公开(公告)号：US20170064874A1

公开(公告)日：2017-03-02

申请号：US15351362

申请日：2016-11-14

Applicant: COOLIT SYSTEMS, INC.

Inventor： Geoff Sean Lyon ,  Mike Holden ,  Brydon Gierl

IPC: H05K7/20 ,  F28F9/02 ,  F28F9/06 ,  F28F9/00

Abstract: Some modular heat-transfer systems can have an array of at least one heat-transfer element being configured to transfer heat to a working fluid from an operable element. A manifold module can have a distribution manifold and a collection manifold. A decoupleable inlet coupler can be configured to fluidicly couple the distribution manifold to a respective heat-transfer element. A decoupleable outlet coupler can be configured to fluidicly couple the respective heat-transfer element to the collection manifold. An environmental coupler can be configured to receive the working fluid from the collection manifold, to transfer heat to an environmental fluid from the working fluid or to transfer heat from an environmental fluid to the working fluid, and to discharge the working fluid to the distribution manifold.

Abstract translation: 一些模块化的热传递系统可以具有至少一个传热元件的阵列，其被配置为将热量从可操作元件传递到工作流体。 歧管模块可以具有分配歧管和收集歧管。 可分离的入口联接器可以被配置成将分配歧管流体耦合到相应的传热元件。 可解耦的出口联接器可以被配置成将相应的传热元件流体耦合到收集歧管。 环境耦合器可以被构造成从收集歧管接收工作流体，将热量从工作流体传递到环境流体，或者将热量从环境流体传递到工作流体，并将工作流体排放到分配歧管 。

公开(公告)号：US20220408615A1

公开(公告)日：2022-12-22

申请号：US17894921

申请日：2022-08-24

Applicant: CoolIT Systems, Inc.

Inventor： Geoff Sean Lyon ,  Pat McGinn ,  Mike Holden ,  Brydon Gierl

IPC: H05K7/20 ,  F28F27/00

Abstract: Aspects of liquid operational systems are described. According to one aspect, a system to automatically fill a liquid operational component is described. According to another aspect, a self-diagnostic system is described. According to yet another aspect, a flow conditioning arrangement is described. A control system for a heat-transfer system includes a plurality of sensors. Each sensor is configured to observe an operational parameter indicative of a thermodynamic quantity and to emit a signal containing information corresponding to the observed operational parameter. Control logic includes a processing unit and instructions stored on a memory that, when executed by the processing unit, cause the control logic to determine a first thermodynamic quantity associated with each sensor from information contained in a signal from the respective sensor; determine a second thermodynamic quantity associated with each sensor from information contained in a signal received from at least one other sensor in the plurality of sensors; compare the first thermodynamic quantity with the second thermodynamic quantity; and responsive to the comparison of the first thermodynamic quantity with the second thermodynamic quantity, output a control signal.

公开(公告)号：US09534852B2

公开(公告)日：2017-01-03

申请号：US14080541

申请日：2013-11-14

Applicant: COOLIT SYSTEMS, INC.

Inventor： Brydon Gierl ,  Geoff Sean Lyon

IPC: F28F9/007 ,  F28D15/00 ,  H01L23/473

CPC classification number: F28F9/007 ,  F28D15/00 ,  F28F2250/08 ,  F28F2275/22 ,  H01L23/473 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A heat exchange system can include a heat exchange unit and a magnetic element. The heat exchange unit can have a housing and a heat exchange surface configured to thermally couple to a subject of heat exchange. The housing can define an outer surface spaced apart from the heat exchange surface. A magnetic element, a ferrous element, or both, can be positioned within the housing. A coupling agent can have a complementary magnetic element, ferrous element, or both. The coupling agent can interact with the magnetic element, the ferrous element, or both, positioned within the housing. The coupling agent can be coupled to a substrate to retain the heat exchange unit relative to the substrate.

Abstract translation: 热交换系统可以包括热交换单元和磁性元件。 热交换单元可以具有壳体和热交换表面，热表面被配置为热耦合到热交换对象。 壳体可以限定与热交换表面间隔开的外表面。 磁性元件，铁元件或两者都可以被定位在壳体内。 偶联剂可以具有互补的磁性元素，亚铁元素或两者。 耦合剂可以与位于壳体内的磁性元件，铁元件或两者相互作用。 耦合剂可以耦合到衬底以相对于衬底保持热交换单元。

公开(公告)号：US20140262180A1

公开(公告)日：2014-09-18

申请号：US14217080

申请日：2014-03-17

Applicant: COOLIT SYSTEMS INC.

