Abstract: A suspension system for a vehicle may include a steering knuckle operably coupled to a wheel hub, and a plurality of links operably coupling the steering knuckle to a chassis of the vehicle. One of the links may be a trailing blade having a body portion that lies in a plane. The trailing blade may include a first end operably coupled to the steering knuckle and a second end operably coupled to the chassis. The trailing blade may extend from the first end to the second end such that the plane of the body portion forms an angle of greater than 5 degrees relative to a longitudinal axis of the vehicle.

Abstract: A vehicle has a frame, seats, two front and two rear suspension assemblies, two front and two rear wheels, and a motor. Each rear suspension assembly has a trailing arm, a knuckle pivotally connected to the trailing arm, a lower link having laterally outward and inward ends pivotally connected to the trailing arm at a first connection point and to the frame at a second connection point respectively, an upper link having laterally outward and inward ends pivotally connected to the trailing arm at a third connection point and to the frame at a fourth connection point respectively, and a toe link having laterally outward an inward ends pivotally connected to the knuckle at a fifth connection point and to the frame at a sixth connection point respectively. The fifth connection point is laterally further from a longitudinally and vertically extending center plane than the first and third connection points.

Abstract: A vehicle has a frame, driver and passenger seats, two front and two rear suspension assemblies, two front and two rear wheels, and a motor operatively connected to at least two of the wheels. Each rear suspension assembly has a trailing arm having a front end pivotally connected to the frame, a knuckle pivotally connected to a rear portion of the trailing arm, a link having a laterally outward end pivotally connected to the trailing arm and the knuckle and a laterally inward end pivotally connected to the frame, and a fastener fastening the laterally outward end of the link, the knuckle and the trailing arm together.

Abstract: The invention relates to an axle/suspension system that includes a composite beam and separately pultruded axle connection and bushing end brackets. The composite beam has an internal support with vertical stitching to minimize delamination, which is lightweight and maintains rigidity of the beam while still maintaining flexibility. The beam includes a pair of ends. The axle connection bracket is connected to one end of the beam and captures the axle. The bushing end bracket is connected to the other end of the beam and is connected to a hanger of the heavy-duty vehicle.

Abstract: A torsion beam axle for a wheel suspension of a motor vehicle. The torsion beam axle has a torsionally compliant transverse section. A trailing arm is fixed at each opposed end of the transverse section. Each trailing arm supports a wheel carrier that pivots about a respective steering axis. The wheel carriers are connected to one another via ball joints and a tie rod, and couple an actuating mechanism for producing steering movement of the wheel carriers about their respective steering axes. A kinematic coupling system is connected to the tie rod and designed to regulate the degree of freedom of rotational movement of the tie rod. A torsion beam axle in which—to minimizing track angle differences or unsymmetrical bouncing behavior—the tie rod and actuating mechanism maintain optimum kinematic conditions in all operating situations.

Abstract: A carrying axle (1) for trailers and a method for the production thereof are provided. The axle (1) includes an axle body (4) having an outer supporting axle tube (10) in which a rocker arm assembly (6), which is bent once or several times, is introduced. The rocker arm assembly (6) is produced as a metal, tubular stamped and bent single piece. The rocker arm assembly is stamped from a platine (21) or a sheet metal strip (23) and is bent in order to form an angled tube (22).

Abstract: In a vehicle steering device, extendable portions whose elastic properties corresponding to a force acting in a compressing direction and whose elastic properties corresponding to a force acting in a stretching direction are asymmetrical are disposed in a symmetric fashion at intermediate sections of tie rods. Thus, an effective steering gear ratio with respect to leftward and rightward steering can be properly changed in accordance with a vehicle speed by using a simple configuration that does not use a complex mechanism having a motor. In this case, a steering gear ratio can be mainly changed for one of the wheels, while a linear lateral force corresponding to steering can be generated at the other wheel. Moreover, since the steering gear ratio can be changed mechanically without performing motor control, the occurrence of control delay can be prevented, thereby reliably preventing deterioration of the driver's operational feel.

