Class / Patent application number | Description | Number of patent applications / Date published |
280124109 | Interposed frame structure (i.e., subframe) | 51 |
20080203692 | Shock Absorber Spring Seat - A spring seat of a shock absorber includes a disc-shaped seat portion to which one end of a coil spring is fixed and a slide portion formed protruding in the radial direction from the seat portion. A fuel inlet pipe is configured to slide along the slide portion toward a side surface of the spring seat, thus enabling interference between the fuel inlet pipe and the shock absorber to be relieved at a low cost. | 08-28-2008 |
20080246242 | Installation structure and method of vehicular suspension - In installation structure and method of a vehicular suspension, each of left and right suspension links couples a corresponding one of the left and right side members with the suspension member and is provided with a breakable portion which breaks due to a load generated when the load applied to a forward end portion of at least one of left and right front side members causes a drive unit and a drive shaft to be moved toward a rearward direction of a vehicle body to bring the drive shaft in contact against a corresponding one of the left and right suspension links. | 10-09-2008 |
20080258417 | Independent Suspension with Adjustable Sub-Frame - A carrier housing for receiving a drive shaft that is drivingly coupled to a drive axle is provided, where the carrier housing is also connected to a sub-frame. To provide an adjustable relationship between the carrier housing and the sub-frame, the carrier housing further comprises a cover gear that may be removably coupled to a ring gear, which is attached to the sub-frame. By removing either the cover gear or the ring gear, the carrier housing may be repositioned with respect to the sub-frame. | 10-23-2008 |
20080277892 | Wheel Suspension System for a Motor Vehicle - The invention relates to a wheel suspension system for a motor vehicle, having a lower link for the fastening of a wheel which is coupled to a chassis underframe and is supported on the body via a spring. The chassis underframe is mounted on the body via elastic bearings and has an annular mounting on which the spring plate of the spring is supported before the wheel suspension system is installed. In the fitted state, the spring plate is pressed out of the mounting by the body and is therefore decoupled from the chassis underframe. | 11-13-2008 |
20090115154 | Independent Adjustable Axle Suspension System - An independent adjustable axle suspension system for mounting a wheel to a frame of a trailer for transport of the trailer over a support surface. The axle suspension system includes a tower adapted to be attached to the frame and an axle unit adapted to receive the wheel. The tower is selectively moveable with respect to the axle unit along guide assemblies between extended and retracted positions to thereby selectively position the height of the frame with respect to the support surface. | 05-07-2009 |
20090212521 | Auxiliary supporting frame for receiving axles of a vehicle - An auxiliary supporting frame for receiving drive shafts of a vehicle, wherein the auxiliary supporting frame has longitudinal supporting arms and transverse supporting arms connecting the latter to each other in order to form a closed frame shape, and wherein one or more openings are provided for the passage of drive shafts or shaft sections, and having at least one stiffening sleeve element is arranged in the at least one opening in at least one longitudinal supporting arm or in a section of the auxiliary supporting frame, and the sleeve element is fitted in such a manner into the opening between shells, parts or walls of the at least one longitudinal supporting arm, which is designed as a hollow body, the said shells, parts or walls forming a longitudinal supporting arm, and is fastened in such a manner to the shells, parts or walls of the at least one longitudinal supporting arm that it closes off the opening to the interior of the hollow body in a sealing manner in order to form protection against corrosion, wherein the at least one stiffening sleeve element is connected at least on one side within the at least one opening to the surrounding walls, shells or parts of the at least one longitudinal supporting arm. | 08-27-2009 |
20090212522 | TAPERED JOINT FOR VEHICLE SUSPENSION COMPONENTS - A non-torque reactive air suspension exhibiting excellent roll stability characteristics is shown to include frame hangers mounted to frame rails extending longitudinally on opposite sides of a vehicle. Longitudinally extending beams are connected to the frame hangers at one end and extend parallel to the frame rails. At their other ends, the beams are joined by a crossbrace extending laterally across the vehicle centerline. In a central portion thereof, the beams have an axle pivot bore to which an axle clamp assembly is connected, the axle clamp assembly clamping a drive axle housing for the vehicle. The axle pivot bore is generally aligned with the drive axle. A control rod assembly is connected to suspension or frame components. Together with the beams, the control rod assembly forms a parallelogram configuration wherein the beams form the lower linkages of that configuration and the control rods included within the control rod assembly form the upper linkages of that configuration. | 08-27-2009 |