Inventor： Geoff Sean Lyon ,  Mike Holden ,  Brydon Gierl

IPC: H05K7/20

CPC classification number: H05K7/20781 ,  F28D7/16 ,  F28D15/00 ,  F28F1/24 ,  F28F9/02 ,  F28F9/22 ,  F28F9/26

Abstract: Some modular heat-transfer systems can have an array of at least one heat-transfer element being configured to transfer heat to a working fluid from a heat dissipator. A manifolded heat exchanger can be configured to receive heated working fluid from a plurality of heat-transfer elements and to reject heat to a working fluid of a second fluid circuit. In some embodiments, the heat exchanging manifold can split an incoming flow of working fluid from the second fluid circuit into two or more streams having different bulk flow directions. In some instances, heat exchanger portions of the heat exchanging manifold are configured to provide counter flow heat exchange between the working fluid of the first fluid circuit and the working fluid of the second fluid circuit.

Abstract translation: 一些模块化的热传递系统可以具有至少一个传热元件的阵列，其被配置为将热量传递到来自散热器的工作流体。 歧管热交换器可以被配置为从多个传热元件接收加热的工作流体并且将热量排除到第二流体回路的工作流体。 在一些实施例中，热交换歧管可以将来自第二流体回路的工作流体的进入流分成具有不同体积流动方向的两个或更多个流。 在一些情况下，热交换歧管的热交换器部分构造成在第一流体回路的工作流体和第二流体回路的工作流体之间提供逆流热交换。

公开(公告)号：US12213289B2

公开(公告)日：2025-01-28

申请号：US17074602

申请日：2020-10-19

Applicant: CoolIT Systems, Inc.

Inventor： Geoff Sean Lyon ,  Mike Holden ,  Brydon Gierl

IPC: H05K7/20 ,  H01L23/473

Abstract: Some modular heat-transfer systems can have an array of at least one heat-transfer element being configured to transfer heat to a working fluid from an operable element. A manifold module can have a distribution manifold and a collection manifold. A decoupleable inlet coupler can be configured to fluidicly couple the distribution manifold to a respective heat-transfer element. A decoupleable outlet coupler can be configured to fluidicly couple the respective heat-transfer element to the collection manifold. An environmental coupler can be configured to receive the working fluid from the collection manifold, to transfer heat to an environmental fluid from the working fluid or to transfer heat from an environmental fluid to the working fluid, and to discharge the working fluid to the distribution manifold.

公开(公告)号：US20190116694A1

公开(公告)日：2019-04-18

申请号：US16158227

申请日：2018-10-11

Applicant: CoolIT Systems, Inc.

Inventor： Geoff Sean Lyon ,  Pat McGinn ,  Mike Holden ,  Brydon Gierl

IPC: H05K7/20 ,  F28F27/00

Abstract: Aspects of liquid operational systems are described. According to one aspect, a system to automatically fill a liquid operational component is described. According to another aspect, a self-diagnostic system is described. According to yet another aspect, a flow conditioning arrangement is described. A control system for a heat-transfer system includes a plurality of sensors. Each sensor is configured to observe an operational parameter indicative of a thermodynamic quantity and to emit a signal containing information corresponding to the observed operational parameter. Control logic includes a processing unit and instructions stored on a memory that, when executed by the processing unit, cause the control logic to determine a first thermodynamic quantity associated with each sensor from information contained in a signal from the respective sensor; determine a second thermodynamic quantity associated with each sensor from information contained in a signal received from at least one other sensor in the plurality of sensors; compare the first thermodynamic quantity with the second thermodynamic quantity; and responsive to the comparison of the first thermodynamic quantity with the second thermodynamic quantity, output a control signal.

公开(公告)号：US20250142789A1

公开(公告)日：2025-05-01

申请号：US19011458

申请日：2025-01-06

Applicant: CoolIT Systems, Inc.

Inventor： Sebastian Varela Benitez ,  Dennis Trieu ,  Brydon Gierl ,  Seyed Kamaleddin Mostafavi Yazdi ,  Cameron Turner

IPC: H05K7/20 ,  F04B19/00 ,  F04B53/22 ,  F04D29/02 ,  F04D29/60 ,  G06F1/20

Abstract: A pump tray has a liquid pump with an inlet and outlet. A blindly matable liquid coupler fluidicly couples with the pump inlet and a blindly matable liquid coupler fluidicly couples with the pump outlet. A chassis of the pump tray has an alignment member configured to removably engage with another device and to restrict, to a limited number of degrees-of-freedom, movement of the chassis relative to the other device (e.g., a liquid pumping unit). The blindly matable liquid couplers are so physically coupled with the chassis as to inhibit movement of them relative to the chassis. A liquid pumping unit also has a chassis defining a bay configured to receive a pump tray, a liquid inlet coupler and a liquid outlet coupler, and a reservoir fluidicly coupled with the liquid inlet coupler. A blindly-matable liquid coupler fluidicly couples with the reservoir outlet and a blindly-matable liquid coupler fluidicly couples with the liquid outlet coupler. An alignment member is configured to removably engage with the pump tray and to restrict, to a limited number of degrees-of-freedom, movement of the pump tray relative to the chassis of the liquid pumping unit.

