Final Drive Axle Movable Patents (Class 180/348)
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Patent number: 10882389Abstract: An axle assembly (200) includes a first axle housing (102), a second axle housing (104), a first wheel end (216), a second wheel end (218), and at least one drive shaft (150) extending through the first axle housing (102) and the second axle housing (104) and coupled to the first and second wheel ends (216, 218). The axle assembly (200) also includes a gearbox (210) having a body (240) with first and second portions (242, 244) defining a cavity (246) with the first axle housing (102) coupled to the first portion (242) and the second axle housing (104) coupled to the second portion (244). The axle housing (200) further includes an electric motor (122) coupled to the first portion (242) of the body (240). The gearbox (210) includes a gear train (153) having an input shaft (160) having one end coupled to the electric motor (122) and an output shaft (172) rotatably coupled to the input shaft (160).Type: GrantFiled: May 8, 2017Date of Patent: January 5, 2021Assignee: Allison Transmission, Inc.Inventor: Cyril Kucharski
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Patent number: 9770947Abstract: An axle-shaft system for transmitting torque in a motor vehicle drive-train includes first and second two-stage stiffness axle-shafts. Each axle-shaft includes a hollow cylinder having first and second ends and a hollow cylinder stiffness. The axle-shaft also includes an inner shaft extending through the hollow cylinder, and having first and second ends and an inner shaft stiffness. The inner shaft's and the hollow cylinder's first ends are engaged via a rotational clearance fit. The inner shaft's and the hollow cylinder's second ends are rotationally fixed to permit the inner shaft's first end to twist relative to the inner shaft's second end. The inner shaft's stiffness defines the axle-shaft's first-stage stiffness, while the inner shaft's and the hollow cylinder's combined stiffness defines the axle-shaft's second-stage stiffness. At least one of the first-stage and second-stage stiffness of the first axle-shaft is dissimilar from the respective stiffness of the second axle-shaft.Type: GrantFiled: April 22, 2016Date of Patent: September 26, 2017Assignee: GM Global Technology Operations LLCInventor: Paul A. Piorkowski
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Chassis assemblies with repositionable gearbox for children's ride-on vehicles, and assembly methods
Patent number: 9150102Abstract: Chassis assemblies for children's ride-on vehicles, children's ride-on vehicles including said chassis assemblies, and methods for configuring a children's ride-on vehicle for operation are disclosed. The chassis assembly may include a chassis configured to at least partially define a passenger region sized for a child, a gearbox coupled to the chassis, and an electric motor coupled to the gearbox. The gearbox may be configured to be selectively moved with respect to the chassis, along a path of movement, from a storage configuration to an operating configuration. A greater portion of the gearbox may extend beneath a lower plane defined by the chassis when the gearbox is in the operating configuration than when the gearbox is in the storage configuration.Type: GrantFiled: May 1, 2014Date of Patent: October 6, 2015Assignee: Mattel, Inc.Inventor: Kevin M. Gastle -
Publication number: 20150090515Abstract: A vehicle may include a CVT unit or a power source which requires ambient air. An air inlet for an air intake system coupled to the CVT unit or the power source which requires ambient air may be provided in a side of a cargo carrying portion of the vehicle. The vehicle may include a rear radius arm suspension.Type: ApplicationFiled: December 9, 2014Publication date: April 2, 2015Inventors: Brian M. Safranski, Robbi L. Peterson, Richard L. Sunsdahl, Aaron D. Deckard, Louis J. Brady
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Patent number: 8668215Abstract: A vehicle drive arrangement for a vehicle of the type having differential power transmission arrangement that converts the rotatory motion of the rotatory power shaft to rotatory motion of first and second drive shafts disposed substantially orthogonal the rotatory power shaft. Primary leaf springs are each coupled at their respective centers to respective drive shafts by pivotal arrangements. The first and second primary springs may include helical springs that are used in place of, or in combination with, the primary leaf springs. Secondary leaf springs may be splayed and therefore need not be arranged parallel to the primary leaf springs. Control over vehicle kinematics is enhanced by configuring the resilience of a fulcrum bumper using resilient, rheological, or active systems. An active system will control vehicle height while stationary to facilitate loading and unloading of the vehicle.Type: GrantFiled: June 18, 2007Date of Patent: March 11, 2014Assignee: Rassini S.A. de C.V.Inventor: James Andrew Juriga
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Patent number: 8567548Abstract: An independent rear wheel drive assembly for three-wheeled motorcycles is provided having a wheel carrier adapted to rotatably support a wheel, and the wheel carrier includes an interior portion. Also provided is a control arm having a first end, a second end, and an interior portion. The first end of the control arm is pivotably coupled to the wheel carrier and the second end is pivotably coupled to a differential housing. A first end of a stabilizer bar is pivotably coupled to the wheel carrier and a second end is pivotably coupled to the differential housing. A first end of the drive shaft assembly is adapted to be coupled to the wheel and a second end is adapted to be coupled to a differential. Moreover, a portion of the drive shaft assembly is disposed within the interior portions of the wheel carrier and the interior portion of the control arm.Type: GrantFiled: June 6, 2011Date of Patent: October 29, 2013Inventor: Leon A. Thill