20090218780 | INDEPENDENT SUSPENSION FOR A DOUBLE-WISHBONE HIGH LINK AXLE - A vehicle independent suspension for a double-wishbone high link axle has on each wheel side, a wheel carrier which is mounted by at least one lower link and at least one upper link in the form of a transverse or diagonal link, on an assembly frame that is fastened to the vehicle frame. The assembly frame comprises two longitudinal members and two cross members that are fixedly connected in a force-fitting or materially joined fashion to the longitudinal members. The rear cross member is extended upward forming a link carrier for the upper link or mounting the link carrier in a dimensionally rigid manner by a support element. For each longitudinal member, a further link carrier for the upper link is arranged between the cross members; and said further link carrier engages in each case around the closest longitudinal member in a form-fitting or force-fitting or materially joined fashion. | 09-03-2009 |
20090243246 | Suspension system with enhanced stability - A suspension system including a vehicle chassis, first and second axles and first and second longitudinal assemblies. The longitudinal assemblies include leaf springs secured relative to both of the axles. Air springs are positioned between the longitudinal assemblies and the vehicle chassis. First and second lift limiting members limit the vertical separation between the first and second longitudinal assemblies and the vehicle chassis within a respective limited range having a predetermined maximum limit. The suspension system also includes first and second spring members coupled with the first and second longitudinal assemblies. The spring members exert a biasing force respectively urging the longitudinal assemblies away from the vehicle chassis for only a part of the limited ranges of vertical separation between the longitudinal members and the vehicle chassis. | 10-01-2009 |
20090243247 | SUSPENSION SYSTEM STRUCTURE AND METHOD OF ASSEMBLY - A sliding suspension system for a trailer chassis. The suspension includes two longitudinally extending slide rails and an axle assembly having two axles. At least one suspension spring member dampens relative movement between the axle assembly and the trailer chassis. At least one laterally extending cross beam is secured to the longitudinally extending rails. The suspension system also includes four bracing members and at least one central connecting member. Two of the bracing members are secured to and extend between one of the rails and the central connecting member while the other two bracing members are secured to and extend between the other rail and the central connecting member. The bracing members are arranged in an X-shaped configuration between the two rails. In some embodiments, the bracing members have an S-shaped cross section. A method of assembling a sliding suspension system for a trailer chassis is also disclosed. | 10-01-2009 |
20090322050 | VEHICLE SUBFRAME AND BUSH MOUNTING STRUCTURE - A front cross member | 12-31-2009 |
20100032920 | LOWER ARM ASSEMBLY FOR SUSPENSION SYSTEM - A lower arm assembly for a suspension system may include a lower arm member, and/or a stabilizer bar mounting rod supported by the lower arm member, wherein one end portion of the stabilizer bar mounting rod is pivotally coupled to a shock absorber and the other end thereof is fixedly connected to a connecting link. | 02-11-2010 |
20100066048 | AXLE BRACKET FOR MOTOR VEHICLE - The invention relates to an axle bracket for the rear axle of a motor vehicle, as an assembled structural unit comprising a single profiled transversal carrier ( | 03-18-2010 |
20100133773 | Axle Support - The invention relates to an axle support for motor vehicles. The axle support, especially a rear axle support for motor vehicles with non-powered rear axle, is constituted of two cast light-alloy longitudinal girders (A, B) which can be connected to each other by upper and lower connecting elements (C, D). | 06-03-2010 |
20100207345 | SADDLE-RIDE TYPE VEHICLE - A saddle-ride type vehicle with a swing arm swingably supported on a body frame. A shock absorber is connected to the body frame and the swing arm for applying a damping force. A shock absorber support member is suspended to the body frame in a vehicle width direction for supporting an upper end of the shock absorber. The shock absorber is supported on a central portion in the vehicle width direction of the shock absorber support member. The central portion in the vehicle width direction of the shock absorber support member is formed in a U-shape that is open at a lower side in a cross section taken along a longitudinal direction of the vehicle. An upper surface and a lower surface of the shock absorber support member are curved wherein a central portion lies above the end portion in the vehicle width direction. | 08-19-2010 |
