PNCE Series Electric Cylinders – Technical Data 86 TEL: 01827 288122 sales@wmh-trans.co.uk FAX: 01827 253390 www.wmh-trans.co.uk 7.005.0 Accessories CENTERING RINGS LINEAR UNITS The specifications in order to improve the products in this catalogue are subject to change without notice. Type Compatible with MTJ/MRJ/MTJZ/MTV: 40, 65 CR 7 Code 23332 MTJ/MRJ /MTV/ CTV/CTJ: 90, 110 MTJZ: 80,110 CR 9 23331 41609 40682 40768 40769 44451 5746 5551 5552 5553 5570 MTJ/MRJ 40 X - *57017 NUT TYPE CODE X X MTJ/MRJ/ MTV/MTJZ 65 MTJ/MRJ/ MTV/MTJZ 80 MTJ 40 ECO X X X MTJ/MRJ/ MTV /MTJZ 110 X CTV 110 CTJ 110 CTV 145 CTJ 145 X X X X SLOT NUTS DIN562 DIN557 Slot Nut CR 9 CR 7 CTV 90 CTJ 90 X X CR 9/12 CR 12 48885 49049 CTV/CTJ: 145 CR 9/12 CR 12 5551 5552 5553 5570 Slot Nut T-10-M8 Slot Nut T-10-M6 Slot Nut T-10-M5 Slot Nut T-10-M8 L=90 NUT TYPE CODE X X X X LINEAR UNITS - PROFILE LINEAR UNITS - CONNECTION PLATES 48887 48888 Slot Nut 6LM4 Slot Nut 6LM5 NUT TYPE IDENT CTV 90 CTJ 90 X X CTV 110 CTJ 110 X X CR 16 CTV/CTJ: 200 53023 CR 16 E E E-E 8 M10 16 k6 6 D-D X X X X X X 7 5704 5703 5702 5701 Slot Nut 8LM4 Slot Nut 8LM5 Slot Nut 8LM6 Slot Nut 8LM8 NUT TYPE CODE X X X X CTV 145 CTJ 145 L=90 MTJ/MRJ /MTV/ CTV/CTJ: 90, 110, 145 MTJZ: 80,110 * - deviating CODE DIN562 - M2,5 DIN562 - M4 DIN562 - M5 DIN557 - M5 DIN557 - M8 Slot Nut M6 Slot Nut T-10-M8 Slot Nut T-10-M6 Slot Nut T-10-M5 Slot Nut T-10-M8 CTV 200 CTJ 200 CTV 200 CTJ 200 4 PNCE ELECTRIC CYLINDERSWITH A BALLSCREW DRIVE In order to improve the products in this catalogue the specifications are subject to change without notice. TECHNICAL DATA General technical data for the PNCE series PNCE Ball screw Dynamic * load capacity Maximum axial load ** Maximum drive torque Maximum travel speed *** Max. rotational speed No load torque Minimum stroke Maximum stroke Axial backlash Maximum acceleration d×l [mm] C [N] Fmax [N] Mp [Nm] vmax [m/s] nmax [min-1 ] M0 [Nm] smin [mm] smax [mm] [mm] [m/s2 ] 32 12×5 5000 2540 2,2 0,48 5800 0,10 30 800 < 0,02 20 12×10 3800 1270 0,97 0,15 30 40 16×5 13150 6020 5,3 0,35 4200 0,15 40 900 < 0,02 20 16×10 11550 3010 0,70 0,20 35 16×16 8170 1880 1,12 0,25 35 50 20×5 14800 14600 12,9 0,28 3300 0,30 50 1000 < 0,02 20 20×10 15900 7830 13,9 0,55 0,35 55 20×20 16250 3900 1,10 0,40 50 20×50 13000 1560 2,5 3000 0,50 30 63 25×5 16700 16500 14,6 0,23 2700 0,50 40 1200 < 0,02 20 25×10 15800 15800 28,0 0,45 0,55 40 25×25 13400 7940 35,1 1,13 0,65 30 * Dynamic load capacity of ball screw drive. This value is the basis for calculating the service life. ** When considering service life, see page 10. This value needs to be considered when using the piston rod or mounting attachments’accessories. *** Maximum travel speed depends of the absolute stroke of the PNCE, see diagrams on page 7. Operating conditions Operating temperature 0°C ~ +60°C Protection class IP40, IP65 Duty cycle 100 % Recommended values of loads: All the data of the dynamic load capacities (ball screw drive) stated in the upper table are theoretical without considering any safety factor. The safety factor depends on the application and its requested safety and service life. We recommend a minimum safety factor fs = 5,0, where fs is defined as fs = C / Fm . See page 10 for information on how the applied mean axial load Fm affects the service life. Mass and mass moment of inertia PNCE Ball screw Moved mass ** Mass of the electric cylinder Mass moment of inertia d×l [mm] mm [kg] mPNCE [kg] JPNCE [10-6 kg m2 ] 32 12×5 0,32 + 0,0010 × (Absolute stroke + E) 1,10 + 0,0043 × Absolute stroke + 0,0010 × E 2,15 + 0,0128 × Absolute stroke + 0,0006 × E + 0,6333 × mload 12×10 2,75 + 0,0147 × Absolute stroke + 0,0025 × E + 2,5331 × mload 40 16×5 0,44 + 0,0007 × (Absolute stroke + E) 1,45 + 0,0051 × Absolute stroke + 0,0007 × E 4,50 + 0,0395 × Absolute stroke + 0,0004 × E + 0,6333 × mload 16×10 5,35 + 0,0408 × Absolute stroke + 0,0018 × E + 2,5331 × mload 16×16 7,10 + 0,0436 × Absolute stroke + 0,0046 × E + 6,4846 × mload 50 20×5 0,95 + 0,0012 × (Absolute stroke + E) 2,50+0,0073 × Absolute stroke + 0,0012 × E 17,75 + 0,0817 × Absolute stroke + 0,0007 × E + 0,6333 × mload 20×10 19,55 + 0,0839 × Absolute stroke + 0,0030 × E + 2,5331 × mload 20×20 26,75 + 0,0928 × Absolute stroke + 0,0118 × E + 10,1322 × mload 20×50 0,88 + 0,0012 × (Absolute stroke + E) 2,43 + 0,0073 × Absolute stroke + 0,0012 × E 73,80 + 0,1549 × Absolute stroke + 0,0740 × E + 63,3258 × mload 63 25×5 1,00 + 0,0011 × (Absolute stroke + E) 3,05 + 0,0097 × Absolute stroke + 0,0011 × E 32,55 + 0,2358 × Absolute stroke + 0,0007 × E + 0,6333 × mload 25×10 34,45 + 0,2378 × Absolute stroke + 0,0028 × E + 2,5331 × mload 25×25 0,98 + 0,0011 × (Absolute stroke + E) 3,03 + 0,0097 × Absolute stroke + 0,0011 × E 47,30 + 0,2523 × Absolute stroke + 0,0172 × E + 15,8315 × mload ** The moved mass is already considered in the equation for calculating the mass of the electirc cylinder mPNCE and the mass moment of inertia JPNCE . The moved mass includes the mass of the piston rod with the internal anti-rotation device and ball nut. mload Applied mass to be moved [kg] E Extended piston rod [mm] Absolute stroke [mm] 92 89