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Emag News 21 English

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REINECKER
KARSTENS
KOPP
NAXOS-UNION
KOEPFER
LASER TEC
ECM
ELDEC
EN
Manufacturing Systems for Precision Metal Components
High productivity with a minimum floor space requirement –
that is wha...
THE BENEFITS OF THE EMAG VL 2
VERTICAL MACHINING:
SAFE AND EFFICIENT
5
RAPID
PERFORMANCE
Short distances for machining
and...
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  1. 1. 21 DE 21 REINECKER KARSTENS KOPP NAXOS-UNION KOEPFER LASER TEC ECM ELDEC EN
  2. 2. Manufacturing Systems for Precision Metal Components High productivity with a minimum floor space requirement – that is what you get with the vertical, fully automated VL 2 turning machine from EMAG. This is where it all comes together – this CNC turning machine requires very little floor space, is easy to operate and self loads by means of an integrated automation system. The machine can be set up in a single step – without the need for additional robots or gantry loaders. Above all, high quality machine components together with EMAG classical vertical machining ensure high quality machining. Conclusion: an extremely productive turning machine with high quality components which is highly flexible to use. + 15 % + 30 % 0 20 % 40 % 60 % 80 % 100 % 120 % 140 % Manually loading a horizontal turning machine Automated horizontal turning machine EMAG VL 2 EMAG VL 2 P Vertical machining: increases productivity considerably Turning Down the Costs VL 2 PICK-UP TURNING MACHINE EMAG VL 2 P: the Idle Time Killer Short idle times: the VL 2 P needs just 1.5 seconds for workpiece changeover. Two main spindles are used for this purpose. While the first spindle is busy machining a workpiece, the second spindle loads itself automatically using the pick-up technique. The machine scores particularly well when it comes to workpieces requiring short machining times. The main criterion for assessing the economy of a machining process is the ratio between machining time and idle time. Maximum workpiece sizes VL 2 VL 3 VL 5 VL 7 X- / Y- / Z-axis travel 650 / 100 / 400 mm 400 / 50 / 200 mm 660 / - / 300 mm 850 / - / 315 mm Main drive unit 19.5 kW / 75 Nm 24 kW / 158 Nm 28 kW / 300 Nm 45 kW / 775 Nm Max. number of revolutions 6,000 min-1 7,500 min-1 4,500 min-1 3,400 min-1 Overview of the VL series 100 130 250 340 150 145 175 160 m2 5 AUTOMATION USING MINIMUM FLOOR SPACE 2
  3. 3. THE BENEFITS OF THE EMAG VL 2 VERTICAL MACHINING: SAFE AND EFFICIENT 5 RAPID PERFORMANCE Short distances for machining and loading ensure very short cycle times. 1 MINIMUM FLOOR SPACE REQUIREMENT The VL 2 takes up only five square meters. 2 FULL AUTOMATION The workpieces are changed by the automation system – with more than 40 workpieces on the storage conveyor. The simple automation concept ensures high availability. 3 STURDY CONSTRUCTION The machine body made of MINERALIT® polymer concrete ensures high rigidity and excellent vibration damping. This directly benefits the machining quality. 4 SIMPLE HANDLING All the service units are freely accessible, therefore, easy to reach. Changing tools is also very simple – just 270 mm distance to the tool turret. 3 EMAG NEWS 21
  4. 4. Manufacturing Systems for Precision Metal Components VLC 100 G: Cause and effect Compact design » Low space requirement Internal and external grinding spindles can be used » Fast production process Integrated automation system with short travel distances » Short chip-to-chip times Vertical machining with free flow of chips » Very high process reliability Optimum accessibility » Short tooling and retooling times Probe (optional) » High process reliability A lot of small chucked parts are required in very large quantities. The VLC 100 G grinder is the efficient pro- duction solution. Gears, planetary gears, chain wheels and flange parts are