20100253028 | Lower Part Structure in Vehicle Body Rear Part - A lower part structure in a vehicle body rear part has a rear suspension frame disposed in rear of a fuel tank and in front of a spare tire and has a mechanism for causing jump up of the rear part of the spare tire under load application from the vehicle rear. The lower part structure is configured so that the center in the vertical direction of the front part of the spare tire is located so as to lap on the extension line of vertical width of a frame in the vehicle width direction of the rear suspension frame, and when the spare tire is moved to the vehicle front by a load applied from the vehicle rear, the spare tire comes into contact with the rear suspension frame directly or indirectly, whereby the rear part of the spare tire is pushed up with the rear suspension frame side being the center, and is turned in the longitudinal direction. | 10-07-2010 |
20110062677 | INTEGRATED STEERING GEAR, FRAME MEMBER AND ENGINE MOUNT BASE - An integrated steering gear, frame structure and engine mount base for a vehicle includes an elongate, generally hollow housing having at least one mounting portion at each of opposing ends. A steering gear including a steering gear input and a pair of opposingly-oriented tie rods is assembled within the hollow housing such that the steering gear input and the tie rods extend from the interior of the housing. An engine mount base is integrated into the housing. The integrated steering gear, frame structure and engine mount base is mountable to a vehicle support frame to function as a subframe member of the support frame. | 03-17-2011 |
20110163513 | Longitudinal link for an auxiliary frame, particularly for motor vehicles - The invention relates to an auxiliary frame ( | 07-07-2011 |
20110215545 | FRONT AXLE BRACKET FOR A MOTOR VEHICLE AND METHOD FOR THE PRODUCTION THEREOF - The invention relates to a front axle bracket for a motor vehicle. | 09-08-2011 |
20110221154 | Independent Suspension With Adjustable Sub-Frame - A carrier housing for receiving a drive shaft that is drivingly coupled to a drive axle is provided, where the carrier housing is also connected to a sub-frame. To provide an adjustable relationship between the carrier housing and the sub-frame, the carrier housing further comprises a cover gear that may be removably coupled to a ring gear, which is attached to the sub-frame. By removing either the cover gear or the ring gear, the carrier housing may be repositioned with respect to the sub-frame. | 09-15-2011 |
20110309594 | Suspension system for hummer vehicle - A suspension system for off-road vehicles that replaces the original suspension system and comprises an upper bracket and a bottom bracket that have a unique and innovative design and include holes that enable to attach the brackets using the original holes in the vehicle's chassis and axle. | 12-22-2011 |
20120080863 | FRONT-AXLE BRACKET FOR MOTOR VEHICLES - A front-axle bracket for motor vehicles has two accommodations spaced apart from one another in the longitudinal vehicle direction in each instance for the bearing locations for pivoting mounting of one of two wheel guide elements, in each instance, such as transverse control arms or A-arms, accommodations for attachment of the front-axle bracket as a pre-finished unit, together with pre-assembled assemblies, on the vehicle body, and at least individual ones of accommodations for attachment of the steering gear mechanism, for attachment of the stabilizer, and for mounting of a pendulum support. The front-axle bracket is produced as a component that is in one piece with these accommodations and connects them with one another. | 04-05-2012 |
20120235375 | INTEGRATED SUSPENSION AND DIFFERENTIAL MOUNTING STRUCTURE - An integrated vehicular suspension and differential mounting structure includes a metal base frame which supports a differential support member having a body formed of a resin or composite material. The differential support member further includes integrated annular collars having a central portion formed of a metal and a peripheral portion formed of resin or rubber. The peripheral portion of the collars are integrated with the resin or composite body of the differential support member. The base frame may further include a bracket for supporting the differential support member and a bracket for mounting an associated suspension system. The bracket for supporting the differential support member may be integrally formed with the bracket for mounting the associated suspension system. | 09-20-2012 |
20120292873 | SUSPENSION STRUCTURE AND METHOD OF MAKING SUSPENSION LINK - In a suspension structure, a suspension link has a hollow structure in which a pair of frame brackets are joined together, while opposing each other. Also provided is a stiffening bracket integrally connected to both the frame brackets for holding and sandwiching the frame brackets together. The stiffening bracket is configured to hold and sandwich both an end face of a first one of the frame brackets facing apart from the mating face with the second frame bracket and an end face of the second frame bracket facing apart from the mating face with the first frame bracket together. One end of a stabilizer, a height sensor, or the like is connected to the stiffening bracket. | 11-22-2012 |
