Aavid Thermalloy, LLC

United States of America

Back to Profile

1-85 of 85 for Aavid Thermalloy, LLC and 3 subsidiaries Sort by
Query
Aggregations
IP Type
        Patent 76
        Trademark 9
Jurisdiction
        United States 46
        World 35
        Europe 3
        Canada 1
Owner / Subsidiary
[Owner] Aavid Thermalloy, LLC 42
Nuventix, Inc. 27
Thermal Corp. 14
K Technology Corporation 2
Date
2023 5
2022 2
2021 3
2020 4
Before 2020 71
IPC Class
H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating 20
F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes 16
F28D 15/04 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes with tubes having a capillary structure 7
H01L 23/427 - Cooling by change of state, e.g. use of heat pipes 7
F21V 29/00 - Protecting lighting devices from thermal damageCooling or heating arrangements specially adapted for lighting devices or systems 5
See more
NICE Class
11 - Environmental control apparatus 5
42 - Scientific, technological and industrial services, research and design 4
09 - Scientific and electric apparatus and instruments 3
37 - Construction and mining; installation and repair services 2
40 - Treatment of materials; recycling, air and water treatment, 1
Status
Pending 3
Registered / In Force 82

1.

Method and apparatus for immersion boiler support

      
Application Number 17832037
Grant Number 12302530
Status In Force
Filing Date 2022-06-03
First Publication Date 2023-12-07
Grant Date 2025-05-13
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Whitney, Bradley R.
  • Beliveau, Michael
  • Philippon, Frederic Elie

Abstract

A heat transfer arrangement for use with an immersion cooling system. A support is configured to contact a heat transfer device such as a vapor chamber or spreader plate to stiffen the heat transfer device and urge the heat transfer device into contact with a heat generating device. The support includes an arm that has a first portion that extends toward a central area of the heat transfer device over and out of contact with the heat transfer device and a second portion that contacts the heat transfer device within the central area. The arm can avoid contact with the heat transfer device, including surfaces having a boiling enhancement coating configured to transfer heat to a cooling liquid.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • F28F 13/18 - Arrangements for modifying heat transfer, e.g. increasing, decreasing by applying coatings, e.g. radiation-absorbing, radiation-reflectingArrangements for modifying heat transfer, e.g. increasing, decreasing by surface treatment, e.g. polishing

2.

LIQUID COOLED HEAT EXCHANGER

      
Application Number US2023014081
Publication Number 2023/167846
Status In Force
Filing Date 2023-02-28
Publication Date 2023-09-07
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Kang, Sukhvinder, S.
  • Turmelle, Chad

Abstract

A liquid cooled heat exchanger includes first and second heat exchange chambers that are in thermal communication. The first heat exchange chamber is downstream of the second heat exchanges chamber and receives heat from a heat generating device, such as an electronic circuit. Heat in the first heat exchange chamber can be transferred to the second heat exchange chamber to increase the temperature of a subcooled liquid working fluid in the second heat exchange chamber. This can render a pressure drop across the heat exchanger that is relatively insensitive to a fraction of liquid that is vaporized in the first heat exchange chamber.

IPC Classes  ?

  • F25B 40/00 - Subcoolers, desuperheaters or superheaters

3.

LIQUID COOLED HEAT EXCHANGER

      
Application Number 17686780
Status Pending
Filing Date 2022-03-04
First Publication Date 2023-09-07
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Kang, Sukhvinder S.
  • Turmelle, Chad

Abstract

A liquid cooled heat exchanger includes first and second heat exchange chambers that are in thermal communication. The first heat exchange chamber is downstream of the second heat exchanges chamber and receives heat from a heat generating device, such as an electronic circuit. Heat in the first heat exchange chamber can be transferred to the second heat exchange chamber to increase the temperature of a subcooled liquid working fluid in the second heat exchange chamber. This can render a pressure drop across the heat exchanger that is relatively insensitive to a fraction of liquid that is vaporized in the first heat exchange chamber.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating

4.

METHOD AND APPARATUS FOR THERMOSIPHON DEVICE

      
Application Number US2022039373
Publication Number 2023/018590
Status In Force
Filing Date 2022-08-04
Publication Date 2023-02-16
Owner AAVID THERMALLOY, LLC (USA)
Inventor Kang, Sukhvinder S.

Abstract

A thermosiphon device includes an evaporator section, a condenser section and a liquid path configured to deliver liquid that exits the evaporator section directly back to the evaporator inlet. The condenser section has a significantly reduced mass flow rate and lower pressure drop as compared to the evaporator section, which has an increase liquid fraction of working fluid.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes

5.

Method and apparatus for thermosiphon device

      
Application Number 17396898
Grant Number 11650015
Status In Force
Filing Date 2021-08-09
First Publication Date 2023-02-09
Grant Date 2023-05-16
Owner Aavid Thermalloy, LLC (USA)
Inventor Kang, Sukhvinder S.

Abstract

A thermosiphon device includes an evaporator section, a condenser section and a liquid path configured to deliver liquid that exits the evaporator section directly back to the evaporator inlet. The condenser section has a significantly reduced mass flow rate and lower pressure drop as compared to the evaporator section, which has an increase liquid fraction of working fluid.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • F28D 21/00 - Heat-exchange apparatus not covered by any of the groups

6.

AN IMMERSION COOLING SYSTEM

      
Application Number US2021062808
Publication Number 2022/132581
Status In Force
Filing Date 2021-12-10
Publication Date 2022-06-23
Owner AAVID THERMALLOY, LLC (USA)
Inventor Kang, Sukhvinder, S.

Abstract

A heat sink for use in an immersion cooling system that includes a sintered powder structure enclosed in a porous enclosure. The porous enclosure has openings, e.g., formed by a mesh, with a size to help contain sintered powder particles that may be dislodged during operation of the heat sink.

IPC Classes  ?

  • H01L 23/373 - Cooling facilitated by selection of materials for the device
  • H01L 23/44 - Arrangements for cooling, heating, ventilating or temperature compensation the complete device being wholly immersed in a fluid other than air
  • H01L 23/427 - Cooling by change of state, e.g. use of heat pipes
  • H01L 23/473 - Arrangements for cooling, heating, ventilating or temperature compensation involving the transfer of heat by flowing fluids by flowing liquids

7.

Shrouded powder patch

      
Application Number 17546261
Grant Number 12050061
Status In Force
Filing Date 2021-12-09
First Publication Date 2022-06-16
Grant Date 2024-07-30
Owner Aavid Thermalloy, LLC (USA)
Inventor Kang, Sukhvinder S.

Abstract

A heat sink for use in an immersion cooling system that includes a sintered powder structure enclosed in a porous enclosure. The porous enclosure has openings, e.g., formed by a mesh, with a size to help contain sintered powder particles that may be dislodged during operation of the heat sink.

IPC Classes  ?

  • H01L 23/373 - Cooling facilitated by selection of materials for the device
  • F28D 1/02 - Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with the heat-exchange conduits immersed in the body of fluid
  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • F28F 3/06 - Elements or assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with recesses, with corrugations the means being attachable to the element
  • H01L 23/44 - Arrangements for cooling, heating, ventilating or temperature compensation the complete device being wholly immersed in a fluid other than air
  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • F28D 21/00 - Heat-exchange apparatus not covered by any of the groups
  • H01L 23/427 - Cooling by change of state, e.g. use of heat pipes

8.

METHOD AND APPARATUS FOR FORMING LIQUID FILLED HEAT TRANSFER DEVICE

      
Application Number US2020048464
Publication Number 2021/041853
Status In Force
Filing Date 2020-08-28
Publication Date 2021-03-04
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Cennamo, John, R.
  • Mcpherson, Christopher

Abstract

A heat transfer device includes three plates sandwiched together to form a vapor chamber or similar device. The three plates may be sealingly joined at a closed periphery to define a closed volume that contains a working fluid. One or more of the three plates may include structure to support capillary or other working fluid flow in the closed volume, e.g., a center plate may include openings and/or other structure to permit working fluid flow through and/or along the plate. An outer one of the plates may include an opening through which working fluid may be introduced into the closed volume. After filling with working fluid, the plates may be sealingly joined at one or more joints that extend chordwise across the closed periphery, e.g., so a portion of the plate that defines the opening can be removed from the device.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • H01L 23/427 - Cooling by change of state, e.g. use of heat pipes

9.

Method and apparatus for forming liquid filled heat transfer device

      
Application Number 17009054
Grant Number 12163739
Status In Force
Filing Date 2020-09-01
First Publication Date 2021-03-04
Grant Date 2024-12-10
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Cennamo, John R.
  • Mcpherson, Christopher

Abstract

A heat transfer device includes three plates sandwiched together to form a vapor chamber or similar device. The three plates may be sealingly joined at a closed periphery to define a closed volume that contains a working fluid. One or more of the three plates may include structure to support capillary or other working fluid flow in the closed volume, e.g., a center plate may include openings and/or other structure to permit working fluid flow through and/or along the plate. An outer one of the plates may include an opening through which working fluid may be introduced into the closed volume. After filling with working fluid, the plates may be sealingly joined at one or more joints that extend chordwise across the closed periphery, e.g., so a portion of the plate that defines the opening can be removed from the device.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • F28D 15/04 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes with tubes having a capillary structure
  • F28F 3/02 - Elements or assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with recesses, with corrugations
  • F28F 3/08 - Elements constructed for building-up into stacks, e.g. capable of being taken apart for cleaning

10.

Heat dissipating fin with thermosiphon

      
Application Number 16531517
Grant Number 11454462
Status In Force
Filing Date 2019-08-05
First Publication Date 2021-02-11
Grant Date 2022-09-27
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Whitney, Bradley R.
  • Turmelle, Chad
  • Cook, Randolph H.

Abstract

A heat transfer device such as a heat sink includes one or more fins for dissipating heat received from a heat source, such as an integrated circuit or other electronic component. A thermosiphon component including a tube that defines a closed, continuous loop and contains a working fluid is attached to a face of a corresponding fin and is arranged to operate as a two-phase thermosiphon to transfer heat across areas of the fin. The heat transfer may equalize temperatures across the fin, enhancing efficiency.

IPC Classes  ?

  • F28F 13/06 - Arrangements for modifying heat transfer, e.g. increasing, decreasing by affecting the pattern of flow of the heat-exchange media
  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes

11.

HEAT PIPE ASSEMBLY AND METHOD

      
Application Number 16878965
Status Pending
Filing Date 2020-05-20
First Publication Date 2020-11-26
Owner Thermal Corp. (USA)
Inventor
  • North, Mark T.
  • Hidalgo, Pablo
  • Gernert, Nelson J.