required in millions of units in the automotive sector. The VLC 100 G grinding machine is a leap forward in performance while requiring a minimum of floor space (just 5.7 square meters). This is made possible by the typical EMAG integrated automation. The machine loads itself with a pick-up spindle from the integrated conveyor belt. The conveyor belt is loaded and unloaded by the operator or a suitable handling system. The chip-to-chip time is minimal. Conclusion: the extremely compact grinding machine with automation system speeds up production processes substantially. Large Quantities, short Cycle Time VLC 100 G GRINDER VLC 100 G Chuck diameter max.: 160 mm Machining diameter max.: 100 mm Grinding length max.: 150 mm X-axis travel: 650 mm Z-axis travel: 400 mm 5.7 FOOTPRINT JUST m2 UP TO TWO GRINDING WHEELS IN A SINGLE MACHINING AREA 4
  5. 5. CYCLE TIMES OF ONLY SECONDS – FOUR TYPICAL SUCCESS STORIES VG 110: Non-circular grinding Non-circular operations such as profile grinding of pump rings Chuck diameter: 100 – 190 mm Swing diameter: 125 mm Machining diameter max.: 60 mm Workpiece diameter (nominal): 100 mm X-axis travel: 460 mm Z-axis travel: 225 mm VLC 250 DS: Multi-technology Turning, hard turning, internal and external grinding all on a single machine Chuck diameter: 250 / 315 mm Swing diameter: 350 mm Workpiece diameter (nominal): 250 mm X-axis travel: 1,400 / 1,600 mm Y-axis travel: ± 100 mm Z-axis travel: 300 mm GEAR WHEEL Machine: VLC 100 G Technology: internal circular grinding Material: 20MnCr5 Cycle time: 22 SeC. CYLINDER SLEEVE Machine: VLC 100 G Technology: internal circular grinding Material: 27SiMn Cycle time: 20 SeC. PUMP RING Machine: VG 110 Technology: non-circular grinding of internal contour Material: 100Cr6 Cycle time: 30 SeC. GEAR WHEEL WITH INTERNAL POLYGON Machine: VLC 250 DS Technology: turning, drilling, thread tapping and non-circular grinding of the internal polygon Material: 16MnCr5 Cycle time: 55 SeC. 22 SeC. 5 EMAG NEWS 21
  6. 6. Manufacturing Systems for Precision Metal Components Large Parts – Massive Efficiency VLC 500 MT MULTI-TECHNOLOGY CENTERS MAIN SPINDLE CAPACITY FOR FAST PROCESSES 110kW 6
  7. 7. THE VLC 500 MT MULTI-FUNCTIONAL: Turning, drilling, milling and grinding in a single system COMPLETE: Machining in a single clamping operation STURDY: Vibration dampening and thermal stability thanks to machine base and compound slide made of MINERALIT® polymer concrete SAFE: Thanks to integrated measuring system FLEXIBLE: Standardized automation modules ensure high flexibility INTELLIGENT: Vertical design ‒ ideal downward chip flow conditions SIMPLE: Easier operation thanks to user comfort and very good accessibility COMPACT: Small footprint due to compact design Automated complete machining of large workpieces IMPORTANT KEYWORDS FOR EXAMPLE WIND POWER: SIX AT ONCE One manufacturer uses the VLC 500 MT from EMAG for manufacturing six different components required for driving the gondola on a wind turbine. Up to twelve tools are used for this purpose. Technologies: turning, milling and drilling Clamping device: EMAG special purpose clamping chuck for all workpiece variants Materials: cast iron, steel Workpiece variations: six pieces TURNING, DRILLING, MILLING, GRINDING AND MORE IN A SINGLE SYSTEM 96 TOOLS Do you want to perfect the machining of drive housings, planetary carriers, hollow wheels and other large com- ponents? The VLC 500 MT provides maximum productivity. Whether in wind turbine construction, commercial vehicle production or train engineering the challenges are massive with large, heavy components that have to be machined safely and with the highest precision. The multi-functional VLC production centers from EMAG are based on a vertical complete machining process with a single clamping operation. The large compo- nent is collected by the pick-up spindle and machined on all sides. Up to 96 tools are available for turning, drilling, milling, grinding and more. Conclusion: the VLC 500 MT ensures flawless, high speed machining of large components. The component quality benefits, the process sequence is highly efficient. Chuck diameter: 500 / 800 mm Swing diameter: 820 mm Power rating of main drive unit: 74 / 110 kW Max. torque: 1,300/ 4,400 Nm Rapid-traverse rate X / Z: 45/30 m/min Milling spindle: 40 kW/320 Nm Tool carrier: 1 x tool turret with up to 12 driven tools, 1 x milling spindle with tool changer for max. 96 tools with HSK 100 tool socket MACHINE DATA 7 EMAG NEWS 21
