Robert Genway-Haden

6412589, Jul 2, 2002

Nov 17, 2000

09/714931

John A. Barlage - Rochester Hills MI
Richard D. Frazer - Berkley MI
Theodor Gassmann - Rochester MI
Robert Genway-Haden - Rochester Hills MI
Werner Hoffmann - Siegburg, DE
Philip Hutula - Auburn Hills MI

GKN Automotive, Inc. - Auburn Hills MI

B60K 1700

180377, 180378

An all wheel drive system for a motor vehicle comprising a front differential, a pair of front halfshaft assemblies operatively connected to the front differential whereby the front differential supplies torque to the pair of front half shaft assemblies, each of the pair of front half shaft assemblies connected to a respective front wheel, a power takeoff unit operatively connected to the front differential, a constant velocity joint connected to the power takeoff unit whereby the front differential supplies torque to the constant velocity joint through the power takeoff unit, a first propshaft having a first end and a second end, the first end connected to the constant velocity joint, a plunging constant velocity joint connected to the second end of the first propshaft, a second propshaft having a first end and a second end, the first end connected to the plunging constant velocity joint, a universal joint having a first end and a second end, the first end of the universal joint connected to the second end of the second propshaft, a self contained speed sensing torque transfer device connected to the second end of the universal joint such that torque is selectively transferrable when the self contained speed sensing torque transfer device is engaged, the self contained speed sensing torque transfer device including, a hub connected to a first set of friction plates, the hub also connected to the second end of the universal joint, a housing connected to a second set of friction plates whereby the first and second set of friction plates are disposed in a selectively interconnecting relationship; a piston located adjacent the first and second set of friction plates, a self contained shear pump for generating a pressure proportional to the speed difference between the hub and the housing, the pump comprising, a feed disc affixed to the hub, a fluid reservoir, a pump disc affixed to the housing and in fluid communication with the fluid reservoir, the pump disc having a circumferential pumping groove and at least one connecting hole forming a shear channel with the feed disc, the pump generating pressure on the piston at a set speed difference such that the piston transmits pressure to the first and second set of friction plates and torque is thereby transferable from the first set of friction plates to the second set of friction plate thereby transferring torque to the housing, a rear differential connected to the housing of the speed sensing torque transfer device, and a pair of rear halfshaft assemblies operatively connected to the rear differential for transferring torque to the rear halfshaft assemblies, each of the rear halfshaft assemblies connected to a respective rear wheel whereby under normal operating conditions the all wheel drive system provides substantially all torque to the front differential, and in a slip condition when either of the front wheels begins to slip the front differential rotates at a higher speed than the rear differential and the self contained speed sensing torque transfer device engages thereby providing torque to the rear differential until the slip condition is resolved whereupon substantially all torque is transferred back to the front wheels.

7416491, Aug 26, 2008

Dec 21, 2004

11/018763

Craig Andrew Campbell - West Bloomfield MI, US
Robert Genway-Haden - Rochester Hills MI, US

GKN Driveline North America, Inc. - Auburn Hills MI

F16F 7/108

464180, 188188

An absorber for use within a shaft assembly of a vehicle is disclosed. The absorber includes at least one cantilever device and at least one constrained layer device. Both devices are disposed within a tube. The absorber is capable of being tuned to specific frequencies and capable of controlling the amount of damping within the shaft assembly. Also disclosed is a shaft assembly having a generally tubular shaft. Disposed within the tubular shaft is the absorber having at least one cantilever device and at least one constrained layer device.

7488257, Feb 10, 2009

Jul 12, 2005

11/179897

Danny Lee Booker - Oakland Township MI, US
Robert Genway-Haden - Rochester Hills MI, US
James Lyon - Northampton, GB

GKN Driveline North America, Inc. - Auburn Hills MI

F16D 3/06

464162, 4033591

A multiple-tube propeller shaft assembly includes a first tube with a plurality of splines defining a splined portion, a second tube with a plurality of splines defining a splined portion, and a third tube with a plurality of splines defining a splined portion. In an embodiment, one end of the third tube is telescopically received within the first tube in a slip tube spline connection, while the other end is received within the second tube in a locked tube spline connection. In another embodiment, the first tube is telescopically received in one end of the third tube in a slip tube spline connection, while the second tube is received in the other end of the third tube in a locked tube spline connection. The propeller shaft assembly can be tuned to absorb crash energy between 0 and 50 kN.

20080103018, May 1, 2008

Sep 16, 2005

11/662843

Brent Michael Peura - Farmington MI, US
Robert Genway-Haden - Rochester Hills MI, US

B60K 23/04
G06F 7/00

477 35, 701 36

The application aims at determining the locked or unlocked state of a differential (). According to a first aspect, the determination is carried out on basis of a speed difference of output shafts () using speed sensors (). Steering angle may be used as further input. In a second aspect, a sensing system () senses actuating pressure, voltage or current of an actuating mechanism (). In a third aspect, the first and second aspects can be combined.