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Patent number: 8457823Abstract: In a method for operating a hybrid vehicle, an idle first drive unit is started during the driving of the hybrid vehicle by transferring part of a torque from an operating second drive unit to the first drive unit. To minimize effects on the movement characteristics of the hybrid vehicle during starting and/or stopping of the first drive unit, a control unit is provided for influencing the torque of the operating second drive unit by at least one of the variables derived from the longitudinal movement of the hybrid vehicle.Type: GrantFiled: November 6, 2009Date of Patent: June 4, 2013Assignee: Robert Bosch GmbHInventor: Jens-Werner Falkenstein
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Patent number: 8387741Abstract: A drive train arrangement for a vehicle comprising a main transmission and a transfer box which are both housed within a transmission housing. The transfer box comprises a drive output which is connected to a rear axle differential transmission and connectable, by a torque transmission element and a connecting shaft, to a front axle differential transmission. The connecting shaft is arranged at a predetermined angle relative to the drive output shaft of the main transmission. The end of the connecting shaft, facing toward the front axle differential transmission, is actively connected to the front axle differential transmission. The front axle differential transmission is fixed to the vehicle by at least one adaptor device allowing the front axle differential transmission to be adapted to a variety of arrangement positions along the rotation axis of the connection shaft.Type: GrantFiled: August 26, 2009Date of Patent: March 5, 2013Assignee: ZF Friedrichshafen AGInventors: Ulrich Mair, Thomas Rosemeier, Dietmar Gehring, Detlef Baasch, Lothar Beigang, Manfred Geier
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Patent number: 8387740Abstract: A motor vehicle has a frame and drive mechanism mounted to the frame. A differential gear box is mounted to the frame and coupled to the drive mechanism. The differential gear box includes a housing cover, differential planetary gear assembly mounted within the housing cover, CV joint housing mounted within the housing cover and rotationally coupled to the planetary gear assembly, and CV joint bearing having a plurality of rounded bearing surfaces contacting the slotted bearing drive surfaces. The CV joint housing includes a cavity with a plurality of slotted bearing drive surfaces formed in a sidewall of the cavity. An axle has a spring-loaded plunger disposed through a center portion of the CV joint bearing and contacting a bearing surface formed in the cavity of the CV joint housing. The slotted bearing drive surfaces permit angular movement of the CV joint bearing within the CV joint housing.Type: GrantFiled: June 24, 2010Date of Patent: March 5, 2013Inventor: Thomas W. Melcher
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Patent number: 8322736Abstract: A swing arm assembly is configured for pivotal coupling with a frame of a vehicle. The swing arm assembly includes first and second support arms. A first axle support bracket is attached to the first support arm and a second axle support bracket is attached to the second support arm. A first reinforcement member includes upper, lower, forward and rearward edges, and is welded to the first axle support bracket along at least a portion of the upper edge and at least a portion of the lower edge of the first reinforcement member. The rearward edge of the first reinforcement member is devoid of weld material. The first support arm is attached to the first reinforcement member. Vehicles including a swing arm assembly are also provided.Type: GrantFiled: February 18, 2011Date of Patent: December 4, 2012Assignee: Honda Motor Co., Ltd.Inventor: Lee N. Bowers
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Patent number: 8191671Abstract: An axle carrier assembly is provided for a vehicle. The axle carrier assembly includes an axle carrier, a first cylinder, a second cylinder, and an actuator. The axle carrier is configured to rotatably support an axle. The first cylinder is rotatably supported by the axle carrier such that the first cylinder is rotatable about a first axis. The first cylinder is configured to support a vehicular swing member. The second cylinder is rotatably supported by the axle carrier such that the second cylinder is rotatable about a second axis. The second cylinder is configured to support a vehicular swing member. The actuator is associated with each of the first and second cylinders. The actuator is configured to substantially simultaneously rotate the first cylinder and the second cylinder with respect to the axle carrier.Type: GrantFiled: June 28, 2010Date of Patent: June 5, 2012Assignee: Honda Motor Company, Ltd.Inventors: Daniel Thomas Sellars, Scott Daniel Batdorf
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Publication number: 20110253472Abstract: The invention is a combination drive and suspension system that includes an upper drive assembly and a lower drive assembly pivotally connected. The pivoting drive system provides improved ground clearance for a farm vehicle capable of carrying a large quantity of field application material.Type: ApplicationFiled: June 27, 2011Publication date: October 20, 2011Applicant: AGCO CORPORATIONInventor: John Buschena