Abstract

A heat transfer system includes a housing, an annealed heat pipe coupled to the housing, and a heat source coupled to the housing. The heat pipe exerts a biasing force in a direction toward the heat source when the heat pipe is in thermal communication with the heat source.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes

12.

VAPOR CHAMBER THERMAL STRAP ASSEMBLY AND METHOD

      
Application Number US2020033197
Publication Number 2020/232377
Status In Force
Filing Date 2020-05-15
Publication Date 2020-11-19
Owner THERMAL CORP. (USA)
Inventor
  • Toth, Jerome
  • Whitney, Bradley R.

Abstract

A heat transfer system includes a first vapor chamber, a second vapor chamber spaced from the first vapor chamber, and a flexible thermal strap disposed between and coupled to both the first vapor chamber and the second vapor chamber. The flexible thermal strap permits the second vapor chamber to rotate relative to the first vapor chamber.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • H01L 23/34 - Arrangements for cooling, heating, ventilating or temperature compensation
  • G06F 1/20 - Cooling means

13.

HEAT TRANSFER DEVICE FOR FREEZE / THAW CONDITIONS

      
Application Number 16732629
Status Pending
Filing Date 2020-01-02
First Publication Date 2020-07-02
Owner THERMAL CORP. (USA)
Inventor
  • Thayer, John
  • Semenov, Sergey
  • Gernert, Nelson J.

Abstract

A heat transfer device includes a hollow metal body. The hollow body defines a wall having a thickness, an internal chamber defined at least in part by the wall, a vacuum defined in the internal chamber, a seam defined between two different portions of the wall and extending through the thickness of the wall, a brazing material applied to the seam to hermetically seal the internal chamber and maintain the vacuum in the internal chamber, an evaporation region in which heat is received in the hollow metal body, and a condenser region from which heat is discharged from the hollow metal body. The heat transfer device further includes a charge of ice within the internal chamber, the charge of ice sufficiently large to define, when in a thawed state, a working fluid drawing heat from the evaporator region and discharging heat from the condenser region in a working cycle of the heat transfer device.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • F28D 15/04 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes with tubes having a capillary structure

14.

HEAT PIPES HAVING WICK STRUCTURES WITH VARIABLE PERMEABILITY

      
Application Number US2019041921
Publication Number 2020/018484
Status In Force
Filing Date 2019-07-16
Publication Date 2020-01-23
Owner THERMAL CORP. (USA)
Inventor North, Mark, T.

Abstract

A heat pipe is provided having a hollow body defining an interior vapor space, evaporator and condenser regions, a wick structure lining an inner wall of the hollow body, and a working fluid disposed in the hollow body, wherein a path for the working fluid in liquid state extends from the condenser region toward the evaporator region or wherein the wick structure extends along a direction from a first end of the hollow body toward the second end, and wherein the wick structure includes first and second regions that extend along the path or direction and that each have wick particles defining respective pore sizes that are different from one another.

IPC Classes  ?

  • F28D 15/04 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes with tubes having a capillary structure
  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • H01L 23/427 - Cooling by change of state, e.g. use of heat pipes

15.

THERMAL MANAGEMENT SYSTEM

      
Application Number US2018063340
Publication Number 2019/108950
Status In Force
Filing Date 2018-11-30
Publication Date 2019-06-06
Owner THERMAL CORP. (USA)
Inventor
  • Mcglen, Ryan, J.
  • Lynn, Kevin, V.

Abstract

A device for removal of heat from a plurality of heat sources includes a first manifold to receive a working fluid, and a plurality of elongated intermediate frame members each in thermal communication with at least one of the plurality of heat sources. Each intermediate frame member includes a microchannel in fluid communication with the first manifold to receive the working fluid from the first manifold. Each elongated intermediate frame member includes a slot extending along a longitudinal axis of the heat transfer device. The device further includes a second manifold spaced from the first manifold and in fluid communication with the plurality of intermediate frame members to receive the working fluid from each microchannel in the plurality of intermediate frame members. The second manifold is configured to transfer the working fluid away from the plurality of heat sources.

IPC Classes  ?

  • B60L 58/00 - Methods or circuit arrangements for monitoring or controlling batteries or fuel cells, specially adapted for electric vehicles
  • H01M 2/00 - Constructional details, or processes of manufacture, of the non-active parts
  • H01M 10/00 - Secondary cellsManufacture thereof
  • H01M 10/60 - Heating or coolingTemperature control
  • H01M 10/62 - Heating or coolingTemperature control specially adapted for specific applications
  • H01M 10/65 - Means for temperature control structurally associated with the cells

16.

AAVID

      
Serial Number 88232955
Status Registered
Filing Date 2018-12-18
Registration Date 2019-12-24
Owner AAVID THERMALLOY, LLC ()
NICE Classes  ? 42 - Scientific, technological and industrial services, research and design

Goods & Services

Providing temporary use of non-downloadable cloud-based software for the thermal aspects of product design, for use in running simulations of product thermal performance and thermal management, and for providing recommendations for thermal solutions for such products

17.

Azeotropic working fluids and thermal management systems utilizing the same

      
Application Number 15711953
Grant Number 10648745
Status In Force
Filing Date 2017-09-21
First Publication Date 2018-06-21
Grant Date 2020-05-12
Owner THERMAL CORP. (USA)
Inventor
  • Gernert, Nelson J.
  • Rosenfeld, John H.
  • North, Mark T.

Abstract

A thermal management system includes a heat transport component and a water-based azeotropic mixture disposed within the heat transport component to move heat from one portion of the heat transport component to another. The mixture includes at least 50% water.

IPC Classes  ?

  • F28D 15/04 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes with tubes having a capillary structure
  • C09K 5/04 - Materials undergoing a change of physical state when used the change of state being from liquid to vapour or vice-versa
  • C09K 5/20 - Antifreeze additives therefor, e.g. for radiator liquids

18.

Thermosiphon with multiport tube and flow arrangement

      
Application Number 15786926
Grant Number 10989483
Status In Force
Filing Date 2017-10-18
First Publication Date 2018-02-08
Grant Date 2021-04-27
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Espersen, Morten Søegaard
  • Angrisani, Maria Luisa
  • La Foresta, Marco
  • Kang, Sukhvinder S.

Abstract

A thermosiphon device includes one or more flat multiport tube structures having at least one section that defines a plurality of flow channels and at least one web that extends from the section in a plane of the flat multiport tube structures. The flow channels may function as condensing channels, e.g., in a counterflow device, or as evaporation channels. A multiport tube structure may include two sections that each define a plurality of flow channels and the two sections may be joined by a web that extends between the sections in the plane of the multiport tube structure. The sections may function as condensing channels, as evaporation channels, or one section may function as a set of evaporation channel and the other section may function as a set of condensing channels. Multiport tube sections may alternately function as a vapor supply path or liquid return path.

IPC Classes  ?

  • F28D 15/04 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes with tubes having a capillary structure
  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • F28D 1/053 - Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with the heat-exchange conduits immersed in the body of fluid with tubular conduits the conduits being straight
  • F28F 1/12 - Tubular elements or assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with projections, with recesses the means being only outside the tubular element

19.

Electronics rack with selective engagement of heat sink

      
Application Number 15441792
Grant Number 10136556
Status In Force
Filing Date 2017-02-24
First Publication Date 2017-08-24
Grant Date 2018-11-20
Owner THERMAL CORP. (USA)
Inventor
  • Bilski, Walter John
  • Kosta, Sidrit

Abstract

An electronics rack comprising a frame, a heat sink coupled to the frame, and a cage adapted to support an electronic component. The cage is movable between first and second positions toward and away from the heat sink. The rack further includes an eccentric cam operatively positioned between the frame and the cage and being rotatable to move the cage between the first and second positions. In one embodiment, the cage comprises a cooling brick movable toward and away from the heat sink when the cage moves between the first and second positions. The cooling brick can include a first heat pipe extending generally in a first direction and a second heat pipe extending generally in a second direction transverse to the first direction. For example, the first heat pipe can be embedded in a top plate and the second heat pipe can be embedded in a top cold rail.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • H05K 7/14 - Mounting supporting structure in casing or on frame or rack

20.

Electronics rack with compliant heat pipe

      
Application Number 15441807
Grant Number 10349557
Status In Force
Filing Date 2017-02-24
First Publication Date 2017-08-24
Grant Date 2019-07-09
Owner THERMAL CORP. (USA)
Inventor
  • Bilski, Jr., Walter John
  • Kosta, Sidrit

Abstract

An electronics rack comprising a first cage, a first heat sink positioned at a rear and in thermal communication with the first cage, a second cage positioned above the first cage, and a second heat sink in thermal communication with the second cage. In another aspect, the present invention provides an electronics rack comprising a frame, a cage, a heat sink positioned at a rear of the frame, and a compliant thermal collector operatively positioned between the cage and the heat sink. The compliant thermal collector can comprise a heat pipe having a non-linear shape that facilitates flexing of the heat pipe to change the length of the thermal collector. The thermal collector advantageously includes a plurality of heat pipes and a contact bar coupling the plurality of heat pipes. Preferably, the rack further includes an adjusting mechanism (e.g., threaded rods) for adjusting a position of the contact bar.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating

21.

Thermosiphon with integrated components

      
Application Number 15444743
Grant Number 10054371
Status In Force
Filing Date 2017-02-28
First Publication Date 2017-06-15
Grant Date 2018-08-21
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Espersen, Morten Søegaard
  • Moruzzi, Marco
  • Jensen, Dennis N.
  • Kang, Sukhvinder S.

Abstract

A thermosiphon device includes an evaporator section that is formed as a single integrated part including one or more evaporation channels and a liquid return path, and/or includes a condenser section that is formed as a single integrated part including one or more condensing channels and a vapor supply path. A single manifold may include vapor and liquid chambers that are separate from each other and that fluidly connect evaporation channels with the vapor supply path and fluidly connect condensing channels with the liquid return path, respectively. Portions of the evaporator or condenser section that define the liquid return path or vapor supply path, respectively, may be free of any fins or other thermal transfer structure.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • H01L 23/427 - Cooling by change of state, e.g. use of heat pipes
  • H01L 23/367 - Cooling facilitated by shape of device

22.

S2S

      
Application Number 016134884
Status Registered
Filing Date 2016-12-05
Registration Date 2017-07-19
Owner Aavid Thermalloy, LLC (USA)
NICE Classes  ?
  • 11 - Environmental control apparatus
  • 37 - Construction and mining; installation and repair services
  • 42 - Scientific, technological and industrial services, research and design

Goods & Services

Cold plates; cooling loops for cooling apparatus; heat sinks for cooling or heating apparatus; heat exchangers; manifolds and cooling distribution units for heat removal. Installation of heat removal and cooling systems. Design of heat removal and cooling systems; development of heat removal and cooling systems.

