A device for removing tool joint edge burrs of a wheel comprises a frame, a base, first guide rails, a first movable plate, a first ball screw, a longitudinal motor, a transverse motor, second guide rails, a second ball screw, a movable plate II, an electric cylinder, a mobile roller bed, a circle center measuring sensor, an inner bearing, a shaft, a sleeve, guide keys, a hollow shaft, a pyramid cutter, outer cylinders, a left blade, a right blade and the like. The device is configured to simultaneously remove tool joint edge burrs from an outer rim and a cap slot edge and is used for automatic continuous production; by integrating inner and outer burr removing cutters, not only is the space saved, but also inner and outer independent feeding and independent rotation are realized; the inner and outer cutters have higher coaxiality, and the burr removing effect is improved.

Disclosed is a wheel corner polishing device, being composed of a station switching system, a valve hole polishing system, a bolt hole polishing system and a rim and cap section synchronous polishing system. The device can meet the requirement of an automatic production line, and can automatically polish four positions including bolt hole corners, a valve hole corner, outer rim corners and cap section corners of a wheel via reasonable process layout, upper and lower stations and coordination of the systems, so that the minimum fillets of the four positions meet the requirements. The device has the characteristics of short cycle, high efficiency, skilful design, strong generality, easy manufacture and the like.

Disclosed is a wheel corner polishing device, being composed of a station switching system, a valve hole polishing system, a bolt hole polishing system and a rim and cap section synchronous polishing system. The device can meet the requirement of an automatic production line, and can automatically polish four positions including bolt hole corners, a valve hole corner, outer rim corners and cap section corners of a wheel via reasonable process layout, upper and lower stations and coordination of the systems, so that the minimum fillets of the four positions meet the requirements. The device has the characteristics of short cycle, high efficiency, skilful design, strong generality, easy manufacture and the like.

Disclosed is a wheel outer rim fillet dressing device, including a rough wheel positioning system, a precision wheel positioning system, a wheel rotating system and a cutter dressing system. After a wheel is roughly positioned, an electric cylinder drives a moving plate to descend to an appropriate position, an adjusting cylinder drives a right sliding table to move right, a left sliding table moves synchronously with right sliding table under the action of a second gear rack, thus the distance between a precision positioning post on left sliding table and a precision positioning post on right sliding table is adjusted, and precision positioning posts contact vertical surface of cap seam allowance of wheel and hold the wheel tightly. The adjusting cylinder is restarted, and outer rim fillets can be dressed when the distance between two dressing cutters is adjusted to an appropriate position and under the cooperation of rotating wheel.

A size-adjustable online wheel deburring device for removing burs from wheels, including a machine frame, a synchronous clamping and rotating system that enables the wheels to rotate in a clamped state, and a brush adjustment system, the clamping and rotating system and the brush adjustment system being arranged in the machine frame. The brush adjustment system includes a left brush adjustment system including a left brush and a right brush adjustment including a right brush, the left brush adjustment system and the right brush adjustment being arranged in symmetry. The left brush and the right brush are separately adjusted to desired positions through a left gear rack and a right gear rack according to detected diameters of the wheels, the left gear rack being fixed on a side face of the left supporting block and the right gear rack being connected with a right fixing block below the right brush.

A size-adjustable online wheel deburring device for removing burs from wheels, including a machine frame, a synchronous clamping and rotating system that enables the wheels to rotate in a clamped state, and a brush adjustment system, the clamping and rotating system and the brush adjustment system being arranged in the machine frame. The brush adjustment system includes a left brush adjustment system including a left brush and a right brush adjustment including a right brush, the left brush adjustment system and the right brush adjustment being arranged in symmetry. The left brush and the right brush are separately adjusted to desired positions through a left gear rack and a right gear rack according to detected diameters of the wheels, the left gear rack being fixed on a side face of the left supporting block and the right gear rack being connected with a right fixing block below the right brush.

The present invention relates to a composite wheel deburring device, which is composed of a stand, servo motors, guide rails, a first brush system, a second brush system, and a synchronous clamping rotary system. During use, the first servo motor drives first brush to rotate, and a second servo motor drives a second brush to rotate; the second brush starts to remove rim corner burrs at flanges of the wheel; right servo electric cylinder enables the first brush to move to an appropriate position, and jacking cylinder enables the first brush to perpendicularly come in contact with window rim corners at the roots of the flanges by a second guide rail, so that rim corner burrs at the position can be well removed; and upper servo electric cylinder adjusts the angle of the second brush to an appropriate angle, so that rim corner burrs of wheel rims are removed.

The present invention relates to a composite wheel deburring device, which is composed of a stand, servo motors, guide rails, a first brush system, a second brush system, and a synchronous clamping rotary system. During use, the first servo motor drives first brush to rotate, and a second servo motor drives a second brush to rotate; the second brush starts to remove rim corner burrs at flanges of the wheel; right servo electric cylinder enables the first brush to move to an appropriate position, and jacking cylinder enables the first brush to perpendicularly come in contact with window rim corners at the roots of the flanges by a second guide rail, so that rim corner burrs at the position can be well removed; and upper servo electric cylinder adjusts the angle of the second brush to an appropriate angle, so that rim corner burrs of wheel rims are removed.

The present application discloses a multifunctional wheel burr removing device, comprising a synchronous clamping drive system, a left burr brushing system, an upper burr brushing system and a right burr brushing system. The multifunctional wheel burr removing device in use may remove burrs on end faces of upper rims, wheel wells, cutting positions of sides of upper rims and fronts of wheels having different diameters and different heights, so the production efficiency is very high; and simultaneously, the device has the characteristics of high automation degree, advanced process, strong generality, safety and stability.

A method for producing one or more bearing components along a production line, comprising honing the bearing components along the production line, cleaning the bearing components along the production line, grinding the bearing components along the production line, and transporting the bearing components along the production line utilizing one or more transport units.