Dana Heavy Vehicle Systems Group, LLC Patent applications |
Patent application number | Title | Published |
20160046185 | MULTI-MODE TANDEM AXLE FUNCTION SELECTION APPARATUS AND METHOD - A drive axle system ( | 02-18-2016 |
20150375619 | DRIVE AXLE SYSTEM HAVING A CLUTCHING DEVICE - A drive axle system for a vehicle drive train having a clutching device is provided. The drive axle system includes a first shaft, a planetary inter-axle differential, a first axle assembly, a second axle assembly, a first clutching device, and a second clutching device. The first axle assembly is drivingly engaged with a portion of the planetary inter-axle differential. The first clutching device divides one of a pair of output axles into first and second portions. The second clutching device selectively engages a driving gear of the second axle assembly with a portion of the planetary inter-axle differential. | 12-31-2015 |
20150375618 | DRIVE AXLE SYSTEM HAVING A CLUTCHING DEVICE - A drive axle system for a vehicle drive train having a clutching device is provided. The drive axle system includes a first shaft, a bevel gear inter-axle differential, a first axle assembly, a second axle assembly, a first clutching device, and a second clutching device. The first axle assembly is drivingly engaged with the first shaft. The first clutching device divides one of a pair of output axles into first and second portions. The second clutching device selectively engages a driving gear of the second axle assembly with a portion of the bevel gear inter-axle differential. | 12-31-2015 |
20150375617 | DRIVE AXLE SYSTEM HAVING A CLUTCHING DEVICE - A drive axle system for a vehicle drive train having a clutching device is provided. The drive axle system includes a first shaft, a first axle assembly, a second axle assembly, a first clutching device, a second clutching device, and an axle assembly housing. At least a portion of the first shaft, the second clutching device, and at least one of the first axle assembly and the second axle assembly are disposed in the axle assembly housing. The first axle assembly is drivingly engaged with the first shaft. The first clutching device divides one of a pair of output axles into first and second portions. The second clutching device selectively engages a driving gear of the second axle assembly with one of the first shaft and a portion of the first axle assembly. | 12-31-2015 |
20150298545 | DRIVE AXLE SYSTEM HAVING A CLUTCHING DEVICE - A method of operating a drive axle system is provided. The method comprises the steps of rotating a first shaft, drivingly engaging a first axle assembly, drivingly engaging a second axle assembly, moving a second clutching device into a position to disengage a second driving gear of the second axle assembly, and moving a first clutching device into a position to disengage a first portion from a second portion of one of a second pair of output axles, thereby allowing the second driving gear to coast to a substantially non-moving state. | 10-22-2015 |
20150273958 | TIRE INFLATION SYSTEM - A tire inflation system including an axle housing and a sealing ring disposed on the axle housing. The sealing ring has a conduit formed therethrough. A hub is disposed on the axle housing and adjacent the sealing ring. A hub ring is disposed on the hub and adjacent the sealing ring. The hub ring has a conduit formed therethrough. An inner seal member and an outer seal member are disposed between sealing ring and the hub ring. The conduit formed through the hub ring is in fluid communication with the conduit formed through the sealing ring through an area between the inner seal member and the outer seal member. | 10-01-2015 |
20150258863 | METHOD OF VENTING A TIRE INFLATION SYSTEM AND CONTROL UNIT UTILIZED THEREIN - A method of venting a tire inflation system includes providing a housing and providing a first valve assembly within the housing. The first valve assembly venting a first fluid conduit disposed within the housing. A second valve assembly is provided and attached to the first fluid conduit. The second valve assembly venting a first fluid control circuit. | 09-17-2015 |
20150145320 | METHOD OF CONNECTING NON-SYMMETRICAL INSIDE DIAMETER VEHICLE SPINDLE TO STATIONARY HOUSING AND AXLE ASSEMBLY - A process for connecting a non-symmetrical inside diameter vehicle spindle to a stationary housing is provided. Low and high stress areas of the spindle are determined, where correspondingly reduced and increased material cross sections are provided or increased cross sections are located in an orientation relative to a spindle axis. Consequently, the low and high stress areas of the spindle are aligned with corresponding areas of the stationary housing. Then, the spindle and stationary housing are connected by way of friction welding. This in turn results in selecting a section modulus of the connection of the spindle to the stationary housing, thereby achieving the lowest weight to strength ratio for the connection. | 05-28-2015 |