23.

SILICON TO SKY

      
Application Number 016134901
Status Registered
Filing Date 2016-12-05
Registration Date 2017-07-19
Owner Aavid Thermalloy, LLC (USA)
NICE Classes  ?
  • 11 - Environmental control apparatus
  • 37 - Construction and mining; installation and repair services
  • 42 - Scientific, technological and industrial services, research and design

Goods & Services

Cold plates; cooling loops for cooling apparatus; heat sinks for cooling or heating apparatus; heat exchangers; manifolds and cooling distribution units for heat removal. Installation of heat removal and cooling systems. Design of heat removal and cooling systems; development of heat removal and cooling systems.

24.

AAVID Kunze

      
Application Number 016044554
Status Registered
Filing Date 2016-11-16
Registration Date 2017-05-24
Owner Aavid Thermalloy, LLC (USA)
NICE Classes  ?
  • 09 - Scientific and electric apparatus and instruments
  • 40 - Treatment of materials; recycling, air and water treatment,
  • 42 - Scientific, technological and industrial services, research and design

Goods & Services

Heat sinks for use in electronic components. Custom manufacturing in the field of heat sinks. Research and development in the field of heat sinks.

25.

PLANAR SPRING FOR FLUID MOVER

      
Application Number US2016029111
Publication Number 2016/176132
Status In Force
Filing Date 2016-04-25
Publication Date 2016-11-03
Owner AAVID THERMALLOY, LLC (USA)
Inventor Lucas, Timothy, Swain

Abstract

A fluid mover includes a chamber with one or more outlet openings, first and/or second fluidic diaphragm(s) having a fluid-moving portion movable in the chamber to cause fluid to move at the outlet opening, and a coil assembly magnetically coupled to the fluidic diaphragm to move the movable portion of the fluidic diaphragm(s) in response to a current in the coil. A spring portion of the fluidic diaphragm(s) may be separate from the fluid-moving portion and be arranged to exert a spring bias on the fluid-moving portion. The spring portion may include two or more spring elements that each includes a chord portion and a radial portion. The chord portion may be attached to the chamber housing at opposite ends, and the radial portion may extend radially inward from the chord portion from an intermediate point between the opposite ends to a center of the diaphragm.

IPC Classes  ?

  • F04B 43/00 - Machines, pumps, or pumping installations having flexible working members
  • F04B 43/04 - Pumps having electric drive
  • F04B 45/047 - Pumps having electric drive

26.

THERMOSIPHON WITH MULTIPORT TUBE AND FLOW ARRANGEMENT

      
Application Number US2016028342
Publication Number 2016/172141
Status In Force
Filing Date 2016-04-20
Publication Date 2016-10-27
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Espersen, Morten, Søegaard
  • Angrisani, Maria, Luisa
  • La Foresta, Marco
  • Kang, Sukhvinder, S.

Abstract

A thermosiphon device includes one or more flat multiport tube structures having at least one section that defines a plurality of flow channels and at least one web that extends from the section in a plane of the flat multiport tube structures. The flow channels may function as condensing channels, e.g., in a counterflow device, or as evaporation channels. A multiport tube structure may include two sections that each define a plurality of flow channels and the two sections may be joined by a web that extends between the sections in the plane of the multiport tube structure. The sections may function as condensing channels, as evaporation channels, or one section may function as a set of evaporation channel and the other section may function as a set of condensing channels. Multiport tube sections may alternately function as a vapor supply path or liquid return path.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • F28D 1/053 - Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with the heat-exchange conduits immersed in the body of fluid with tubular conduits the conduits being straight

27.

THERMOSIPHON WITH BENT TUBE SECTION

      
Application Number US2015049358
Publication Number 2016/044052
Status In Force
Filing Date 2015-09-10
Publication Date 2016-03-24
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Espersen, Morten, Søegaard
  • Angrisani, Maria, Luisa
  • Jensen, Dennis, N.
  • Kang, Sukhvinder, S.

Abstract

A thermosiphon device (1) including one or more multi-port tubes (5) that form both an evaporator section (11) and a condenser section (10) for the device. The one or more tubes may be flat tubes with multiple, parallel flow channels, and may be bent to form a bend (13) between the evaporator and condenser sections of the tube(s). One or more flow channels (22) of the tube at the bend may provide a vapor flow path or a liquid flow path between the evaporator and condenser sections.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes

28.

Thermosiphon with bent tube section

      
Application Number 14850002
Grant Number 10655920
Status In Force
Filing Date 2015-09-10
First Publication Date 2016-03-17
Grant Date 2020-05-19
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Espersen, Morten Søegaard
  • Angrisani, Maria Luisa
  • Jensen, Dennis N.
  • Kang, Sukhvinder S.

Abstract

A thermosiphon device including one or more multi-port tubes that form both an evaporator section and a condenser section for the device. The one or more tubes may be flat tubes with multiple, parallel flow channels, and may be bent to form a bend between the evaporator and condenser sections of the tube(s). One or more flow channels of the tube at the bend may provide a vapor flow path or a liquid flow path between the evaporator and condenser sections.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes

29.

EVAPORATOR AND CONDENSER SECTION STRUCTURE FOR THERMOSIPHON

      
Application Number US2015048162
Publication Number 2016/036867
Status In Force
Filing Date 2015-09-02
Publication Date 2016-03-10
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Espersen, Morten, Søegaard
  • Angrisani, Maria, Luisa
  • Jensen, Dennis, N.
  • Kang, Sukhvinder, S.

Abstract

A thermosiphon device (10) includes a closed loop evaporator section (2) having one or more evaporation channels (22) that are fed by a liquid return path (21), and a condenser section (1) with one or more condensing channels (12). The condenser section may include a vapor supply path (11) that is adjacent one or more condensing channels, e.g., located between two sets of condensing channels. Evaporator and/or condenser sections may be made from a single, flat bent tube, which may be bent about an axis parallel to the plane of the flat tube to form a turnaround and/or twisted about an axis along a length of the tube at the tube ends. A single tube (25) may form both evaporator and condenser sections of a thermosiphon device, and an axially extending wall (23) inside the tube in the evaporator section may separate an evaporator section from a liquid return section.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes

30.

THERMOSIPHON WITH INTEGRATED COMPONENTS

      
Application Number US2014053131
Publication Number 2016/032482
Status In Force
Filing Date 2014-08-28
Publication Date 2016-03-03
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Espersen, Morten, Søegaard
  • Moruzzi, Marco
  • Jensen, Dennis, N.
  • Kang, Sukhvinder, S.

Abstract

A thermosiphon device includes an evaporator section that is formed as a single integrated part including one or more evaporation channels and a liquid return path, and/or includes a condenser section that is formed as a single integrated part including one or more condensing channels and a vapor supply path. A single manifold may include vapor and liquid chambers that are separate from each other and that fluidly connect evaporation channels with the vapor supply path and fluidly connect condensing channels with the liquid return path, respectively. Portions of the evaporator or condenser section that define the liquid return path or vapor supply path, respectively, may be free of any fins or other thermal transfer structure.

IPC Classes  ?

  • F28D 15/02 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes
  • H01L 23/427 - Cooling by change of state, e.g. use of heat pipes

31.

PLANAR COIL AND SUPPORT FOR ACTUATOR OF FLUID MOVER

      
Application Number US2015027969
Publication Number 2015/171359
Status In Force
Filing Date 2015-04-28
Publication Date 2015-11-12
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Kang, Sukhvinder, S.
  • Lucas, Timothy, Swain

Abstract

A fluid mover includes a chamber with one or more outlet openings, first and/or second fluidic diaphragm(s) having a portion movable in the chamber to cause fluid to move at the outlet opening, and a coil assembly magnetically coupled to the fluidic diaphragm to move the movable portion of the fluidic diaphragm(s) in response to a current in the coil. The coil assembly includes a coil with an opening, and a plug may be positioned in the opening and/or a support may be positioned around a periphery of the coil. The plug and/or the support may have a magnetic permeability greater than one and be arranged so magnetic field lines created by the coil pass through the plug and/or support. The coil, plug and/or support may define a flat surface, e.g., such that a uniform gap is present between the diaphragm(s) and the coil, plug and/or support.

IPC Classes  ?

32.

Planar coil and support for actuator of fluid mover

      
Application Number 14697971
Grant Number 10077768
Status In Force
Filing Date 2015-04-28
First Publication Date 2015-11-05
Grant Date 2018-09-18
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Kang, Sukhvinder S.
  • Lucas, Timothy Swain

Abstract

A fluid mover includes a chamber with one or more outlet openings, first and/or second fluidic diaphragm(s) having a portion movable in the chamber to cause fluid to move at the outlet opening, and a coil assembly magnetically coupled to the fluidic diaphragm to move the movable portion of the fluidic diaphragm(s) in response to a current in the coil. The coil assembly includes a coil with an opening, and a plug may be positioned in the opening and/or a support may be positioned around a periphery of the coil. The plug and/or the support may have a magnetic permeability greater than one and be arranged so magnetic field lines created by the coil pass through the plug and/or support. The coil, plug and/or support may define a flat surface, e.g., such that a uniform gap is present between the diaphragm(s) and the coil, plug and/or support.

IPC Classes  ?

  • F04B 45/047 - Pumps having electric drive
  • H02K 33/16 - Motors with reciprocating, oscillating or vibrating magnet, armature or coil system with polarised armatures moving in alternate directions by reversal or energisation of a single coil system
  • F04B 45/04 - Pumps or pumping installations having flexible working members and specially adapted for elastic fluids having plate-like flexible members, e.g. diaphragms
  • F04B 43/04 - Pumps having electric drive

33.

Synthetic jet ejector and design thereof to facilitate mass production

      
Application Number 14291729
Grant Number 09452463
Status In Force
Filing Date 2014-05-30
First Publication Date 2015-08-13
Grant Date 2016-09-27
Owner Nuventix, Inc. (USA)
Inventor
  • Grimm, Daniel N.
  • Darbin, Stephen P.
  • Poynot, Andrew

Abstract

A method is provided for making a synthetic jet ejector. The method comprises (a) providing first and second voice coil bodies (131) having first and second sets of channels defined therein, respectively; (b) inserting first and second sets of electrically conductive terminals (139) into the first and second sets of channels, respectively; (c) wrapping first and second coils of wire (151) around said first and second voice coil bodies, respectively, such that the first coil is in electrical contact with the first set of terminals and such that the second coil is in electrical contact with the second set of terminals; (d) forming a voice coil subassembly by attaching first and second ends of a flexible, electrically conductive connector (161) to said first and second voice coil bodies, respectively, wherein the first end of the connector is attached such that it is in electrical contact with the first set of terminals, and wherein the second end of the connector is attached such that it is in electrical contact with the second set of terminals; and (e) incorporating the voice coil subassembly into a synthetic jet ejector (103) having first and second voice coils such that said first coil forms a portion of said first voice coil, and such that said second coil forms a portion of said second voice coil.

