Michael A Maynard

US Patent:

8542490, Sep 24, 2013

Filed:

Jun 16, 2011

Appl. No.:

13/161842

Inventors:

Jay W. Kokas - East Granby CT, US
Kevin P. Roy - West Springfield MA, US
Judy Schwartz - Longmeadow MA, US
Michael Maynard - Springfield MA, US
John D. Pennell - Enfield CT, US
Matthew S. Fitzpatrick - Portland CT, US
Richard M. Speziale - Winsted CT, US

Assignee:

Hamilton Sundstrand Corporation - Windsor Locks CT

International Classification:

H05K 7/20

US Classification:

361715, 36167954, 361708, 361721, 361704, 165 803, 16510433, 165185

Abstract:

A multi-hybrid module includes a plurality of hybrid assemblies that are perpendicularly mounted with respect to a plane of a circuit board. The hybrid assemblies are mounted on opposing sides of a heat sink. The heat sink has a first column disposed at a first end, a second column disposed at a second opposing end, and a generally flat center wall extending between the first column and the second column to which the hybrid assemblies are mounted. During operation the hybrid assemblies are mounted on edge perpendicular with respect to the circuit board to minimize an area profile of the multi-hybrid module on the circuit board.

US Patent:

20130093270, Apr 18, 2013

Filed:

Oct 18, 2011

Appl. No.:

13/275914

Inventors:

Jay W. Kokas - East Granby CT, US
Richard E. Versailles - New Hartford CT, US
Robert D. Klapatch - Wethersfield CT, US
Michael Maynard - Springfield MA, US
Kerry R. Querns - Durham CT, US

Assignee:

HAMILTON SUNDSTRAND CORPORATION - Windsor Locks CT

International Classification:

H02K 9/00

US Classification:

310 52

Abstract:

A motor controller for use in an environment at a high maximum environmental temperature comprises an insulated chassis, a high-temperature capable electronic component, a low-temperature capable electronic component, and a heat pump. The high-temperature capable electronic component is rated for temperatures higher than the environmental temperature, whereas the low-temperature capable electronic component is rated for temperatures lower than the maximum environmental temperature. The insulated chassis has a finned surface to which the high-temperature capable electronic component is mounted. The low-temperature capable electronic component is attached to or integrated into a printed wiring board supported inside the insulated chassis by the thermally conductive posts. The heat pump is configured to draw heat from the low-temperature capable electronic component through the thermally conductive posts and a thermal spreader abutting the heat pump, and to expel heat into the finned surface of the insulating chassis.

US Patent:

20130301215, Nov 14, 2013

Filed:

May 14, 2012

Appl. No.:

13/470904

Inventors:

Kenneth J. Trotman - Granby CT, US
Michael Maynard - Springfield MA, US

Assignee:

HAMILTON SUNDSTRAND CORPORATION - Windsor Locks CT

International Classification:

G06F 1/16
B23P 19/00

US Classification:

36167958, 29762

Abstract:

A removable tool includes a toe, a clevis, and a handle. The toe is configured to be insertable into and removable from an enclosure notch of a card guided computer enclosure. The clevis is configured to be insertable into and removable from a card hook of a circuit card assembly. The handle is for receiving force for inserting or extracting an array of circuit card assembly contacts into or out of an array of motherboard contacts, respectively.

US Patent:

20200318910, Oct 8, 2020

Filed:

Apr 8, 2019

Appl. No.:

16/378063

Inventors:

- Charlotte NC, US
Michael Maynard - Springfield MA, US
Michael Doe - Southwick MA, US
Michele Hu - Manchester CT, US
Ahmet T. Becene - West Simsbury CT, US
Feng Feng - South Windsor CT, US

International Classification:

F28D 1/047
F01D 25/12

Abstract:

A heat exchanger system is disclosed herein that extends between a first component and a second component. The heat exchanger system includes a hot flow path configured to convey hot fluid between the first component and the second component, a cool flow path configured to convey cool fluid, and a heat exchanger located between the first component and the second component along the hot flow path and the cool flow path. The heat exchanger includes at least one curve to accommodate the hot flow path and is configured to reduce the temperature of the hot fluid by allowing the transfer of thermal energy from the hot fluid to the cool fluid.

