An imbalance measurement machine for determining tire imbalance has a hollow shaft rotatably driven relative to a fixed hollow axle. A tubular air feed for filling the tire with air is centered within and rotates with the shaft to rotate the tire for determining imbalance. An air hose is connected to a rotational coupling disposed at an air feed end that faces away from the tire. Force transducers between the axle and a machine bed measure forces that occur there during operation. The air hose is attached not only to the rotational coupling but also to the axle, at a distance from the rotational coupling. An alternative embodiment omits the rotational coupling and fills the tire in the resting state of the shaft, via the air hose and the non-rotating air feed. Subsequently, the air hose is separated from the air feed, and the tire retains the supplied air.

A method for balancing a vehicle wheel includes mounting a wheel to be balanced on a rotating shaft of a machine computerized for measuring imbalances, and selecting an optimum commercial balancing weight which, when positioned on a correction plane, minimizes residual imbalance on reference planes of the wheel where the balancing tolerance is considered. One compares the residual imbalance value at the reference planes with the prescribed balancing tolerance after subtracting a vector of the static imbalance generated by the optimum balancing weight. An indicator device is activated to indicate on the wheel the optimum axial position of a correction plane for a balancing weight where the residual imbalance at the reference planes is within tolerance.

Provided is a method to acquire the unbalance of a rotor and a balancing machine, in which, the method to acquire the unbalance of a rotor includes the following procedures: install angle sensor at first position on balancing machine, measure the unbalance of rotor, first unbalance in measuring plane 1 and first unbalance in measuring plane 2 can be measured. Move angle sensor on balancing machine from first position to second position, measure the unbalance of the rotor again, second unbalance in measuring plane 1 and second unbalance in measuring plane 2 can be measured. In the above mentioned two measurements, the unbalance amount of rotor has no change, but the unbalance angle relative to angle reference point on rotor is changed by an angle which equals the angle of the sensor being moved.

A balancing device for each rotating piece, the rotating piece defining an axis of rotation, the balancing device including: a fixed portion, a mobile portion defining a central axis. The balancing device constrained to the rotating piece so that the central axis substantially coincides with the rotation axis. The balancing device including at least one eccentric mass, rotatable around the central axis and not balanced with respect to the central axis. The balancing device further including apparatus for movement of the eccentric masses, including a magnetic brake and being able to rotate the eccentric masses, with respect to the rotating piece around the central axis.

An apparatus for locking a wheel in a balancing machine comprises: a first casing (2), extending along a working axis (D1), a second casing (3), disposed inside the first casing (2) and movable along the working axis (D1) relative to the first casing (2) to adopt an open position (PA) and a closed position (PC) which are spaced from each other along the working axis (D1), a first lever (4), hinged to the first end (3A) of the second casing (3) at a hinge (31) to rotate between an extracted position (PE1) and a retracted position (PR1); a second lever (5), hinged at the hinge (31) of the second casing (3) to rotate between a respective extracted position (PE2) and a respective retracted position (PR2). The first lever (4) and the second lever (5) include a respective first apex (41) and a second apex (51). When the second casing (3) is at the open position (PA), the first apex (41) and the second apex (51) are disposed at a corresponding first apex position. When the second casing (3) is at the closed position (PA), the first apex (41) and the second apex (51) are disposed at a corresponding second apex position. For both the first apex (41) and the second apex (51), the first apex position is further back than the second apex position in a locking direction (VB) along the working axis (D1).

An apparatus for locking a wheel in a balancing machine comprises: a first casing (2), extending along a working axis (D1), a second casing (3), disposed inside the first casing (2) and movable along the working axis (D1) relative to the first casing (2) to adopt an open position (PA) and a closed position (PC) which are spaced from each other along the working axis (D1), a first lever (4), hinged to the first end (3A) of the second casing (3) at a hinge (31) to rotate between an extracted position (PE1) and a retracted position (PR1); a second lever (5), hinged at the hinge (31) of the second casing (3) to rotate between a respective extracted position (PE2) and a respective retracted position (PR2). The first lever (4) and the second lever (5) include a respective first apex (41) and a second apex (51). When the second casing (3) is at the open position (PA), the first apex (41) and the second apex (51) are disposed at a corresponding first apex position. When the second casing (3) is at the closed position (PA), the first apex (41) and the second apex (51) are disposed at a corresponding second apex position. For both the first apex (41) and the second apex (51), the first apex position is further back than the second apex position in a locking direction (VB) along the working axis (D1).

An unbalance detection device for detecting unbalance of a rotor of a turbo-cartridge which includes the rotor including a turbine wheel and a compressor wheel coupled via a rotational shaft and a bearing housing accommodating a bearing which supports the rotor rotatably, includes: a sound pressure sensor capable of detecting vibration upon rotation of the rotor by contactlessly measuring a sound pressure generated from vibration upon rotation of the rotor.

An unbalance detection device for detecting unbalance of a rotor of a turbo-cartridge which includes the rotor including a turbine wheel and a compressor wheel coupled via a rotational shaft and a bearing housing accommodating a bearing which supports the rotor rotatably, includes: a sound pressure sensor capable of detecting vibration upon rotation of the rotor by contactlessly measuring a sound pressure generated from vibration upon rotation of the rotor.

A balancing machine drive apparatus for driving rotational movement of a workpiece rotatably mounted about a rotational axis by a looping belt includes a frame at least partially surrounding, transaxially to the rotational axis, a workpiece mounting position and having an opening closable by an arch and through which the mounting position is accessible, the drive apparatus including guide devices on the frame and/or arch to guide the belt such that, when the arch is closed, the belt winds at least partially around a workpiece in the mounting position on a cylindrical circumferential workpiece region, and a drive device for the belt. The arch is held on the frame so as to be movable between open and closed positions. A balancing machine for balancing a workpiece includes a mounting apparatus in order to rotatably mount the workpiece about a rotational axis in a mounting position, and the drive apparatus.

A balancing machine drive apparatus for driving rotational movement of a workpiece rotatably mounted about a rotational axis by a looping belt includes a frame at least partially surrounding, transaxially to the rotational axis, a workpiece mounting position and having an opening closable by an arch and through which the mounting position is accessible, the drive apparatus including guide devices on the frame and/or arch to guide the belt such that, when the arch is closed, the belt winds at least partially around a workpiece in the mounting position on a cylindrical circumferential workpiece region, and a drive device for the belt. The arch is held on the frame so as to be movable between open and closed positions. A balancing machine for balancing a workpiece includes a mounting apparatus in order to rotatably mount the workpiece about a rotational axis in a mounting position, and the drive apparatus.