Abstract: The invention relates to a method for manufacturing of a flexible trailing arm for a wheel axle suspension of a vehicle such as a lorry or a trailer. In the method a steel blank is heated. Next, the blank is formed into the desired shape of the trailing arm by means of a suitable forming process. Following that the trailing arm is austempered by cooling it in a warm fluid medium.

Abstract: A wheel axle suspension adapted to suspend an axle body of a wheel axle from a vehicle chassis comprises on both sides of the vehicle a bearing bracket arranged on the vehicle chassis. A rigid or flexible trailing arm extends in a longitudinal direction of the vehicle. The trailing arm has a resilient bush at a front end by means of which the trailing arm is hingedly connected to said bearing bracket. The trailing arm furthermore has a contact region essentially complementary to a portion of the outer contour of the axle body, where the axle body, in a fitted position, bears directly against. A support part opposes said contact region of the axle body. The support part is provided with a recess for accommodating the axle body, and is provided with a securing arm extending further towards the rear which is adapted to be secured to a pneumatic spring. Tensioning elements are provided tensioning the support part and the contact region of the trailing arm towards each other against the axle body.

Abstract: A swing arm for a suspension of a vehicle comprises a substantially transversely outer arm portion having a free end for mounting of a support for supporting a wheel of the vehicle and a substantially transversely inner arm portion with a first branch and second branch. The first branch is substantially aligned with the outer arm portion and has a free end for mounting of a first connector for connection to a body of the vehicle, and the second branch extends along an arched path towards a rear part of the vehicle and has a free end for mounting of a second connector for connection to the vehicle body. A single-sheet metal piece includes a main portion having an open section and at least one secondary portion arranged in an edge zone of the swing arm, having a closed section, and formed by at least one strip of the metal piece folded onto the main portion and firmly secured with a free edge of the strip to the main portion.

Abstract: The invention relates to a twist-axle that includes a cross-beam member and two trailing arms, each trailing arm rigidly secured to the cross-beam member in one of two connection regions of the cross-beam member or formed integrally with and extending from one of the two connection regions. The cross-beam member is formed from a tubular blank and has a torsionally elastic central portion and two torsionally stiff connection regions. The cross-beam member has a wall thickness that varies longitudinally along the length of the cross-beam member from the torsionally elastic central portion to each of the torsionally stiff connection regions.

Abstract: A wheel axle suspension for suspending a round hollow axle (10) from a vehicle comprises on both sides of the vehicle a trailing arm (1,41,51) to which the axle (10) is attached. The trailing arm is hingedly connected at the front to a bearing bracket (42) which is arranged on the vehicle chassis (43). A pneumatic spring (44) is operational between the trailing arm and the chassis. The axle body bears directly against a contact region (5,45,55) of the trailing arm. The contact region is essentially complementary to the outer contour of the axle body, wherein, on that side of the axle body opposite the contact region, a support part (20,46,56) is provided with a recess (21) for accommodating the axle. The support part is clamped against the axle by means of clamping means (23,24,47,48). At the location of the contact region, the trailing arm is wider than in the region (2,41a, 52) which is situated immediately in front thereof.

Abstract: A suspension apparatus for an automotive vehicle employs, as its main element, a main suspension member 10. The main suspension member 10 includes a main portion 12 constituted by a pipe; two body-side attachment portions 14, 16 that are fixed to opposite ends of the main portion 12, respectively; and a wheel-side attachment portion 18 that is fixed to a rear-side portion of the main portion 12. The opposite ends of the pipe constituting the main portion 12 are located near to each other, such that the main portion 12 has a generally C-shaped configuration in its side view. The body-side attachment portions 14, 16 are attached to a body of the vehicle such that those portions 14, 16 are pivotable about their pivotal axes. The pivotal axes of the two body-side attachment portions 14, 16 are offset from each other in a direction perpendicular to those axes, or are inclined relative to each other.

