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MGS News 2006 09-2006: TecStar and SPC Upgrade Certifications Sep 2006: TecStar and SPC Upgrade Certifications: TecStar has upgraded its certification and is now officially ISO/TS16949:2002 and ISO 9001:2000 Certified. TecStar is still an FDA Registered and Underwriters Regulated manufacturer. SPC has upgraded its certification and is now ISO 9001:2000 Certified. -------------------- Jul 2006: MGS Mfg. Displays Add-On Injection Unit: MGS Manufacturing Group Inc. of Germantown, Wis., demonstrated an all-electric portable injection molding unit that a processor can add to a press instead of buying a new multishot machine. A processor can gain a second or even third shot by installing the unit on a single-shot machine, said John Hahn, MGS vice president of engineering. Useful in molding micro size parts, the electric units can produce shots sizes of 0.168-0.554 ounce and operate with reciprocating screws measuring 11-20 millimeters. Hahn said the 11mm version is the world's smallest reciprocating screw. Also at NPE, the firm showed a hydraulic insert molding machine with integrated tooling and clamp. Clamping forces can range from 5-90 tons. MGS began selling the machine in late 2005, Hahn said. MGS also introduced a vacuum unit it said can eliminate trapped gas and reduce part burns, voids and short shots. Positive pressure features include a vacuum release at the beginning of the mold opening and an air blast that aids in part release at ejection. In March, MGS and PlastiComp LLC of Winona, Minn., agreed to retrofit as needed any UMS press with PlastiComp's direct in-line Pushtrusion process. MGS employs 720 and, in addition to its main Germantown site, has Illinois facilities in Libertyville and Antioch. -------------------- Apr 2006: Investments in Productivity Automation Integration in the Toolroom: By integrating machining, workpiece and cutting tool management, CMM verification, and a Web-based video and control system, a completely integrated cell producing fully qualified electrodes through automated manufacturing can be created. Making significant investments in augmenting the manufacturing capabilities and capacities of its mold shop through the installation and integration of automated machining centers has enabled MGS to provide its customers an increase in productivity, a decrease in lead times and an improvement in consistency in delivering duplicate cores and cavities—creating a lights-out, time-to-market manufacturing environment. The Manufacturing Cell This system eliminates human interaction with confirmed data, sending the specifications required to manufacture a qualified and measured electrode at the end of the process, much like the action of creating a document and instructing a computer to print to the selected device. In this particular instance, the various stages of making graphite electrodes are accomplished using five different pieces of equipment. A three-axis, pick-and-place robot provides the means to access graphite blanks and cutting tools from the rotary magazines where they are staged. There are two high-speed CNC machining centers for cutting and a CMM, which is used to determine the accuracy of the cut. A Web-based vision system is incorporated to allow off-site monitoring and control if needed. Sequence of Events Prior to the start of manufacturing, the cell operator loads graphite blanks and verifies cutting tools as specified in the program. Pre-loaded/pre-qualified standard cutting tools remain resident in the rotary magazines—reducing or eliminating the downtime associated with the loading process. The CNC machine performs a self-check of every tool prior to the run and subsequently builds cutter specifications. After cutter verification, the robot turns and extends into the carousel, picking out the piece of material as per its work instructions, and places it into the CMM to check Z height. The robot then moves the workpiece into the CNC machine. Positioning data is refined and stored to facilitate the accuracy of future cuts. The cutting tool is selected, cleaned with high-pressure air and examined via laser inspection. The resulting data is compared to the stored cutter specifications. Upon confirmation, actual machining will begin. During all phases of roughing and finishing, the cutting tool is inspected and verified, ensuring the final accuracy and quality of the resulting electrode. If any significant wear is detected on the cutter, a new tool would be presented from a designated library of spare tools. It goes through the same verification process as the original and the machining continues. As a result of Web-based video and control systems, the function of the manufacturing cell can be monitored and manipulated at cell side, at the programmer’s desk or off-site via a secure portal on a Web site. During the quality inspection stage, the resulting CMM data is overlaid with the original 3-D geometry using custom written software. Discrepancies in pre-determined critical dimensions are automatically identified and highlighted in various colors depending on measurements falling in graphite light or heavy range. An automatically generated tag is visible on all comparative points indicating the degree of discrepancy, if any. After evaluation, the toolmaker determines the required corrective action. This automated process results in several benefits with regard to complicated 3-D surfaces: it reduces or eliminates hours of CMM programming, tedious data entry of sequential sinker EDM operations and any potential for human error. Other MGS tool manufacturing cells feature high-speed milling machines for hardened steel. Once again, a robot places and retrieves workpieces from a carousel. The cutters in this cell are continuously verified by laser and cleaned by highly pressurized air, as before. Upon completion, the robot removes the part, transports it to the carousel where it is stored for later use, and the robot continues with the next piece. This same automated technology is used in wire and sinker EDM cells. With regard to wire EDM cells, the newest automated installation features six integrated EDM centers, bookshelf staging areas and a CMM fed by a rail-mounted, six-axis robot. Summary MGS Mfg. Group is an engineered solutions provider to the plastics industry consisting of three integrated companies: Moldmakers Incorporated (engineering, design and tooling), Statistical Plastics Corporation (sampling, qualification, process development and turnkey manufacturing systems), and TecStar Mfg. Company (production molding—injection and blow, value-added operations, and automation). -------------------- Mar 2006: MGS Receives Award: For the 5th year in a row the Paslode Cordless Tool Group has awarded TecStar the "Exceptional Supplier Award" for their commitment and focus to provide quality services and product in a timely manner. --------------------
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