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Publication number: 20110108352Abstract: A differential lock assembly includes a differential lock and a blocking assembly. The differential lock assembly is movable between a locked position and an unlocked position. The blocking assembly is associated with the differential lock and includes a blocking member and a shape memory member. The blocking member is movable between a blocking position and a non-blocking position. When the blocking member is in the blocking position, the differential lock is inhibited from moving to the locked position. The shape memory member is coupled with the blocking member and configured to receive an activation signal. The shape memory member is configured for actuation between a first length and a second length in response to the activation signal, wherein actuation of the shape memory member between the first length and the second length facilitates movement of the blocking member between the non-blocking and blocking positions.Type: ApplicationFiled: November 11, 2009Publication date: May 12, 2011Inventor: Ian Neal Haggerty
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Patent number: 7900740Abstract: A machine includes an axle assembly coupled with a frame and defining a central axis. The axle assembly includes a wheel axle disposed within a spindle housing, and a rotary actuator configured to rotate the wheel axle about the central axis by rotating the spindle housing. According to one embodiment, for example, the rotary actuator may be configured to adjust a wheel axis of rotation relative to the frame of a machine, such as a scraper, by rotating the spindle housing.Type: GrantFiled: October 31, 2008Date of Patent: March 8, 2011Assignee: Caterpillar Inc.Inventor: Robert Doyle Roley
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Publication number: 20100326761Abstract: A motor vehicle has a frame and drive mechanism mounted to the frame. A differential gear box is mounted to the frame and coupled to the drive mechanism. The differential gear box includes a housing cover, differential planetary gear assembly mounted within the housing cover, CV joint housing mounted within the housing cover and rotationally coupled to the planetary gear assembly, and CV joint bearing having a plurality of rounded bearing surfaces contacting the slotted bearing drive surfaces. The CV joint housing includes a cavity with a plurality of slotted bearing drive surfaces formed in a sidewall of the cavity. An axle has a spring-loaded plunger disposed through a center portion of the CV joint bearing and contacting a bearing surface formed in the cavity of the CV joint housing. The slotted bearing drive surfaces permit angular movement of the CV joint bearing within the CV joint housing.Type: ApplicationFiled: June 24, 2010Publication date: December 30, 2010Inventor: Thomas W. Melcher
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Publication number: 20100155171Abstract: The invention is a combination drive and suspension system that includes an upper drive assembly and a lower drive assembly pivotally connected. The pivoting drive system provides improved ground clearance for a farm vehicle capable of carrying a large quantity of field application material.Type: ApplicationFiled: March 8, 2010Publication date: June 24, 2010Applicant: AGCO CORPORATIONInventor: John Buschena
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Patent number: 7690661Abstract: A suspension structure is configured to ensure a large stroke of a shock absorber in a suspension device without moving an upper end supporting position of a damper upward relative to a conventional mounting position. The suspension structure includes a rear suspension for suspending left and right rear wheels. The rear suspension includes left and right lower arms for supporting the left and right rear wheels by way of knuckles, and left and right rear shock absorbers interposed between the respective lower arms and a sub-frame of a vehicle body frame. A lower end connecting portion of the rear shock absorber is cantilevered to a front side of the lower arm.Type: GrantFiled: January 30, 2007Date of Patent: April 6, 2010Assignee: Honda Motor Co., Ltd.Inventors: Yuichiro Tsuruta, Takashi Shichinohe, Masahiro Yamaguchi
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Patent number: 7631721Abstract: A tilting chassis vehicle has a differential gear driving opposed half shafts (16,18). Each half shaft is connected to a respective wheel hub. Pivoting tie rods (24,26) are provided between the chassis (12) and these wheel hubs, and a control arm (48) is provided between the chassis and the differential carrier to constrain movement thereof. The arrangement gives a novel tilting vehicle with shaft drive and low centre of gravity.Type: GrantFiled: October 14, 2004Date of Patent: December 15, 2009Inventor: Michael Hobbs
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Patent number: 7604082Abstract: To provide a swing arm structure capable of suppressing the required rigidity of a cross member to a low level to reduce the weight of the cross member. In a swing arm structure, a swing arm includes a pair of left and right arm bodies with a cross member spanning therebetween. Ends of the swing arm suspend rear wheels. A rear wheel-driving rear drive shaft, connected to a rear final reduction gear unit, is placed above the cross member. As viewed laterally, the cross member is contained within the profile of each arm body and is formed to be trapezoidal in section such that its bottom portion is broader than its upper portion.Type: GrantFiled: September 15, 2005Date of Patent: October 20, 2009Assignee: Honda Motor Co., Ltd.Inventors: Hideo Yanai, Kozo Yamada, Yuji Maki