Abstract: An axle/suspension system for a heavy-duty vehicle, in which the vehicle includes a frame that extends in a longitudinal direction relative to the vehicle. The axle/suspension system is attached to the vehicle frame via at least one hanger and includes at least one beam, which includes a first end and a second end. The first end of the beam is connected to the hanger, and the second end of the beam immovably captures an axle, which extends in a transverse direction relative to the vehicle. The beam is formed of a composite material and has a substantially constant cross section in the transverse direction to provide sufficient strength to control roll forces encountered by the vehicle during operation.

Abstract: A pair of left and right shackles operative to support the vehicle-rear-side end portions of a pair of left and right suspension leaf springs. The left and right shackles have structures whereby the rigidity center positions of the leaf-spring-side bushings are offset to further outside areas of the vehicle than the rigidity center positions of the vehicle-body-side bushings, respectively.

Abstract: An axle/suspension system for a wheeled vehicle, in which the vehicle has a frame, includes an integral arm structure that includes an attachment member for connecting the integral arm structure to the vehicle frame. A flexible transition member is connected to and extends from the attachment member and a body is connected to and extends from the transition member The flexible transition member may be generally curved or angular and enables pivotal movement of the integral arm structure and cooperates with the body to distribute forces encountered by the axle/suspension system The body may be a truss structure or a solid body, which may include a member that replaces a conventional axle tube. Optionally, two axle/suspension integral arm structures may be used to capture a conventional axle tube.

Abstract: An independent suspension system for a wheeled vehicle includes a modified shock absorber, a leaf spring, and a wheel carrier. The shock absorber includes a cylinder, and a rod passing through the cylinder. The shock absorber is vertically mounted in a condition where the ends of the rod are coupled to the vehicle body. The cylinder of the shock absorber is coupled to the wheel carrier. The leaf spring supports the wheel carrier against rotation on a vertical axis of the vehicle. The leaf spring is elastically twisted to cancel a moment that causes a friction within the shock absorber.

Abstract: A suspension system for supporting fore-and aft extending frame members of a vehicle chassis on a hollow axle, the system on one side of the vehicle being duplicated on the opposite side. Included in the suspension on each side are: (1) a frame bracket for pivotally supporting the fore or leading end of an asymmetric leaf spring; (2) a spring end support mounted on the frame side member for supporting the aft or trailing end of the leaf spring, and (3) a suitable assembly for attaching the leaf spring at a location intermediate its opposite ends to the axle so that the spring is divided into two cantilever limbs extending in opposite directions from the center line of the axle. The spring is formed so that one of the cantilever limbs has a stiffness substantially greater than the stiffness of the other limb. In all forms, at least one leaf of the asymmetric spring extends the full length of the spring.

Abstract: An axle/suspension system for a heavy-duty vehicle, in which the vehicle has a frame, is attached to the vehicle frame via a pair of hangers, and includes an axle and a pair of suspension assemblies. Each of the suspension assemblies includes an air spring and at least one spring member. The spring member includes a first attachment portion and a second attachment portion. The first attachment portion is generally rigidly connected to the hanger via a clamped connection, and the second attachment portion is operatively connected to the axle. The spring member, connected in this manner, reduces or eliminates dock walk when a cargo transfer vehicle enters the heavy-duty vehicle, and also reduces or eliminates rebound when the cargo transfer vehicle exits the vehicle. The spring member is also capable of being tuned to a predetermined stiffness that is sufficient to control heavy-duty vehicle roll forces.

Abstract: An axle/suspension system for a heavy-duty vehicle, in which the vehicle includes a frame that extends in a longitudinal direction relative to the vehicle. The axle/suspension system is attached to the vehicle frame via at least one hanger and includes at least one beam, which includes a first end and a second end. The first end of the beam is connected to the hanger, and the second end of the beam immovably captures an axle, which extends in a transverse direction relative to the vehicle. The beam is formed of a composite material and has a substantially constant cross section in the transverse direction to provide sufficient strength to control roll forces encountered by the vehicle during operation.

