Abstract: A bearing eye for a leaf spring for sprung support of a vehicle component on a vehicle body of a vehicle may include a through opening and a torsion spring therein, and a first catch. The bearing eye may provide pivotable mounting of the leaf spring on the vehicle body. The torsion spring is twistable relative to the bearing eye and connectable non-rotatably to the vehicle body. The first catch may project radially inwardly into the through opening, and the torsion spring has a second catch that projects radially outwardly into the through opening. The first and second catches may form a locking engagement which, depending on a degree of relative twisting between the bearing eye and the torsion spring, stops the relative twisting.

Abstract: A chassis for an electrically powered vehicle including a front wheel suspension and a rear wheel suspension each having longitudinal control arms arranged on both sides and a torsion spring actively connected to the longitudinal control arms. The chassis includes a battery housing receiving a propulsion battery. A front transverse carrier extends between the respective longitudinal control arms of the front wheel suspension and a rear transverse carrier extends between the respective longitudinal control arms of the rear wheel suspension. The respective transverse carriers are rigidly connected to the battery housing and couple the longitudinal control arms and the torsion spring.

Abstract: The disclosure concerns a spring assembly with a leaf spring. The leaf spring extends in a vehicle longitudinal axis, supports a vehicle axle and is connected at least indirectly to a vehicle superstructure at a front end and at a rear end. In order to provide a wheel suspension with advantageous springing and damping behavior that is optimized with regard to weight and complexity, according to the disclosure it is provided that at least one damping region, which is at least partially fluid-filled, is integrated in the leaf spring.

Abstract: A computer, including a processor and a memory, the memory including instructions to be executed by the processor to simulate behavior of a vehicle suspension component based on sampling a geometry space including vehicle suspension component hard-points using Gaussian process modeling and determine one or more vehicle suspension component geometries including vehicle suspension component hard-points based on first kinematic curves corresponding to behavior of the vehicle suspension component.

Abstract: A leaf spring assembly resiliently supporting a wheel carrier on a vehicle body of a motor vehicle. The leaf spring assembly including first and second spring leaves and a clamp having a clamping part exerting a clamping force whereby the first and second spring leaves are held together by the clamp. A bridging part arranged between the first spring leaf and the clamping part transmits at least part of the clamping force from the clamping part to the first spring leaf bridging the second spring leaf and reducing the clamping force exerted thereon.

Abstract: A longitudinal leaf spring device for suspending a motor vehicle body or chassis on a vehicle axle thereof. Leaf spring device including an elongated leaf spring unit, a coupling device connecting the leaf spring unit to the vehicle axle, and suspension unit arranged in a substantially vertical direction between a chassis and the axle. The suspension unit including suspension elements providing a spring-back force in the vertical direction and producing an active connection between the chassis and the axle when the distance between the chassis and axle exceeds a predetermined first deflection depth.

Abstract: A mount located in a wheel housing of a motor vehicle, the mount receiving an upper end of a shock absorber. The mount has a plurality of upper receiving points each mounting point for allowing a different shock absorber orientation.

Abstract: A motor vehicle rear suspension includes left and right trailing links mounted, at respective forward ends thereof, to a vehicle body for pivoting movement about a transversely-extending axis. The trailing links extend rearward from the axis, and each has a wheel carrier attached thereto adjacent a rear end thereof. Left and right leaf springs are fixed, at respective forward ends thereof, to the vehicle body and extend rearward therefrom alongside and generally parallel with their respective trailing links. Rear ends of the leaf springs contact their respective trailing links and applying spring-force thereto.

Abstract: A longitudinal leaf spring device for the suspension of a body of a motor vehicle has a leaf spring unit in an elongated form, a coupling device for the mechanical coupling of the leaf spring unit to a motor vehicle axle and at least one bump stop unit having two separate elastic stop elements which can be connected, in a manner arranged vertically above one another, to a chassis or to the axle. According to the invention, perpendicular directions to a downwardly directed mean contact area of the upper stop element and to an upwardly directed mean contact area of the lower stop element each form an angle other than zero with the vertical.

Abstract: A motor vehicle suspension having a leaf spring, a control, and a connector formed of a monolithic piece of elastomer. The connector has a blind-hole cavity receiving an end of the leaf spring and a through-hole cavity through which the control arm extends. The connector is bonded to the leaf spring and to the control arm by vulcanization. The control arm has at least one hole formed through a flat connection portion thereof, and the connector extends through the at least one hole. At least one stiffener plate is embedded in the connector and is arranged substantially parallel to the flat connection portion of the control arm received by the through-hole cavity.

Abstract: An independent wheel suspension of a rear wheel of a motor vehicle, includes a control arm and a controllable actuator. The control arm is able to be articulated to a chassis of the motor vehicle and is able to be connected to a wheel carrier. The actuator is able to be fastened to the chassis and is able to be operatively connected to a front outer end of the control arm. According to the disclosure, when the actuator is controlled, said actuator is provided to carry out a length alteration which is substantially aligned in a direction parallel to a straight-ahead direction of travel.

Abstract: An independent rear suspension of a motor vehicle with an electrical drivetrain. The independent rear suspension including a left semi-trailing arm and a right semi-trailing arm, each of which can be articulated with an end on the body side to a chassis of the motor vehicle and are fixedly connectable to a wheel carrier on an end on the wheel carrier side, and also a transverse leaf spring for the suspension of the rear wheels. The transverse leaf spring is attached on the end side to the ends of the semi-trailing arms on the wheel carrier side, so that between the semi-trailing arms and the transverse leaf spring is formed an open installation space for receiving at least part of the electrical drivetrain.

