A spindle phase indexing device for a machine tool is equipped with a guide rail detachably or fixedly attached to a table, a phase indexing jig configured to travel on the guide rail and which includes a first fitting part, a cutting tool including a second fitting part configured to be fitted with the first fitting part, and a controller configured to store therein a phase of a spindle at a point in time when the first fitting part and the second fitting part are fitted together. The first fitting part and the second fitting part are formed such that rotation of the cutting tool is constrained when the first fitting part and the second fitting part are fitted together.

This invention is directed toward a panel framing device. The device comprises a portable framing table that can be driven in a trailer to remote locations and a pre-printed roll of framing tape that is used to tell a worker where different parts of a framed panel will go. The goal of the device is to facilitate the building of structures using a panel approach, with the framing table and template tape minimizing the chances that a worker will make a mistake in either the selection of materials or the location of the materials. The technology can also be used to construct entire walls, which are then either transported to the site, or merely tilted-up into place, having been constructed on the slab.

A rotating joint assembly such as an interface device in a master device or remote manipulator for a puppeteering device or other mechanical system operating in response to operator input and requiring more than 360 degrees of rotation. The rotating joint assembly includes a hard stop assembly that limits the rotation of its rotating component(s) to a predefined maximum amount of rotation such as to less than two full revolutions, e.g., some rotation amount between 360 and 720 degrees. The hard stop assembly includes a Geneva drive body or driven wheel with a hard stop body rigidly coupled with the Geneva drive body to rotate it between a disengaged position (during the first revolution) and one of two engaged positions by rotation of an inner ring (at some point during the second revolution in either direction).

A drill limit system includes a holder having drill stops removably coupled thereto and configured to receive a drill bit therethrough, and a platform coupled to the holder and configured to engage a tip end of the drill bits when received through the drill stops, wherein the holder and platform are movable relative to each other so that the position of the drill stops relative to the drill bits may be selectively varied. A method for attaching drill stops to a drill bit includes providing a holder and a platform movable relative to each other, the holder having a plurality of drill stops removably coupled thereto, inserting a plurality of drill bits through respective drill stops, moving the holder and platform relative to each other to select a desired height of the drill stops on the bits, and engaging the drill stops to the drill bits at the selected height.

The purpose of the present invention is to provide a lathe positioning apparatus such that a work held by a chuck can be positioned at an arbitrary position in main shaft direction and the installation space and the size of the apparatus can be decreased. A lathe positioning apparatus for positioning a work W held by a chuck 6 in a main shaft 4 direction is provided with an apparatus body 12 having a shaft center along the main shaft 4 direction. An abutting portion 26 for abutting the work W is formed on a chuck 6 side end of the apparatus body 12. A mechanism for advancing or withdrawing the abutting portion 26 with respect to the chuck 6 is provided. An extension/contraction mechanism for extending or contracting the apparatus body 12 in the main shaft 4 direction is provided in the apparatus body 12. The abutting portion 26 is advanced or withdrawing with respect to the chuck 6 by the extending or contracting by the extension/contraction mechanism.

A drill limit system includes a holder having drill stops removably coupled thereto and configured to receive a drill bit therethrough, and a platform coupled to the holder and configured to engage a tip end of the drill bits when received through the drill stops, wherein the holder and platform are movable relative to each other so that the position of the drill stops relative to the drill bits may be selectively varied. A method for attaching drill stops to a drill bit includes providing a holder and a platform movable relative to each other, the holder having a plurality of drill stops removably coupled thereto, inserting a plurality of drill bits through respective drill stops, moving the holder and platform relative to each other to select a desired height of the drill stops on the bits, and engaging the drill stops to the drill bits at the selected height.

Spindle units are provided for machining devices, in particular for a lathing spindle unit, center drive assembly or milling spindle unit. The spindle unit comprises: a spindle shaft rotatably supported in a housing, a chucking device disposed at the spindle shaft for clamping a workpiece or a tool, a motor drive connected to the spindle shaft for driving the spindle shaft around a drive axis, a clamping device for clamping the spindle shaft at a freely selectable angular position around the drive axis, wherein the clamping device is disposed between the spindle shaft and a stationary part of the spindle unit, and an actuating device for actuating and/or releasing the clamping device. The clamping device can be axially actuated in the direction of the drive axis such that an axial or substantial axial clamping force acts in the direction of the drive axis with the clamping device being actuated.

Spindle units are provided for machining devices, in particular for a lathing spindle unit, center drive assembly or milling spindle unit. The spindle unit comprises: a spindle shaft rotatably supported in a housing, a chucking device disposed at the spindle shaft for clamping a workpiece or a tool, a motor drive connected to the spindle shaft for driving the spindle shaft around a drive axis, a clamping device for clamping the spindle shaft at a freely selectable angular position around the drive axis, wherein the clamping device is disposed between the spindle shaft and a stationary part of the spindle unit, and an actuating device for actuating and/or releasing the clamping device. The clamping device can be axially actuated in the direction of the drive axis such that an axial or substantial axial clamping force acts in the direction of the drive axis with the clamping device being actuated.

An in-line indexing mechanism as part of a work-stop system which employs a lead screw to alter the relative distance between a work-stop plate and a swing armas well as alignment pins and springs to maintain contact and rigidity between this work-stop plate and swing armin order to precisely alter the parameters of a workpiece plane. In particular, the indexing mechanism of the preferred embodiment resides within the extension of an arm, and is located, by default, within the workpiece plane; the act of indexing therefore exerts force upon a workpiece along a coincident axis within said workpiece plane. Additionally, the indexing mechanism may be removed from the workpiece plane, by way of axially rotating the arm, without abandoning the original workpiece parameter and adjustment values.

An oscillating blade including a shank having a tool mounting end and a blade end, the shank defining a longitudinal shank axis extending from an oscillation axis of the tool mounting end, the longitudinal shank axis defining a longitudinal direction. The oscillating blade also includes a first shank extension extending from the blade end in a first lateral direction and having a first cutting edge directed in a first cutting direction, and a second shank extension extending from the blade end in a second lateral direction and having a second cutting edge directed in a second cutting direction. The oscillating blade also includes a shaving edge disposed on the blade end. The first shank extension is spaced from the second shank extension in the longitudinal direction, and the shaving edge is at least partially disposed between the first shank extension and the second shank extension in the longitudinal direction.