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Publication number: 20090236168Abstract: A motorcycle includes a swing arm, a rear wheel mounted on a leading end of the swing arm, a drive shaft disposed in the swing arm, and a final gear transmission mechanism interposed between the drive shaft and the rear wheel. The final gear transmission mechanism includes a gear case mounted on the leading end of the swing arm for supporting a rear axle; a first end bearing and a second end bearing for supporting a first end and a second end of the rear axle, respectively, a ring gear mounted on the rear axle for transmitting the rotary drive force of an engine to the rear axle; a holding portion for holding the first end of the rear axle in the axial direction of the rear axle; and a fastening member for fastening the second end bearing to the second end of the rear axle.Type: ApplicationFiled: February 18, 2009Publication date: September 24, 2009Applicant: Honda Motor Co., Ltd.Inventors: Taisuke Nimura, Kiyotaka Sakai, Kenji Kofuji, Yoshinobu Shiomi, Hidetoshi Toyoda, Yasuhiro Higashi
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Patent number: 7533751Abstract: In a motorcycle or a three-wheeled vehicle which tiltably supports a proximal end portion of a swing arm which pivotally supports a wheel on a vehicle body frame by way of a pivot shaft, the swing arm pivot structure is inexpensive and can be easily assembled without particularly using relatively expensive bearings such as taper bearings. At the same time, the preload adjustment is no longer necessary thus facilitating the assembling operation and the maintenance operation. A proximal portion of the pivot shaft is connected to the swing arm in a state wherein the proximal portion is non-rotatable relative to the swing arm. At the same time, a distal portion of the pivot shaft is fitted in and held by the vehicle body frame in a state wherein the distal portion is rotatable relative to the vehicle body frame.Type: GrantFiled: September 26, 2005Date of Patent: May 19, 2009Assignee: Honda Motor Co., Ltd.Inventors: Etsumi Handa, Katsumasa Mukai, Hisayoshi Kageyama
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Publication number: 20080156571Abstract: A swing arm structure, in a shaft-driven vehicle, is configured and arranged compactly to minimize the size and weight thereof. A drive shaft of the vehicle is housed in a right arm portion of a swing arm. A front end of the drive shaft is connected to a powertrain output shaft via a universal joint. A pivot sleeve is disposed such that a central axis thereof is disposed downwardly and rearwardly of a central portion of the universal joint, and a front-end opening protrudes forwardly of the pivot sleeve. The central portion of the universal joint, having the largest diameter, is disposed forwardly of the center of a pivot shaft. This helps to keep the opening diameter small at the front of the right arm portion.Type: ApplicationFiled: December 18, 2007Publication date: July 3, 2008Applicant: Honda Motor Co., Ltd.Inventors: Kenji Kofuji, Koichi Nozoe
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Patent number: 7284633Abstract: An agricultural tractor rear suspension system having a longitudinally extending suspension arm pivotally coupled to the tractor chassis at one end and to a planetary gearbox at the opposing end, a differential connected to the tractor chassis, and a driveshaft rotatably supported at one end by the planetary gearbox and supported at the other end by the differential housing wherein the driveshaft is configured to resist suspension arm flexure by communicating tensile and compressive forces from the suspension arm to the tractor chassis.Type: GrantFiled: September 21, 2005Date of Patent: October 23, 2007Assignee: CNH America LLCInventor: Giorgio Bordini
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Patent number: 7264079Abstract: A steerable rear suspension for a tractor includes a chassis comprising a front end, a rear end, a left side and a right side; an engine mounted on the chassis; a pair of steerable front wheels coupled to the front end, left and right side of the chassis; a left rear suspension including a left rear suspension arm pivotally coupled to the chassis at a leading end of the suspension arm, and a first steerable planetary gear system mounted on a trailing end of the suspension arm; a right rear suspension including a right rear suspension arm pivotally coupled to the chassis at a leading end of the suspension arm, and a second steerable planetary gear system mounted on a trailing end at the right suspension arm; and left and right rear wheels driven by the first and second planetary gear systems.Type: GrantFiled: February 4, 2005Date of Patent: September 4, 2007Assignee: CNH America LLCInventor: Giorgio Bordini
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Patent number: 7240759Abstract: A transmission case housing a transmission mechanism for transmitting power to dirigible wheels includes an axle case having a main body and vertical bosses extending in a bent way from opposite ends of the main body, and pivoting cases supporting axles of the dirigible wheels. The axle case (8) is bisected into a first case half (8F) and a second case half (8R) at a split plane parallel to a direction of extension of the transmission mechanism (S) housed therein. The first case half (8F) and second case half (8R) are connected by connecting bolt (38). Each vertical boss (8b) has bearings (26), and each pivoting case (25) is attached to the bearings (26) to be pivotable relative to the vertical boss (8b).Type: GrantFiled: March 4, 2004Date of Patent: July 10, 2007Assignee: Kubota CorporationInventors: Katsuhiko Uemura, Shoso Ishimori