IPC Classes  ?

  • H01F 41/02 - Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformersApparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils or magnets
  • B21D 53/02 - Making other particular articles heat exchangers, e.g. radiators, condensers
  • H01F 41/04 - Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformersApparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils or magnets for manufacturing coils
  • H02K 15/00 - Processes or apparatus specially adapted for manufacturing, assembling, maintaining or repairing of dynamo-electric machines
  • H01F 41/10 - Connecting leads to windings
  • H04R 9/04 - Construction, mounting, or centering of coil
  • H02K 15/08 - Forming windings by laying conductors into or around core parts
  • F25D 15/00 - Devices associated with refrigerating machinery not covered by group or , e.g. non-self-contained movable devices
  • H02K 33/12 - Motors with reciprocating, oscillating or vibrating magnet, armature or coil system with armatures moving in alternate directions by alternate energisation of two coil systems
  • F04F 5/00 - Jet pumps, i.e. devices in which fluid flow is induced by pressure drop caused by velocity of another fluid flow

34.

HEAT SINK ASSEMBLY WITH FRAME CLIP FOR FULLY ASSEMBLED ATTACHMENT TO HEAT GENERATING COMPONENT

      
Application Number CN2013084667
Publication Number 2015/042931
Status In Force
Filing Date 2013-09-30
Publication Date 2015-04-02
Owner AAVID THERMALLOY, LLC. (USA)
Inventor
  • Tan, Rui Sheng
  • Kang, Sukhvinder S.

Abstract

An assembly for engaging a heat sink with an electrical component heat source includes a first retaining device with a frame that defines an opening to receive at least a portion of the heat sink and/or the heat source. The frame may be assembled with a heat sink and a retainer element arranged to resiliently bias the heat sink into contact with the heat source, and thereafter the heat sink assembly may be engaged with a heat source. A contact plate of the heat sink may be positioned into the opening of the frame from a top of the frame, i.e., inserted in a top-down direction, and the frame may be arranged for engagement with a tool to mount the fully assembled heat sink, frame and retainer element combination to the heat source.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • H01L 23/40 - Mountings or securing means for detachable cooling or heating arrangements

35.

SPLIT FLUIDIC DIAPHRAGM

      
Application Number US2014055997
Publication Number 2015/042098
Status In Force
Filing Date 2014-09-17
Publication Date 2015-03-26
Owner AAVID THERMALLOY, LLC (USA)
Inventor Lucas, Timothy, Swain

Abstract

A diaphragm (2) for a fluid mover, such as a synthetic jet device, includes separate concentric substrate sections (2a, 2b). The substrate sections (2a, 2b) may be joined together by a resilient material at a junction (16) between the sections (2a, 2b), and the sections (2a, 2b) may include intermeshed cantilever tabs (18). The substrate sections (2a, 2b) may be joined to resist pressure-induced ballooning or similar deformation, yet allow for relatively large axial deformation. A fluid mover comprising such a diaphragm (2) is also disclosed.

IPC Classes  ?

  • F04B 43/00 - Machines, pumps, or pumping installations having flexible working members
  • F04B 45/04 - Pumps or pumping installations having flexible working members and specially adapted for elastic fluids having plate-like flexible members, e.g. diaphragms
  • F04B 43/02 - Machines, pumps, or pumping installations having flexible working members having plate-like flexible members, e.g. diaphragms
  • F16J 3/02 - Diaphragms

36.

Fastener assembly and method for heat sink mounting

      
Application Number 14446506
Grant Number 09423191
Status In Force
Filing Date 2014-07-30
First Publication Date 2014-12-04
Grant Date 2016-08-23
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Whitney, Bradley R.
  • Cook, Randolph H.

Abstract

Method and assembly for attaching a heat sink to a heat source surface associated with a printed circuit board or other component having a heat source. A fastener assembly may include a push pin with a barbed, bifurcated end arranged to be inserted through an opening of the printed circuit board and thereby secure the heat sink to the printed circuit board. A stopper may be headless, be separable from the push pin, and have a portion, such as a barrel-shaped element, positionable in a throughbore of the push pin that supports the bifurcated end so that movement of the barbed portions toward each other is resisted, thereby securing engagement of the barbed portions with the printed circuit board.

IPC Classes  ?

  • B25G 3/00 - Attaching handles to the implements
  • F16D 1/00 - Couplings for rigidly connecting two coaxial shafts or other movable machine elements
  • F28F 9/26 - Arrangements for connecting different sections of heat-exchange elements, e.g. of radiators
  • H01L 23/40 - Mountings or securing means for detachable cooling or heating arrangements
  • B23P 15/26 - Making specific metal objects by operations not covered by a single other subclass or a group in this subclass heat exchangers
  • F16B 21/12 - Means without screw-thread for preventing relative axial movement of a pin, spigot, shaft, or the like and a member surrounding itStud-and-socket releasable fastenings without screw-thread by separate parts with locking-pins or split-pins thrust into holes
  • F28F 3/02 - Elements or assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with recesses, with corrugations
  • F16B 21/06 - Releasable fastening devices with snap action
  • F16B 21/08 - Releasable fastening devices with snap action in which the stud, pin, or spigot has a resilient part

37.

SYSTEM AND METHOD FOR COOLING HEAT GENERATING COMPONENTS

      
Application Number US2014021476
Publication Number 2014/149909
Status In Force
Filing Date 2014-03-07
Publication Date 2014-09-25
Owner AAVID THERMALLOY, LLC (USA)
Inventor Kang, Sukhvinder, S.

Abstract

An assembly for cooling heat generating components, such as power electronics, computer processors and other devices. Multiple components may be mounted to a support and cooled by a flow of cooling fluid. A single cooling fluid inlet and outlet may be provided for the support, yet multiple components, including components that have different heat removal requirements may be suitably cooled. One or more manifold elements may provide cooling fluid flow paths that contact a heat transfer surface of a corresponding component to receive heat.

IPC Classes  ?

38.

System and method for cooling heat generating components

      
Application Number 13826450
Grant Number 09042100
Status In Force
Filing Date 2013-03-14
First Publication Date 2014-09-18
Grant Date 2015-05-26
Owner Aavid Thermalloy, LLC (USA)
Inventor Kang, Sukhvinder S.

Abstract

An assembly for cooling heat generating components, such as power electronics, computer processors and other devices. Multiple components may be mounted to a support and cooled by a flow of cooling fluid. A single cooling fluid inlet and outlet may be provided for the support, yet multiple components, including components that have different heat removal requirements may be suitably cooled. One or more manifold elements may provide cooling fluid flow paths that contact a heat transfer surface of a corresponding component to receive heat.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • G06F 1/20 - Cooling means

39.

Synthetic jet actuator equipped with entrainment features

      
Application Number 14195162
Grant Number 09184109
Status In Force
Filing Date 2014-03-03
First Publication Date 2014-09-11
Grant Date 2015-11-10
Owner Nuventix, Inc. (USA)
Inventor Poynot, Andrew

Abstract

2}, wherein r ε I∪J.

IPC Classes  ?

  • H01L 23/46 - Arrangements for cooling, heating, ventilating or temperature compensation involving the transfer of heat by flowing fluids
  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • H01L 23/467 - Arrangements for cooling, heating, ventilating or temperature compensation involving the transfer of heat by flowing fluids by flowing gases, e.g. air
  • H05B 33/08 - Circuit arrangements for operating electroluminescent light sources
  • G06F 1/20 - Cooling means

40.

SYSTEM AND METHOD FOR GEOTHERMAL HEAT HARVESTING

      
Application Number US2013071149
Publication Number 2014/081911
Status In Force
Filing Date 2013-11-21
Publication Date 2014-05-30
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Kang, Sukhvinder, S.
  • Cook, Randolph, H.
  • Nicolato, Joseph, Edward
  • Hall, Jonathan, James

Abstract

A system and method for deploying a heat harvesting system and for harvesting heat from a geothermal well using one or more heat pipes. A heat exchanger may receive heat from one or more heat pipes for transfer to a heat receiving component. The heat pipes may be thermally coupled to the heat exchanger via a thermal gap material having a relatively low thermal conductivity. A mounting component may engage heat pipes and define a thermal gap between the heat pipes and heat exchanger. A heat spreader, having a relatively high thermal conductivity, may be used to transfer heat from the heat pipes to the thermal gap material and help define a working temperature for the heat pipes. A heat pipe deployment system may include anti-buckling supports and/or a guide to help keep the heat pipes from buckling and to guide the heat pipes into corresponding well bores during deployment.

IPC Classes  ?

  • F24J 3/08 - using geothermal heat (devices for producing mechanical power from geothermal energy F03G 4/00)

41.

Thermal management of LED-based illumination devices with synthetic jet ejectors

      
Application Number 13969976
Grant Number 09016903
Status In Force
Filing Date 2013-08-19
First Publication Date 2014-01-30
Grant Date 2015-04-28
Owner Nuventix, Inc. (USA)
Inventor
  • Mahalingam, Raghavendran
  • Heffington, Samuel Neil
  • Darbin, Stephen P.
  • Grimm, Daniel N.

Abstract

An illumination device 1701 is provided which includes a light emitting portion 1703; an LED 1715 disposed within said light emitting portion; a threaded connector module 1705 adapted to rotatingly engage said illumination device to a source of electricity; a heat sink 1759 disposed between said light emitting portion and said connector module; and a synthetic jet ejector 1709 disposed between said light emitting portion and said connector module.

IPC Classes  ?

  • F21V 29/00 - Protecting lighting devices from thermal damageCooling or heating arrangements specially adapted for lighting devices or systems
  • F21K 99/00 - Subject matter not provided for in other groups of this subclass
  • F21V 3/00 - GlobesBowlsCover glasses
  • F21Y 101/02 - Miniature, e.g. light emitting diodes (LED)
  • F21V 3/02 - GlobesBowlsCover glasses characterised by the shape
  • F21Y 111/00 - Light sources of a form not covered by groups
  • F21Y 113/00 - Combination of light sources
  • F21V 29/02 - Cooling by forcing air over or around the light source (cooling arrangements structurally associated with electric lamps H01J 61/52, H01K 1/58)

42.

