Fast-ejection safety systems for hotwire cutters are provided. The safety system comprises a microcontroller, a wire shield, a servo motor and a servo motor arm. The safety system further comprises one or more ultrasonic sensors, a power source, and a safety system casing.

A structural component for a machine tool is formed from a mineral casting and at least one sensor module is integrated into the structural component, wherein the sensor module is completely enclosed by the mineral casting and contains at least one sensor for detecting a mechanical load of the structural component during operation of the machine tool.

A safety system for a power miter saw comprises a support member, at least one multidirectional manipulator including a workpiece holder member moveably mounted to the support member for securing a workpiece in place, and a control box. The workpiece holder member includes a presence indicator operatively connected to the control box and configured to detect the physical presence of a saw operator's hand on the at least one multidirectional manipulator when the saw operator's hand engages the presence indicator. The control box is operatively connectable to a trigger switch of the power miter saw so that an electric motor of the power miter saw is activated only when both the presence indicator of the safety system and the trigger switch of the power miter saw are engaged by both hands of an operator of the power miter saw.

Provided is a machine tool which can suppress vibration of a spindle head. A machine tool according to one embodiment includes;\: a pair of guide rails which are provided on a surface of a column facing a spindle head side, and which guide the spindle head in a third direction; and a pair of drive shafts which are disposed between the pair of guide rails and are for the spindle head to move relatively in the third direction. When seen from the third direction, the center between the pair of guide rails and the center between the pair of drive shafts are positioned inside a main spindle of the spindle head.

An assembly for a hand-held drill is disclosed. The assembly includes a drill guide and a vacuum shroud. The drill guide includes a mount, a telescoping guard, and a guide foot. The mount is configured to couple to a non-rotating portion of the hand-held drill. The telescoping guard extends from the mount. The guide foot is coupled to the telescoping guard opposite the mount such that the drill guide enshrouds a drill bit of the hand-held drill when the telescoping guard is in an extended position. The vacuum shroud is removably fastenable to the drill guide. The vacuum shroud includes an outer wall and a vacuum hose connector. The outer wall forms an elongate vacuum cavity between an inlet proximate to the guide foot and an outlet distal from the guide foot. A vacuum hose connector is positioned at the outlet distal from the guide foot.

A hand-held machine tool having a, in particular rod-shaped, handle element for an operator to grasp and having a machining head, which is movably mounted on the handle element by means of a joint assembly and which has an electric drive motor for driving a tool holder for holding a machining tool, wherein a bottom side of the handle element and a machining side of the machining head face a workpiece in a base position of the machining head, wherein the joint assembly is connected to the machining head in an articulated-connection region of the machining head, wherein a flexible suction hose for conducting a suction flow from the machining head to the handle element extends between the handle element and the machining head, which suction hose is fastened to an end region of the handle element by means of a first hose end and to a suction connection of the machining head by means of a second hose end.

A device for clamping a rotatably mounted shaft element including: a housing element having an annular housing portion wherein the shaft extends in the axial direction; an elastically deformable annular clamping ring element arranged in the annular housing portion, wherein the clamping ring has a cross-sectional profile with a first profile portion, extending radially inward and protrudes radially through an annular circumferential opening; and a pressure chamber formed in the annular housing has at least one pressure chamber portion arranged radially on the inner side adjacently to at least one second profile portion of the clamping ring; wherein the rotatably mounted shaft in a rest state clamped by frictional engagement with the first profile of the clamping ring protruding toward the shaft, and wherein the frictional engagement between the shaft and the first profile is releasable, the clamping ring is elastically deformable radially outward by pneumatic or hydraulic pressure chamber.

A vacuum dust extraction system includes a snorkel coupled to the implement end of an air tool, a dust bellows surrounding the air tool's implement and fastened to the outboard end of the snorkel, a pneumatically powered water filtration industrial vacuum, and a suction hose coupling the snorkel to the vacuum. The apparatus features an improved coupling arrangement for attaching the snorkel to the barrel of the tool driver that permits the apparatus to work with a wide assortment of air tools.

The present invention relates to a chip collecting box for a machine tool and, more specifically, to a chip collecting box, in which bottom plates that open and close by means of hinges are installed on opposite sides at the bottom of a chip collecting box body having open upper and lower portions. When an opening cord is pulling while the chip collecting box body is in an upwardly raised state, the bottom plates on opposite sides become unlocked and open toward the bottom such that machine tool chips stored in the chip collecting box are discharged downward. When a closing cord is pulling after the chips are discharged, the bottom plates on opposite sides are closed by the closing cord and become hooked on a hooking means.

A processing apparatus includes a chuck configured to hold a substrate; a moving unit to which a processing tool configured to process the substrate is mounted; a sprinkler configured to spray a cleaning liquid configured to clean the moving unit from an outside of the moving unit; and a housing accommodating the chuck, the processing tool, and the sprinkler therein. The sprinkler includes a fixed unit fixed to an inside of the housing, and a rotating unit rotatably supported at the fixed unit. The rotating unit includes a nozzle configured to discharge the cleaning liquid, and a rotation block configured to hold the nozzle.