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Patent number: 7051619Abstract: A motor vehicle axle assembly includes a hollow cylindrical, internally-splined input shaft that is adapted to be connected to an externally-splined shaft of an end fitting of a driveshaft assembly. By using the mass centerline or center of balance of the end fitting shaft as a common center of balance for a balanced driveshaft assembly and further as a locating centerline for the connection between the input shaft of the axle assembly and the shaft of the rear end fitting of the driveshaft assembly, eccentricities in the connection between the input shaft and the end fitting are minimized to reduce noise and vibration. This also provides an adequate seal between the input shaft and the carrier of the axle assembly to retain lubricant in the carrier.Type: GrantFiled: December 30, 2002Date of Patent: May 30, 2006Assignee: Torque-Traction Technologies LLCInventor: Vincent J. Morgillo
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Patent number: 7007571Abstract: A hydrostatic transmission mountable to a vehicle frame. The hydrostatic transmission is adapted to removeably receive an axle shaft. The hydrostatic transmission is also adapted to be mounted to at least one of two opposed side members of the vehicle frame. The opposed side members have openings through which the axel shaft passes. The vehicle may be a snow thrower.Type: GrantFiled: August 8, 2003Date of Patent: March 7, 2006Assignee: Hydro-Gear Limited PartnershipInventors: Herb M. Poplawski, Thomas D. Wiley, John D. Schreier, Michael L. Bennett, Lonnie E. Holder, Ralph A. McClelland
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Patent number: 6871723Abstract: A first and second hub assembly supported by an independent suspension system allows the independent articulation of each hub assembly. An input gear box includes a reduction gear set that drives a reduction gear set at each hub assembly. The input gear box is mounted offset from the first axis and the vehicle longitudinal axis to simultaneously drive both hub assemblies to allow a lowered vehicle floor profile.Type: GrantFiled: April 24, 2001Date of Patent: March 29, 2005Assignee: Meritor Heavy Vehicle Technology, LLCInventor: Tomaz Dopico Varela
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Patent number: 6837330Abstract: A small vehicle has a frame assembly that is supported by rear wheels. The rear wheels are connected to the frame assembly by a pivotable linkage. An engine drives the rear wheels through a shaft drive assembly, which comprises a drive shaft and a gear box. A brake assembly is mounted to the shaft drive assembly. The brake assembly comprises a brake disc and a brake caliper. The brake caliper is offset to one side to increase the available space for a storage compartment and the brake assembly is protected by the linkage and/or a stabilizer member.Type: GrantFiled: August 9, 2002Date of Patent: January 4, 2005Assignee: Yamaha Hatsudoki Kabushiki KaishaInventor: Yasuhiro Suzuki
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Publication number: 20040026156Abstract: A utility vehicle includes a middle axle that is mounted at the end of a bogey beam for flotational movement relative to the frame of the vehicle. The rear axle is carried by a suspension mechanism supported from the frame of the vehicle. The middle axle is formed by a pair of stub axles interconnected by a support beam that is pivotally connected to the rearward end of the bogey beam. The rear suspension mechanism includes a pair of transversely spaced suspension struts interconnecting the frame and a rear axle member having the rear drive wheels mounted thereon. Connecting support links interconnecting the middle and rear axles maintain proper positional spacing between the middle and rear axles.Type: ApplicationFiled: August 7, 2002Publication date: February 12, 2004Inventor: Joseph C. Hurlburt
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Patent number: 6662896Abstract: The present invention relates to a transmission for cars, preferably with driving of the front wheels, comprising an engine (2), a gearbox (8), a final gear (20), first link mechanisms (16A, 16B) which connect each axle shaft (12A, 12B) to said final gear (20), second link mechanisms (18A, 18B) which connect the other end of each of said axle shafts (12A, 12B) to its driving wheel (6) and preferably an intermediate transmission (4) between the engine and the gearbox (8), said final gear comprising two planetary gears (20A, 20B) which give an exchange gear reduction of between 1.2:1 and 10:1.Type: GrantFiled: June 22, 2001Date of Patent: December 16, 2003Assignee: UNIC AktiebolagInventor: Mats Karlsson
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Patent number: 6659217Abstract: A drive unit assembly utilizes a single input to drive a pair of laterally spaced wheel ends. Each wheel end is suspended independently from the other. The input is operatively coupled to only one of the wheel ends and an exposed axle shaft assembly interconnects the input to the opposite wheel end. The axle shaft assembly includes multiple shaft members to interconnect the laterally spaced wheel ends. One of the axle shaft members is mounted to a vehicle floor structure with a bearing mount and includes connection joints at either end to accommodate the independent motion of each wheel end. The floor and the shaft member move together during suspension travel, allowing the floor to have a lower profile than is traditionally available.Type: GrantFiled: February 15, 2002Date of Patent: December 9, 2003Assignee: Meritor Heavy Vehicle Technology, LLCInventors: Mark C. Smith, John L. Bennett, Chihping Kuan, John K. Ma, William C. Sullivan, Edward J. Eshelman, Dean M. House, Tomaz Dopico Varela
