Patent application number | Description | Published |
20090039139 | FRICTION STIR WELDING LOAD CONFIRMATION SYSTEM - A portable multi-axis load confirmation tool having a rotating ball on the end thereof follows a three-dimensional weld program path therewith. The ball reacts to an internal load cell for verifying weld program path dynamics before an actual program is run with friction stir welding tools. The load cell is connected to instrumentation electronics converting a load cell signal to a digital readout and comparing the load cell signal to weld program load requirements. The tool integrates into a tool holder loaded on a friction stir welding spindle for simulating an actual friction stir welding tool. | 02-12-2009 |
20090113689 | APPARATUS AND METHOD FOR EFFECTING PIN-TO-SHOULDER TOOL SEPARATION FOR A FRICTION STIR WELDING PIN TOOL - An apparatus and method for separating a pin tool from a shoulder tool, after the pin tool and shoulder tool have become welded together during a friction stir welding operation. In one exemplary embodiment a frame is used to support the shoulder tool. A fluid pressure actuating assembly is used for gradually exerting a force on the pin tool while the shoulder tool is held stationary within the frame. The gradually increasing force gradually breaks the weld and separates the pin tool from the shoulder tool without damaging the pin tool. | 05-07-2009 |
20090193910 | Method For Measuring Loads On A Friction Stir Welding Tool - An apparatus and method are provided for measuring loads on a rotating friction stir welding tool of a friction stir welding machine. The apparatus includes a frame that can be connected to the friction stir welding machine, and rollers rotatably connected to the frame are structured to contact and rotate with the friction stir welding tool. Each roller is adapted to adjust in a respective direction and communicate with a respective load cell so that the load cells detect a positional characteristic of the rollers and measure loads applied to the rotating friction stir welding tool during operation. The rollers can contact the rotating tool directly during operation of the machine, such as while the rotating tools is being moved through a workpiece to form a friction stir weld joint, to measure the loads on the tool in the direction of movement of the tool and a direction normal to the movement, i.e., the path and path normal directions. | 08-06-2009 |
20090236045 | METHODS AND APPARATUS FOR RETRACTABLE PIN FRICTION STIR WELDING AND SPOT WELDING - An apparatus for friction stir welding is described that includes a stationary assembly having a bore therethrough, the bore having an inner diameter, and a rotational assembly having a welding end. At least the welding end of the rotational assembly extends through the bore. A portion of the rotational assembly is adjacent the inner diameter of the bore. At least one of the adjacent portion of the rotational assembly and the inner diameter of the stationary assembly are configured such that rotation of the rotational assembly will cause plasticized material from a welding process that has entered an area between the adjacent portion and the inner diameter to move towards a welding zone located proximate the welding end. | 09-24-2009 |
20090250505 | GIMBALLING ROLLER DEVICE FOR FRICTION STIR WELDING APPARATUS AND METHOD - A friction stir welding (FSW) apparatus has an FSW tool adapted for joining work pieces supportable against a backing anvil. The FSW apparatus comprises a pair of clamping rollers maintained in substantially perpendicular relationship to the backing anvil as the FSW tool moves along the tool path. A roller pivot joint of the FSW apparatus maintains a cylindrical roller outer surface of each clamping roller in substantially parallel relationship to the top sides of the work pieces. The roller pivot joint may include a gimballing roller bearing to which the clamping roller is mounted. The roller bearing is universally movable in a variety of directions to maintain the perpendicular relationship of the clamping rollers relative to the backing anvil. | 10-08-2009 |
20100065092 | FRICTION STIR WELDING TOOL CLEANING APPARATUS - The disclosure provides for a friction stir welding tool cleaning method and apparatus for fixed and retractable pin tools. The method and apparatus use a heating component, a temperature indicator component, a controller component, and a rotatable tool cleaner component for cleaning fixed pin tools. An additional bore cleaner component is used for cleaning retractable pin tools. Heat is applied to a friction stir welding tool having a surface with weld process residue material until the process residue material is sufficiently plasticized, and then the tool cleaner component is applied to the heated tool to remove the plasticized residue on the pin and shoulder surfaces of the tool, and for retractable pin tools, the bore cleaner component is applied to the heated tool to remove the plasticized residue in the tool bore. | 03-18-2010 |
20100159269 | GIMBALLING ROLLER DEVICE FOR FRICTION STIR WELDING METHOD - A friction stir welding (FSW) apparatus has an FSW tool adapted for joining work pieces supportable against a backing anvil. The FSW apparatus comprises a pair of clamping rollers maintained in substantially perpendicular relationship to the backing anvil as the FSW tool moves along the tool path. A roller pivot joint of the FSW apparatus maintains a cylindrical roller outer surface of each clamping roller in substantially parallel relationship to the top sides of the work pieces. The roller pivot joint may include a gimballing roller bearing to which the clamping roller is mounted. The roller bearing is universally movable in a variety of directions to maintain the perpendicular relationship of the clamping rollers relative to the backing anvil. | 06-24-2010 |
20100232894 | Adaptor with Interchangeable Load Sensing Elements - An apparatus comprises a machine module and an instrument module. The machine module is capable of being connected to a power tool. The instrument module is capable of being connected to the machine module and capable of generating a number of signals containing information about a number of operating conditions during operation of the power tool. | 09-16-2010 |
20100252172 | Independent Axis Clamping Apparatus and Method - A method for performing operations on a workpiece. The method comprises the steps of: contacting the workpiece with a tool; moving the tool along any of multiple axes; moving a clamp along at least a first axis independent of the movement of the tool; and, clamping the workpiece using the clamp. Contacting the workpiece with the tool may comprise plunging a friction stir welding pin tool into the workpiece while the workpiece is being clamped. The tool may be moved by moving a spindle housing over the workpiece, and the clamp may be moved by rotating the clamp around the first axis as the spindle housing moves over the workpiece. The method may further comprise the step of coordinating the movement of the clamp with the movement of the tool. | 10-07-2010 |
20110308700 | Apparatus for Friction Stir Welding Using Spindle-in-Spindle - A spindle head for performing friction stir welding includes concentric spindle shafts driven by stacked, coaxial motors contained within a spindle housing. The coaxial arrangement of the motors results in a more compact package. Each of the motors is concentrically arranged around one of the spindles by directly connecting a rotor of the motor to a spindle shaft. The stators of the motors are mounted on the housing and are concentrically arranged around the concentric spindle shafts. | 12-22-2011 |
20130255884 | INDEPENDENT AXIS ANCILLARY DEVICE - A manufacturing apparatus is presented. The manufacturing apparatus comprises a tool support movable along multiple axes; a tool mounted on the tool support for performing a manufacturing operation on a workpiece; and an ancillary device releasably mounted on the tool support and used in conjunction with the tool, the ancillary device moveable along at least a first axis independent of the movement of the tool. | 10-03-2013 |
20130292891 | RECONFIGURABLE CLAMPING SYSTEM - A reconfigurable clamping system is disclosed. An example clamping system for securing a workpiece comprises a retention assembly and an inflatable bladder. The retention assembly comprises a plurality of links, each pair of adjacent links having a pivotal connection to enable the retention assembly to be configured to the general shape of a workpiece, and each pair of adjacent links having a locking mechanism to selectively lock an angular relationship between the pair. The inflatable bladder is coupled between the retention assembly and the workpiece and is to apply a clamping force to the workpiece. | 11-07-2013 |