Abstract: A liquid curable silicone elastomer composition is disclosed. The liquid curable silicone elastomer composition comprises an organopolysiloxane (A) containing at least two silicon-bonded alkenyl groups per molecule, an organopolysiloxane (B) containing at least three silicon-bonded hydrogen atoms per molecule, a platinum based catalyst (C), an inhibitor (D), and a silica filler (E). The organopolysiloxane (B) is a branched (or resinous) polymer, contains M siloxy units, and the at least three silicon-bonded hydrogen atoms are present on the M siloxy units. The inhibitor (D) is selected from the group consisting of acetylenic alcohols and their derivatives. The inhibitor (D) is present in the liquid curable silicone elastomer composition in an amount to provide a molar ratio—of the inhibitor (D) to platinum in the catalyst (C)—of from 150 to 900 (150:1 to 900:1).

Abstract: A liquid curable silicone elastomer composition is disclosed. The composition comprises: an organopolysiloxane (A) comprising: an organopolysiloxane (A1) containing at least 2 alkenyl groups bonded to silicon atom per molecule and having a total alkenyl content of from 0.01 to 1.5 mmol/g, and an organopolysiloxane (A2) containing at least 2 alkenyl groups bonded to silicon atom per molecule and having a total alkenyl content of from 5.0 to 15.0 mmol/g; an organopolysiloxane (B) comprising an organopolysiloxane (B1) containing at least 2 silicon-bonded hydrogen atoms per molecule provided by siloxy units of the type (R2HSiO1/2)x where R is independently selected from hydrogen, an aliphatic a hydrocarbyl, an aromatic hydrocarbyl, or an organyl group and x?2; a platinum based catalyst (C); an inhibitor (D) selected from the group consisting of acetylenic alcohols and their derivatives; and a silica filler (E).

Abstract: A vehicle axle suspension having a leaf spring unit suspending a rigid axle on a structural component or portion of the vehicle. The leaf spring unit arranged on the vehicle to extend parallel with a longitudinal axis of the vehicle. A first bearing unit, secured to the structure, and pivotably connects, at a first pivot axis, to a first end portion of the leaf spring unit. A second bearing unit is secured to the structure. A connection arm pivotably connects at one end, at a second pivot axis, to the second bearing unit. The other end of the connection arm pivotably connects, at a third pivot axis, to a second end portion of the leaf spring unit. The second bearing unit including at least one resilient spring element engaging the connection arm wherein the connection arm is supported on the resilient spring element from a pivoting about the second pivot axis a predetermined extent.

Abstract: The invention relates to a multi-link rear suspension for a motor vehicle, having at least one transverse leaf spring arranged on the motor vehicle to extend in the transverse vehicle direction and having ends which operatively act on left and right wheel carriers to cushion a vehicle structure of the motor vehicle with respect to the wheel-carriers. The transverse leaf spring also serves as a stabilizer, thereby replacing dedicated stabilizer. In order to provide a multi-link rear suspension which is optimized in terms of structural space and which is lightweight, the multi-link rear has exclusively transverse links for guiding the wheel-carriers.

Abstract: A leaf spring assembly for a wheel suspension of a motor vehicle including a leaf spring resiliently supporting of a wheel carrier on a vehicle body of the motor vehicle. The leaf spring has a first end portion, and a diametrically or longitudinally, opposite second end portion fastened, pivotably mounted, to the vehicle. The leaf spring includes a suspension portion extending between the two end portions. The leaf spring includes two spring leaves held pressed one against the other by a first clamp in the suspension portion and are held pressed one against the other by a second clamp distanced or longitudinally spaced from the first clamp. The position of the second clamp, its position on the leaf spring, is variable in the direction of the longitudinal axis of the leaf spring.

Abstract: An air-conditioning system includes a motor vehicle, in particular a passenger vehicle, and a drone. The drone is configured to be secured, in a secured state, to the motor vehicle and released from the motor vehicle. The drone is a flying drone that is driven using propellers. The drone, in the secured state, serves to air-condition the motor vehicle using the propellers by pushing air into the passenger vehicle through a roof of the vehicle. The roof defines openings that correspond to a propeller circumference that allow air, generated by the propellers, to flow into the passenger vehicle.

Abstract: The disclosure relates to a longitudinal leaf spring device for suspension of a body of a motor vehicle. and the longitudinal leaf spring device comprises a longitudinally formed leaf spring element and a coupling device that mechanically couples the leaf spring element to a motor vehicle axle. According to the disclosure, a holder device is provided that has a base holder element for fixed connection to a vehicle chassis and a suspension adjustment element that faces the leaf spring element and is fixedly connected to the base holder element. In this case, the leaf spring element is connected in a front region, fixedly to the base holder element, and the front region is provided to come into mechanical bearing with the suspension adjustment element in at least one operating state.

Abstract: A liquid curable silicone elastomer composition is disclosed. The liquid curable silicone elastomer composition comprises an organopolysiloxane (A) containing at least two silicon-bonded alkenyl groups per molecule, an organopolysiloxane (B) containing at least two silicon-bonded hydrogen atoms per molecule, a platinum based catalyst (C), an inhibitor (D), and a silica filler (E). The organopolysiloxane (B) is a branched polymer, contains M siloxy units, and the at least two silicon-bonded hydrogen atoms are present on the M siloxy units. The inhibitor (D) is selected from the group consisting of acetylenic alcohols and their derivatives. The inhibitor (D) is present in the liquid curable silicone elastomer composition in an amount to provide a molar ratio of the inhibitor (D) to platinum in the catalyst (C)—of from 150 to 900 (150:1 to 900:1).