A system for polishing an outer surface of a specimen, the system including a motor and a rotatable shaft extending from a first end of the motor, wherein the specimen is removably attachable to the rotatable shaft, a safety cover configured to at least partially surround at least a portion of the rotatable shaft, wherein the safety cover includes a top panel, a first side panel and a second side panel spaced from each other across a width of the safety cover and extending downwardly from the top panel, and at least one aperture extending through at least one of the first and second side panels. The system further includes an abrasive material insertable through the at least one aperture so that the abrasive material is positionable to contact the outer surface of the specimen.

A system for polishing an outer surface of a specimen, the system including a motor and a rotatable shaft extending from a first end of the motor, wherein the specimen is removably attachable to the rotatable shaft, a safety cover configured to at least partially surround at least a portion of the rotatable shaft, wherein the safety cover includes a top panel, a first side panel and a second side panel spaced from each other across a width of the safety cover and extending downwardly from the top panel, and at least one aperture extending through at least one of the first and second side panels. The system further includes an abrasive material insertable through the at least one aperture so that the abrasive material is positionable to contact the outer surface of the specimen.

A grinding device has at least one endless grinding belt guided over deflection elements in at least one direction of circulation (P3) and a press-on arrangement which is configured and arranged such that it exerts a force from the inside on the grinding belt in a press-on area. The press-on arrangement comprises a base body and at least one press-on element arranged on the side of the base body facing the inner side of the grinding belt. The at least one press-on element is connected to the base body via a Velcro or adhesive connection. The grinding device can be a component of a belt grinding machine.

A grinding device has at least one endless grinding belt guided over deflection elements in at least one direction of circulation (P3) and a press-on arrangement which is configured and arranged such that it exerts a force from the inside on the grinding belt in a press-on area. The press-on arrangement comprises a base body and at least one press-on element arranged on the side of the base body facing the inner side of the grinding belt. The at least one press-on element is connected to the base body via a Velcro or adhesive connection. The grinding device can be a component of a belt grinding machine.

Apparatus for sharpening a cutting tool. In some embodiments, a powered sharpener has a main drive assembly with an electric motor, and a sharpening assembly with belt support surfaces to provide a routing path for the belt to define first and second belt segments. A first blade guide is configured to position a blade of the cutting tool at a first guide angle to sharpen a cutting edge of the blade against the first belt segment. A second blade guide is configured to position the blade at a second guide angle to sharpen the cutting edge of the blade against the second belt segment. The first and second belt segments may be parallel or non-parallel. As desired, anti-torsion members may be provided to contactingly engage a backing layer of the belt to resist torsional twisting of the belt during sharpening against the first and second belt segments.

Apparatus for sharpening a cutting tool. In some embodiments, a powered sharpener has a main drive assembly with an electric motor, and a sharpening assembly with belt support surfaces to provide a routing path for the belt to define first and second belt segments. A first blade guide is configured to position a blade of the cutting tool at a first guide angle to sharpen a cutting edge of the blade against the first belt segment. A second blade guide is configured to position the blade at a second guide angle to sharpen the cutting edge of the blade against the second belt segment. The first and second belt segments may be parallel or non-parallel. As desired, anti-torsion members may be provided to contactingly engage a backing layer of the belt to resist torsional twisting of the belt during sharpening against the first and second belt segments.

An abrasive belt grinding device is provided, a supporting plate passes through an inner cylinder, and is fixed to the inner cylinder, the inner cylinder is rotatably connected to an outer cylinder bracket, a winding reel and an unwinding reel are arranged side by side in a left-right direction at an upper end of the supporting plate, and are driven by respective first servo motors, one end of the abrasive belt is wound in a belt groove of the winding reel, and another end of the abrasive belt is wound over the first transition wheel, the first tension pulley, the third transition wheel, the fifth transition wheel, the seventh transition wheel, the contact wheel, the eighth transition wheel, the sixth transition wheel, the fourth transition wheel, the second tension pulley, and the second transition wheel, and is finally wound in a belt groove of the unwinding reel.

An abrasive belt grinding device is provided, a supporting plate passes through an inner cylinder, and is fixed to the inner cylinder, the inner cylinder is rotatably connected to an outer cylinder bracket, a winding reel and an unwinding reel are arranged side by side in a left-right direction at an upper end of the supporting plate, and are driven by respective first servo motors, one end of the abrasive belt is wound in a belt groove of the winding reel, and another end of the abrasive belt is wound over the first transition wheel, the first tension pulley, the third transition wheel, the fifth transition wheel, the seventh transition wheel, the contact wheel, the eighth transition wheel, the sixth transition wheel, the fourth transition wheel, the second tension pulley, and the second transition wheel, and is finally wound in a belt groove of the unwinding reel.

A belt sander includes a frame, a drive roller, an idler roller rotatably attached to a pivot arm, a first linear actuator configured for pivoting the pivot arm, a nose roller and a continuous abrasive belt wrapped around the drive roller, the idler roller and the nose roller. A drive motor rotates the drive roller, and an air cylinder attached to the frame and a nose roller spindle exerts a first force against the frame and a second force equal to and opposite the first force against the nose roller spindle. A first sensor senses a position of a belt edge, and a first controller receives a belt edge position signal from the first sensor and sends a command signal responsive to the position signal to the first linear actuator for expanding or contracting so as to pivot the pivot arm about a pivot point.

A belt sander includes a frame, a drive roller, an idler roller rotatably attached to a pivot arm, a first linear actuator configured for pivoting the pivot arm, a nose roller and a continuous abrasive belt wrapped around the drive roller, the idler roller and the nose roller. A drive motor rotates the drive roller, and an air cylinder attached to the frame and a nose roller spindle exerts a first force against the frame and a second force equal to and opposite the first force against the nose roller spindle. A first sensor senses a position of a belt edge, and a first controller receives a belt edge position signal from the first sensor and sends a command signal responsive to the position signal to the first linear actuator for expanding or contracting so as to pivot the pivot arm about a pivot point.