Embodiments described herein relate to a vise, for example, for holding material to be cut with a saw, for example, power saw. In one embodiment the disclosed vise includes a base member, a pair of fixed jaws attached to a first side of the base member, the pair of fixed jaws being substantially aligned and spaced apart defining a first gap therebetween, a handle attached to a second side of the base opposite the first side, and a pair of moveable jaws adjustably connected to the pair of fixed jaws, the pair of moveable jaws being spaced apart defining a second gap therebetween, wherein a center of the second gap is substantially aligned with a center of the first gap.

Embodiments described herein relate to a vise, for example, for holding material to be cut with a saw, for example, power saw. In one embodiment the disclosed vise includes a base member, a pair of fixed jaws attached to a first side of the base member, the pair of fixed jaws being substantially aligned and spaced apart defining a first gap therebetween, a handle attached to a second side of the base opposite the first side, and a pair of moveable jaws adjustably connected to the pair of fixed jaws, the pair of moveable jaws being spaced apart defining a second gap therebetween, wherein a center of the second gap is substantially aligned with a center of the first gap.

A clamping apparatus includes a spindle body and a nut element to be screwed together for decreasing a spacing between first and second clamping elements to clamp an object disposed therebetween. The nut element has roller bodies with a defined roller engagement structure axially rotatably secured on a receiving body of the nut element and distributed in circumferential direction. A plurality of engagement regions distributed and/or spaced apart on the spindle body each have one spindle body engagement structure. The roller engagement structures of the roller bodies engage or can engage the spindle body engagement structures of the spindle body. The nut element can be screwed to the spindle body by the mutually engaged engagement structures of the spindle body and of the roller bodies, in particular with rolling of the roller bodies on the spindle body. An apparatus and a vise having the clamping apparatus are also provided.

A tooling base that is an improvement over current designs in the form of simplified number of parts, easier manufacturing of parts and that can be actuated for clamping and releasing a tooling fixture by pneumatic, other computer controlled means as well as manually is described. The tooling base uses clamping fixtures that are spring loaded to press cleats into recesses on alignment studs that locate and hold any variety of tooling fixtures to the base.

Embodiments disclosed herein generally relate to a pivotable clamp or vise. For example, the vise may clamp or secure a workpiece at a suitable position and/or orientation.

A machine-tool vise is described that employs an articulated two-piece movable jaw including a jaw nut that engages the lead screw and a jaw bit coupled to the jaw nut through a slanted interface wherein the slanted interface between the nut and the bit is located at the top of the bit to eliminate the secondary effects found in the prior art.

A vise includes a base and two opposed jaws. At least one of the jaws is movable with respect to the other so that an object can be gripped therebetween. At least one of the two opposed jaws includes a frame and an array of polygon-shaped pins stacked parallel to one another. The frame has a bottom side and two opposed sides tapering towards the bottom side. The pins are disposed on the bottom side. Each pin has a cross-sectional shape such that when stacked together, the pins fit flush with one another and an area defined by the frame is tiled by the pins without any substantial gaps therebetween. The pins are oriented such that the tapering opposed sides direct force vectors to increase a pin-to-pin clamping force and the frame selectively clamps down on the pins such that the pins are held in place.

A vise with an adjustable operating angle includes a base member, a front pier and a rear pier disposed on two opposite ends of the base member. A rotary seat mounted onto the front pier and the rear pier. A platform is pivoted to the front pier and the rear pier. A fixed jaw is secured on a rear end of the platform and a movable jaw is movably mounted on the platform. A lead screw is disposed in the platform for driving the movable jaw. A front turntable and a rear turntable are disposed to two opposite ends of the platform and rotatably disposed on the front pier and the rear pier. A front fastening seat and a rear fastening seat are mounted onto the front pier and the rear pier for selectively holding the front turntable and the rear turntable in place.

A straight edge bar clamp spreader comprises a straight edge bar, an inner channel portion, parallel channel portions, and two-way bosses or divots, a clamp, and a clamp-spreader. The inner channel portion is provided along an elongated central region of the bottom surface of the straight edge bar with a constant cross-section. The parallel channel portions are provided along two elongated parallel regions of the top surface of the straight edge bar. The two-way bosses or divots are provided across and on an inner surface of the inner channel portion of the bottom surface and an outer surface of the top surface and configured to define the predetermined stopping positions for two-way movements along the bottom surface or the top surface. The clamp is installed in the inner channel portion of the bottom surface. The clamp-spreader is installed in the pair of parallel channel portions of the top surface.

A press tool employs a drive system that allows a first portion to be displaced relative to a second portion. A drive surface is supported by the second portion. A receiving member defines an engaging surface and a receiving cavity. The receiving member is supported by the first portion along a drive axis extending through the drive surface. Operation of the drive system displaces the drive surface relative to the receiving member.