Abstract: An air suspension anti-roll stabilization system includes air suspension devices, such as at least one pair of air bags air spring mounted upon an axle via leaf spring suspension arms of an associated vehicle on respective opposed sides of the longitudinal axis of the vehicle, with the axle being located at least partially with respect to the frame or chassis of the vehicle by means of a pair of leaf spring arms which are located on respective opposed sides of the longitudinal vehicle axis and of which each has one end mounted pivotally to the vehicle frame or chassis, wherein anti-roll means is connected rigidly between the part of longitudinal leaf spring suspension arms.

Abstract: An improved suspension system is disclosed for a personal mobility vehicle comprising an arm assembly pivotably mounted to a fame section. A wheel assembly is connected to the arm assembly. A spring is interposed between the arm assembly and the second frame section for resiliently suspending the wheel assembly relative to the frame section. In one example of the invention, the frame section comprises a rigid frame section of the personal mobility vehicle. In another example of the invention, the frame section comprises a resilient leaf spring resiliently suspending the assembly of the personal mobility vehicle. In another example of the invention, a resilient coil spring interposed between the arm assembly the resilient leaf spring for providing a multiple resilient suspension for the wheel assembly.

Abstract: A linear or longitudinal torsion axle where the torsion shaft extends parallel to the longitudinal extent of the vehicle to which the torsion axle is attached. The torsion axle includes two torsion assemblies with the torsion shaft extending into and being supported by both torsion assemblies. Each torsion assembly has a housing enclosing a plurality of resilient torsion rods spaced about the outside of the torsion shaft. The torsion shaft is fixed to a wishbone connector that is positioned between the two torsion assemblies. A wheel spindle is fixed to an outer end of the wishbone connector to accept a wheel and tire assembly.

Abstract: A vehicle suspension system which uses a beam spring capable of substantial elastic deformation in two planes to provide for independent wheel suspension and to commonize suspension mounting systems in a vehicle chassis.

Abstract: A suspension system for the steering axle of a vehicle chassis includes a right side air spring and a left side air spring. In the preferred embodiment leading rigid arms link each end of the steering axle to a pivoting mount on the chassis and transmits brake reaction torque as a lifting force to the chassis. Spring half leaf trailing links connect each end of the steering axle to the chassis, rigid leading arms provide anti-roll capacity as well as help in locating and stabilizing axle position.

Abstract: A suspension for a wheel in a motor vehicle, such as a passenger car, having a link which is made of fiber composite and is mounted at one end, by means of a mounting, on a chassis of the vehicle and at the other end holds the wheel, and having spring means which are made of fiber composite and support the link on the chassis in a resilient manner. In order to obtain a particularly compact construction for the wheel suspension, the mounting has a bearing in which a bearing part, which is fastened to the chassis, is mounted such that it can be adjusted relative to a bearing part, which is fastened to the link, by pivoting about a pivot axis, and the spring means having a torsion-bar suspension which extends coaxially to the pivot axis and is fastened at one end to the chassis or to the bearing part fixed to the chassis, and is fastened at the other end to the link or to the bearing part fixed to the link.

Abstract: A drive axle suspension for maintaining a differential pinion gear at a substantially constant position in response to engine torque induced or vehicle roll induced twisting forces acting on the differential axle housing. The drive axle suspension comprises a trailing arm having one end pivotally mounted to the vehicle through a hanger bracket, depending from a frame rail of the vehicle, and another end connected to the vehicle frame rail through an air spring. The trailing arms have a blade-like configuration that permits the blades to twist longitudinally and bend laterally to relieve the axle twisting forces that would otherwise rotate the differential and undesirably rotate the pinion gear, changing its angular orientation.