  8. 8. Manufacturing Systems for Precision Metal Components MAXIMUM: 4-AXIS TURNING WITH 2 X 11 TOOLS ENSURES MAXIMUM PRODUCTIVITY Setting the Pace for Shaft Production VERTICAL TURNING MACHINE VT 2-4 COMPLEX GEOMETRY – LARGE QUANTITIES: Shaft machining is a challenge for production planners. The workpiece changeover time on the VT 2-4 is just six seconds. When large quantities are machined, this small number means a massive benefit in terms of costs. Mass and class – this 4-axis vertical turning machine scores points in every respect for machining large quantities of shafts up to 400 millimeters in length. The secret is integrated automation and short axis movements: while one workpiece gripper loads a new part into the machine, the other one unloads a finished part. With spindle speeds up to 6,000 r/min the turning process is completed very quickly. The shaft is machined very precisely in a vertical orientation from two sides. Conclusion: automation, 4-axis machining and a powerful main spindle guarantee highly efficient shaft production. This results in a massive reduction in costs per part. 8
  9. 9. Z1 W X1 A1 C A2 Y1 Z2 X2 Y2 Productivity comes standard: » including raw and finished parts storage units – no additional procurement costs for automation and peripherals » small footprint due to compact, vertical design » can be used as a stand-alone machine or as part of a manufacturing system » free flow of chips prevents chip clusters » less manual intervention required (headstock and steady rests can be moved under CNC control, the operator has direct access to the tool turrets) 1 SHORT MACHINING TIMES » thanks to efficient 4-axis machining 2 SHORT IDLE TIMES » due to simultaneous loading and unloading 3 SHORT TOOLING AND RETOOLING TIMES » thanks to excellent accessibility and ease of operation The complete VTC series Maximum workpiece sizes VTC 100-2 VTC 100-4 / VT 2-4 VTC 250 / VTC 250 DUO VTC 315 / VTC 315 DUO X- / Z-axis travel 340 / 625 mm 340 / 625 mm 300 / 740 mm 390 / 950 mm Main drive unit 19.5 kW / 75 Nm 34 kW / 144 Nm 38 kW / 250 Nm 38 kW / 650 Nm Max. number of revolutions 6,000 min-1 6,000 min-1 5,000 min-1 4,000 min-1 6 IDLE TIMES REDUCED TO A MINIMUM SEC. 63 63 140 250 400 400 700 1,000 9 EMAG NEWS 21
  10. 10. Manufacturing Systems for Precision Metal Components More productive The high drive rating (15 kW) at the grinding wheels ensures short machining times. In addition, all cylindrical grinding operations can be completed in a single clamping operation if two or three grinding wheels are used. Safer The initial balancing process is carried out with gap and crash detection. In addition, process control benefits from in-process measurements (external diameter and longitudinal positioning) on the component shoulders. More precise Absolute measuring system (glass scales) ensures maxi- mum machining accuracy. This is supplemented by high precision, rigid linear roller guide ways in all axes. HIGH PRECISION: DIFFERENT SHAFTS CAN BE MACHINED ON THE HG 2 Perfect cylindrical grinding is a matter of a few microns. The high precision process must run 100 % capable and efficiently even in mass production. The HG 2 cylindrical grinder is designed to ensure this aspect. It has a high drive rating at the grinding wheel to ensure extremely short grinding times. In