公开(公告)号：US08602092B2

公开(公告)日：2013-12-10

申请号：US11400347

申请日：2006-04-06

申请人： Daniel J. Lenehan ,  Kenneth Goodson ,  Thomas W. Kenny ,  Mark Munch ,  Saroj Sahu

发明人： Daniel J. Lenehan ,  Kenneth Goodson ,  Thomas W. Kenny ,  Mark Munch ,  Saroj Sahu

IPC分类号： F24F11/06

CPC分类号： H01L23/473 ,  H01L23/34 ,  H01L23/467 ,  H01L2924/0002 ,  H01L2924/00

摘要： A closed loop cooling system and apparatus for controlling a fluid flow rate through the closed loop cooling system, the apparatus comprising a heat exchanger coupled to at least one heat generating device for removing waste heat from the heat generating device, at least one pump for circulating the fluid, a heat rejector for receiving the fluid, at least one fan for removing waste heat from the heat rejector, at least one temperature sensor coupled to the heat generating device to measure the temperature value of the at least one heat generating device, and a controller electrically coupled to the at least one pump, the at least one fan, and the at least one temperature sensor for receiving the temperature value to selectively control the fluid flow rate and the air flow rate, based on the temperature value.

摘要翻译： 一种用于控制通过闭环冷却系统的流体流速的闭环冷却系统和装置，该装置包括耦合到至少一个用于从发热装置排出废热的至少一个发热装置的热交换器，至少一个用于循环的泵 所述流体，用于接收流体的热排出器，用于从所述热排出器去除废热的至少一个风扇，耦合到所述发热装置的至少一个温度传感器以测量所述至少一个发热装置的温度值;以及 电耦合到所述至少一个泵，所述至少一个风扇和所述至少一个温度传感器的控制器，用于接收所述温度值，以基于所述温度值选择性地控制所述流体流速和所述空气流速。

公开(公告)号：US07591302B1

公开(公告)日：2009-09-22

申请号：US10731674

申请日：2003-12-08

申请人： Daniel J. Lenehan ,  Kenneth Goodson ,  Thomas W. Kenny ,  Mark Munch ,  Saroj Sahu

发明人： Daniel J. Lenehan ,  Kenneth Goodson ,  Thomas W. Kenny ,  Mark Munch ,  Saroj Sahu

IPC分类号： F24F11/06

CPC分类号： H01L23/473 ,  H01L23/34 ,  H01L23/467 ,  H01L2924/0002 ,  H01L2924/00

摘要： A method of and apparatus for cooling heat-generating devices in a cooling system is disclosed. The apparatus includes various sensors, control schemes and thermal models, to control pump flow rates and fan flow rates to minimize power consumption, fan noise, and noise transients. The apparatus further includes at least one heat-generating device, at least one heat exchanger, and at least one heat rejector. The apparatus can also include many pumps and fans. The method includes controlling a fluid flow rate of at least one pump and an air flow rate of at least one fan, in a cooling system for cooling at least one device. The method comprises the steps of: providing at least one temperature sensor coupled to measure a temperature value of each device; receiving the temperature value from each temperature sensor; and providing a controller to selectively control the fluid flow rate and the air flow rate, based on each temperature value. The method can further include the step of filling at least a portion of a heat exchanger with a thermal capacitance medium for maintaining the temperature value of the device below a maximum allowable temperature during thermal transients, wherein the heat exchanger is thermally coupled to the device.

摘要翻译： 公开了一种用于冷却冷却系统中的发热装置的方法和装置。 该设备包括各种传感器，控制方案和热模型，以控制泵流量和风扇流量，以最小化功耗，风扇噪声和噪声瞬变。 该装置还包括至少一个发热装置，至少一个热交换器和至少一个热排出器。 该设备还可以包括许多泵和风扇。 该方法包括在用于冷却至少一个装置的冷却系统中控制至少一个泵的流体流速和至少一个风扇的空气流量。 该方法包括以下步骤：提供耦合以测量每个装置的温度值的至少一个温度传感器; 从每个温度传感器接收温度值; 并且基于每个温度值提供控制器来选择性地控制流体流速和空气流速。 该方法还可以包括用热容器介质填充热交换器的至少一部分的步骤，用于在热瞬变期间将器件的温度值保持在最大允许温度以下，其中热交换器热耦合到器件。

