Abstract: A container for cryogenic fuels assembled from a plurality of identical straight and closed profiles which are arranged in different configuration from one another and are straight hollow profiles which are arranged parallel to one another and of which at least one outer boundary wall maintains a functional distance from an outer boundary wall of an adjacent profile and to the open ends of which a common cap as a common connection space of the profiles is in each case contiguous on both sides.

Abstract: Rear axle suspension system for motor vehicles, in which the wheel carriers on both sides are coupled to the body of the vehicle by at least one longitudinal link (9, 10), one transverse link (12) and a further transverse link (15, 16). In order to ensure that the axle kinematics distinguish between spring compression in the same direction and spring compression in opposite directions and a side force steering effect occurs, the transverse link (12) is a single connecting link which is connected to the two wheel carriers (3, 4) via first joints (5, 6) and connects both wheel carriers (3, 4), and the center of which (19) is guided, with respect to the body of the vehicle, in the longitudinal center plane of the vehicle, by a straight-guide (20 to 24). The straight-guide (20 to 24) is a Watt linkage (23, 24, 20).

Abstract: A power transfer assembly for use in a four-wheel drive vehicle has a torque transfer mechanism equipped with a power-operated clutch actuator for controlling adaptive engagement of a friction clutch and a control system for controlling actuation of the clutch actuator. The control system and its method of operation are adapted to control actuation of the clutch actuator based on whether the vehicle is operating in an engine drive mode or an engine coast/braking mode.

Abstract: An axle drive block for a motor vehicle, comprising a first and a second differential in a driven housing. Both of the differentials are coaxially aligned planetary spur gears, the sun wheels of which are drivably connected to the semiaxes of the first driven axle. The planet wheels of both differentials mesh the joint ring gear of the sun wheels. In order to lock the interaxle differential, the housing is provided with a first striking surface interacting with a second striking surface which is pressed thereto by ball ramps.

Abstract: A mounting for a power unit for motor vehicles, comprises a support and a support plate fixed thereto, which may be detached in the case of a collision, whereby the support plate is connected to the support in a number of places. A power unit mounting may be achieved which guarantees a steady deceleration, whereby a separating device is provided, which separates the support plate from the support. The separating device can be a part of the support plate or fixed thereto and is forced between support plate and support in the case of a collision.

Abstract: Axle-drive unit for a motor vehicle which contains a first and a second differential (18, 19) in a driven housing (22), the two differentials (18, 19) being spur-gear-type planetary gears with parallel axes, the sun wheels (32, 43) of which are in each case connected in terms of drive to the half axles (8, 9) of the first driven axle, and planet wheels (36, 38) of the two differentials (18, 19) meshing with their common ring gear (35). The housing (22) has a machined inner surface (50) which surrounds the ring gear (35) with little clearance, the ring gear is so thin in the radial direction that it is deformed in a lobe-like manner by the radial component of the tooth forces exerted by the planet wheels (31, 36). The outer circumferential surface (60) of the ring gear is placed against the inner surface (50) of the housing (22) in a manner producing friction at least locally.

Abstract: Fastening element for a trim panel in the interior of a motor vehicle, said fastening element being fastened between a structural part (1) of the motor vehicle and the trim panel in such a manner that the trim panel can be removed, and foam being provided between the trim panel and structural part. In order, with reduced costs for manufacturing and logistics, to be able to absorb a large amount of work of deformation and to be exchangeable, the fastening element (5) itself is a body which consists of light metal foam, in which at least one insert (8) is integrated, said insert being exposed on the side which faces the trim panel (15), and wherein the trim panel is fastened releasably to the exposed part (9) formed in this manner.

Abstract: An all-wheel drive with hybrid drive has an internal combustion engine (1), a first drive train (4) for a first driven axle (2), a second drive train (10) for a second driven axle (3), an electric machine (15) in the second drive train (10; 110), and a first clutch (20) upstream of the electric machine (15) and a second clutch (21) downstream of the electric machine (15). In order to improve all the electrical functions and to provide an all-wheel drive which meets all requirements, the electric machine (15) is composed of a stator (17) and of a rotor (18) which is connected to a first element (44) of a three-element planetary gear mechanism (19), whose second element (45) is connected to the first clutch (20) and whose third element (46) is connected to the second clutch (21).

Abstract: A lightweight support for a bumper is formed by an extruded profile with a plurality of chambers. In order to provide a profile which, along with an extremely low weight, meets all the static requirements, is easy to bend and is suited to the properties of a light-metal alloy, the profile (1) comprises four walls (2, 3, 5, 6), which preferably form an isosceles trapezoid, and two webs (7, 8), which are arranged in the interior of the profile, parallel to the side walls (5, 6) and likewise symmetrically. The side walls (5, 6) of the support (1) have stiffening ribs (25) which are produced in the same operation as the support (1) is bent. A description is given of the associated process.

Abstract: A motor vehicle door having a door inside part (19), a door outside part (20) and a supporting panel (3) which is connected in a tight-fitting manner to the door inside part (19).

Abstract: A driver's cab of a commercial vehicle is supported by at least one support (8; 9) on a frame (1) by spring struts (10; 20) and, by means of a pair of swinging arms (11; 21), is supported on bearings (15; 16;25; 26) fixed on the frame. One end of the swinging arms are connected in an articulated manner to the support.