20120326410 | INDEPENDENT REAR SUSPENSION KIT - An independent rear suspension kit includes first and second mounting brackets configured to be fastened to a chassis of a vehicle, a cross-member interconnecting the first and second brackets, a differential housing supported by the cross-member, first and second upper control arms pivotably coupled to the cross-member, first and second lower control arms pivotably coupled to the differential housing, a first upright pivotably coupled to the first upper control arm and the first lower control arm, and a second upright pivotably coupled to the second upper control arm and the second lower control arm. | 12-27-2012 |
20130009375 | SUB-FRAME STRUCTURE OF VEHICLE AND MANUFACTURING METHOD THEREOF - A sub-frame ( | 01-10-2013 |
20130033017 | FRONT-AXLE BRACKET FOR MOTOR VEHICLES - A front-axle bracket for motor vehicles has two accommodations spaced apart from one another in the longitudinal vehicle direction in each instance for the bearing locations for pivoting mounting of one or two wheel guide elements, in each instance, such as transverse control arms or A-arms, accommodations for attachment of the front-axle bracket as a pre-finished unit, together with pre-assembled assemblies, on the vehicle body, and at least individual ones of accommodations for attachment of the steering gear mechanism, for attachment of the stabilizer, and for mounting of a pendulum support. The front-axle bracket is produced as a component that is in one piece with these accommodations and connects them with one another. At least individual ones of the accommodations are integrated into the front-axle bracket by way of rod-shaped connecting elements, in framework-like manner. | 02-07-2013 |
20130093154 | MODULAR INDEPENDENT SUSPENSION AND METHOD OF PRODUCING THE SAME - A method of producing a modular independent suspension having portal wheel ends is disclosed herein. The method includes, but is not limited to, assembling a first flank component and a second flank component to opposite sides of a sub-frame configured to receive a carrier. The method further includes assembling a first upper control arm and a first lower control arm to the first flank component. The method further includes assembling a second upper control arm and a second lower control arm to the second flank component. The method further includes assembling a first portal wheel end to the first upper control arm and the first lower control arm. The method still further includes assembling a second portal wheel end to the second upper control arm and the second lower control arm. | 04-18-2013 |
20130099461 | SUSPENSION MOUNTING STRUCTURE FOR VEHICLE - An object of the present invention is to effectively ensure the rigidity of supporting a front suspension with a simple configuration, without increasing the weight of a vehicle body. | 04-25-2013 |
20130147145 | STRUCTURE OF VEHICLE SUBFRAME - A structure of a vehicle subframe mounted to a vehicle, in which a wheel hub may be connected to a vehicle body through a lower arm and an upper arm disposed below and above one another, and in which the lower arm may be coupled in a traverse direction of the vehicle may include a plate-shaped body mounted to a lower portion of the vehicle body, and having the lower arm mounted thereon in the traverse direction of the vehicle, and a mounting bracket protruding from the body upwards wherein the upper arm may be pivotally coupled to an upper portion of the mounting bracket. | 06-13-2013 |
20130168939 | AXLE SUPPORT, IN PARTICULAR FRONT AXLE SUPPORT FOR MOTOR VEHICLES - The invention relates to an axle support ( | 07-04-2013 |
20130175780 | FRONT-AXLE BRACKET, IN PARTICULAR FOR MOTOR VEHICLES - Front-axle bracket ( | 07-11-2013 |
20140062047 | SUPPORT STRUCTURE FOR A VEHICLE WHEEL SUSPENSION - A support assembly for receiving a vehicle wheel suspension and adapted for mounting to a vehicle structure, is disclosed that includes: a transverse body ( | 03-06-2014 |
20140110916 | AXLE BRACKET FOR A MOTOR VEHICLE - An axle bracket for a front axle or rear axle of a motor vehicle includes two side members and at least one cross member interconnecting the side members and having at least one attachment point for attachment of a drive component, wherein during travel an operating force can be introduced from the drive component via the attachment point to the cross member. The cross member is constructed as a hollow profile of downwardly open U-shaped configuration to define a hollow space bounded by an upper top wall and two sidewalls depending downwards from the top wall. The cross member has a bearing site configured for securement of a stiffening element such that the stiffening element is arranged, at least in part, in the hollow space of the cross member, for increasing a strength of the cross member. | 04-24-2014 |
