A float type clamping mechanism is provided, comprising a workpiece pallet having a central post provided on its bottom surface and a chuck. The chuck can be releasably coupled to the central post. The chuck has a base, a top seat, a piston seat with spring members provided between the piston seat and the top seat, a movable socket having movable detents provided around its periphery, and a bottom cover. When the central post of the workpiece pallet is inserted into the movable socket, the movable detents displaced inward to detent the central post so as to allow the movable socket to float upward slightly, and the movable socket is pressed downward through simple mechanism to clamp the central post firmly so that zero clamping effect between the workpiece pallet and the chuck can be achieved.

A vibration damping system for machining parts uses magneto rheological radial squeeze film damper technology to reduce part vibration, enhance tool lifecycles, and to improve part surface finish. In the described embodiment, the damping system includes a pair of damping cylinders affixed to a machine tool fixture, each cylinder containing a solid core concentrically situated within an internal sleeve portion of the cylinder. Rheological fluid contained within a radial space between the core and sleeve defines a radial squeeze channel for the fluid. Fluid stiffness is controlled in real time by varying an electric current to modulate a magnetic field passing through the fluid to dampen vibrations in accordance with at least one predetermined algorithm. As material is removed from the part during machining, the fluid damping characteristics are actively managed by a machine tool controller as a function of a combination of dynamically changing and predetermined algorithmic inputs.

A T-Nut for use in a machine tool having a tooling plate with an inverted T-shaped channel. The T-Nut comprises a central body having oppositely inclined faces each including an opening forming a cavity extending through the central body, and first and second wedges in slideable communication with the central body inclined faces. Each of the wedges have wings extending laterally beyond the central body to engage upper surfaces of the channel lower wide portion and include a clearance hole extending through a length of the wedge. A rotatable actuation member abuts the first wedge at an end opposite the first wedge mating surface and is internally threaded for a distance from one end thereof. An externally threaded cylindrical shaft is engaged with the internal threads of the actuation member and extends through the first and second wedge clearance holes, the shaft being secured to and non-rotatable with the second wedge. In operation, when tooling is secured to the top surface of the central body and the actuation member is rotated, the first and second wedges are slideably moved symmetrically along the central body inclined faces until the first and second wedge wings engage upper surfaces of the channel lower wide portion while the tooling is simultaneously urged in the direction of the tooling plate until the tooling mounting surface bears against the tooling plate top surface, thereby removably securing the tooling to the tooling plate.

The invention refers to a chuck pallet (1.3) with solid groove-sidewalls (2.3) for clamping chucks (1.1), whereby the x-y-references (2.5) of the chuck pallet (1.3) are allocated in the same plane (2.1) as the z-references (2.1) and the x-y-references (2.5) are also allocated at the solid groove-sidewalls (2.3). The solid groove-sidewalls (2.3) have thereby a tapered profile.

An interface structure that is constituted by a first, U-shaped toothed pivot, which can be associated in an upper region, by way of a jaw connection, with a fixing element with the interposition of a first bush for centering. The first toothed pivot is rendered axially integral in a lower region with a fastening element that can be associated with an underlying device for compensating the misalignment in automatic locking systems for the mounting of blanks.

An assembly pallet is assembled a cell stack to. The cell stack that includes a cell group in which a plurality of electric cells are stacked, end plates arranged in a position between which the cell group is interposed, and a restraining member for applying a restraint that restrains the cell group to the end plates. The assembly pallet includes a positioning engagement member that is engaged with the restraining member to effect positioning of the cell stack.

A machining fixture contains: a base, a plurality of positioning blocks, and a workpiece holder. The base includes a first connecting face on which plural fixing slots are arranged, and each fixing slot has a threaded hole. Each positioning block includes an affix portion and a fixation portion having two symmetrical contacting faces and two flexible portions. Each positioning block further includes a mounting hole or blind aperture defined on a middle section thereof and passing through the affix portion from the fixation portion. A screw bolt is screwed with the threaded hole of each fixing slot via the a mounting hole or blind aperture, and the affix portion of each positioning block enters into and contacts with each fixing slot of the base. The workpiece holder includes a second connecting face on which plural locating slots are arranged.

A clamping device includes an actuatable actuator with two actuator halves, each having a clamping jaw disposed thereon. When the actuator is actuated, a cable can be releasably clamped between receiving contours of the clamping jaws. At least one clamping jaw is formed in two parts and has a base part attached to the respective actuator half and an interchangeable part disposed on the base part. The interchangeable part has a support section with a support surface resting on the base part and a contact section resting against the base part. The respective receiving contour is formed on the contact section on an outer side facing the other clamping jaw. A contact surface formed on the contact section on an inner side facing away from the other clamping jaw rests against a contact surface of the base part, and forms an acute angle with the support surface.

In a general aspect, a system for selectively positioning a work piece includes multiple bodies. A first body includes a first exterior surface and a boss extending from the first exterior surface along a boss axis. The boss includes a boss end surface that terminates the boss. Boss perimeter surfaces define a perimeter of the boss and extend between the first exterior surface and the boss end surface. A second body includes a second exterior surface and a pocket extending from the second exterior surface into the second body along a pocket axis. The pocket is shaped to receive the boss in a discrete number of positions when the boss axis and the pocket axis are aligned. Pocket perimeter surfaces define a perimeter of the pocket and extend into the second body from the second exterior surface.

A mounting system having a dual plunger arrangement wherein the side of each plunger has a pull down cam to provide a desired pull down action in relation to at least two studs, the cams moving relative to one another and axially aligning relative to one another relative to the two axially spaced pull down studs to allow the plungers to provide a maximum hold down force for the two pull down studs, balance the hold down forces thereby maximizing performance and reducing unlocking forces.