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Patent number: 6651529Abstract: A hydrostatic transmission mountable to a vehicle frame. The hydrostatic transmission is adapted to removeably receive an axle shaft. The hydrostatic transmission is also adapted to be mounted to at least one of two opposed side members of the vehicle frame. The opposed side members have openings though which the axle shaft passes. The vehicle may be a snow thrower.Type: GrantFiled: July 2, 2002Date of Patent: November 25, 2003Assignee: Hydro-Gear Limited PartnershipInventors: Herb M. Poplawsli, Thomas D. Wiley, John D. Schreier, Michael L. Bennett, Lonnie E. Holder, Ralph A. McClelland
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Publication number: 20030155170Abstract: A drive unit assembly utilizes a single input to drive a pair of laterally spaced wheel ends. Each wheel end is suspended independently from the other. The input is operatively coupled to only one of the wheel ends and an exposed axle shaft assembly interconnects the input to the opposite wheel end. The axle shaft assembly includes multiple shaft members to interconnect the laterally spaced wheel ends. One of the axle shaft members is mounted to a vehicle floor structure with a bearing mount and includes connection joints at either end to accommodate the independent motion of each wheel end. The floor and the shaft member move together during suspension travel, allowing the floor to have a lower profile than is traditionally available.Type: ApplicationFiled: February 15, 2002Publication date: August 21, 2003Inventors: Mark C. Smith, John L. Bennett, Chihping Kuan, John K. Ma, William C. Sullivan, Edward J. Eshelman, Dean M. House, Tomaz Dopico Varela
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Publication number: 20030150664Abstract: A suspended drive axle and agricultural tractor having same including a central housing having inboard final drives and left and right axle housing suspended therefrom by upper and lower control arms with axle shafts extending outwardly therefrom to which wheel and tire assemblies are mounted. A constant velocity universal joint is provided between the inboard final drives and the axle shafts. The universal joint having a pair of journal members and a coupling yoke that radially surround the drive and driven yokes of the joint whereby the axial length of the universal joint is minimized to enable the wheels to be located on the axle shafts at 60 inch tread spacing. This allows the drive axle to be used on a row crop tractor without altering the structure of the vehicle from a conventional row crop tractor whereby the characteristics of a row crop tractor are maintained.Type: ApplicationFiled: February 21, 2003Publication date: August 14, 2003Inventors: Terrill Wayne Woods, Dennis Aaron Bowman, Mervin Peter Kizlyk, Norman Frederick Lemmon, Kendall Lee Giesmann, Aaron James Peterson, George Nick Schmitz, Peter Alan Kosmicki, Joe L. Schutte, William Guy Alexander, Christopher Alan Schafer, Dennis Lee Jeffries, Jeffrey Kahle Brown
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Publication number: 20030132050Abstract: A suspended drive axle and agricultural tractor having same including a central housing having inboard final drives and left and right axle housing suspended therefrom by upper and lower control arms with axle shafts extending outwardly therefrom to which wheel and tire assemblies are mounted. A constant velocity universal joint is provided between the inboard final drives and the axle shafts. The universal joint having a pair of journal members and a coupling yoke that radially surround the drive and driven yokes of the joint whereby the axial length of the universal joint is minimized to enable the wheels to be located on the axle shafts at 60 inch tread spacing. This allows the drive axle to be used on a row crop tractor without altering the structure of the vehicle from a conventional row crop tractor whereby the characteristics of a row crop tractor are maintained.Type: ApplicationFiled: February 21, 2003Publication date: July 17, 2003Inventors: Terrill Wayne Woods, Dennis Aaron Bowman, Mervin Peter Kizlyk, Norman Frederick Lemmon, Kendall Lee Giesmann, Aaron James Peterson, George Nick Schmitz, Peter Alan Kosmicki, Joe L. Schutte, William Guy Alexander, Christopher Alan Schafer, Dennis Lee Jeffries, Jeffrey Kahle Brown
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Patent number: 6581715Abstract: An integrated semi-independent suspension and drivetrain system for a vehicle including a swing arm with a swing mount for pivotally mounting the swing arm to the vehicle, an axle carrier for mounting an axle assembly, the axle carrier being rotatably mounted to the swing arm to allow the axle assembly to roll about a suspension roll axis, a driven sprocket substantially centrally attached to the axle assembly for rotating the axle assembly, a drive sprocket for transferring rotational power to the driven sprocket, a flexible coupling mechanically linking the driven sprocket to the drive sprocket to allow transfer of rotational power from the drive sprocket to the driven sprocket, a constant velocity joint centrally disposed on the drive sprocket axle to allow alignment of the drive sprocket relative to the driven sprocket, and a CV guide for aligning the drive sprocket with the driven sprocket.Type: GrantFiled: August 23, 2001Date of Patent: June 24, 2003Inventor: Martin B. Montague
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Publication number: 20030029665Abstract: A small vehicle has a frame assembly that is supported by rear wheels. The rear wheels are connected to the frame assembly by a pivotable linkage. An engine drives the rear wheels through a shaft drive assembly, which comprises a drive shaft and a gear box. A brake assembly is mounted to the shaft drive assembly. The brake assembly comprises a brake disc and a brake caliper. The brake caliper is offset to one side to increase the available space for a storage compartment and the brake assembly is protected by the linkage and/or a stabilizer member.Type: ApplicationFiled: August 9, 2002Publication date: February 13, 2003Inventor: Yasuhiro Suzuki