20140175767 | Vehicle Having a Transverse Leaf Spring Wheel Suspension - The invention relates to a wheel suspension for a vehicle, in particular a motor vehicle, having a transverse leaf spring arranged transversely relative to a vehicle longitudinal axis. The transverse leaf spring is supported at each of the two sides of a vehicle longitudinal center plane by at least one resilient member on a vehicle-side support which is securely connected to the vehicle superstructure or an auxiliary frame which is connected to the vehicle superstructure. The resilient member and the support form an articulated engagement. With an articulated engagement provided at each side of the vehicle longitudinal center plane. | 06-26-2014 |
20140183833 | STRUCTURE OF FRONT PORTION OF VEHICLE BODY - Front side frames | 07-03-2014 |
20140183834 | SUB FRAME STRUCTURE OF AUTOMOTIVE VEHICLE - A sub frame attached to a vehicle-body rear portion from below comprises a pair of right-and-left side members and a front cross member which interconnects substantially respective central portions, in a vehicle longitudinal direction, of the side members. As attachment portions for attaching lower links, there are provided a central attachment portion which is provided at an interconnection portion between the side member and the front cross member, a front attachment portion which is provided at the side member at a position located in front of the interconnection portion, and a rear attachment portion which is provided at the side member at a position located in back of the interconnection portion. Thereby, a sub frame structure of an automotive can be superior in the light weight, ensuring the support rigidity of the suspension links. | 07-03-2014 |
20140252739 | FRONT VEHICLE-BODY STRUCTURE OF VEHICLE - A longitudinal member is configured to transmit a part of a collision load occurring in a vehicle head-on collision to a suspension cross member by way of a front portion, a bending portion, and a rear portion. A lower arm, a portion of which is co-fastened to a vehicle body together with a fastening portion, is configured to transmit another part of the collision load occurring in the vehicle head-on collision to the fastening portion from the front portion. Accordingly, the rear end of the sub frame can be properly detached from the vehicle body in the vehicle head-on collision even in a case in which any weak portion extending in a vehicle width direction may not be provided. | 09-11-2014 |
20140327219 | MOTOR-VEHICLE MULTI-LINK SUSPENSION SYSTEM INCLUDING A TRANSVERSE LEAF SPRING - A motor-vehicle multi-link suspension system includes, for each wheel, two lower transverse arms and a substantially longitudinal or inclined lower arm, each having one end pivotally connected to a respective wheel support and the opposite end pivotally connected to the motor-vehicle structure. A leaf spring is arranged transversally with respect to the longitudinal direction of the motor-vehicle. The leaf spring is supported by elastic supports arranged symmetrically at intermediate positions between the center of the leaf spring and the ends thereof. Ends of the leaf spring are pivotally connected to upper parts of the two wheel supports. Two jack-type shock absorbers have opposite ends swingably connected to the respective wheel support and the motor-vehicle structure. The end portions of the leaf spring also fulfill the function of triangular upper transverse arms of the multi-link suspension. Preferably the leaf spring is made of a composite material. | 11-06-2014 |
20140375012 | REAR SHOCK ABSORBER MOUNTING STRUCTURE FOR VEHICLE - A rear shock absorber mounting structure for a vehicle includes a rear shock absorber upper cover which may be mounted on a wheel housing and on which a rear shock absorber may be engaged and supported, an inner dual rail member which may be mounted on an inner surface of the wheel housing, which may be oriented toward a vehicle interior along a width direction of a vehicle, and an outer dual rail member which may be mounted on an outer surface of the wheel housing, which may be oriented toward an outside of the vehicle interior along the width direction of the vehicle, and thereby, the rear shock absorber mounting structure may be configured by a simple structure, and mounting stiffness of the rear shock absorber may be increased. | 12-25-2014 |
20140375013 | INDEPENDENT WHEEL SUSPENSION FOR THE DRIVEN WHEELS OF A VEHICLE - An independent wheel suspension for the driven wheels of a vehicle is disclosed. The suspension includes a wheel carrier for rotatably supporting a wheel of the vehicle. The wheel carrier is connected to a torsion-resistant transverse link. The torsion-resistant transverse link is connected to the vehicle structure via two structure-side link bearings and to the wheel carrier via two wheel-carrier-side link bearings. The wheel carrier also is connected to two additional transverse links, each of the additional transverse links being connected to the vehicle structure and to the wheel carrier. The suspension also includes a carrier spring supported on the vehicle structure and on the wheel carrier, wherein the carrier spring is arranged in front of a wheel center axis and the at least two additional transverse links are arranged behind the wheel axis. | 12-25-2014 |