US Patent:

20200318913, Oct 8, 2020

Filed:

Apr 8, 2019

Appl. No.:

16/377803

Inventors:

- Charlotte NC, US
Feng Feng - South Windsor CT, US
Ahmet T. Becene - West Simsbury CT, US
Michele Hu - Manchester CT, US
Michael Maynard - Springfield MA, US
Michael Doe - Southwick MA, US

International Classification:

F28D 7/16

Abstract:

A heat exchanger includes a core having a nonrectangular cross-sectional area, a plurality of cold flow layers centered about a centerline with each of the plurality of cold flow layers separated by corresponding walls. The heat exchanger also includes a plurality of hot flow tubes corresponding to each of the plurality of cold flow layers.

US Patent:

20200284516, Sep 10, 2020

Filed:

Dec 11, 2019

Appl. No.:

16/711061

Inventors:

- Charlotte NC, US
Michele Hu - Manchester CT, US
Feng Feng - South Windsor CT, US
Michael Maynard - Springfield MA, US
Michael Doe - Southwick MA, US
Gabriel Ruiz - Granby CT, US
Ephraim Joseph - South Windsor CT, US

International Classification:

F28D 1/02
F28D 1/047

Abstract:

A core arrangement for a heat exchanger includes a plurality of inlets arranged around an axis, a plurality of outlets arranged around the axis, and a plurality of bowed conduits arranged around the axis. The bowed conduits are structurally independent, connect the plurality of inlets to the plurality of outlets, bow outward from the axis between the plurality of inlets and the plurality of outlets, and provide thermal compliance to the core.

US Patent:

20200284517, Sep 10, 2020

Filed:

Dec 11, 2019

Appl. No.:

16/711107

Inventors:

- Charlotte NC, US
Gabriel Ruiz - Granby CT, US
Feng Feng - South Windsor CT, US
Michael Maynard - Springfield MA, US
Michael Doe - Southwick MA, US
Michele Hu - Manchester CT, US
Ephraim Joseph - South Windsor CT, US

International Classification:

F28D 1/047
F28D 1/053

Abstract:

A heat exchanger includes a first fluid manifold extending along a first fluid axis from a first fluid inlet to a first fluid outlet. The first fluid manifold includes a first fluid inlet header, a first fluid outlet header, and a nested helical core section. The first fluid inlet header is disposed to fork the first fluid inlet into a plurality of first fluid branches distributed circumferentially and radially about the first fluid axis. The first fluid outlet header is disposed to combine the plurality of first fluid branches into the first fluid outlet. The nested helical core section fluidly connects the first fluid inlet header to the first fluid outlet header via a plurality of nested helical tubes, and includes radially inner and outer groups of circumferentially distributed helical tubes.

US Patent:

20200284518, Sep 10, 2020

Filed:

Dec 11, 2019

Appl. No.:

16/711113

Inventors:

- Charlotte NC, US
Gabriel Ruiz - Granby CT, US
Feng Feng - South Windsor CT, US
Michael Maynard - Springfield MA, US
Michael Doe - Southwick MA, US
Michele Hu - Manchester CT, US
Ephraim Joseph - South Windsor CT, US

International Classification:

F28D 1/047
F28D 1/02

Abstract:

A heat exchanger includes a first fluid manifold extending along a first fluid axis from a first fluid inlet to a first fluid outlet. The first fluid manifold comprises a inlet header, a outlet header, and a multi-helical core section. The inlet header is disposed to fork the first fluid inlet into a plurality of first fluid branches distributed laterally across a plane normal to the first fluid axis. The outlet header is disposed to combine the plurality of first fluid branches into the first fluid outlet. The multi-helical core section fluidly connects the inlet header to the outlet header via a plurality of laterally distributed helical tubes, each helical tube corresponding to one of the plurality of first fluid branches and oriented parallel to all others of the plurality of helical tubes at each axial location along the first fluid axis.