公开(公告)号：US08464781B2

公开(公告)日：2013-06-18

申请号：US11582657

申请日：2006-10-17

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

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

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

CPC classification number: 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

Abstract: 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.

Abstract translation: 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：US07836597B2

公开(公告)日：2010-11-23

申请号：US11326690

申请日：2006-01-06

Applicant: Madhav Datta ,  Mark McMaster ,  Rick Brewer ,  Peng Zhou ,  Paul Tsao ,  Girish Upadhaya ,  Mark Munch

Inventor： Madhav Datta ,  Mark McMaster ,  Rick Brewer ,  Peng Zhou ,  Paul Tsao ,  Girish Upadhaya ,  Mark Munch

IPC: B23P15/26 ,  F28D15/00

CPC classification number: F04B17/00 ,  F04B19/006 ,  F28D15/0266 ,  F28F3/12 ,  F28F13/185 ,  F28F2245/04 ,  H01L21/4882 ,  H01L23/473 ,  H01L2924/0002 ,  Y10T29/4935 ,  Y10T29/49353 ,  Y10T29/49366 ,  Y10T29/49369 ,  H01L2924/00

Abstract: An structure and method of manufacturing a microstructure for use in a heat exchanger is disclosed. The heat exchanger comprises a manifold layer and an microstructured region. The manifold layer comprises a structure to deliver fluid to the microstructured region. The microstructured region is formed from multiple windowed layers formed from heat conductive layers through which a plurality of microscaled apertures have been formed by a wet etching process. The plurality of windowed layers are then coupled together to form a composite microstructure.

Abstract translation: 公开了一种制造用于热交换器的微结构的结构和方法。 热交换器包括歧管层和微结构区域。 歧管层包括将流体输送到微结构化区域的结构。 微结构区域由多个由热导层形成的窗口层形成，多个微孔通过该导热层通过湿蚀刻工艺形成。 然后将多个窗口层耦合在一起以形成复合微结构。

公开(公告)号：US07599184B2

公开(公告)日：2009-10-06

申请号：US11707350

申请日：2007-02-16

Applicant: Girish Upadhya ,  Mark Munch ,  Norman Chow ,  Paul Tsao ,  Douglas E. Werner ,  Mark McMaster ,  Frederic Landry ,  Ian Spearing ,  Tim Schrader

Inventor： Girish Upadhya ,  Mark Munch ,  Norman Chow ,  Paul Tsao ,  Douglas E. Werner ,  Mark McMaster ,  Frederic Landry ,  Ian Spearing ,  Tim Schrader

IPC: H05K7/20

CPC classification number: H05K7/20781 ,  H01L2924/0002 ,  H05K7/20727 ,  H05K7/20772 ,  H01L2924/00

Abstract: Liquid-based cooling solutions used to transfer heat produced by one or more heat generating devices from one or more electronics servers to the ambient. Each electronics server includes one or more heat generating devices. Integrated onto each electronics server is a liquid based cooling system. Each liquid based cooling system includes a server pump and one or more microchannel cold plates (MCP) coupled together via fluid lines. The liquid based cooling system for each electronics server includes a rejector plate configured with micro-channels. The MCPs, the server pump and the rejector plate form a first closed loop. The rejector plate is coupled to a chassis cold plate via a thermal interface material. In a multiple electronics server configuration, the rejector plates for each of the electronics servers are coupled to the chassis cold plate configured with fluid channels which are coupled via fluid lines to a liquid-to-air heat exchanging system to form a second closed loop.