20150102576 | SUBFRAME FOR A MOTOR VEHICLE - A subframe for a motor vehicle includes at least one transverse structure oriented in a transverse direction of the vehicle, a first and a second longitudinal member oriented in a longitudinal direction of the vehicle and connected to the at least one transverse structure by respective first and second cast joints respectively arranged between the first longitudinal member and the at least one transverse structure and the second longitudinal member and the at least one transverse structure, the first and second cast joints each having bearing connection points for fastening an engine bearing. The subframe also includes connection parts, one of which is provided for each of the first and second cast joints, the connection parts each having at least one other bearing connection point for fastening the engine bearing, and multiple bearing sites via which the connection parts are fastenable on the at least one transverse structure and on the bearing connection points of the first and second cast joints. | 04-16-2015 |
20150360727 | VEHICLE REAR PORTION STRUCTURE WITH INLET PIPE - A vehicle rear portion structure has: a suspension structural portion that overlaps a rear side member as seen in a vehicle plan view; an inlet pipe that passes-through between the rear side member and the suspension structural portion; and a pipe protecting portion that is provided at a position overlapping the rear side member and the suspension structural portion in a vehicle plan view, and a length in a vehicle vertical direction of the pipe protecting portion is set to be longer than an outer diameter of the inlet pipe, and rigidity, with respect to load from a vehicle lower side, of the pipe protecting portion is set to be higher than that of the inlet pipe. | 12-17-2015 |
20150367699 | SUSPENSION MOUNT - A suspension mount comprises an inner plate, an elastomer member, a lower case, and an upper plate. A plate includes an extended portion extending from the circular-cylinder portion. An incline portion is integrally formed on the extended portion and clamped by the elastomer member. The elastomer member clamps the incline portion of the extended portion from the outer periphery side. Thereby, when the plate is fixed in a status that the plate and the elastomer member are contained in the case, the input in the axial direction of the mount will be decomposed into a compressive load in an axial direction and a compressive load in an axially-perpendicular direction by the incline portion. Therefore, the elastomer member is held in a status that it is precompressed in the axial direction and the axially-perpendicular direction. | 12-24-2015 |
20160009154 | SUSPENSION MEMBER | 01-14-2016 |
20160054346 | AXLE ASSEMBLY MAKING WHEEL SPEED MEASURING PRECISELY - An axle assembly for measuring wheel speed is provided. The axle assembly includes a knuckle having a locking jaw for a bearing formed at a position on a vehicle, the knuckle including an inner circumferential surface configured to allow the bearing to be inserted from the outside of the vehicle to the inside, a speed sensor affixed to the locking jaw, and a magnetic encoder affixed to the bearing. | 02-25-2016 |
20160059891 | MOUNTING UNIT FOR SUB-FRAME - A mounting unit for a sub-frame for fastening the sub-frame to a side member of a vehicle body may include a pipe nut installed to be inserted into a through-hole above a mounting portion of the side member, a sub-frame bracket fixed under the side member to correspond to the pipe nut and including a fastening hole to which a lower end portion of the pipe nut may be fastened, and a reinforcing bracket fixed to an inner side of the side member and fixing an upper end portion of the pipe nut. | 03-03-2016 |
20160068036 | Suspension Frame Structure - A suspension frame structure comprises a suspension frame and a reinforcement. The reinforcement has a support portion that extends in the up-down direction within the suspension frame and connects an upper wall and a lower wall of the suspension frame to each other, a front upright wall that extends outward in the vehicle-width direction and further to the front side of a vehicle from a side face of the support portion and is joined to at least one of the upper wall and the lower wall of the suspension frame, and a rear upright wall that extends outward in the vehicle-width direction and further to the rear side of the vehicle from the side face of the support portion and is joined to at least one of the upper wall and the lower wall of the suspension frame. The front upright wall and the rear upright wall form an L-shape. | 03-10-2016 |
20160096408 | Slider Suspension Assembly with Compliant Hold-Down Arrangement - A vehicle suspension assembly includes a vehicle frame rail, a slide rail extending longitudinally along the vehicle frame rail and slidably adjustable thereto, a support bracket extending downwardly from the slide rail, a trailing arm pivotably coupled to the support bracket, a spring member positioned between the trailing arm and the slide rail, and an elastically resilient coupling arrangement coupling the slide rail to the vehicle frame rail, wherein the coupling member is configured to elastically deform during vertical displacement of the vehicle frame rail with respect to the slide rail. | 04-07-2016 |
20160152270 | SUSPENSION MEMBER | 06-02-2016 |
20160194029 | SUBFRAME FOR A MOTOR VEHICLE | 07-07-2016 |