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Publication number: 20020170767Abstract: A suspension for a heavy duty vehicle is provided that includes a frame. A lower linkage is supported by the frame at a first pivotal connection. A drive axle assembly is supported by a lower linkage at a second pivotal connection. The drive axle assembly includes an input shaft defining a pinion angle. An upper linkage interconnects the drive axle assembly and the frame at third and fourth pivotal connections, respectively. The upper linkage includes an adjustment member, such as a turnbuckle, for modifying the length of the upper linkage to obtain a predetermined pinion angle. In this manner, the pinion angle may be adjusted upon assembly of the suspension system. Furthermore, by permitting the drive axle assembly to pivotally move relative to the linkages, the pinion angle may be maintained during suspension movement.Type: ApplicationFiled: May 16, 2001Publication date: November 21, 2002Inventors: Ronald N. Brissette, James R. Hawkins, Christopher S. Keeney, Patrick Kurzeja, Christos T. Kyrtsos, Jack Darrin Oates, Tom Sanko
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Publication number: 20020153191Abstract: Equal response rear axles (“kera” axles) for vehicles having a front engine and rear wheel drive comprises a left and right rear axle which are sized to different predetermined dimensions. Conventionally, torque is delivered to the rear wheels unequally since the right side axle is longer than the left side axle, yet both axles have the same diameter in their effective length. The equal response axles are dimensioned based upon a formula for calculating spring rates or torsion bars. The calculations includes using the static loaded radius the dimension form the center of the axle to the ground and using either static or dynamic weight on the tire, that is the portion of the tire which is flat on the ground.Type: ApplicationFiled: March 7, 2001Publication date: October 24, 2002Inventor: Hank Kleban
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Publication number: 20010052435Abstract: An integrated semi-independent suspension and drivetrain system for a vehicle including a swing arm with a swing mount for pivotally mounting the swing arm to the vehicle, an axle carrier for mounting an axle assembly, the axle carrier being rotatably mounted to the swing arm to allow the axle assembly to roll about a suspension roll axis, a driven sprocket substantially centrally attached to the axle assembly for rotating the axle assembly, a drive sprocket for transferring rotational power to the driven sprocket, a flexible coupling mechanically linking the driven sprocket to the drive sprocket to allow transfer of rotational power from the drive sprocket to the driven sprocket, a constant velocity joint centrally disposed on the drive sprocket axle to allow alignment of the drive sprocket relative to the driven sprocket, and a CV guide for aligning the drive sprocket with the driven sprocket.Type: ApplicationFiled: August 23, 2001Publication date: December 20, 2001Inventor: Martin B. Montague
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Publication number: 20010048207Abstract: A saddle type vehicle for attaining an appropriate weight distribution and a low centroid position. Suspension mechanisms are each composed of an upper arm and lower arms, the upper and lower arms being disposed in vertically spaced positions. A shock absorber is interposed between the upper arm and a body frame. A stabilizer is disposed between both suspension mechanisms. A lower end of the shock absorber is pivotably connected to the front-side lower arm, while an upper end of the shock absorber is pivotably connected to an inside position in the vehicular transverse direction of the body frame.Type: ApplicationFiled: March 15, 2001Publication date: December 6, 2001Inventor: Akio Handa
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Patent number: 6305487Abstract: An integrated semi-independent suspension and drivetrain system for a vehicle including a swing arm with a swing mount for pivotally mounting the swing arm to the vehicle, an axle carrier for mounting an axle assembly, the axle carrier being rotatably mounted to the swing arm to allow the axle assembly to roll about a suspension roll axis, a driven sprocket substantially centrally attached to the axle assembly for rotating the axle assembly, a drive sprocket for transferring rotational power to the driven sprocket, a flexible coupling mechanically linking the driven sprocket to the drive sprocket to allow transfer of rotational power from the drive sprocket to the driven sprocket, a constant velocity joint centrally disposed on the drive sprocket axle to allow alignment of the drive sprocket relative to the driven sprocket, and a CV guide for aligning the drive sprocket with the driven sprocket.Type: GrantFiled: August 12, 1999Date of Patent: October 23, 2001Inventor: Martin B. Montague
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Publication number: 20010025737Abstract: A wheel suspension assembly for a vehicle having wheels and a chassis, the vehicle suspension system comprising a suspension unit for at least one wheel, the suspension unit including a first pivot arm of which a wheel is mounted and a second pivot arm mounted on the chassis, a drive unit mounted to the chassis, and a transmission unit between the drive unit and the wheel, the transmission unit arranged to accommodate pivoting of the second pivot arm relative to the chassis during operation of the vehicle.Type: ApplicationFiled: March 30, 2001Publication date: October 4, 2001Applicant: TRANSPORTATION TECHNIQUES, LLCInventor: Val J. Dare-Bryan
