A chassis component (1, 32) has a first end section (2), a second end section (3), and a connecting section (4) between the two end sections (2, 3), with at least one bearing (9, 10) in one of the two end sections (2, 3). A sensor device (13) has a sensor housing (14, 33) with a first sensor element (16). To improve and/or enable the arrangement of the sensor device (13) and/or the sensor housing (14) on the chassis component (1, 32), the two end sections (2, 3) and the connecting section (4) of the chassis are made as a one-piece profile (5) open on one side along its length, such that the open profile (5) forms an at least partially free inside space (17), and where the first sensor element (16) is located within the inside space (17).

A mechanical component for a vehicle, having a measurement region with a surface, and at least one force sensor associated with the measurement region for detecting a force to which the component is exposed. The component (3) has, disposed in the measurement region, a hollow body (3b) with a cavity (4) in which the at least one force sensor (7) can be positioned.

The invention relates to a chassis component with a structural part which comprises at least one strut section with an open cross-section shape, wherein in an end area of the strut section a first wall section and a second wall section are formed, the first wall section has a first joint-receiving opening and the second wall section has a second joint-receiving opening. The two joint-receiving openings are arranged opposite one another, and a joint housing of a joint is arranged in the two joint-receiving openings. In order to improve the arrangement of an additional component, in particular a sensor element, on the chassis component and make it simpler and/or less costly, the said additional component is fixed between the two wall sections and on the joint housing by means of a clamping fit and/or a press fit.

A system and method calculates a vehicle load on a suspension system of a vehicle using a plurality of tilt angle sensors. The angle sensors are attached to the suspension system and configured to measure an angle with respect to gravity. A first angle sensor is configured to measure a first angle. A second sensor configured to measure a second angle. The measured first and second angles are combined to obtain a combined value representative of a vehicle load adjusted for tilt.

A closure element (1, 28) for a ball joint (16) in a vehicle. The closure element has a receptacle (2, 29) for accommodating an electronic component (6). To be able to reduce the effort and cost of creating an interface, between the closure element and the electronic component, the closure element (1, 28) has a receptacle (2, 29) which is made of a plastic material and is injection-molded onto one side (3) of the closure element (1).

A mechanical component for a vehicle, having a measurement region with a surface, and at least one force sensor associated with the measurement region for detecting a force to which the component is exposed. The component (3) has, disposed in the measurement region, a hollow body (3b) with a cavity (4) in which the at least one force sensor (7) can be positioned.

A mechanical component for a vehicle, such as a ball stud, having a cylindrical measurement region with an outer surface. A force sensor is associated with the cylindrical measurement region for detecting at least one force to which the component is exposed. The forces detected by the nanotube sensor may include compressive and/or tensile stress forces. The force sensor includes a layer of carbon nanotubes applied to the outer surface of the cylindrical measurement region.

A connecting rod for a multiple connecting rod axle of a motor vehicle, especially a lower wishbone for a multiple connecting rod rear axle, includes a substantially Y-shaped basic framework with a first arm, the free end region of which has a first seat for linking the connecting rod to an auxiliary frame or a vehicle body, with a second arm, the free end region of which has a second seat for linking the connecting rod to the auxiliary frame rod or the vehicle body, and with a third arm, the free end region of which has a third seat for linking the connecting rod to a wheel carrier. The connecting rod is manufactured in one piece with the seats.

A central joint device for chassis components (2), particularly three-point link, is suggested. The central joint device comprises at least one housing unit (3), at least one joint pin unit (4) which is movably supported at least partially inside of the housing unit (3), and at least one sensor unit (5), particularly a magnetic sensor unit, which is provided for contactless detection of roll motions and pitch motions of the housing unit (3) and of the joint pin unit (4) relative to one another. The sensor unit (5) comprises at least one encoder element (6) and at least one sensor element (7). The encoder element (6) and the sensor element (7) are arranged to be spaced apart from one another and movable relative to one another.

A system and method for indicating the load condition of a vehicle having suspension components comprising: at least one of an inclinometer or an accelerometer mounted on at least one suspension component to measure the deflection angle of the suspension component; and a controller configured to use deflection angle and generate an output representative of the load condition of the vehicle.