公开(公告)号：US08464781B2

公开(公告)日：2013-06-18

申请号：US11582657

申请日：2006-10-17

申请人： Thomas W. Kenny ,  Mark Munch ,  Peng Zhou ,  James Gill Shook ,  Kenneth Goodson ,  Dave Corbin ,  Mark McMaster ,  James Lovette

发明人： Thomas W. Kenny ,  Mark Munch ,  Peng Zhou ,  James Gill Shook ,  Kenneth Goodson ,  Dave Corbin ,  Mark McMaster ,  James Lovette

IPC分类号： F28F7/00 ,  F28D15/00 ,  H05K7/20 ,  F25B21/02

CPC分类号： F04B17/00 ,  F04B19/006 ,  F25B21/02 ,  F25B2321/0252 ,  F28D15/00 ,  F28D15/0266 ,  F28D21/0015 ,  F28D2021/0029 ,  F28F3/02 ,  F28F3/086 ,  F28F3/12 ,  F28F13/06 ,  F28F13/185 ,  F28F2210/10 ,  F28F2245/02 ,  F28F2260/02 ,  G06F1/20 ,  G06F2200/201 ,  G06Q20/20 ,  H01L23/38 ,  H01L23/473 ,  H01L23/4735 ,  H01L35/30 ,  H01L2924/0002 ,  H01L2924/00

摘要： A system for cooling a heat source includes a fluid heat exchanger, a pump, a thermoelectric device and a heat rejector. The thermoelectric device includes a cooling portion and a heating portion. The heat rejector is configured to be in thermal contact with at least a portion of the heating portion of the thermoelectric device. The pump is coupled with the fluid heat exchanger and configured to pass a fluid therethrough. The thermoelectric device is configured along with the heat exchanger in the cooling system.

摘要翻译： 用于冷却热源的系统包括流体热交换器，泵，热电装置和散热器。 热电装置包括冷却部和加热部。 散热器构造成与热电装置的加热部分的至少一部分热接触。 泵与流体热交换器联接并且构造成使流体通过其中。 热电装置与冷却系统中的热交换器一起构成。

公开(公告)号：US07201012B2

公开(公告)日：2007-04-10

申请号：US10643641

申请日：2003-08-18

申请人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

发明人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

IPC分类号： F25D23/12 ,  F24H3/02 ,  G06K1/20

CPC分类号： H01L23/473 ,  F04B17/00 ,  F28D15/00 ,  F28F19/006 ,  F28F2245/02 ,  F28F2250/08 ,  H01L2924/0002 ,  H01L2924/00

摘要： A liquid cooling system utilizing minimal size and volume enclosures, air pockets, compressible objects, and flexible objects is provided to protect against expansion of water-based solutions when frozen. In such a system, pipes, pumps, and heat exchangers are designed to prevent cracking of their enclosures and chambers. Also described are methods of preventing cracking in a liquid cooling system. In all these cases, the system must be designed to tolerate expansion when water is frozen.

摘要翻译： 提供使用最小尺寸和体积的外壳，气穴，可压缩物体和柔性物体的液体冷却系统，以防止冻结时水性溶液的膨胀。 在这种系统中，管道，泵和热交换器被设计成防止其外壳和腔室的破裂。 还描述了防止液体冷却系统中的裂纹的方法。 在所有这些情况下，系统必须设计成在水被冻结时容忍膨胀。

公开(公告)号：US07000684B2

公开(公告)日：2006-02-21

申请号：US10680584

申请日：2003-10-06

申请人： Thomas W. Kenny ,  Mark Munch ,  Peng Zhou ,  James Gill Shook ,  Girish Upadhya ,  Kenneth Goodson ,  Dave Corbin ,  Mark McMaster ,  James Lovette

发明人： Thomas W. Kenny ,  Mark Munch ,  Peng Zhou ,  James Gill Shook ,  Girish Upadhya ,  Kenneth Goodson ,  Dave Corbin ,  Mark McMaster ,  James Lovette