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Patent number: 6267197Abstract: An axle shaft spacer member for use with a suspension lift kit. The spacer member enables the wheel spindle of a vehicle to be moved laterally a desired distance, which in turn enables the upper control arms associated with the wheel spindle to be lowered when such would not otherwise be possible because of interference with the frame portion of the vehicle. The spacer is a disc-like member having a thickness equal to the desired lateral offset distance needed to enable the upper control arm to be lowered and re-mounted via a drop bracket, to the frame. The spacer member enables the original suspension geometry to be maintained, thus maintaining the ride and steering characteristics of the original suspension system while enabling vehicle ride height to be increased.Type: GrantFiled: October 8, 1999Date of Patent: July 31, 2001Assignee: Tenneco Automotive Inc.Inventor: Scott W. Douglas
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Publication number: 20010006127Abstract: One aspect of the invention is directed to a vehicle drive/suspension system including a chassis having a front portion, a rear portion and a pair of sides; a drive axle having opposed end portions extending between said sides; an elongated rocker arm, having opposed end portions, connected to each of said opposed end portions of said drive axle and pivotally mounted to each of said sides substantially at said opposed end portions of said drive axle; a sprocket rotatably fixed to each of said opposed end portions of said rocker arms; a rotatable drive sprocket connected to each of said opposed end portions of said drive axle; and a drive link for each rocker arm connected to rotate said sprockets in conjunction with said drive sprockets.Type: ApplicationFiled: January 29, 2001Publication date: July 5, 2001Applicant: Yazoo Power Equiqment L.L.L.C.Inventors: William L. Figura, Daniel Selleck
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Patent number: 6086076Abstract: A suspension system for a large dump truck. The dump truck having a main frame with laterally spaced frame members each associated with a rear wheel mounting hub with a wheel on each of its sides. Each hub is attached to a respective frame member by an attachment member pivotally attached to the respective frame member by a pivotal mounting and a suspension spring pivotally attached to the hub by a spherical bearing and to the respective frame member at a pivot mounting. The connections of the hub allow for limited pivotal movement of the hub about transverse and longitudinal axes relative to the frame members. A dump body is pivotally attached to the frame members at the pivot mounting or to the rear and above a suspension pivotal connection at a body pivotal connection.Type: GrantFiled: July 11, 1997Date of Patent: July 11, 2000Assignee: BHP Coal Pty Ltd.Inventors: Hans Prem, Francis Allen Bartley, Darin Ross Miller, Alan William Dickerson
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Patent number: 5911286Abstract: An independent suspension and rear halfshaft assembly for a vehicle having at least one wheel, a frame and at least one source of torque transmission, comprising at least one rigid arm hingedly connected to the frame and connected to the wheel, a Cardan type universal joint operatively connected to the source of torque transmission and having a pivot point approximately collinear with the pivot axis of the rigid arm, a rigid axle shaft operatively connected to the Cardan type universal joint and a crown spline joint operatively connecting the rigid axle shaft and the wheel.Type: GrantFiled: June 12, 1997Date of Patent: June 15, 1999Inventor: Robert Boutin
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Patent number: 5803200Abstract: A suspension for a ground vehicle which connects a rigid axle to the vehicle chassis and stabilizes the rigid axle in fore, aft, and rotational directions. The suspension comprises four links and a swivel. The four links extend within a predetermined number of degrees of parallel to a longitudinal axis of the vehicle, and connect the rigid axle to the vehicle chassis. Two of the links are normally attached above, and two of the links are normally attached below the rigid axle centerline. Therewith, the swivel comprises an arm having two opposite ends and a centrally positioned pivot shaft. Each end of the arm being interposed between an end each of two of the four links thus the pivot shaft is held steadfast to the surface residing between the locations where the pair of link ends would otherwise attach. Said surface being either of the vehicle framework or of the rigid axle, whichever location is preferred.Type: GrantFiled: December 10, 1996Date of Patent: September 8, 1998Inventor: Larry A. Brandt
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Patent number: 5495905Abstract: A front wheel drive motor vehicle is made having a strong, light weight, and attractive arrow-like body made with steel square tubing. Easily removable and replaceable plastic panel inserts complete the body. Vehicle entry is step in style by rolling back the top. The top is also easily removable to make it a convertible type vehicle. The vehicles front wheels are driven through a bevel gear drive which provides a narrow wheel track and drives both front wheels simultaneously. Suspension and steering along with drive support is through a pair of special U-shaped springs. The U-shaped springs also provide a semi-independent front suspension. The vehicle has a wide rear wheel track for stability.Type: GrantFiled: September 21, 1994Date of Patent: March 5, 1996Inventor: Anthony W. Fini, Jr.