Thermal transfer device with spiral fluid pathways

      
Application Number 14003511
Grant Number 09568257
Status In Force
Filing Date 2011-03-07
First Publication Date 2014-01-23
Grant Date 2017-02-14
Owner Aavid Thermalloy, LLC (USA)
Inventor Moruzzi, Marco

Abstract

A thermal transfer device comprising a thermal transfer surface and a passageway for conducting a thermal transfer fluid from an inlet to an outlet while passing in thermal contact with the thermal transfer surface. The passageway has at least two spiral passages and a connection channel connecting the at least two spiral passages to permit flow of the heat transfer fluid from a first spiral passage to a second spiral passage; thereby forming a path for the flow of the thermal fluid from the inlet, through the passageway, along the first spiral passage to the connection channel, then along the connection channel to the second spiral passage, and then to the outlet.

IPC Classes  ?

  • F28F 1/00 - Tubular elementsAssemblies of tubular elements
  • F28D 7/02 - Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits being helically coiled
  • F28D 9/00 - Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
  • F28F 3/06 - Elements or assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with recesses, with corrugations the means being attachable to the element
  • F28F 13/12 - Arrangements for modifying heat transfer, e.g. increasing, decreasing by affecting the pattern of flow of the heat-exchange media by creating turbulence, e.g. by stirring, by increasing the force of circulation
  • F28F 1/40 - Tubular elements or assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with projections, with recesses the means being only inside the tubular element
  • F28F 3/08 - Elements constructed for building-up into stacks, e.g. capable of being taken apart for cleaning
  • F28F 1/36 - Tubular elements or assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with projections, with recesses the means being only outside the tubular element and extending obliquely the means being helically-wound fins or wire spirals
  • H01L 23/473 - Arrangements for cooling, heating, ventilating or temperature compensation involving the transfer of heat by flowing fluids by flowing liquids
  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • F28D 21/00 - Heat-exchange apparatus not covered by any of the groups

43.

HEAT SINK ASSEMBLY WITH OPENABLE FRAME CLIP

      
Application Number CN2012077141
Publication Number 2013/189023
Status In Force
Filing Date 2012-06-19
Publication Date 2013-12-27
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Tan, Rui Sheng
  • Sommer, John
  • Mu, Xing Wen

Abstract

An assembly for engaging a heat sink with an electrical component heat source includes a first retaining device with a frame that defines an opening to receive at least a portion of the heat sink and/or the heat source. The frame may form an interrupted loop around the opening with first and second free ends that are movable to adjust a size of the opening. Movement of the free ends may be performed by hand, and without the use of tools, allowing for tool free engagement/disengagement with the heat source. The free ends or other portion of the first retaining device may be engaged by a second retaining device to keep the first retaining device engaged with the heat source and/or heat sink. The second retaining device may also, or alternately, engage with the first retaining device to resiliently bias the heat sink into contact with the heat source.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • G06F 1/16 - Constructional details or arrangements

44.

SYNTHETIC JET EJECTORS WITH IMPROVED MANUFACTURABILITY

      
Application Number US2013033770
Publication Number 2013/142880
Status In Force
Filing Date 2013-03-25
Publication Date 2013-09-26
Owner NUVENTIX, INC. (USA)
Inventor
  • Grimm, Daniel, N.
  • Poynot, Andrew
  • Williams, Randall, P.
  • Darbin, Stephen, P.
  • Jones, Lee, M.
  • Mahalingam, Raghavendran

Abstract

A synthetic jet ejector (201) is provided which includes a chassis (203); first (205) and second (207) opposing synthetic jet actuators mounted in the chassis; and a controller (209) which controls the first and second synthetic jet actuators and which is in electrical contact with the first and second synthetic jet actuators by way of flexible circuitry (211, 213).

IPC Classes  ?

  • F28F 13/00 - Arrangements for modifying heat transfer, e.g. increasing, decreasing
  • B21D 53/02 - Making other particular articles heat exchangers, e.g. radiators, condensers
  • H01R 13/66 - Structural association with built-in electrical component

45.

FASTENER ASSEMBLY AND METHOD FOR HEAT SINK MOUNTING

      
Application Number US2013024285
Publication Number 2013/116601
Status In Force
Filing Date 2013-02-01
Publication Date 2013-08-08
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Whitney, Bradley, R.
  • Cook, Randolph, H.

Abstract

Method and assembly for attaching a heat sink to a heat source surface associated with a printed circuit board or other component having a heat source. A fastener assembly may include a push pin with a barbed, bifurcated end arranged to be inserted through an opening of the printed circuit board and thereby secure the heat sink to the printed circuit board. A stopper may be headless, be separable from the push pin, and have a portion, such as a barrel-shaped element, positionable in a throughbore of the push pin that supports the bifurcated end so that movement of the barbed portions toward each other is resisted, thereby securing engagement of the barbed portions with the printed circuit board.

IPC Classes  ?

  • H01L 23/40 - Mountings or securing means for detachable cooling or heating arrangements
  • F16B 21/06 - Releasable fastening devices with snap action
  • F16B 21/08 - Releasable fastening devices with snap action in which the stud, pin, or spigot has a resilient part

46.

Cylindrical bonded magnet structure

      
Application Number 13822636
Grant Number 08830019
Status In Force
Filing Date 2011-09-27
First Publication Date 2013-07-04
Grant Date 2014-09-09
Owner
  • Nichia Corporation (Japan)
  • I&P Co., Ltd. (Japan)
  • K Technology Corporation (Japan)
Inventor
  • Ihara, Kohei
  • Matsumura, Syuji
  • Nishino, Keiki

Abstract

The structure includes cylindrical columnar and tubular bonded magnets. The columnar magnet has at least one pair of N and S poles that are alternately produced in the longitudinal direction. The tubular magnet surrounds the columnar magnet, and has at least one pair of N and S poles that are alternately produced in the longitudinal direction. Poles of the columnar and tubular magnets that are opposed to each other in the direction perpendicular to the axis of the columnar magnet as the propulsion force direction are of opposite magnetic polarity so that magnetic fields are produced in the direction perpendicular to the propulsion force direction. The surface magnetic flux density profile balance can be smoothed by adjusting higher and lower parts of the profiles of the columnar and tubular magnets.

IPC Classes  ?

  • H01F 1/00 - Magnets or magnetic bodies characterised by the magnetic materials thereforSelection of materials for their magnetic properties
  • H02K 33/16 - Motors with reciprocating, oscillating or vibrating magnet, armature or coil system with polarised armatures moving in alternate directions by reversal or energisation of a single coil system
  • H01F 7/02 - Permanent magnets
  • H02K 1/34 - Reciprocating, oscillating or vibrating parts of the magnetic circuit
  • H01F 7/08 - ElectromagnetsActuators including electromagnets with armatures
  • H02K 15/03 - Processes or apparatus specially adapted for manufacturing, assembling, maintaining or repairing of dynamo-electric machines of stator or rotor bodies having permanent magnets

47.

Thermal management of very small form factor projectors with synthetic jets

      
Application Number 13753861
Grant Number 08770765
Status In Force
Filing Date 2013-01-30
First Publication Date 2013-06-27
Grant Date 2014-07-08
Owner Nuventix, Inc. (USA)
Inventor
  • Jones, Lee M.
  • Heffington, Samuel N.
  • Mahalingam, Raghavendran

Abstract

A thermal management device (401) is provided which comprises a synthetic jet actuator (403) and a heat sink (405) comprising a fin (407). The fin has at least one interior channel (409) defined therein which has first and second openings that are in fluidic communication with each other. The synthetic jet actuator is adapted to direct a synthetic jet into said channel.

IPC Classes  ?

  • G03B 21/16 - CoolingPreventing overheating
  • F15D 1/00 - Influencing the flow of fluids
  • H04N 9/31 - Projection devices for colour picture display

48.

Light fixture with multiple LEDs and synthetic jet thermal management system

      
Application Number 13251626
Grant Number 08845138
Status In Force
Filing Date 2011-10-03
First Publication Date 2013-04-04
Grant Date 2014-09-30
Owner Nuventix, Inc. (USA)
Inventor
  • Booth, John Stanley
  • Mahalingam, Raghavendran
  • Jones, Lee M.
  • Grimm, Daniel N.
  • Pergande, Paul

Abstract

A light source (101) is provided which comprises (a) a housing element (107); (b) a heat sink (109); (c) a first flow channel element (111) which, alone or in combination with said housing element, creates (i) a first set of flow paths (221) for the flow of fluid in a first direction through the light source, and (ii) a second set of flow paths (223) for the flow of fluid in a second direction through the light source; (d) a set of synthetic jet actuators (143, 145) having at least one member and being in fluidic communication with said first set of flow paths; and (e) a set of LEDs (113) containing at least one member and being in thermal contact with said heat sink.

IPC Classes  ?

  • F21V 29/02 - Cooling by forcing air over or around the light source (cooling arrangements structurally associated with electric lamps H01J 61/52, H01K 1/58)
  • F21V 29/00 - Protecting lighting devices from thermal damageCooling or heating arrangements specially adapted for lighting devices or systems
  • F21K 99/00 - Subject matter not provided for in other groups of this subclass

49.

HEAT SINK MOUNT WITH POSITIONABLE HEAT SINKS

      
Application Number US2011038615
Publication Number 2012/166122
Status In Force
Filing Date 2011-05-31
Publication Date 2012-12-06
Owner AAVID THERMALLOY, LLC (USA)
Inventor Liu, Zhe Hong

Abstract

A thermal transfer device including a thermally conductive support structure to be secured to a substrate having at least two types of heat sources. The support structure has a plurality of apertures, one for each first heat source. Each aperture accommodates an individual heat sink configured to make thermal contact with a first heat source. Each heat sink fits in its aperture, and is attached to the support structure by at least one spring mount for holding the heat sink in place. Preferably, the spring mount includes a plurality of springs disposed about the heat sink to provide a balanced downward force on the heat sink. The support structure has a bottom surface receiving a thermal transfer medium to provide thermal contact between the second heat sources and the support structure, thereby allowing for dissipation of the heat generated by the second heat sources through the support structure.

IPC Classes  ?

  • F28D 11/00 - Heat-exchange apparatus employing moving conduits
  • F28F 5/00 - Elements specially adapted for movement

50.

THERMAL TRANSFER DEVICE WITH REDUCED VERTICAL PROFILE

      
Application Number US2011038299
Publication Number 2012/166086
Status In Force
Filing Date 2011-05-27
Publication Date 2012-12-06
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Kang, Sukhvinder, Singh
  • Cennamo, John, Ralph
  • Whitney, Bradley, Robert

Abstract

A thermal transfer device having a reduced vertical profile. The device includes a condenser with substantially vertical internal cooling fins. An inlet conducts a thermal transfer fluid in a vapor state to the tops of the cooling fins where the vapor condenses and flows down the fins to the bottom of the condenser. The bottom of the condenser is angled towards an outlet for conducting the liquid thermal transfer fluid to a reservoir for holding the fluid. The inlet and the outlet are both positioned at a height above the level of the thermal transfer fluid in liquid state in the reservoir. The device may also include fins on the exterior of the condenser for providing cooling surfaces which do not contact the thermal transfer fluid in either the liquid or vapor states.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating

51.