20120204664, Aug 16, 2012

Feb 16, 2012

13/398236

Brent Michael Peura - Farmington MI, US
Robert Genway-Haden - Rochester MI, US
Hiromichi Fukuda - Tochigi-City, JP

F16H 35/00
B23P 11/00

74405, 298931

A power transfer unit assembly for a vehicle. The power transfer unit includes a cantilevered ring gear assembly configured on a housing cover. The housing cover is configured to mate to a main housing that may be configured in a vehicle drivetrain. The power transfer unit may include at least one engagement mechanism configured to selectively engage and disengage the cantilevered ring gear assembly.

20120238395, Sep 20, 2012

Dec 2, 2010

13/513459

Brent Michael Peura - Farmington MI, US
Robert Genway-Haden - Rochester MI, US
Theodor Gassmann - Lohmar, DE
Mark Schmidt - Lohmar, DE
Michael Schwekutsch - Lohmar, DE

F16H 48/30

475223

A power transfer unit assembly for a vehicle. The power transfer unit includes a housing, an internal variable speed differential positioned within the housing, a first front side shaft rotatively connected to the differential, a second front side shaft rotatively connected to the differential, an input shaft interconnected to at least one of the first and second side shafts, and at least one shifting mechanism for engaging at least one of the first and second shafts with at least one mode selection gear set. Engagement of the mode selection gear set transfers torque through the input shaft to selectively engage with a second gear set interconnected to a power transfer final drive unit assembly having an internal variable speed differential.

62096737, Apr 3, 2001

Mar 18, 1999

9/272093

John A. Barlage - Rochester Hills MI
Richard D. Frazer - Berkley MI
Theodor Gassmann - Rochester MI
Robert Genway-Haden - Rochester Hills MI
Werner Hoffmann - Siegburg, DE
Philip Hutula - Auburn Hills MI

GKN Automotive, Inc. - Auburn Hills MI

B60K 17344

180248

An all wheel drive system for a motor vehicle comprising a front differential, a pair of front halfshaft assemblies operatively connected to the front differential whereby the front differential supplies torque to the pair of front half shaft assemblies, each of the pair of front half shaft assemblies connected to a respective front wheel, a power takeoff unit operatively connected to the front differential, a constant velocity joint connected to the power takeoff unit whereby the front differential supplies torque to the constant velocity joint through the power takeoff unit, a first propshaft having a first end and a second end, the first end connected to the constant velocity joint, a plunging constant velocity joint connected to the second end of the first propshaft, a second propshaft having a first end and a second end, the first end connected to the plunging constant velocity joint, a universal joint having a first end and a second end, the first end of the universal joint connected to the second end of the second propshaft, a self contained speed sensing torque transfer device connected to the second end of the universal joint such that torque is selectively transferable when the self contained speed sensing torque transfer device is engaged, the self contained speed sensing torque transfer device including, a hub connected to a first set of friction plates, the hub also connected to the second end of the universal joint, a housing connected to a second set of friction plates whereby the first and second set of friction plates are disposed in a selectively interconnecting relationship; a piston located adjacent the first and second set of friction plates, a self contained shear pump for generating a pressure proportional to the speed difference between the hub and the housing, the pump comprising, a feed disc affixed to the hub, a fluid reservoir, a pump disc affixed to the housing and in fluid communication with the fluid reservoir, the pump disc having a circumferential pumping groove and at least one connecting hole forming a shear channel with the feed disc, the pump generating pressure on the piston at a set speed difference such that the piston transmits pressure to the first and second set of friction plates and torque is thereby transferable from the first set of friction plates to the second set of friction plate thereby transferring torque to the housing, a rear differential connected to the housing of the speed sensing torque transfer device, and a pair of rear halfshaft assemblies operatively connected to the rear differential for transferring torque to the rear halfshaft assemblies, each of the rear halfshaft assemblies connected to a respective rear wheel whereby under normal operating conditions the all wheel drive system provides substantially all torque to the front differential, and in a slip condition when either of the front wheels begins to slip the front differential rotates at a higher speed than the rear differential and the self contained speed sensing torque transfer device engages thereby providing torque to the rear differential until the slip condition is resolved whereupon substantially all torque is transferred back to the front wheels.

20150321549, Nov 12, 2015

Jul 17, 2015

14/801982

- Auburn Hills MI, US
Robert Genway-Haden - Auburn Hills MI, US
Hiromichi Fukuda - Tochigi-City, JP

B60K 17/344

A power transfer unit assembly for a vehicle. The power transfer unit includes a cantilevered ring gear assembly configured on a housing cover. The housing cover is configured to mate to a main housing that may be configured in a vehicle drivetrain. The power transfer unit may include at least one engagement mechanism configured to selectively engage and disengage the cantilevered ring gear assembly.