used horizontal machining center – year of construction: 2007-2008 Product name: MFZ 2-3 Update Used 3-spindle horizontal 4-axis machining center Year of manufacture: 2007-2008 Painted in RAL1002 (sand yellow) or red-white Sinumerik 840D Powerline control Machine dimensions without coolant system and chip conveyor L x W x H approx. 5.10m x 3.05m x 2.8m Weight approx. 20,000 kg (per machine without coolant system and accessories) X-axis travel: 300 mm Y-axis travel: 500 mm Z-axis travel: 450 mm Spindle distance: 300 mm Rapid traverse XY Z axis 60,000 mm/min 3 x motor milling spindle GMN, version with HSK63 tool holder Drive power (S1/S6) 28 KW (constant) Torque (S1/S6) 63/83 Nm max. speed 16,000 rpm Chip conveyor Knoll (scratch belt conveyor in positioning variant across the machine) Knoll KSS system with paper belt filter and magnetic separator Flush gun Complete enclosure Tool storage (3 x 30 tools)
Germany
Complete machining on MFZ including axis drilling 2-spindle solution with independent X, Y and Z axes
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OUR MFZ SERIES CANNOT SHAKE ANYTHING SO EASILY. A SOLID FRAME CAST WITH HYDROPOL ® AND THE CLOSED CONSTRUCTION GUARANTEE THE HIGHEST PRECISION THROUGH BEST VIBRATION DAMPING AND TEMPERATURE STABILITY. The new generation of the MFZ is also built on the solid machine bed with Hydropol ® filling. The specially developed composite material improves the stability of machine tool beds. Hydropol ® makes a further step possible in terms of the interaction between energy efficiency and high productivity. ROCK SOLID DESIGN – THE ADVANTAGES OF A ROCK SOLID MACHINE BED OVER STEEL AND CAST CAST FRAME: Closed construction – analyzed and optimized according to FEM Optimal power flow
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Machining with 3 or 4 spindles Clamping device with 6 or 8 workpieces Processing the ends and connections on MFZ Processing of deep hole drilling 4-6 spindling on SAMAG shaft drilling machines
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“The deflection (∆) of the tool tip (TCP) due to the machining force (F) depends to the third power ( l 3 ) of the length ( l ) of the distance TCP to the front bearing axis (A), in relation to the bending stiffness (E · I) “ Or: the shorter l , the smaller ∆ and the higher the precision
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