公开(公告)号：US12193193B2

公开(公告)日：2025-01-07

申请号：US17867457

申请日：2022-07-18

Applicant: CoolIT Systems, Inc.

Inventor： Sebastian Varela Benitez ,  Dennis Trieu ,  Brydon Gierl ,  Seyed Kamaleddin Mostafavi Yazdi ,  Cameron Turner

IPC: H05K7/20 ,  F04B19/00 ,  F04D29/00 ,  F04D29/02 ,  F04D29/60 ,  G06F1/20 ,  F04B53/22

Abstract: A pump tray has a liquid pump with an inlet and outlet. A blindly matable liquid coupler fluidicly couples with the pump inlet and a blindly matable liquid coupler fluidicly couples with the pump outlet. A chassis of the pump tray has an alignment member configured to removably engage with another device and to restrict, to a limited number of degrees-of-freedom, movement of the chassis relative to the other device (e.g., a liquid pumping unit). The blindly matable liquid couplers are so physically coupled with the chassis as to inhibit movement of them relative to the chassis. A liquid pumping unit also has a chassis defining a bay configured to receive a pump tray, a liquid inlet coupler and a liquid outlet coupler, and a reservoir fluidicly coupled with the liquid inlet coupler. A blindly-matable liquid coupler fluidicly couples with the reservoir outlet and a blindly-matable liquid coupler fluidicly couples with the liquid outlet coupler. An alignment member is configured to removably engage with the pump tray and to restrict, to a limited number of degrees-of-freedom, movement of the pump tray relative to the chassis of the liquid pumping unit.

公开(公告)号：US20220354025A1

公开(公告)日：2022-11-03

申请号：US17867457

申请日：2022-07-18

Applicant: CoolIT Systems, Inc

Inventor： Sebastian Varela Benitez ,  Dennis Trieu ,  Brydon Gierl ,  Seyed Kamaleddin Mostafavi Yazdi ,  Cameron Turner

IPC: H05K7/20 ,  G06F1/20 ,  F04B19/00 ,  F04D29/02

Abstract: A pump tray has a liquid pump with an inlet and outlet. A blindly matable liquid coupler fluidicly couples with the pump inlet and a blindly matable liquid coupler fluidicly couples with the pump outlet. A chassis of the pump tray has an alignment member configured to removably engage with another device and to restrict, to a limited number of degrees-of-freedom, movement of the chassis relative to the other device (e.g., a liquid pumping unit). The blindly matable liquid couplers are so physically coupled with the chassis as to inhibit movement of them relative to the chassis. A liquid pumping unit also has a chassis defining a bay configured to receive a pump tray, a liquid inlet coupler and a liquid outlet coupler, and a reservoir fluidicly coupled with the liquid inlet coupler. A blindly-matable liquid coupler fluidicly couples with the reservoir outlet and a blindly-matable liquid coupler fluidicly couples with the liquid outlet coupler. An alignment member is configured to removably engage with the pump tray and to restrict, to a limited number of degrees-of-freedom, movement of the pump tray relative to the chassis of the liquid pumping unit.

公开(公告)号：US11452243B2

公开(公告)日：2022-09-20

申请号：US16158227

申请日：2018-10-11

Applicant: CoolIT Systems, Inc.

Inventor： Geoff Sean Lyon ,  Pat McGinn ,  Mike Holden ,  Brydon Gierl

IPC: H05K7/20 ,  F28F27/00 ,  F28F23/02 ,  F28F9/22

Abstract: Aspects of liquid operational systems are described. According to one aspect, a system to automatically fill a liquid operational component is described. According to another aspect, a self-diagnostic system is described. According to yet another aspect, a flow conditioning arrangement is described. A control system for a heat-transfer system includes a plurality of sensors. Each sensor is configured to observe an operational parameter indicative of a thermodynamic quantity and to emit a signal containing information corresponding to the observed operational parameter. Control logic includes a processing unit and instructions stored on a memory that, when executed by the processing unit, cause the control logic to determine a first thermodynamic quantity associated with each sensor from information contained in a signal from the respective sensor; determine a second thermodynamic quantity associated with each sensor from information contained in a signal received from at least one other sensor in the plurality of sensors; compare the first thermodynamic quantity with the second thermodynamic quantity; and responsive to the comparison of the first thermodynamic quantity with the second thermodynamic quantity, output a control signal.