CAPILLARY DEVICE FOR USE IN HEAT PIPE AND METHOD OF MANUFACTURING SUCH CAPILLARY DEVICE

      
Application Number EP2012059681
Publication Number 2012/160128
Status In Force
Filing Date 2012-05-24
Publication Date 2012-11-29
Owner THERMAL CORP. (USA)
Inventor
  • Mcglen, Ryan, James
  • Thayer, John, Gilbert

Abstract

A capillary device (102) for use in a heat pipe in which heat is transferred from at least one evaporation region to at least one condensation region by means of evaporated working fluid is disclosed. The capillary device comprises a body portion defining chambers (108) containing powdered material (110) therein, wherein at least part of the periphery of at least one said chamber is porous to allow flow of condensed working fluid, by means of capillary action, through said powdered material in said chamber when flowing from a condensation region to an evaporation region.

IPC Classes  ?

  • F28D 15/04 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes with tubes having a capillary structure
  • F28F 13/00 - Arrangements for modifying heat transfer, e.g. increasing, decreasing

52.

POWER DELIVERY TO DIAPHRAGMS

      
Application Number US2012038213
Publication Number 2012/158842
Status In Force
Filing Date 2012-05-16
Publication Date 2012-11-22
Owner NUVENTIX, INC. (USA)
Inventor
  • Mahalingam, Raghavendran
  • Schwickert, Markus
  • Hime, Elise
  • Heffington, Samuel, N.
  • Reichenbach, Robert, T.
  • Kelly, James
  • Booth, John, Stanley
  • Williams, Randall, P.
  • Ernst, Matthew, B.

Abstract

A method is provided for forming tinsel on a synthetic jet actuator. The method comprises (a) providing a synthetic jet actuator assembly (201) comprising a bobbin (203), a voice coil (213), driver electronics (215), and a surround (205); and (b) printing polymer thick film (PTF) conductive ink (209) across the surround, thus connecting the voice coil to the driver electronics.

IPC Classes  ?

53.

Thermal management of LED-based illumination devices with synthetic jet ejectors

      
Application Number 13470523
Grant Number 08777456
Status In Force
Filing Date 2012-05-14
First Publication Date 2012-11-15
Grant Date 2014-07-15
Owner Nuventix, Inc. (USA)
Inventor
  • Mahalingam, Raghavendran
  • Heffington, Samuel N.
  • Darbin, Stephen P.
  • Grimm, Daniel N.
  • Noska, Brandon Lee

Abstract

An illumination device (b1-01) is provided which comprises a housing (b1-03) equipped with an aperture (b1-37), first (b1-33) and second (b1-35) diaphragms disposed in said housing and in fluidic communication with said aperture, and an LED (b1-15) disposed between said first and second diaphragms.

IPC Classes  ?

  • F21V 29/00 - Protecting lighting devices from thermal damageCooling or heating arrangements specially adapted for lighting devices or systems
  • F21V 29/02 - Cooling by forcing air over or around the light source (cooling arrangements structurally associated with electric lamps H01J 61/52, H01K 1/58)

54.

THERMAL TRANSFER DEVICE WITH SPIRAL FLUID PATHWAYS

      
Application Number US2011027352
Publication Number 2012/121696
Status In Force
Filing Date 2011-03-07
Publication Date 2012-09-13
Owner AAVID THERMALLOY, LLC (USA)
Inventor Moruzzi, Marco

Abstract

A thermal transfer device comprising a thermal transfer surface and a passageway for conducting a thermal transfer fluid from an inlet to an outlet while passing in thermal contact with the thermal transfer surface. The passageway has at least two spiral passages and a connection channel connecting the at least two spiral passages to permit flow of the heat transfer fluid from a first spiral passage to a second spiral passage; thereby forming a path for the flow of the thermal fluid from the inlet, through the passageway, along the first spiral passage to the connection channel, then along the connection channel to the second spiral passage, and then to the outlet.

IPC Classes  ?

  • F28D 9/04 - Heat-exchange apparatus having stationary plate-like or laminated conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits being formed by spirally-wound plates or laminae

55.

Heat sink mount and assembly

      
Application Number 13014506
Grant Number 09401317
Status In Force
Filing Date 2011-01-26
First Publication Date 2012-07-26
Grant Date 2016-07-26
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Tan, Rui Sheng
  • Zhang, Xiong
  • Liu, Zhe Hong
  • Zheng, San Xi

Abstract

An assembly for a heat sink having a contact plate with opposing first and second faces, a plurality of fins extending from the first face of the contact plate, and a plurality of gaps between the fins. A retaining device has a first pair of opposing sides and a second pair of opposing sides, the first and second pairs of opposing sides surrounding an opening, the first pair of opposing sides having primary framing members, at least some of the primary framing members having a first end at a respective side and a distal free end, with at least one engagement member positioned proximate the distal free ends. The primary framing members define a receiving space for the heat sink. A metal spring is configured in a closed shape cross-section for engagement with the retaining device. The metal spring has a pair of elongated sides, a pair of truncated sides and heat sink engagement regions. The heat sink engagement regions are positioned against the contact plate when the metal spring is engaged with the retaining device, to urge the contact plate towards the engagement members. The assembly is particularly well suited for use with ball grid array packages to interface electronic components in such packages with the heat sink.

IPC Classes  ?

  • F28F 9/00 - CasingsHeader boxesAuxiliary supports for elementsAuxiliary members within casings
  • H01L 23/40 - Mountings or securing means for detachable cooling or heating arrangements
  • F28D 21/00 - Heat-exchange apparatus not covered by any of the groups

56.

SYSTEMS AND METHODOLOGIES FOR PREVENTING DUST AND PARTICLE CONTAMINATION OF SYNTHETIC JET EJECTORS

      
Application Number US2011066416
Publication Number 2012/088234
Status In Force
Filing Date 2011-12-21
Publication Date 2012-06-28
Owner NUVENTIX, INC. (USA)
Inventor
  • Darbin, Stephen, P.
  • Heffington, Samuel, N.
  • Schwickert, Markus
  • Mahalingam, Reghavendran
  • Booth, John, Stanley
  • Grimm, Daniel, N.
  • Doss, Donald, G.

Abstract

A synthetic jet ejector (201) is provided which includes a housing (205) having an orifice (207) defined in a wall thereof from which a synthetic jet (209) is emitted, and a barrier (211) disposed about the orifice. The barrier has a first end which is disposed proximal to the orifice and which has a first perimeter. The barrier also has a second end which is disposed distal to the orifice and which has a second perimeter. The second parameter has a larger area than the first perimeter.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating

57.

COLUMNAR BOND MAGNET

      
Application Number JP2011071984
Publication Number 2012/043525
Status In Force
Filing Date 2011-09-27
Publication Date 2012-04-05
Owner
  • NICHIA CORPORATION (Japan)
  • I&P CO., Ltd. (Japan)
  • K TECHNOLOGY CORPORATION (Japan)
Inventor
  • Ihara, Kohei
  • Matsumura, Syuji
  • Nishino, Keiki

Abstract

[Problem] Provided is the structure of a columnar bond magnet which is capable of forming magnetic fields perpendicular to each other in a direction of a thrust. [Solution] A columnar bond magnet formed so that one or more pairs of a north pole and a south pole appear alternately in a longitudinal direction is disposed, and a cylindrical bond magnet formed so that one or more pairs of a north pole and a south pole appear alternately in a longitudinal direction on an inner circumference thereof is disposed around the columnar bond magnet. The magnetic poles of the columnar bond magnet and the magnetic poles on the inner circumference of the cylindrical bond magnet are disposed in a direction perpendicular to the axis of the columnar bond magnet in the direction of the thrust, and the magnetic poles are combined so as to be different poles with respect to each other, thereby forming a magnetic field perpendicular to the direction of the thrust. Smoothing of a surface magnetic flux density profile balance depends on a combination of a long surface magnetic flux density profile and a short surface magnetic flux density profile of the columnar bond magnet and the cylindrical bond magnet.

IPC Classes  ?

  • H02K 33/00 - Motors with reciprocating, oscillating or vibrating magnet, armature or coil system
  • H01F 7/02 - Permanent magnets

58.

LOW FORM FACTOR SYNTHETIC JET THERMAL MANAGEMENT SYSTEM

      
Application Number US2011040794
Publication Number 2011/159961
Status In Force
Filing Date 2011-06-17
Publication Date 2011-12-22
Owner NUVENTIX, INC. (USA)
Inventor
  • Grimm, Daniel, N.
  • Darbin, Stephen, P.

Abstract

A combination of a synthetic jet ejector with a host device is provided. The combination comprises (a) a chamber having an aperture disposed in a wall thereof; (b) a diaphragm disposed in said chamber; and (c) an actuator adapted to vibrate said diaphragm so as to create a synthetic jet in a flow of fluid exiting said chamber through said aperture; wherein said chamber has at least one interior surface which is formed by an element of the host device.

IPC Classes  ?

  • H01L 23/467 - Arrangements for cooling, heating, ventilating or temperature compensation involving the transfer of heat by flowing fluids by flowing gases, e.g. air

59.

HEAT EXCHANGE APPARATUS

      
Application Number EP2011059314
Publication Number 2011/154366
Status In Force
Filing Date 2011-06-06
Publication Date 2011-12-15
Owner THERMAL CORP. (USA)
Inventor Yang, Xiao

Abstract

A heat exchange apparatus comprising a heat pipe (2) having a body (4) containing a working fluid is disclosed. The working fluid is adapted to evaporate as a result of heating of a first part of the body and to condense as a result of cooling of a second part of the body. The container comprises a grooved wick structure (6), adapted to transport the working fluid in liquid state from the second part towards the first part; and a vapour channel (8) adapted to allow the working fluid to move in vapour state from the first location towards the second location. The wick structure is formed from at least one material containing at least one alloy including magnesium, 1% to 2.5% by weight manganese, and up to 2.5% by weight zinc.

IPC Classes  ?

  • F28D 15/04 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls in which the medium condenses and evaporates, e.g. heat-pipes with tubes having a capillary structure
  • C22C 23/06 - Alloys based on magnesium with a rare earth metal as the next major constituent
  • H01L 23/427 - Cooling by change of state, e.g. use of heat pipes

60.