Abstract translation: 液体冷却溶液，用于将一个或多个发热装置产生的热量从一个或多个电子服务器传递到环境。 每个电子服务器包括一个或多个发热装置。 集成到每个电子服务器上是一种基于液体的冷却系统。 每个基于液体的冷却系统包括服务器泵和通过流体管线连接在一起的一个或多个微通道冷板（MCP）。 用于每个电子服务器的基于液体的冷却系统包括配置有微通道的排出板。 MCP，服务器泵和排料板形成第一个闭环。 排料板通过热界面材料连接到底盘冷板。 在多电子服务器配置中，用于每个电子服务器的排放板联接到配置有流体通道的底盘冷板，流体通道经由流体管线耦合到液体 - 空气热交换系统以形成第二闭合回路。

公开(公告)号：US07539020B2

公开(公告)日：2009-05-26

申请号：US11707332

申请日：2007-02-16

Applicant: Norman Chow ,  Paul Tsao ,  Douglas E. Werner ,  Mark McMaster ,  Girish Upadhya ,  Frederic Landry ,  Ian Spearing ,  Tim Schrader

Inventor： Norman Chow ,  Paul Tsao ,  Douglas E. Werner ,  Mark McMaster ,  Girish Upadhya ,  Frederic Landry ,  Ian Spearing ,  Tim Schrader

IPC: H05K7/16

CPC classification number: H05K7/20781 ,  H01L2924/0002 ,  H05K7/20727 ,  H05K7/20772 ,  H01L2924/00

Abstract: A mounting system provides mechanisms and form factors for bringing a heat exchanger from a server rack into thermal contact with a heat exchanger from a electronics server. To ensure good thermal contact, pressure is applied between the two heat exchangers, the rejector plate and the chassis cold plate. The mounting mechanism used to engage and disengage the heat exchangers is configured to isolate the force applied to the two heat exchangers. The mounting mechanism includes an interlocking mechanism that prevents transfer of the applied force to the rest of the electronics server. Without isolating this force, the force is applied to the electronics server and/or the rack chassis, possibly disconnecting the electrical connections between the electronics server and the rack, as well as providing mechanical stress to the electronics server and the rack chassis. The mounting mechanism is also coupled to the electronics server locking mechanism such that the action of locking the electronics server into the rack causes the heat exchangers to engage in thermal contact. This is a fail safe procedure since no separate process is required to engage the electronics server cooling loop.

Abstract translation: 安装系统提供了将来自服务器机架的热交换器与来自电子服务器的热交换器热接触的机构和形式因素。 为了确保良好的热接触，在两个热交换器，排料盘和底盘冷板之间施加压力。 用于接合和分离热交换器的安装机构构造成隔离施加到两个热交换器的力。 安装机构包括互锁机构，其防止施加的力传递到电子服务器的其余部分。 在不隔离该力的情况下，该力被施加到电子服务器和/或机架机架，可能断开电子服务器和机架之间的电连接，以及向电子服务器和机架机架提供机械应力。 安装机构还耦合到电子服务器锁定机构，使得将电子服务器锁定到机架中的动作导致热交换器进行热接触。 这是一个故障安全程序，因为不需要单独的过程来接合电子服务器冷却回路。

公开(公告)号：US20070034356A1

公开(公告)日：2007-02-15

申请号：US11582657

申请日：2006-10-17

Applicant: Thomas Kenny ,  Mark Munch ,  Peng Zhou ,  James Shook ,  Kenneth Goodson ,  Dave Corbin ,  Mark McMaster ,  James Lovette

Inventor： Thomas Kenny ,  Mark Munch ,  Peng Zhou ,  James Shook ,  Kenneth Goodson ,  Dave Corbin ,  Mark McMaster ,  James Lovette

IPC: H05K7/20

CPC classification number: 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

Abstract: A method and system for cooling a heat source are presented. The system includes a fluid heat exchanger, a pump, a thermoelectric device having a cooling portion and a heating portion, and a heat rejector 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 a cooling system to enhance the cooling efficiency of the system.

Abstract translation: 提出了一种用于冷却热源的方法和系统。 该系统包括流体热交换器，泵，具有冷却部分和加热部分的热电装置，以及配置为与热电装置的加热部分的至少一部分热接触的散热器。 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配置，以提高系统的冷却效率。

公开(公告)号：US07000684B2

公开(公告)日：2006-02-21

申请号：US10680584

申请日：2003-10-06

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

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

IPC: F28F7/00

CPC classification number: 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

Abstract: 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.