IPC分类号： F28F7/00

CPC分类号： F04B17/00 ,  F04B19/006 ,  F28D15/00 ,  F28D15/0266 ,  F28D21/0015 ,  F28D2021/0029 ,  F28F3/02 ,  F28F3/086 ,  F28F3/12 ,  F28F13/06 ,  F28F13/185 ,  F28F2210/10 ,  F28F2245/04 ,  F28F2260/02 ,  G06Q20/20 ,  H01L23/473 ,  H01L23/4735 ,  H01L2924/0002 ,  H01L2924/00

摘要： A heat exchanger and method of manufacturing thereof comprises an interface layer for cooling a heat source. The interface layer is coupled to the heat source and is configured to pass fluid therethrough. The heat exchanger further comprises a manifold layer that is coupled to the interface layer. The manifold layer includes at least one first port that is coupled to a first set of individualized holes which channel fluid through the first set. The manifold layer includes at least one second port coupled to a second set of individualized holes which channel fluid through the second set. The first set of holes and second set of holes are arranged to provide a minimized fluid path distance between the first and second ports to adequately cool the heat source. Preferably, each hole in the first set is positioned a closest optimal distance to an adjacent hole the second set.

摘要翻译： 热交换器及其制造方法包括用于冷却热源的界面层。 界面层耦合到热源并被配置成使流体从中流过。 热交换器还包括耦合到界面层的歧管层。 歧管层包括至少一个第一端口，其耦合到第一组个体化的孔，其将流体通过第一组。 歧管层包括耦合到第二组个体化孔的至少一个第二端口，其将流体通过第二组。 第一组孔和第二组孔布置成在第一和第二端口之间提供最小化的流体路径距离，以充分冷却热源。 优选地，第一组中的每个孔定位成与第二组的相邻孔最接近的最佳距离。

公开(公告)号：US07402029B2

公开(公告)日：2008-07-22

申请号：US11111536

申请日：2005-04-20

申请人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

发明人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

IPC分类号： F04B43/08 ,  B65D1/32 ,  E03B7/10

CPC分类号： H01L23/473 ,  F04B17/00 ,  F28D15/00 ,  F28F19/006 ,  F28F2245/02 ,  F28F2250/08 ,  H01L2924/0002 ,  H01L2924/00

摘要： A liquid cooling system utilizing minimal size and volume enclosures, air pockets, compressible objects, and flexible objects is provided to protect against expansion of water-based solutions when frozen. In such a system, pipes, pumps, and heat exchangers are designed to prevent cracking of their enclosures and chambers. Also described are methods of preventing cracking in a liquid cooling system. In all these cases, the system must be designed to tolerate expansion when water is frozen.

摘要翻译： 提供使用最小尺寸和体积的外壳，气穴，可压缩物体和柔性物体的液体冷却系统，以防止冻结时水性溶液的膨胀。 在这种系统中，管道，泵和热交换器被设计成防止其外壳和腔室的破裂。 还描述了防止液体冷却系统中的裂纹的方法。 在所有这些情况下，系统必须设计成在水被冻结时容忍膨胀。

公开(公告)号：US07278549B2

公开(公告)日：2007-10-09

申请号：US11111253

申请日：2005-04-20

申请人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

发明人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

IPC分类号： B65D1/32 ,  B65D25/00 ,  F04C21/00 ,  E03B7/10

CPC分类号： H01L23/473 ,  F04B17/00 ,  F28D15/00 ,  F28F19/006 ,  F28F2245/02 ,  F28F2250/08 ,  H01L2924/0002 ,  H01L2924/00

摘要： A liquid cooling system utilizing minimal size and volume enclosures, air pockets, compressible objects, and flexible objects is provided to protect against expansion of water-based solutions when frozen. In such a system, pipes, pumps, and heat exchangers are designed to prevent cracking of their enclosures and chambers. Also described are methods of preventing cracking in a liquid cooling system. In all these cases, the system must be designed to tolerate expansion when water is frozen.

