Loopback rolls which can transfer and guide a polishing tape (T) along a perimeter of a pressure contact roll (R) is provided, the pressure contact roll having a tapered peripheral edge having a top edge and a pair of slant edge faces formed on a periphery of the pressure contact roll, by which the polishing tape can be bent into a substantially V-shape in cross section, and a switchable pressure contact mechanism is switchably provided which pressure contacts each of bent portions of the polishing tape, which is bent into the substantially V-shape in cross section by the tapered peripheral edge, to one tooth face (B1) or the other tooth face of a worm.

A protective cover assembled on an abrasive belt hand tool. The protective cover comprises an annular base and a tightening component. The annular base comprises a notch, a first clamping arm positioned on one side of the notch, and a second clamping arm positioned on the other side. The first clamping arm is formed with a through hole, the second clamping arm is formed with an assembly hole, the assembly hole does not penetrating through the second clamping arm. The annular base comprises a first state for tightening a protective cover mounting portion when the first clamping arm and the second clamping arm narrow the notch, and the annular base comprises a second state that the first clamping arm and the second clamping arm do not narrow the notch. The tightening component comprises a pull rod penetrating through the through hole and a piece arranged on the pull rod.

A protective cover assembled on an abrasive belt hand tool. The protective cover comprises an annular base and a tightening component. The annular base comprises a notch, a first clamping arm positioned on one side of the notch, and a second clamping arm positioned on the other side. The first clamping arm is formed with a through hole, the second clamping arm is formed with an assembly hole, the assembly hole does not penetrating through the second clamping arm. The annular base comprises a first state for tightening a protective cover mounting portion when the first clamping arm and the second clamping arm narrow the notch, and the annular base comprises a second state that the first clamping arm and the second clamping arm do not narrow the notch. The tightening component comprises a pull rod penetrating through the through hole and a piece arranged on the pull rod.

A workpiece passes through a belt grinder for grinding and structuring a flat workpiece in a predefined direction of passage (P1) past at least one machining area of a structuring device. The structuring device comprises at least one endless grinding belt which is guided over deflection elements in at least one direction of circulation (P3) and the width of the which extends substantially across the working width of the belt grinder, and is guided over deflection elements, the longitudinal axes of which are oriented transversely to the direction of passage (P1) of the workpiece. Furthermore, the structuring device comprises an endless press-on belt 220 which is configured and arranged such that it exerts a force from the inside on the grinding belt in a press-on area, wherein the endless press-on belt is drivable with the aid of a drive unit. The direction of circulation (P2) of the press-on belt runs, at least in the press-on area, transversely to the direction of circulation (P3) of the grinding belt. The structuring device and the transport unit are configured and arranged such that the workpiece guided past the structuring device comes into contact with the machining area of the grinding belt. The structuring device comprises a control unit which controls the drive unit of the press-on belt such that the drive unit selectively drives the endless press-on belt in a first direction of circulation (P2) or in a second direction of circulation that is opposite to the first direction of circulation (P2).

A polishing pad conditioning apparatus according to an example embodiment of the present inventive concept includes an apparatus body, a pivot arm provided on the apparatus body and including a housing having an internal space and provided at a distal end portion of the pivot arm and a head unit disposed at the distal end portion of the pivot arm. The head unit includes: a rotary motor provided in the internal space of the housing, the rotary motor including a rotary shaft; a foreign material blocking member connected to the rotary shaft; a disk holder connected to the rotary shaft; and a conditioning disk coupled to the disk holder. The foreign material blocking member includes a fluid flow groove configured to guide a movement of fluid for preventing foreign objects from entering the housing on an outer surface of the foreign material blocking member.

An abrasive belt machine including a support housing having a pivoting arm that supports an abrasive belt rotatably coupled to a drive motor; a safety controller operatively coupled with the drive motor; an E-stop operatively coupled to the safety controller; a foot pedal switch operatively coupled to the drive motor; and a 480 volt alternating current 3 phase electrical power supply electrically coupled to the drive motor.

An abrasive belt machine including a support housing having a pivoting arm that supports an abrasive belt rotatably coupled to a drive motor; a safety controller operatively coupled with the drive motor; an E-stop operatively coupled to the safety controller; a foot pedal switch operatively coupled to the drive motor; and a 480 volt alternating current 3 phase electrical power supply electrically coupled to the drive motor.

A power tool includes a motor; a fan configured to be rotated by the motor to generate a cooling air; a housing accommodating therein the motor and the fan and defusing an air passage for the cooling air; an output shaft rotatable by the motor; and a transmission mechanism configured to transmit rotation of the motor to the output shaft. An end bit being attachable to and detachable from the output shaft. The transmission mechanism includes an intermediate shaft provided in the housing, a first belt transmitting a rotational force of the motor to the intermediate shaft, a second belt transmitting a rotational force of the intermediate shaft to the output shaft, and a rotation member transmitting a rotational force of the second belt to the output shaft. The first belt and the second belt are positioned inside a space through which the cooling air passes.

There is provided a method for installing an endless abrasive belt to a belt holder unit, the method comprising: aligning a base with the belt holder unit, the base comprising a backing plate and at least one belt extraction element extending from the backing plate, wherein a cartridge having a belt pre-tightened around the cartridge is physically coupled with the base such that there is a space between the backing plate and the cartridge; arranging the cartridge to face the belt holder unit; reducing said space by pressing the cartridge against the belt holder unit that causes the at least one belt extraction element to push said belt off around the cartridge as a response to reducing the space; and causing tightening of said belt to the belt holder unit.

There is provided a method for installing an endless abrasive belt to a belt holder unit, the method comprising: aligning a base with the belt holder unit, the base comprising a backing plate and at least one belt extraction element extending from the backing plate, wherein a cartridge having a belt pre-tightened around the cartridge is physically coupled with the base such that there is a space between the backing plate and the cartridge; arranging the cartridge to face the belt holder unit; reducing said space by pressing the cartridge against the belt holder unit that causes the at least one belt extraction element to push said belt off around the cartridge as a response to reducing the space; and causing tightening of said belt to the belt holder unit.