Abstract translation: 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：US4911024A

公开(公告)日：1990-03-27

申请号：US310049

申请日：1989-02-10

Applicant: Mark McMaster

Inventor： Mark McMaster

IPC: G01L5/16

CPC classification number: G01L5/161

Abstract: A force/torque transducer including a first rigid member, a second rigid member, one or more flexural beams connected between the first rigid member and the second rigid member, the first and second members and the beam having a center point, the flexural beams having respective decoupling points that are symmetrical with respect to the center point, the flexural beams having symmetrical strain fields located on the flexural beams such that first and second strain fields achieve strain responses to a load of a single axis of magnitude equal to each other and third and fourth strain fields achieve strain responses to the load of the single axis of magnitude equal to each other, two of the responses being one sign and two being the other sign, the strain responses of the strain fields to loads of all other axes being capable of being cancelled out when the responses of one of the first and second fields and one of the third and fourth fields are given opposite sign and the responses of like axes are added together, strain gauges placed at the first, second, third and fourth strain fields, and a bridge circuit in which the strain gauges are electrically connected to be additive with respect to the load of the single axis and neutral with respect to loads of all other axes, the bridge circuit providing an output that indicates load of the single axis and is decoupled with respect to loads of all other axes.

Abstract translation: 包括第一刚性构件，第二刚性构件，连接在所述第一刚性构件和所述第二刚性构件之间的一个或多个弯曲梁的力/扭矩传感器，所述第一构件和所述梁具有中心点，所述弯曲梁具有 相对于中心点对称的相应去耦点，弯曲梁具有位于弯曲梁上的对称应变场，使得第一和第二应变场实现对彼此等于或等于的单个幅度的负载的应变响应 并且第四应变场实现对于彼此相等的单个幅度轴的载荷的应变响应，两个响应是一个符号，两个是另一个符号，应变场对所有其他轴的载荷的应变响应是能够的 当第一和第二场之一和第三和第四场之一的响应被给出相反的符号时，被取消，并且l的响应 将ike轴加在一起，放置在第一，第二，第三和第四应变场处的应变计和桥接电路，其中应变仪电连接到相对于单轴的负载和相对于 所有其他轴的负载，桥接电路提供指示单个轴的负载并相对于所有其他轴的负载解耦的输出。

公开(公告)号：US08250877B2

公开(公告)日：2012-08-28

申请号：US12291884

申请日：2008-11-14

Applicant: Adrian Correa ,  Tien Chih (Eric) Lin ,  James Hom ,  Gregory Shiomoto ,  Norman Chow ,  Brandon Leong ,  Richard Grant Brewer ,  Douglas E. Werner ,  Mark McMaster

Inventor： Adrian Correa ,  Tien Chih (Eric) Lin ,  James Hom ,  Gregory Shiomoto ,  Norman Chow ,  Brandon Leong ,  Richard Grant Brewer ,  Douglas E. Werner ,  Mark McMaster

IPC: F25D23/12

CPC classification number: H05K7/20781 ,  E05D11/0081 ,  E05Y2800/10 ,  E05Y2900/132

Abstract: A cooling door assembly includes a frame and a cooling door coupled to the frame. The cooling door includes one or more heat exchangers. The frame is configured to mount to the back of a server rack or other electronics enclosure in such a manner that the cooling door opens to allow access to the electronics servers within the server rack while maintaining a fluidic connection to an external cooling system. The frame is coupled to the external cooling system and the cooling door includes swivel joints configured to provide a fluid path between the cooling door and the frame. In this manner, the frame remains in a fixed position, while the cooling door is configured to rotate relative to the frame so as to open and close, while maintaining the fluid path through the swivel joint.

