A cuff-blade attachment bushing removal tool system includes an alignment plate comprising alignment holes defined through the alignment plate in a pattern of a plurality of bushing holes of a blade root, a bladder plate connected to the alignment plate, and a bladder positioned on the bladder plate such that a gap is formed between the bladder and the alignment plate to receive a blade root to align the alignment holes and the bushing holes of the blade root, wherein the bladder is transitionable between an uninflated position where the blade root can be inserted into the gap and an inflated position where the blade root is clamped between the bladder and the alignment plate.

A fixture clamp adjustment system includes a test workpiece and an alignment block. The test workpiece has a load cell and is configured to nest upon a fixture that has a clamp such that the load cell aligns with the clamp when open and such that the clamp contacts the load cell when closed. The alignment block is configured to couple with the clamp and engage the test workpiece when the clamp is closed to maintain clamp and load cell alignment.

The clamping device according to the invention for clamping at least two processing devices for a sample preparation is made up essentially of at least three clamping blocks arranged in the axial direction, at least two of which are designed as movable clamping blocks, and a displacement mechanism for displacing the movable clamping blocks between an open position for inserting the processing devices, and a clamping position in which the at least two processing devices are clamped one on top of the other in the axial direction between two clamping blocks in each case. The displacement mechanism is designed for displacing the at least two movable clamping blocks in opposite directions.

A pipe clamp includes a length of tubing having a pair of polygonal clamps moveably secured about the tube through an aperture located at a proximal end of each clamp. At a distal end of the tubing projects a nut which is perpendicularly secured thereto. A rod is engaged within the nut and in mechanical communication with the distal exterior end of the closest clamp. A handle is secured to the distal end of the rod.

Provided is a workpiece holding tool changing system configured to change at least one of a relative position and a posture of a holding tool of a workpiece conveying apparatus with respect to a feed bar. The feed bar includes at least one set among: an X-axis direction linear mechanism with an X-axis linear brake; a Y-axis direction linear mechanism with a Y-axis linear brake; a Z-axis direction linear mechanism with a Z-axis linear brake; and a ball joint portion and a ball brake. Under a state in which inhibition of movement or change in posture by a corresponding brake is canceled, a robot changes the relative position or the posture of the holding tool to a desired relative position or a desired posture. After the change, the workpiece holding tool changing system is brought into a holding state in which the movement or the change in posture is inhibited.

Disclosed is a clamping device system comprising a block, a first clamp, a first piston, a second piston, a second clamp, a third piston, a fourth piston, a control valve, a first pressure regulator, a second pressure regulator, and, a third pressure regulator. The block comprises a base and a work support plate. The first clamp comprises a first end, a first clamp body and a second end. The second clamp comprises a third end, a second clamp body and a fourth end. The first piston comprises a first piston-first clamp end and a first piston-block end. The first piston-first clamp end is attached to the first end. The first piston-block end is attached to the base. The second piston, third piston and fourth piston are configured similar to the first piston.

A conductor positioning fixture includes a base and a retainer member. The base includes a positioning platform and a wedge projecting upward from a top surface of the positioning platform. The base receives a cable on the top surface of the positioning platform such that exposed segments of first and second conductors of the cable extend along opposite sides of the wedge. The retainer member is mounted to the base and movable relative to the base along a longitudinal axis between a retracted position, at which the retainer member is spaced apart from the wedge, and an extended position, at which the retainer member overlaps the wedge. As the retainer member moves from the retracted position towards the extended position, the retainer member engages and forces the exposed segments of the first and second conductors into designated presentation positions.

A clamping and spreading device for separating layers of a substrate includes a C-clamp that is configured to fixedly couple to a substrate. A second rod is coupled to and extends from the C-clamp. The second rod is selectively extensible from the C-clamp. A first wedge is coupled to and extends bidirectionally from the second rod distal from the C-clamp. A second wedge is coupled to and extends from the C-clamp. An actuator is coupled to the C-clamp and is operationally coupled to the second rod. The first wedge and the second wedge are configured to insert into a first gap defined by two layers of the substrate. The actuator is positioned to compel the second rod to extend from the C-clamp. The first wedge is compelled distally from the second wedge to separate the two layers of the substrate.

Embodiments of the present disclosure can provide an apparatus for circumferentially separating turbine blades. An apparatus according to the present disclosure may include: a length-adjustable elongate member having opposing first and second ends; a first clasp coupled to the first end of the length-adjustable elongate member, the first clasp shaped to at least partially engage an airfoil profile of a first turbine blade positioned circumferentially adjacent to a dovetail slot, relative to a centerline axis of the turbomachine; and a second clasp coupled to the second end of the length-adjustable elongate member, the second clasp shaped to at least partially engage an airfoil profile of a second turbine blade circumferentially positioned adjacent to the dovetail slot, the first and second turbine blades being circumferentially adjacent to the dovetail slot at opposing circumferential ends thereof.

A machining assembly which allows for precise and repeatable machining operationsprimarily tube notchingto be carried out by an operator in various situations, and is specifically designed for hollow-form parting without use of a mandrel in prototyping and small-scale production. This system allows operators to cut copes in both typical and atypical materials, and offers the ability to produce double end-coped workpieces quickly. Additionally, the preferred embodiment can be equipped for use as a light-duty milling machine which incorporates portability with the benefits of traditional milling centers.