Synthetic jet ejector and design thereof to facilitate mass production

      
Application Number 13026220
Grant Number 08772987
Status In Force
Filing Date 2011-02-12
First Publication Date 2011-08-18
Grant Date 2014-07-08
Owner Nuventix, Inc. (USA)
Inventor
  • Grimm, Daniel N.
  • Darbin, Stephen P.
  • Poynot, Andrew

Abstract

A method is provided for making a synthetic jet ejector. The method comprises (a) providing first and second voice coil bodies (131) having first and second sets of channels defined therein, respectively; (b) inserting first and second sets of electrically conductive terminals (139) into the first and second sets of channels, respectively; (c) wrapping first and second coils of wire (151) around said first and second voice coil bodies, respectively, such that the first coil is in electrical contact with the first set of terminals and such that the second coil is in electrical contact with the second set of terminals; (d) forming a voice coil subassembly by attaching first and second ends of a flexible, electrically conductive connector (161) to said first and second voice coil bodies, respectively, wherein the first end of the connector is attached such that it is in electrical contact with the first set of terminals, and wherein the second end of the connector is attached such that it is in electrical contact with the second set of terminals; and (e) incorporating the voice coil subassembly into a synthetic jet ejector (103) having first and second voice coils such that said first coil forms a portion of said first voice coil, and such that said second coil forms a portion of said second voice coil.

IPC Classes  ?

  • H02K 33/12 - Motors with reciprocating, oscillating or vibrating magnet, armature or coil system with armatures moving in alternate directions by alternate energisation of two coil systems
  • H01R 13/66 - Structural association with built-in electrical component
  • F25D 15/00 - Devices associated with refrigerating machinery not covered by group or , e.g. non-self-contained movable devices
  • B21D 53/02 - Making other particular articles heat exchangers, e.g. radiators, condensers

61.

SYNTHETIC JET EJECTOR AND DESIGN THEREOF TO FACILITATE MASS PRODUCTION

      
Application Number US2011024665
Publication Number 2011/100645
Status In Force
Filing Date 2011-02-12
Publication Date 2011-08-18
Owner NUVENTIX, INC. (USA)
Inventor
  • Grimm, Daniel, N.
  • Darbin, Stephen, P.
  • Poynot, Andrew

Abstract

A synthetic jet ejector includes first and second voice coil bodies having sets of channels defined therein, electrically conductive terminals in the sets of channels, wire around said first and second voice coil bodies, such that the first coil is in electrical contact with a first set of terminals and the second coil is in electrical contact with a second set of terminals. A voice coil subassembly is formed by attaching first and second ends of a flexible, electrically conductive connector to the voice coil bodies, where the connector is attached to the sets of terminals. The voice coil subassembly is incorporated into a synthetic jet ejector having first and second voice coils such that said first coil forms a portion of said first voice coil, and such that said second coil forms a portion of said second voice coil.

IPC Classes  ?

  • F25D 15/00 - Devices associated with refrigerating machinery not covered by group or , e.g. non-self-contained movable devices

62.

Thermal management system for card cages

      
Application Number 12465645
Grant Number 07760499
Status In Force
Filing Date 2009-05-14
First Publication Date 2010-07-20
Grant Date 2010-07-20
Owner NUVENTIX, INC. (USA)
Inventor
  • Darbin, Stephen P.
  • Heffington, Samuel N.
  • Booth, John Stanley
  • Mahalingam, Raghavendran

Abstract

A system is provided herein which comprises (a) a plurality of circuit boards (207); (b) a plurality of slots (205), wherein each of said slots is adapted to provide power to a circuit board coupled thereto, and wherein each of said circuit boards is coupled to one of said slots; and (c) a thermal management card (209) disposed in one of said slots, said thermal management card containing at least one synthetic jet ejector.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating

63.

Heat sink

      
Application Number 12514176
Grant Number 08616267
Status In Force
Filing Date 2007-11-01
First Publication Date 2010-02-25
Grant Date 2013-12-31
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Capriz, Cesare
  • Barucca, Ugo

Abstract

A fluid-cooled heat sink (1) for electronic components having a heat exchanger (2) which can be associated with at least one electronic component (3), the heat exchanger having at least one channel (6) with an inlet (7) and an outlet (8) for a cooling fluid. The heat exchanger (2) having a first outer surface (4) for contact with the electronic component (3) and a second outer surface (5). The heat sink (1) having a stiffening element (15) operating on the heat exchanger (2) at the second outer surface (5) for associating and pressing the heat exchanger (2) on the electronic component (3).

IPC Classes  ?

  • F28F 7/00 - Elements not covered by group , , or
  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating

64.

Advanced synjet cooler design for LED light modules

      
Application Number 12503832
Grant Number 08299691
Status In Force
Filing Date 2009-07-15
First Publication Date 2010-02-18
Grant Date 2012-10-30
Owner NUVENTIX, INC. (USA)
Inventor Grimm, Daniel N.

Abstract

An LED light source (101) is provided which comprises an LED module (103) containing an LED (113); a heat sink (107) disposed about the periphery of the LED module; and a tabular synthetic jet ejector (105) disposed on said LED module and being adapted to direct a plurality of synthetic jets across surfaces of said heat sink.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating

65.

Heat sink base plate with heat pipe

      
Application Number 12148192
Grant Number 08286693
Status In Force
Filing Date 2008-04-17
First Publication Date 2009-10-22
Grant Date 2012-10-16
Owner Aavid Thermalloy, LLC (USA)
Inventor
  • Whitney, Bradley R.
  • Kang, Sukhvinder S.

Abstract

A heat sink assembly includes a base plate having a top surface provided with cooling fins, and a bottom surface with an open channel, the channel having remote regions and a central region with a rectangular cross-section. A heat pipe arrangement including at least two sections is nested in the channel, each section having at least one evaporator section and a condenser section, wherein the evaporator sections are juxtaposed side by side in the central region, and the condenser sections are in respective remote regions. The arrangement is preferably a single S-shaped heat pipe with a pair of hooked ends and a center section which form the evaporator sections, the evaporator sections each having a rectangular profile and an exposed surface which is flush with the bottom surface of the base plate, the condenser sections connecting the evaporator sections and being recessed below the bottom surface.

IPC Classes  ?

  • F28F 7/00 - Elements not covered by group , , or
  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating

66.

Fluidic energy transfer devices

      
Application Number 12224783
Grant Number 08272851
Status In Force
Filing Date 2007-03-07
First Publication Date 2009-06-11
Grant Date 2012-09-25
Owner AAVID THERMALLOY, LLC (USA)
Inventor Lucas, Timothy S.

Abstract

A fluid energy transfer device, including a chamber for receiving a fluid, at least a portion of the chamber comprising a movable portion relative to another portion of the chamber, the movable portion being adapted to change the volume of the chamber from a first volume to a second volume by movement of the movable portion. The device further includes an actuator attached to the movable portion, wherein the displacements of the movable portion can be larger than the displacement of the actuator.

IPC Classes  ?

  • F04B 17/00 - Pumps characterised by combination with, or adaptation to, specific driving engines or motors

67.

Method and apparatus for controlling diaphragm displacement in synthetic jet actuators

      
Application Number 12291337
Grant Number 08290724
Status In Force
Filing Date 2008-11-06
First Publication Date 2009-06-04
Grant Date 2012-10-16
Owner NUVENTIX, INC. (USA)
Inventor
  • Darbin, Stephen P.
  • Schwickert, Markus
  • Booth, John Stanley
  • Reichenbach, Robert Taylor
  • Ball, Rick
  • Farrell, Steve
  • Mcfatter, Daniel W.

Abstract

EMF in a memory device associated with the synthetic jet actuator.

IPC Classes  ?

  • B41J 29/393 - Devices for controlling or analysing the entire machine
  • G06F 17/00 - Digital computing or data processing equipment or methods, specially adapted for specific functions

68.

METHOD AND APPARATUS FOR CONTROLLING DIAPHRAGM DISPLACEMENT IN SYNTHETIC JET ACTUATORS

      
Application Number US2008012550
Publication Number 2009/061454
Status In Force
Filing Date 2008-11-06
Publication Date 2009-05-14
Owner NUVENTIX, INC. (USA)
Inventor
  • Darbin, Stephen P.
  • Schwickert, Markus
  • Booth, John Stanley
  • Reichenbach, Robert Taylor
  • Ball, Rick
  • Farrell, Steve
  • Mcfatter, Daniel

Abstract

A method for calibrating a synthetic jet ejector is provided which comprises (a) taking a first measurement DCR0 of the DC resistance of the coil; (b) adjusting the actuator drive voltage Vd to achieve a desired maximum displacement dmax1 at a frequency f1; (c) measuring the input current Iin and input voltage Vin; (d) calculating the back electromagnetic frequency BEMF, wherein BEMF = Vin - Iin*DCR; and (e) storing the calculated value of BEMF in a memory device associated with the synthetic jet actuator.

IPC Classes  ?

  • G01R 35/00 - Testing or calibrating of apparatus covered by the other groups of this subclass

69.

Light fixture with multiple LEDs and synthetic jet thermal management system

      
Application Number 12288144
Grant Number 08066410
Status In Force
Filing Date 2008-10-16
First Publication Date 2009-04-30
Grant Date 2011-11-29
Owner NUVENTIX, INC. (USA)
Inventor
  • Booth, John Stanley
  • Mahalingam, Raghavendran
  • Jones, Lee M.
  • Grimm, Daniel N.
  • Pergande, Paul

Abstract

A light source (101) is provided which comprises (a) a housing element (107); (b) a heat sink (109); (c) a first flow channel element (111) which, alone or in combination with said housing element, creates (i) a first set of flow paths (221) for the flow of fluid in a first direction through the light source, and (ii) a second set of flow paths (223) for the flow of fluid in a second direction through the light source; (d) a set of synthetic jet actuators (143, 145) having at least one member and being in fluidic communication with said first set of flow paths; and (e) a set of LEDs (113) containing at least one member and being in thermal contact with said heat sink.

IPC Classes  ?

  • F21V 29/02 - Cooling by forcing air over or around the light source (cooling arrangements structurally associated with electric lamps H01J 61/52, H01K 1/58)

70.

Thermal management system for LED array

      
Application Number 12072610
Grant Number 07819556
Status In Force
Filing Date 2008-02-26
First Publication Date 2008-09-11
Grant Date 2010-10-26
Owner NUVENTIX, INC. (USA)
Inventor
  • Heffington, Samuel N.
  • Mahalingam, Raghavendran
  • Jones, Lee M.
  • Darbin, Stephen

Abstract

A device, comprising (a) a chamber having a liquid disposed therein, (b) an LED array having a first surface which is in contact with said liquid, and (c) at last one actuator adapted to dislodge vapor bubbles from said first surface through the emission of pressure vibrations.

