A support structure includes: a support frame as a shaft support member for supporting two shafts; a bush provided on each of the two shafts in a slidable manner; a cover support member connected to the multiple bushes and configured to support the cover; a first connection member for connecting one end of each of the two shafts to the support frame in a manner that the relative position between the shaft and the support frame will not change; and a second connection member for connecting the other end of each of the two shafts to the support frame in a manner that the relative position between the shaft and the support frame can change.

A handheld power tool having a drive driving a motor shaft, which is accommodated in a power tool housing, in which at least one air inlet covered by a dust protection element is formed, and having a tool interface for connecting a tool. The dust protection element is pushed onto the power tool housing in an insertion direction and is secured on the power tool housing.

A handheld power tool having a drive driving a motor shaft, which is accommodated in a power tool housing, in which at least one air inlet covered by a dust protection element is formed, and having a tool interface for connecting a tool. The dust protection element is pushed onto the power tool housing in an insertion direction and is secured on the power tool housing.

An intelligent plate parts machining production line combining universal equipment and special equipment. Four special machining tools are located on first to fourth stations, respectively, and a universal machining tool is located on a fifth station. The stations are sequential from an automatic feeding device. Truss conveying devices are behind the first to fourth stations, and four mechanical arms are on the truss conveying devices. A four-axis manipulator is between the fourth and fifth stations for transferring materials between the two stations and discharging finished products. Industrial cameras are on the second-station mechanical arm and the four-axis manipulator. Waste boxes are between the first and second stations and between the fourth and fifth stations. A discharging box is on the front side of the fifth station. A scrap conveying mechanism is below the production line. Flexible clamps and sliding rail cylinders are used, so that the production line is flexible.

A device for processing spectacle lenses has a work chamber, which is accessible by way of an opening and in which a workpiece mount and at least one tool mount are opposite one another and movable relative to one another so that a processing region of a tool held at the tool mount can be brought into processing engagement with a workpiece held at the workpiece mount and in processing engagement can be guided over the workpiece. For recognition of wear at the tool, a sensor equipment with at least one contactlessly operating sensor arrangement is provided and is movable outside the work chamber between a protected rest position and a detecting position. In the detecting position the sensor equipment is constructed to detect at the processing region of the tool held at the tool mount an unacceptable deviation beyond a predetermined amount from a desired geometry.

A device for processing spectacle lenses has a work chamber, which is accessible by way of an opening and in which a workpiece mount and at least one tool mount are opposite one another and movable relative to one another so that a processing region of a tool held at the tool mount can be brought into processing engagement with a workpiece held at the workpiece mount and in processing engagement can be guided over the workpiece. For recognition of wear at the tool, a sensor equipment with at least one contactlessly operating sensor arrangement is provided and is movable outside the work chamber between a protected rest position and a detecting position. In the detecting position the sensor equipment is constructed to detect at the processing region of the tool held at the tool mount an unacceptable deviation beyond a predetermined amount from a desired geometry.

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.

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.

A machine tool (1) includes: a door (5) that opens and closes an opening in a shield cover (3) surrounding a machining chamber; an electromagnetic lock device (6) that includes dual-system switches that detect an open/closed state of the door (5), and that can lock the door (5) in a closed state; a door position detection unit that detects a position of the door (5); and a report unit that monitors states of the dual-system switches of the electromagnetic lock device (6) and suggests maintenance of the door (5) when the states differ from each other for a predetermined period of time and when the door position detection unit detects that the door (5) is not in a closed position.

A machine tool device includes at least one motorized machining tool, at least one, particularly capacitive, sensor unit, configured to detect at least one foreign body in at least one detection area around the machining tool, and at least one closed-loop and/or open-loop control unit configured to trigger at least one action depending on at least one signal from the sensor unit. The sensor unit includes at least one antenna configured to emit at least one electrical and/or magnetic field, which defines the at least one detection area, and/or to detect the at least one foreign body depending on at least one change in the at least one electrical and/or magnetic field.