addition, the high precision axis roller guide ways and the thoroughly rigid construction ensure particularly high machining quality. And of course the entire process is monitored perfectly. Conclusion: grinding quality comes standard, the HG 2 with its wide range of high tech components is a giant leap forward in terms of performance. Nowhere is quality, precision and process reliability more important than in cylindrical grinding. The HG 2 stands out in this respect. Maximum Quality comes Standard The HG 2 at a glance: » Short machining times due to high grinding wheel drive rating » Balancing operation with gap and crash detection to monitor the process » In-process measurement of external diameter and longitudinal position on the shoulders » High precision, rigid linear roller guide ways in all axes » Absolute measuring system (glass scales) in all axes ensures maximum machining accuracy » NC tailstock with large stroke for easy retooling » High productivity due to short idle times » User-friendly workpiece correction system » Very simple handling with control and setup masks » Large doors and low distance to workpiece Workpiece diameter max.: 200 mm Workpiece length max.: 400 mm X-axis travel: 360 mm Z-axis travel: 1,000 mm COMBINED GRINDING COMPETENCE Whether for small crankshafts or a six meter crankshaft for shipbuilding, EMAG develops customized machining solutions. HG 2 HORIZONTAL CYLINDRICAL GRINDER The HG 2 at a glance: Balancing operation with gap and crash detection to monitor the process In-process measurement of external diameter and longitudinal position 10
  11. 11. THE LATEST CBN TECHNOLOGY IS THE KEY Even complex shafts can be ground with high precision (photo, center). CBN grinding wheels are used for cam profile grinding of camshafts for motorcycles, cars and trucks (photo, right). 11 EMAG NEWS 21
  12. 12. Manufacturing Systems for Precision Metal Components Many users know the challenge: pinions and wheels, worm gears and screws are required in greater numbers of versions. However, quantities are reducing and companies must be able to react very quickly to new customer requirements. In light of this, EMAG KOEPFER has used the very latest technology in the K 200 gear hobbing machine: at least eight activated CNC axes and a fully automatic loading system make for an extremely flexible system which is tailored precisely to suit the specific needs of the customer. Another benefit is that the components can undergo initial soft milling and hard final machining with guaranteed high quality. Conclusion: The K 200 gear hobbing machine provides maximum flexibility and efficient processes. K 200 GEAR HOBBING MACHINE Requirements for gear hobbing are rising with a wide range of components that have to be machined flexibly and quickly on a single machine. The K 200 gear hobbing machine provides a universal answer to this. Universal Solution for the Production of Gears 12
  13. 13. Gear hobbing machine Module max. Workpiece diameter mm Cutting distance mm Workpiece length mm Cutting width mm Shift distance mm Main spindle speed rpm Cutter speed rpm FIVE KEYWORDS 1 COMPLETE Soft milling (axial, radial or tangential milling) and hard machining on a single machine 2 PRECISE Gear hobbing up to quality 6 to DIN with excellent vibration dampening thanks to the MINERALIT® polymer concrete body 3 FLEXIBLE Automation solution for a wide range of raw parts (manual loading also possible) 4 UNIVERSAL Suitable for every hobbing profile geometry 5 CUSTOMIZED Many special applications and machine options available 6 PRECISION GEAR HOBBING TO HIGH QUALITY TO DIN KOEPFER GANTRY LOADING PORTAL The KOEPFER gantry loader with V gripper provides the basis for intelligent, variable automation. The raw and finished part magazines are available for a range of parts (in this case a “sloping level” with belt storage unit). Long term magazines for wheels and shafts mean that machines can operate for several hours at a time. K 200 3 120 / 180 200 300 130 / 100 100 / 70 450 / 1,000 2,400 / 3,000 / 5,000 K 160 2,5 90 / 140 200 / 480 300 / 1,000 250 160 4,000 5,000 K 300 4 140 / 195 300 300 / 800 200 160 800 2,500 / 4,000 13 EMAG NEWS 21