Abstract translation: 冷却门组件包括框架和联接到框架的冷却门。 冷却门包括一个或多个热交换器。 框架被配置成以这样的方式安装到服务器机架或其他电子机柜的背面，使得冷却门打开以允许访问服务器机架内的电子服务器，同时保持与外部冷却系统的流体连接。 框架联接到外部冷却系统，并且冷却门包括构造成在冷却门和框架之间提供流体路径的旋转接头。 以这种方式，框架保持在固定位置，同时冷却门构造成相对于框架旋转以便打开和关闭，同时保持流体路径通过旋转接头。

公开(公告)号：US20090225514A1

公开(公告)日：2009-09-10

申请号：US12291918

申请日：2008-11-14

Applicant: Adrian Correa ,  Tien Chih (Eric) Lin ,  James Hom ,  Gregory Shiomoto ,  Norman Chow ,  Brandon Leong ,  Richard Grant Brewer ,  Douglas E. Werner ,  Mark McMaster

Inventor： Adrian Correa ,  Tien Chih (Eric) Lin ,  James Hom ,  Gregory Shiomoto ,  Norman Chow ,  Brandon Leong ,  Richard Grant Brewer ,  Douglas E. Werner ,  Mark McMaster

IPC: H05K7/20

CPC classification number: H05K7/20781 ,  E05D11/0081 ,  E05Y2800/10 ,  E05Y2900/132

Abstract: A cooling door assembly includes a frame and a cooling door coupled to the frame. The cooling door includes one or more heat exchangers. The frame is configured to mount to the back of a server rack or other electronics enclosure in such a manner that the cooling door opens to allow access to the electronics servers within the server rack while maintaining a fluidic connection to an external cooling system. The frame is coupled to the external cooling system and the cooling door includes swivel joints configured to provide a fluid path between the cooling door and the frame. In this manner, the frame remains in a fixed position, while the cooling door is configured to rotate relative to the frame so as to open and close, while maintaining the fluid path through the swivel joint.

Abstract translation: 冷却门组件包括框架和联接到框架的冷却门。 冷却门包括一个或多个热交换器。 框架被配置成以这样的方式安装到服务器机架或其他电子机柜的背面，使得冷却门打开以允许访问服务器机架内的电子服务器，同时保持与外部冷却系统的流体连接。 框架联接到外部冷却系统，并且冷却门包括构造成在冷却门和框架之间提供流体路径的旋转接头。 以这种方式，框架保持在固定位置，同时冷却门构造成相对于框架旋转以便打开和关闭，同时保持流体路径通过旋转接头。

公开(公告)号：US20090225513A1

公开(公告)日：2009-09-10

申请号：US12291884

申请日：2008-11-14

Applicant: Adrian Correa ,  Tien Chih (Eric) Lin ,  James Hom ,  Gregory Shiomoto ,  Norman Chow ,  Brandon Leong ,  Richard Grant Brewer ,  Douglas E. Werner ,  Mark McMaster

Inventor： Adrian Correa ,  Tien Chih (Eric) Lin ,  James Hom ,  Gregory Shiomoto ,  Norman Chow ,  Brandon Leong ,  Richard Grant Brewer ,  Douglas E. Werner ,  Mark McMaster

IPC: H05K7/20

CPC classification number: H05K7/20781 ,  E05D11/0081 ,  E05Y2800/10 ,  E05Y2900/132

Abstract: A cooling door assembly includes a frame and a cooling door coupled to the frame. The cooling door includes one or more heat exchangers. The frame is configured to mount to the back of a server rack or other electronics enclosure in such a manner that the cooling door opens to allow access to the electronics servers within the server rack while maintaining a fluidic connection to an external cooling system. The frame is coupled to the external cooling system and the cooling door includes swivel joints configured to provide a fluid path between the cooling door and the frame. In this manner, the frame remains in a fixed position, while the cooling door is configured to rotate relative to the frame so as to open and close, while maintaining the fluid path through the swivel joint.