A rotary table device includes a table provided on one end-side of a main shaft rotatably supported in a frame; and a drive transmission mechanism transmit rotation of an output shaft of a drive motor to the main shaft and including a drive transmission member and accommodated in an accommodation space formed in the frame. The table is supported with respect to the frame by a bearing provided between a lower surface of the table and an upper surface of the frame, and a space is provided between the lower surface of the table and the upper surface of the frame. The frame is provided with a communication passage configured so that the space and the accommodation space communicate with each other.

A router includes a motor unit and a base that receives the motor unit. A threaded shaft is supported on either the motor unit or the base. A slide is supported on the other of the motor unit and the base. The slide engages with the shaft in a first position of the slide in which micro-adjustments to a cutting depth are permitted. The slide disengages with the shaft in a second position of the slide in which macro-adjustments to the cutting depth are permitted. With a lever in a locked position, neither macro-adjustments nor micro-adjustments are permitted regardless of the slide being in the first position or the second position. With the lever in a micro-adjustment position, only micro-adjustments are permitted with the slide in the first position. With the lever in an unlocked position, the lever disengages the slide from the shaft to permit macro-adjustments.

A driving device including a drive shaft and a first engaging member. The drive shaft rotates around a first axis. The first engaging member is disposed on the first axis to rotate integrally with the drive shaft. The power transmission mechanism includes a second engaging member, a propeller shaft, a piston, and a reduction gear. The second engaging member is disposed on the first axis engageable with/disengageable from the first engaging member. The propeller shaft is rotatable integrally with the second engaging member around the first axis. The piston reciprocates the second engaging member between a first position and a second position along a direction of the first axis. The reduction gear is joined to the other end side of the propeller shaft to decelerate the rotation of the propeller shaft. The reduction gear causes an output shaft joined to an object to rotate around a second axis.

An apparatus for adding an additional rotational axis in a multi-axis tooling machine is disclosed. The apparatus includes a base unit, an indexer disk, a securement mechanism, and a pointer mechanism. The base unit is supported by the tooling machine, and the indexer disk is supported by the base unit. The indexer disk includes a periphery with a plurality of grooves spaced at radial angles with respect to a rotation axis of the indexer disk. The securement mechanism is adjustable to a fixed state in which it prevents the indexer disk from rotating, and to a released state in which the securement mechanism releases the indexer disk for rotation. The pointer mechanism is disposed at the periphery of the indexer disk for releasable engagement with the plurality of grooves. A method for adding an additional rotation axis to a multi-axis tooling machine is also disclosed.

An apparatus for adding an additional rotational axis in a multi-axis tooling machine is disclosed. The apparatus includes a base unit, an indexer disk, a securement mechanism, and a pointer mechanism. The base unit is supported by the tooling machine, and the indexer disk is supported by the base unit. The indexer disk includes a periphery with a plurality of grooves spaced at radial angles with respect to a rotation axis of the indexer disk. The securement mechanism is adjustable to a fixed state in which it prevents the indexer disk from rotating, and to a released state in which the securement mechanism releases the indexer disk for rotation. The pointer mechanism is disposed at the periphery of the indexer disk for releasable engagement with the plurality of grooves. A method for adding an additional rotation axis to a multi-axis tooling machine is also disclosed.

An apparatus for precision shaving is provided. In one embodiment, the apparatus includes an endmill cutter, a base frame, and a motor adjacent to the base frame and having a shaft on one end. A coupler is positioned between the shaft and the endmill cutter. A positioning slide is housed within the base frame and a coupler frame and a first gear are fastened to the positioning slide. A second gear is adjacent to the first gear, the second gear having a set of first teeth and a set of second teeth positioned opposite the set of first teeth. The set of first teeth and the set of second teeth are separated by a gap.

A multiple stage processing device having a plurality of radial stages, each individual radial stage is positioned between adjacent dividing walls and indexable though a plurality of processing stations. A plurality of fixture mount assemblies are positioned on an actuation surface of the rotatable indexing assembly, each individual fixture mount assembly is associated with and mechanically coupled to an individual radial stage. One or more slotted drive hubs communicatively coupled to independently operable drive motors are positioned adjacent to the actuation surface of the rotatable indexing assembly and are engageable with the plurality of fixture mount assemblies. When an individual fixture mount assembly is engaged with an individual slotted drive hub, an individual independently operable drive motor can independently control the individual fixture mount assembly such that the individual radial stage mechanically coupled to the individual fixture mount assembly is moveably coupled to the independently operable drive motor.

A tool positioning and holding mechanism includes a mounting frame, a feed member, a tool support, a positioning member, an elastic member, and a blocking member. The feed member is slidably mounted on the mounting frame. The tool support is fixed on the feed member and defines a receiving hole to receive the tool. The positioning member is pivotally coupled to the tool support and partially received in the tool support. The elastic member is located between the positioning member and the tool support. The blocking member is fixed on the mounting frame and includes a pushing portion configured to resist the positioning member. The feed member can move the positioning member to allow detachment of the positioning member from the pushing portion, and upon detachment of the positioning member, the positioning member is configured to rotate under an elastic force of the elastic member to position the tool.

A tool positioning and holding mechanism includes a mounting frame, a feed member, a tool support, a positioning member, an elastic member, and a blocking member. The feed member is slidably mounted on the mounting frame. The tool support is fixed on the feed member and defines a receiving hole to receive the tool. The positioning member is pivotally coupled to the tool support and partially received in the tool support. The elastic member is located between the positioning member and the tool support. The blocking member is fixed on the mounting frame and includes a pushing portion configured to resist the positioning member. The feed member can move the positioning member to allow detachment of the positioning member from the pushing portion, and upon detachment of the positioning member, the positioning member is configured to rotate under an elastic force of the elastic member to position the tool.

A tilt device includes: a drive motor that provides a drive force for swinging a tilt member; an auxiliary cylinder coupled to the tilt member to assist swing of the tilt member by the drive motor; and a control device that performs drive control of the drive motor and the auxiliary cylinder. In the movable range of the tilt member, a moment about the swing axis generated in the tilt member by the gravitational force is always directed to only one side in the rotational direction, and an assistive moment about the swing axis provided to the tilt member by a cylinder pressure is always directed to only the other side in the rotational direction. The control device fluctuates the cylinder pressure such that the assistive moment is less than the moment generated in the tilt member by the gravitational force.