20150107742 | TIRE INFLATION SYSTEM - A tire inflation system including an axle housing and a sealing ring disposed on the axle housing. The sealing ring has a conduit formed therethrough. A hub is rotatably disposed on the axle housing. The hub is disposed adjacent the sealing ring and has a conduit formed therethrough which is in fluid communication with a conduit formed through a fastener engaged with the hub. The tire inflation system also includes an inner rotary seal disposed between the sealing ring and the hub and an outer rotary seal disposed between the sealing ring and the hub. The conduit formed through the hub is in fluid communication with the conduit formed through the sealing ring through an area between the inner rotary seal and the outer rotary seal. A bearing seal is disposed between the hub and the axle housing and outboard of the outer rotary seal. | 04-23-2015 |
20140274537 | TRANSAXLE WITH TANDEM AXLE - A transaxle with a tandem axle includes an engine, a transmission and a driveshaft. The transmission has an integrated interaxle differential mounted remotely from the engine. The transmission and the integrated interaxle differential are mounted on at least one vehicle frame member so that both are sprung weight on the vehicle. The driveshaft spans a gap between the engine and the transmission. | 09-18-2014 |
20130228258 | Tire Inflation System Having A Sleeve Shaped Air Passage - A tire inflation system for a vehicle includes an axle spindle having a radially outer surface and a radially inner surface, a sleeve having a radially inner surface, a radially outer surface, an inboard end portion and an outboard end portion with a flared end. A cavity is located between the radially inner surface of the axle spindle and the radially outer surface of the sleeve. The cavity being in fluid communication on an inboard end portion with a first rotary seal and in communication on an outboard end portion with a second rotary seal, wherein the flared end of the sleeve closes the cavity on the outboard end portion. | 09-05-2013 |
20130099459 | Air Suspension System Having A Variable Spring Rate - An air suspension system for a vehicle having a variable spring rate is provided. The air suspension system includes a first rigid vehicle member, a second rigid vehicle member having a cavity formed therein, a resilient reservoir, and a valve. The resilient reservoir is coupled at opposing ends to the first rigid vehicle member and the second rigid vehicle member. The valve is in fluid communication with an interior of the resilient reservoir and the cavity of the second rigid vehicle member to form an air spring having a first spring volume and a second spring volume. | 04-25-2013 |
20130017927 | Method of Shifting a Tandem Drive Axle Having an Inter-Axle Differential - A method of shifting a power distribution unit for a vehicle from a first operating state to a second operating state is provided. The method includes the step of adjusting a rotational speed of a portion of a second axle assembly using a clutching device to impart energy to a lubricant within the second axle assembly. A controller in communication with a power source of the vehicle adjusts an operating condition of the power source to facilitate moving the clutching device. The power distribution unit includes an inter-axle differential capable being placed in a locked condition by the clutching device and of accommodating a rotational difference between a first output gear and a second output gear with the inter-axle differential. | 01-17-2013 |
20120021864 | Drive axle system having a clutching device - A drive axle system for a vehicle drive train having a clutching device is provided. The drive axle system includes a first shaft, a first axle assembly, a second axle assembly, a first clutching device, and a second clutching device. The first axle assembly is drivingly engaged with the first shaft. The first clutching device divides one of a pair of output axles into first and second portions. The second clutching device selectively engages a driving gear of the second axle assembly with one of the first shaft and a portion of the first axle assembly. | 01-26-2012 |