An additive manufacturing tool configured to couple to a spindle of a CNC machine, comprises a plurality of drive wheels movable between an engaged position wherein they compress filament from a filament source against a drive disc and a disengaged position wherein they are spaced apart from the filament, and a delivery assembly including a heating element and a nozzle having an outlet opening. When the plurality of drive wheels are in the engaged position and the drive disc is rotated, the filament is drawn into the tool from the filament source and routed around the drive disc to the nozzle, where heat transferred from the heating element to the nozzle melts the filament so that the filament flows through the outlet opening.

An additive manufacturing tool configured to couple to a spindle of a CNC machine, comprises a plurality of drive wheels movable between an engaged position wherein they compress filament from a filament source against a drive disc and a disengaged position wherein they are spaced apart from the filament, and a delivery assembly including a heating element and a nozzle having an outlet opening. When the plurality of drive wheels are in the engaged position and the drive disc is rotated, the filament is drawn into the tool from the filament source and routed around the drive disc to the nozzle, where heat transferred from the heating element to the nozzle melts the filament so that the filament flows through the outlet opening.

A grinding apparatus includes a grinding unit, a grinding feeding mechanism, and a grinding water supply unit. The grinding water supply unit includes a nozzle that jets grinding water to grindstones, and a biasing mechanism that biases the nozzle upward. The nozzle is configured to be movable downward against the upward biasing according to a downward movement of the grinding unit. The grinding apparatus further includes an upper limit stopping section that sets an upper limit position for upward movement of the nozzle biased upward by the biasing mechanism, for forming a gap through which the grinding wheel is passed, between the nozzle and the mount.

A grinding apparatus includes a grinding unit, a grinding feeding mechanism, and a grinding water supply unit. The grinding water supply unit includes a nozzle that jets grinding water to grindstones, and a biasing mechanism that biases the nozzle upward. The nozzle is configured to be movable downward against the upward biasing according to a downward movement of the grinding unit. The grinding apparatus further includes an upper limit stopping section that sets an upper limit position for upward movement of the nozzle biased upward by the biasing mechanism, for forming a gap through which the grinding wheel is passed, between the nozzle and the mount.

A pad-temperature regulating apparatus is disclosed, which includes a heat exchanger capable of being cleaned in a limited space. A pad-temperature regulating apparatus includes a heat exchanger configured to contact a polishing pad to exchange heat with the polishing pad, a moving mechanism configured to move the heat exchanger between a temperature regulating position where the heat exchanger can exchange heat with the polishing pad, and a retreat position located on a side of the polishing pad, and a cleaning mechanism configured to clean the heat exchanger moved to the retreat position. The heat exchanger has an approximate triangular shape in a horizontal cross-section, and a longest side of the heat exchanger faces the polishing pad when the heat exchanger is moved to the retreat position.

A pad-temperature regulating apparatus is disclosed, which includes a heat exchanger capable of being cleaned in a limited space. A pad-temperature regulating apparatus includes a heat exchanger configured to contact a polishing pad to exchange heat with the polishing pad, a moving mechanism configured to move the heat exchanger between a temperature regulating position where the heat exchanger can exchange heat with the polishing pad, and a retreat position located on a side of the polishing pad, and a cleaning mechanism configured to clean the heat exchanger moved to the retreat position. The heat exchanger has an approximate triangular shape in a horizontal cross-section, and a longest side of the heat exchanger faces the polishing pad when the heat exchanger is moved to the retreat position.

A coolant coupling device (20) includes: a cylinder chamber (25) provided for a support member (2) for a tool rest (4) in a machine tool and supplied with coolant; a piston (P) movably arranged in the cylinder chamber (25); and a coolant supply flow channel (30) provided for the piston (P) for passing coolant therethrough. The piston (P) is driven by the coolant supplied to the cylinder chamber (25) so that an outlet (32) of the coolant supply flow channel (30) is connected to a coolant inlet port (10) of the tool rest (4) to supply the coolant to the tool rest (4). The piston (P) comprises a cylindrical projection (29) protruding toward and into the cylinder chamber (25), and the coolant supply flow channel (30) has an inlet (34) that opens at an outer peripheral surface of the cylindrical projection (29).

A cutting apparatus includes: a processing feeding unit that performs processing feeding of a chuck table adapted to hold a workpiece; and two cutting units in which rotational axes of two spindles coincide with each other and cutting blades mounted to the spindles face each other. Each cutting unit includes a flange mechanism in which the cutting blade having a cutting edge fixed to an outer peripheral edge of a one-side outer surface of a circular disk-shaped base is fixed to the spindle. The flange mechanism is fixed to a tip of the spindle, sucks an other-side outer surface of the base of the cutting blade, and fixes the cutting blade to the spindle with the one-side outer surface of the base exposed to the side of the tip of the spindle, and the one-side outer surfaces of the cutting blades fixed to the two cutting units.

A polishing device is held on a robot arm and has a support plate, a polishing disc held on the support plate, a drive moving the support plate in a plane, and a metering device for feeding a polishing agent to the working side of the polishing disc. An application nozzle of the metering device is guided through an open central axis of the support plate, the polishing disc having a central opening for allowing the passage of the polishing agent metered in computer-controlled manner.

To change the direction of water flowing toward a painted surface so as to flow toward the center side of a hood, a water deflecting member is provided that extends toward the center side of the hood while extending toward the painted surface as seen in a state where automatic wet sanding is performed. Thus, water bouncing off the painted surface is less likely to scatter over a wide area of the painted surface, and sanding dust is also less likely to scatter over a wide area of the painted surface. As a result, it is possible to eliminate the need for the troublesome task of wiping off sanding dust remaining on the painted surface, and to achieve a quality finish on the painted surface.