IPC Classes  ?

  • F21V 29/00 - Protecting lighting devices from thermal damageCooling or heating arrangements specially adapted for lighting devices or systems
  • H01L 23/34 - Arrangements for cooling, heating, ventilating or temperature compensation

71.

LIQUID COLLING OF PHOTOVOLTAIC SOLAR PANELS

      
Application Number US2008001169
Publication Number 2008/094555
Status In Force
Filing Date 2008-01-30
Publication Date 2008-08-07
Owner AAVID THERMALLOY, LLC (USA)
Inventor Diemunsch, Guy

Abstract

Photovoltaic solar panels are cooled below ambient air temperature with a positive energy balance using a cooling fluid flowing through a flat chamber of substantially uniform thickness provided against the back surface of each panel. The chamber thickness and other dimensions of the flat chamber are chosen so that, for a predetermined mass flow rate through the chamber in a given temperature range, a laminar flow regime is maintained. Obstacles which provide varying flow patterns may be provided in the chamber to disturb the boundary layer and improve heat transfer to the fluid. Since laminar flow minimizes the energy required to. move the fluid, there is very little parasitic drain of the power produced by the solar panel.

IPC Classes  ?

  • F24J 2/10 - having reflectors as concentrating elements
  • H01L 31/052 - Cooling means directly associated or integrated with the PV cell, e.g. integrated Peltier elements for active cooling or heat sinks directly associated with the PV cells

72.

Thermal management system for LED array

      
Application Number 12005159
Grant Number 07784972
Status In Force
Filing Date 2007-12-22
First Publication Date 2008-06-26
Grant Date 2010-08-31
Owner NUVENTIX, INC. (USA)
Inventor
  • Heffington, Samuel N.
  • Mahalingam, Raghavendran
  • Jones, Lee M.
  • Darbin, Stephen

Abstract

A device, comprising (a) a chamber having a liquid disposed therein, (b) an LED array having a first surface which is in contact with said liquid, and (c) at last one actuator adapted to dislodge vapor bubbles from said first surface through the emission of pressure vibrations.

IPC Classes  ?

  • F21V 29/00 - Protecting lighting devices from thermal damageCooling or heating arrangements specially adapted for lighting devices or systems

73.

HEAT SINK

      
Application Number US2007023051
Publication Number 2008/063372
Status In Force
Filing Date 2007-11-01
Publication Date 2008-05-29
Owner AAVID THERMALLOY, LLC (USA)
Inventor
  • Carpriz, Cesare
  • Barucca, Ugo

Abstract

A fluid-cooled heat sink (1) for electronic components comprises a heat exchanger (2) which can be associated with at least one electronic component (3), the heat exchanger having at least one channel (6) with an inlet (7) and an outlet (8) for a cooling fluid; the heat exchanger (2) having a first outer surface (4) for contact with the electronic component (3) and a second outer surface (5); the heat sink (1) comprising a stiffening element (15) operating on the heat exchanger (2) at the second outer surface (5) for associating and pressing the heat exchanger (2) on the electronic component (3).

IPC Classes  ?

  • F28F 7/00 - Elements not covered by group , , or

74.

THERMAL MANAGEMENT OF VERY SMALL FORM FACTOR PROJECTORS WITH SYNTHETIC JETS

      
Application Number US2007021821
Publication Number 2008/048493
Status In Force
Filing Date 2007-10-11
Publication Date 2008-04-24
Owner NUVENTIX, INC. (USA)
Inventor
  • Jones, Lee
  • Heffington, Samuel, N.
  • Mahalingam, Raghavendran

Abstract

A thermal management device (401) is provided which comprises a synthetic jet actuator (403) and a heat sink (405) comprising a fin (407). The fin has at least one interior channel (409) defined therein which has first and second openings that are in fluidic communication with each other. The synthetic jet actuator is adapted to direct a synthetic jet into said channel.

IPC Classes  ?

  • F28F 7/00 - Elements not covered by group , , or
  • F28F 13/12 - Arrangements for modifying heat transfer, e.g. increasing, decreasing by affecting the pattern of flow of the heat-exchange media by creating turbulence, e.g. by stirring, by increasing the force of circulation
  • F24H 3/02 - Air heaters with forced circulation
  • F24B 1/06 - Construction of tiles or bracing means therefor, e.g. shim liner

75.

Vibration isolation system for synthetic jet devices

      
Application Number 11821582
Grant Number 08136576
Status In Force
Filing Date 2007-06-22
First Publication Date 2008-01-10
Grant Date 2012-03-20
Owner Nuventix, Inc. (USA)
Inventor Grimm, Daniel N.

Abstract

A thermal management system is provided herein. The system comprises a substrate (141), a synthetic jet ejector (103), and a vibration isolation element (107) adapted to releasably engage said synthetic jet ejector and said substrate.

IPC Classes  ?

  • F28F 7/00 - Elements not covered by group , , or
  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating

76.

Moldable housing design for synthetic jet ejector

      
Application Number 11825158
Grant Number 08646701
Status In Force
Filing Date 2007-07-03
First Publication Date 2008-01-10
Grant Date 2014-02-11
Owner NUVENTIX, INC. (USA)
Inventor
  • Grimm, Daniel N.
  • Lutz, Ronald

Abstract

A synthetic jet ejector is provided which comprises a first housing portion (131), and a second housing portion (133) which releasably attaches to the first housing portion, wherein the first and second housing portions form first and second portions, respectively, of at least one passageway (159) adapted to emit at least one synthetic jet.

IPC Classes  ?

  • B05B 1/08 - Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means designed to produce a jet, spray, or other discharge of particular shape or nature, e.g. in single drops of pulsating nature, e.g. delivering liquid in successive separate quantities
  • B05B 1/00 - Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means

77.

ELECTRONICS PACKAGE FOR SYNTHETIC JET EJECTORS

      
Application Number US2007004697
Publication Number 2007/100645
Status In Force
Filing Date 2007-02-22
Publication Date 2007-09-07
Owner NUVENTIX, INC. (USA)
Inventor
  • Reichenbach, Robert, Taylor
  • Booth, John, Stanley

Abstract

A thermal management system (101), comprising (a) a synthetic jet actuator (103), and (b) a processor (107) in communication with the synthetic jet actuator, the processor being adapted to receive programming instructions, and being further adapted to modify the operation of the synthetic jet actuator in response to the programming instructions.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • H05K 5/00 - Casings, cabinets or drawers for electric apparatus

78.

HX

      
Serial Number 77207052
Status Registered
Filing Date 2007-06-15
Registration Date 2008-08-26
Owner Thermal Corp. ()
NICE Classes  ? 11 - Environmental control apparatus

Goods & Services

Components and parts for the cooling of equipment, namely, heat pipe heat exchangers

79.

Thermal management system for distributed heat sources

      
Application Number 11599603
Grant Number 07606029
Status In Force
Filing Date 2006-11-13
First Publication Date 2007-06-07
Grant Date 2009-10-20
Owner Nuventix, Inc. (USA)
Inventor
  • Mahalingam, Raghavendran
  • Glezer, Ari

Abstract

A thermal management system (201) is provided herein which comprises a plurality of heat sources (203), a heat exchanger (205), a plurality of heat pipes (207) in thermal communication with said heat exchanger, and a synthetic jet actuator (211) adapted to direct a synthetic jet upon or across a surface of said heat exchanger.

IPC Classes  ?

  • H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
  • F28D 15/00 - Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls

80.

Synthetic jet heat pipe thermal management system

      
Application Number 11599628
Grant Number 07607470
Status In Force
Filing Date 2006-11-13
First Publication Date 2007-05-31
Grant Date 2009-10-27
Owner Nuventix, Inc. (USA)
Inventor
  • Glezer, Ari
  • Mahalingam, Raghavendran
  • Heffington, Samuel

Abstract

A thermal management system (201) is provided which comprises a first heat spreader (205) comprising a heat pipe material, a plurality of fins (217) disposed on said first heat spreader, and a synthetic jet actuator (209) adapted to direct a synthetic jet between at least a pair of said plurality of fins.

IPC Classes  ?

  • H01L 23/467 - Arrangements for cooling, heating, ventilating or temperature compensation involving the transfer of heat by flowing fluids by flowing gases, e.g. air

81.

Synthetic jet cooling system for LED module

      
Application Number 11265778
Grant Number 07932535
Status In Force
Filing Date 2005-11-02
First Publication Date 2007-05-03
Grant Date 2011-04-26
Owner Nuventix, Inc. (USA)
Inventor
  • Mahalingam, Raghavendran
  • Heffington, Samuel

Abstract

An LED assembly is provided herein. The assembly comprises a thermally conductive housing (201), wherein a portion of said housing is equipped with a plurality of fins (203); an LED (205) disposed in said housing; and a synthetic jet actuator (207) adapted to direct a synthetic jet onto said portion of the housing.

IPC Classes  ?

  • H01L 33/00 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof
  • H01L 23/34 - Arrangements for cooling, heating, ventilating or temperature compensation

82.

K-CORE

      
Serial Number 78680480
Status Registered
Filing Date 2005-07-28
Registration Date 2007-01-02
Owner THERMAL CORP. ()
NICE Classes  ? 09 - Scientific and electric apparatus and instruments

Goods & Services

Heat sinks and heat-spreading apparatus for use in connection with heat-generating surfaces found in computers, electronic components, electrical conductors, and other electronic devices

83.

SYNJET

      
Serial Number 78604993
Status Registered
Filing Date 2005-04-08
Registration Date 2008-05-13
Owner NUVENTIX, INC. ()
NICE Classes  ? 09 - Scientific and electric apparatus and instruments

Goods & Services

Electromagnetic and piezoelectric actuators for use in thermal management applications

84.

THERMA-SINK

      
Serial Number 78462593
Status Registered
Filing Date 2004-08-05
Registration Date 2006-06-06
Owner Thermal Corp. ()
NICE Classes  ? 11 - Environmental control apparatus

Goods & Services

COMPONENTS AND PARTS FOR THE COOLING AND HEATING OF EQUIPMENT NAMELY, HEAT PIPES AND HEAT EXCHANGERS

85.

THERMACORE

      
Application Number 113084900
Status Registered
Filing Date 2002-02-12
Registration Date 2004-01-28
Owner Thermal Corp. (A Delaware Corporation) (USA)
NICE Classes  ? 11 - Environmental control apparatus

Goods & Services

(1) Components and parts for the cooling and heating of equipment namely, heat pipes and heat exchangers.