Abstract: An automated bending machine for bending metal sheet material, provided with driving means which are integrated in a table and/or ram depending on whether the driving means are designed for moving and arranging bottom tools and/or top tools respectively on the respective tool holder of the automated bending machine, whereby the driving means are such that several tool segments can be simultaneously controlled with the latter in order to make these multiple tool segments simultaneously undergo a movement, independently from one another, along the tool holder concerned.

Abstract: It is reported in the present invention a device (A) to monitor the tension on an anchoring line (LA) of a floating platform for oil exploration or production at sea, which is mounted at a point on the anchoring line without it becoming an integral part thereof, which basically comprises: an upper bar (1) and a lower bar (2), which are interconnected at one end by a hydraulic cylinder (CH1) and on the other end by a solid vertical bar (4).

Abstract: For aging deformation of a reaction vessel used for production of titanium sponge by the Kroll method, the deformation of the reaction vessel can be corrected to a desired deformation. The apparatus for correcting the deformation corrects by being inserted inside of the cylindrical deformation of the reaction vessel, the apparatus has multiple cylinder arms radially extendable to a circumference, a deformation-correcting head arranged on a top part of the cylinder arm, a hydraulic power unit connected to the cylinder arm and driving the deformation-correcting head, a detecting means for the stroke of the deformation-correcting head, and a measuring means for the pressing force against the reaction vessel. Furthermore, the method for correcting the deformation of the reaction vessel using the apparatus has a step of pressing the reaction vessel while adjusting stroke of the deformation-correcting head depending on an amount of deformation of the reaction vessel.

Abstract: The present disclosure is directed to systems and methods for determining and calibrating a K-factor for material and to methods and systems for calibrating forming devices, forming device controls, and/or forming device components. The disclosed systems and methods can dynamically provide exact and calibrated values for the parameters needed to produce correct and accurate flat patterns based on any type of material or any tooling combination. As such, the systems and methods of the present disclosure can be used to achieve a first run perfect or near-perfect part capability that does not currently exist.

Abstract: A system for monitoring clinched joints performed by an apparatus that moves a punch relative to a die. The system determines acceptability of a clinched joint by correlating the amount of punch advancement toward the die in the formation of the joint and the diameter of a button formed by the joint.

Abstract: A method and apparatus for detecting a turned blank at a workstation in a progressive forging machine comprising simultaneously monitoring both the force on a tool in the workstation and the crank angle of the machine, determining a reference crank angle when the tool is subjected to a force at the workstation about to deliver a blow and a blank in the workstation is properly angularly aligned, operating the machine to forge blanks in a normal manner when a force on the tool at the workstation occurs substantially at the reference crank angle, and interrupting said normal manner when the force on the tool at the workstation occurs before said reference crankshaft angle to enable the blank being formed at the workstation to be separated from remaining blanks being forged in the machine.

Abstract: A cutting head has upper part with at least one separating cutter, at least one stripping cutter, a first cutting edge, a force-measuring device operating on the piezo principle, and a first holding plate. A lower part of the cutting head includes at least one separating cutter, at least one stripping cutter, a second cutting edge and a second holding plate. The first cutting edge, the second cutting edge, and the force-measuring device serve to measure the height of the crimp. The first holding plate and the second holding plate serve to measure the pull-out force.

Abstract: A crimp state estimation apparatus includes: an information input section for inputting information on an crimp contact terminal, an electric wire, an anvil, and the crimper and an input compression ratio of a core wire of the electric wire; and an estimation unit for calculating a total length of the bottom wall and the pair of crimp pieces after crimp in a cross section orthogonal to the core wire based on the information and the input compression ratio and estimating a cross-sectional shape of the bottom wall and the pair of crimp pieces after crimp based on the total length.