A hybrid lower arm and a hybrid upper arm include an arm body made of a metal material, and an insert injection-molded integrally with the arm body so that the insert is inserted into an inside of the arm body. The arm body has a weight ratio of 50% or more and 90% or less with respect to the total weight of the hybrid lower arm or the hybrid upper arm, thus achieving the rigidity increase as well as the weight reduction in the lower arm and the upper arm of a suspension system.

The invention relates to a connection system for connecting a damper unit of a vehicle inside a wheel suspension of the vehicle, the connection system having: an upper attachment region for attaching the damping unit, at least part of said region surrounding a receiving area for the damping unit and the receiving area extending around a first axis acting as the damping axis of the damping unit; a lower attachment region for coupling to the wheel-side portion of the wheel suspension, said lower attachment region having, in particular, two mutually spaced lower sections with an attachment area therebetween and an intermediate region which connects the upper attachment region to the lower attachment region. The main extension of the intermediate region corresponds to the direction of the first axis and the intermediate region allows the passage of a drive shaft of the vehicle. The connection system is made of an extruded part, the extrusion direction of which is the direction in which the extruded material extends, said material thus forming the intermediate region of the connection system. The invention also relates to a connection system comprising a clamping mechanism.

Motor vehicle control arm (1) comprising two profiles (2, 3) made from a metallic material, which are arranged at a distance opposite each other, and are connected to at least one plastic element (11) made from a fiber-reinforced plastic, wherein a plastic element (11) is designed in particular as a spring seat, which is designed to accommodate a motor vehicle spring.

Such a motor vehicle control arm (1) is optimized with respect to weight and costs.

Both weight reduction and inhibition of torsional rigidity deterioration in a structural member requiring a torsional rigidity against a torsional moment are attained.

A structural member has a first end including a first attaching part, a second end including a second attaching part, and an arm extending from the first end to the second end. The arm has a first outside surface, a second outside surface, and an arm surface. The arm has a first rib and a second rib protruding from the arm surface in a thickness direction. The first rib extends in an inclination direction that is a direction directed from the first outside surface toward the second outside surface and is a direction having a component of an arm direction. The second rib is formed so as to intersect with the first rib.

Strut-Pressed Bar to be installed to the suspension of the car composed of two Moaatmg-Flates cut into round shape with the circular shape hole at the center that is big enough to allow the exposure of the tip of the shock-sbsorber shaft. At the rim, the holes will be drilled at the point that is match to the position of the existing bolt on the top caps of the strut-assembly to be fixed to each other. On top of the Mounting-Plate was welded with the U-shape steel plate with 2 holes drilled at the base of the II and both 2 wings extend through the rim of the mounting plate to round the tip of the shock, absorber-shaft in the middle. The strut-bar made of flat aluminium bar bended into the bird-wing shape or stretch letter M, at both ends were vertically welded with the aluminium plate with 2 holes drilled to be mounted tp the die U-shape on the Mounting-Plates

An efficient method for producing spring strut forks for motor vehicles is presented. In each case two spring strut forks are produced from a metallic extruded profile as a starting product. The extruded profile has a central, middle main chamber and four longitudinal chambers which are arranged offset with respect to one another over the circumference of the main chamber. Wall portions of the main chamber which are situated between the longitudinal chambers are removed, and the extruded profile is severed into two semifinished parts. Each semifinished part has one cylinder portion and two oppositely situated arm portions which project relative to the cylinder portions. The semifinished parts are subsequently mechanically machined, and one spring strut fork is produced from each semifinished part.

A composite casting system for manufacturing a heterogeneous material casting product may include a fixed mold; a movable mold for opening or closing one side of the fixed mold; a slide core pin provided inside the fixed mold or the movable mold, and capable of being protruded to a cavity side, which is formed by a combination of the fixed mold and the movable mold, from the inside of the fixed mold or the movable mold; a high-pressure casting device for injecting high-pressure casting molten metal into the cavity; and a gravity casting device for injecting gravity casting molten metal through a gravity casting hole formed on the fixed mold or the movable mold.

A three-point suspension link for a chassis of a vehicle comprises two load-introducing elements, a central load-introducing element, two core profiles and a supporting winding. The three-point suspension link has two arms and a central bearing area. Each arm is connected to the central bearing area. Each arm has one of the load-introducing elements which is arranged at an end of the corresponding arm opposite the central bearing area. Each arm has a core profile which is spatially arranged between the load-introducing element and the central load-introducing element. The supporting winding surrounds the core profiles and the central load-introducing element in a subarea and is operatively connected to the core profiles, the load-introducing elements and the central load-introducing element.

A suspension member includes: a front frame including a front cross member extending in a vehicle width direction; a rear frame at least partially made of light metal and including a rear cross member extending in the vehicle width direction, the rear frame being placed on a vehicle rear side of the front frame and joined to the front frame; and a protective member joined to the rear cross member so as to form a closed section together with the rear cross member.

An elastic member is an elastic member formed of a wire having a cross section that is substantially circular, the cross section being orthogonal to a longitudinal direction, and the elastic member being expandable and contractible in a predetermined direction; and including: a first alloy portion that is made of an aluminum alloy having a tensile strength larger than 950 MPa and equal to or less than 1100 MPa at room temperature; and a second alloy portion configured to cover the first alloy portion, the second alloy portion having a thickness in a radial direction smaller than a radius of the first alloy portion, and being made of an aluminum alloy having a tensile strength of 100 MPa to 650 MPa at room temperature.