  14. 14. Laser welding is essential for the production of many automotive components. EMAG systems provide an extraordinarily efficient process, including lower energy consumption. Laser welding is often synonymous with efficient lightweight construction methods, the weld replaces (heavy) bolt connections and the components are therefore lighter. To ensure an efficient production process, EMAG develops customized solutions for every application on the basis of its ELC series. The machines load themselves with a pick-up spindle and the stationary laser optics then ensure high precision welding results. One other benefit: the specialists can develop the complete process chain for a component from the initial turning to inspection processes. Conclusion: ELC systems ensure a high precision, high speed and energy-efficient welding process. Perfecting the Laser Welding Process ELC SERIES ELC 200 H: Designed for shafts » For drive shafts, propeller shafts, steering shafts and similar workpieces » Horizontal spindle and NC tailstock designed for parts of different sizes » Can be fitted with all laser technologies ELC 160: Maximum flexibility » Modular system concept for the production of medium to large quantities » Triple-axis NC machining with stationary pro- cess modules (including optics) » Can be fitted with all laser technologies ELC 250 DUO: Multi-functional » Pick-up spindle » Lower idle times: two machining stations “share” the laser source (loading and unloading during the machining time) » Complex follow-up machining included (for example brushing and inspecting) » Can be fitted with all laser technologies 50% LESS ENERGY CONSUMPTION SOLID-STATE LASERS EMAG is the technology leader in the use of solid-state lasers for transmission components. The efficiency of the solid-state laser is much higher than of a classic carbon dioxide laser. This means that energy consumption for the production can be reduced by up to 50 %. – 50% CO2 laser Solid-state laser Energy savings 0 20 40 60 80 KW 100 90 70 50 30 10 Output Cooling capacity Waste heat 14
  15. 15. HIGH SPEED PROCESSES – FOUR APPLICATION EXAMPLES MINIMUM DISTORTION DESPITE HIGH WELDING SPEED GEARS Laser welding a synchronizer ring to the gear. Welding / Jointing process time: i2 Sec. DIFFERENTIAL HOUSING Laser welding a ring gear to the differential housing. Welding / Jointing process time: 35 Sec. GEAR SHAFT Laser welding the synchronizer wheel to the gear shaft. Welding / Jointing process time: I6 Sec. PROPELLER SHAFT Assembling the propeller shaft from three single components. Welding / Jointing process time: I4 Sec. 15 EMAG NEWS 21
  16. 16. Manufacturing Systems for Precision Metal Components FUEL INJECTORS: High Requirements A great deal depends on the high precision machining of the fuel injectors in modern automotive engineering. Despite the fact that the cubic capacity continues to fall, engines develop more and more power while at the same time their fuel consumption is sinking. One of the factors that makes all this possible is the extremely precise supply of highly pressurized fuel. This also places high precision requirements on the fuel injector. Ultimately, a few thousandths of a millimeter determi- ne the efficiency of the component. MAXIMUM PRODUCTIVITY: THE PT 400 CAN MACHINE 30 FUEL INJECTORS AT THE SAME TIME. Cavity in a fuel injector with a diameter of four millimeters DEPENDING ON MATERIAL Ra0.05 Rz0.2/ 16
