathways that are configured to convey a closed loop circulating gas; blocking elements residing within the circulating gas conveying spaces of the heat exchanger to define closed loop pathways, the blocking elements located along opposing edges of the heat exchanger; metallic plates sandwiched between heat exchanger layers in each of the gas pathways, a number of the metallic plates aligned with each of the power module bricks to form a conductive heat path from each of the power module bricks through the heat exchanger layers; an external air fan positioned to force external air through the external air pathways, the external air pathways configured to direct the external air over the metallic plates and to promote the convective removal of heat that has been conductively transferred from the power module bricks to the metallic plates and the heat exchanger layers; and a circulating gas fan positioned to force circulating gas through the circulating gas pathways. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A heat exchanger assembly for cooling power modules having bricks, the assembly comprising:
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a number of fixed but separate heat exchanger layers arranged with spaces therebetween, an outer heat exchanger layer placed in conductive thermal communication with the power module bricks; a number of separate gas pathways defined by the spaces between heat exchanger layers, some of the gas pathways being external air pathways that are configured to convey air from outside of the heat exchanger and some of the gas pathways being circulating gas pathways that are configured to convey a closed loop circulating gas; a metallic plate located within each of the gas pathways and in alignment with the power module bricks; pass through openings traversing the heat exchanger layers and located near opposite ends of the heat exchanger; a gasket surrounding the pass through opening in each external air pathway; blocking elements placed along opposing edges of the heat exchanger within the circulating gas pathways; an exhaust aperture in communication with the external air pathways but not the circulating gas pathways; an external air fan positioned to force external air through the external air pathways and the exhaust aperture; and a circulating fan positioned to force circulating gas through the circulating gas pathways and across the power modules; wherein external air traveling through the external air pathways will be isolated from circulating gas passing through the circulating gas pathways and the pass through openings. - View Dependent Claims (17, 18, 19, 20)
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Specification