公开(公告)号：US07201214B2

公开(公告)日：2007-04-10

申请号：US11111535

申请日：2005-04-20

申请人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

发明人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

IPC分类号： F28F7/00 ,  F28F3/14 ,  F25D23/12

CPC分类号： H01L23/473 ,  F04B17/00 ,  F28D15/00 ,  F28F19/006 ,  F28F2245/02 ,  F28F2250/08 ,  H01L2924/0002 ,  H01L2924/00

摘要： A liquid cooling system utilizing minimal size and volume enclosures, air pockets, compressible objects, and flexible objects is provided to protect against expansion of water-based solutions when frozen. In such a system, pipes, pumps, and heat exchangers are designed to prevent cracking of their enclosures and chambers. Also described are methods of preventing cracking in a liquid cooling system. In all these cases, the system must be designed to tolerate expansion when water is frozen.

公开(公告)号：US07344363B2

公开(公告)日：2008-03-18

申请号：US11111520

申请日：2005-04-20

申请人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

发明人： Mark Munch ,  Kenneth Goodson ,  David Corbin ,  Shulin Zeng ,  Thomas W. Kenny ,  James Gill Shook

IPC分类号： F04C21/00 ,  E03B7/10 ,  F01B19/00

CPC分类号： H01L23/473 ,  F04B17/00 ,  F28D15/00 ,  F28F19/006 ,  F28F2245/02 ,  F28F2250/08 ,  H01L2924/0002 ,  H01L2924/00

摘要： A liquid cooling system utilizing minimal size and volume enclosures, air pockets, compressible objects, and flexible objects is provided to protect against expansion of water-based solutions when frozen. In such a system, pipes, pumps, and heat exchangers are designed to prevent cracking of their enclosures and chambers. Also described are methods of preventing cracking in a liquid cooling system. In all these cases, the system must be designed to tolerate expansion when water is frozen.

公开(公告)号：US06988534B2

公开(公告)日：2006-01-24

申请号：US10439635

申请日：2003-05-16

申请人： Thomas W. Kenny ,  Mark Munch ,  Peng Zhou ,  James Gill Shook ,  Girish Upadhya ,  Kenneth Goodson ,  David Corbin

发明人： Thomas W. Kenny ,  Mark Munch ,  Peng Zhou ,  James Gill Shook ,  Girish Upadhya ,  Kenneth Goodson ,  David Corbin

IPC分类号： F28F7/00

CPC分类号： G06Q20/20 ,  F04B17/00 ,  F04B19/006 ,  F28D15/0266 ,  F28D21/0015 ,  F28F3/12 ,  F28F13/06 ,  F28F2210/10 ,  F28F2260/02 ,  H01L23/473 ,  H01L2924/0002 ,  Y10T29/4935 ,  H01L2924/00

摘要： A heat exchanger apparatus and method of manufacturing comprising: an interface layer for cooling a heat source and configured to pass fluid therethrough, the interface layer having an appropriate thermal conductivity and a manifold layer for providing fluid to the interface layer, wherein the manifold layer is configured to achieve temperature uniformity in the heat source preferably by cooling interface hot spot regions. A plurality of fluid ports are configured to the heat exchanger such as an inlet port and outlet port, whereby the fluid ports are configured vertically and horizontally. The manifold layer circulates fluid to a predetermined interface hot spot region in the interface layer, wherein the interface hot spot region is associated with the hot spot. The heat exchanger preferably includes an intermediate layer positioned between the interface and manifold layers and optimally channels fluid to the interface hot spot region.

摘要翻译： 一种热交换器装置和制造方法，包括：用于冷却热源并被配置为使流体通过其中的界面层，所述界面层具有适当的导热性和用于向界面层提供流体的歧管层，其中所述歧管层为 被配置为优选地通过冷却界面热点区域来实现热源中的温度均匀性。 多个流体端口被配置到诸如入口和出口的热交换器，由此流体端口被垂直和水平地配置。 歧管层将流体循环到界面层中的预定界面热点区域，其中界面热点区域与热点相关联。 热交换器优选地包括位于界面和歧管层之间的中间层，并且将流体最佳地通向界面热点区域。