  17. 17. Demanding shapes, high-strength materials – even in the most difficult circumstances, PECM technology produces excellent results. Take fuel injectors, for example: Precision electro-chemical machining (PECM) not only allows the complex component to be machined with extreme accuracy, but PECM systems like the PT 400 from EMAG also produce extraordinary surface quality, with no burr formation and without changing the material structure. Even highstrength alloys and other challenging materials can be machined with practically no tool wear. In addition, the EMAG tool concept ensures great flexibility since it is modularly upgradeable when new requirements are faced. Conclusion: low wear, precise and zero contact. The production of fuel injectors and other complex components benefits substantially. The PT 400 from EMAG The PECM system has a modularly upgradeable tool concept for sophisticated 2D and 3D structures. The process achieves maximum surface quality even on complex components. In this case, the surface has been set back. Simple Solution for Complex Applications PECM TECHNOLOGY PECM: FIVE CENTRAL BENEFITS Ability to machine high-strength alloys Very low tool wear High repeat accuracy with high surface quality No burr formation No impact on the material 1 2 3 4 5 ACCURACY OF THE IMAGE <20μm FOR EVEN MORE ACCURACY Background of PECM Technology Electro-chemical machining (ECM) removes metal gently by means of electrolysis, the workpiece becomes the positive anode and the tool becomes the negative cathode. An electrolyte solution flows between the two. This removes metal ions from the workpiece. This process has been perfected in the form of PECM (precision electro-chemical machining). The machining gap is very narrow to ensure that the tools can remove material with even greater precision. In addition, a mechanical oscillation movement helps the electrolyte exchange. This superimposes the feed movement. A pulsed current / voltage source is used to achieve accuracy and a perfect finish. Principle of ECM Technology Current source Current source Current source Cathode Cathode Cathode Workpiece Workpiece Workpiece Electrolyte Electrolyte Electrolyte Electrolyte Electrolyte Electrolyte 17 EMAG NEWS 21
  18. 18. Manufacturing Systems for Precision Metal Components Always keep the Best Production Solution in Sight MECHANICAL ENGINEERING AT EMAG How can we drastically improve machining quality and productivity? This is our core competence. That is why we develop production solutions which are tailored to different requirements and ensure top performance, from low cost standard machines to complete manufacturing systems. In doing so, our engineers always keep their focus on the entire production process, not just on the machine itself. The entire process is the target of improvement: machining technology, NC programming, tools, automation and energy consumption. FROM STANDARD MACHINES TO COMPLETE MANUFACTURING SYSTEMS: EMAG DEVELOPS OPTIMUM SOLUTIONS FOR THE MACHINING OF PRECISION METAL PARTS (PHOTO: MANUFACTURING SYSTEM FOR CAMSHAFTS). 18
  19. 19. In many applications, the vertical design and simple automated pick-up system used on EMAG turning machines ensure considerably more efficient production. Compared to horizontal turning machines this often means: integrated, reliable automation high process reliability automatic workpiece changeover up to 10 % lower tool wear due to the MINERALIT® polymer concrete machine base optimum chip fall conditions without chip clusters good accessibility also perfect for hard turning processes integration of several technologies (turning, milling, grinding, gear cutting, and many more) Vertical Pick-up Machines from EMAG REDUCING PRODUCTION COSTS LOWER FLOORSPACE REQUIREMENT 30% BY UP TO 30% LOWER IDLE TIMES BY UP TO 30% INCREASED PRODUCTIVITY BY UP TO YOUR CONTACT FOR THE COMPLETE MACHINING PROCESS » Customized production solutions » From single machines to linked manufacturing systems » Binding promises for cycle and machining time and for component quality » Extensive support for (ongoing) production » Overall responsibility for the production solution » “ServicePlus” around the clock » Global sales and service » Mechanical engineering with the highest quality standards Substantially reduced production costs – a whole range of design details ensures this fact: 19 EMAG NEWS 21
  20. 20. NEWS-EN/03.2013 · © Copyright EMAG · Printed in Germany Manufacturing Systems for Precision Metal Components EMAG Gruppen-Vertriebs- und Service GmbH Salach Austrasse 24 73084 Salach Germany Phone: +49 7162 17-0 Fax: +49 7162 17-820 E-mail: info@salach.emag.com Frankfurt Martin-Behaim-Strasse 12 63263 Neu-Isenburg Germany Phone: +49 6102 88245-0 Fax: +49 6102 88245-412 E-mail: info@frankfurt.emag.com Cologne Robert-Perthel-Strasse 79 50739 Cologne Germany Phone: +49 7162 17-0 Fax: +49 7162 17-820 E-mail: info@koeln.emag.com Leipzig Pittlerstrasse 26 04159 Leipzig Germany Phone: +49 341 4666-0 Fax: +49 341 4666-014 E-mail: info@leipzig.emag.com Munich Zamdorferstrasse 100 81677 Munich Germany Phone: +49 89 99886-250 Fax: +49 89 99886-160 E-mail: info@muenchen.emag.com Denmark Horsvangen 31 7120 Vejle Ø Denmark Phone: +45 75 854854 Fax: +45 75 816276 E-mail: info@daenemark.emag.com Sweden Glasgatan 19B 73130 Köping Sweden Phone: +46 221 40305 E-mail: info@sweden.emag.com Austria Glaneckerweg 1 5400 Hallein Austria Phone: +43 6245 76023-0 Fax: +43 6245 76023-20 E-mail: info@austria.emag.com Russia ul. Akademika Chelomeya 3/2 117630 Moscow Russia Phone: +7 495 2870960 Fax: +7 495 2870961 E-mail: info@russia.emag.com Poland Spółka Z Ograniczoną Odpowiedziàlnością Oddzial w Polsce Miodowa 14 00-246 Warschau Poland Phone: +48 22 5310500 Fax: +48 71 3137359 Belarus ul. Timirjazeva, 65 B, Office 1101 220035 Minsk Belarus Phone: +375 17 2547730 Fax: +375 17 2547730 E-mail: info@emag.by NODIER EMAG INDUSTRIE 2, Parc des Fontenelles 78870 Bailly France Phone: +33 130 8047-70 Fax: +33 130 8047-69 E-mail: info@nodier.emag.com EMAG MAQUINAS HERRAMIENTA S.L. Pasaje Arrahona, no 18 Polígono Industrial Santiga 08210 Barberà del Vallès (Barcelona) Spain Phone: +34 93 7195080 Fax: +34 93 7297107 E-mail: info@emh.emag.com ZETA EMAG SRL Viale Longarone 41/A 20080 Zibido S.Giacomo (MI) Italy Phone: +39 02 905942-1 Fax: +39 02 905942-22 E-mail: info@zeta.emag.com EMAG (UK) LTD. Chestnut House, Kingswood Business Park Holyhead Road Albrighton Wolverhampton WV7 3AU Great Britain Phone: +44 1902 37609-0 Fax: +44 1902 37609-1 E-mail: info@uk.emag.com EMAG L.L.C. USA 38800 Grand River Avenue Farmington Hills, MI 48335 USA Phone: +1 248 477-7440 Fax: +1 248 477-7784 E-mail: info@usa.emag.com EMAG MEXICO Colina de la Umbria 10 53140 Boulevares Naucalpan Edo. de México Mexico Phone: +52 55 5374266-5 Fax: +52 55 5374266-4 E-mail: info@mexico.emag.com EMAG MACHINE TOOLS (TAICANG) CO., LTD. Building 3, Cang Neng Europe & American Technology Park No. 8 Lou Jiang Rd. (N.) 215400 Taicang P.R. China Phone: +86 512 5357-4098 Fax: +86 512 5357-5399 E-mail: info@china.emag.com EMAG INDIA PVT. LTD. Technology Centre, No17/G/46-3 & 17/G/46-3-1, Industrial Suburb, II Stage, Yeshwanthpur, Bangalore 560022. India Phone: +91 80 42544422 Fax: +91 80 42544440 E-mail: info@india.emag.com EMAG KOREA LTD. Rm204, Biz center, SKn Technopark, 124 Sagimakgol-ro, Sangdaewon-dong, Joongwon-gu, Seongnam city, Gyeonggi-do, 462-721, South Korea Phone: +82 31 776-4415 Fax: +82 31 776-4419 E-mail: info@korea.emag.com TAKAMAZ EMAG LTD. 1-8 Asahigaoka Hakusan-City Ishikawa Japan, 924-0004 Japan Phone: +81 76 274-1409 Fax: +81 76 274-8530 E-mail: info@takamaz.emag.com EMAG DO BRASIL LTDA. Rua Schilling, 413 Vila Leopoldina 05302-001 São Paulo SP, Brazil Phone: +55 11 38370145 Fax: +55 11 38370145 E-mail: info@brasil.emag.com EMAG SOUTH AFRICA P.O. Box 2900 Kempton Park 1620 Rep. South Africa Phone: +27 11 39350-70 Fax: +27 11 39350-64 E-mail: info@southafrica.emag.com

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