Air Volume: L (Low Noise Type, 0.46m³/min), Output: P (PNP Output), Power Supply Cable, AC Adapter: R (AC Adapter + Connector), Bracket: B (Bracket)
Air Volume: Low Noise Type, 0.46m³/min, Output: PNP Output, Power Supply Cable, AC Adapter: e-con Connector, Power Supply Cable to be Provided & Prepared by Customer, Bracket: Bracket
Air Volume: Low Noise Type, 0.46m³/min, Output: PNP Output, Power Supply Cable, AC Adapter: AC Adapter + Connector, Bracket: Bracket
Air Volume: L (Low Noise Type, 0.46m³/min), Output: P (PNP Output), Power Supply Cable, AC Adapter: Z (Power Supply Cable , 10m)
CATALOG Size (mm) Foot* M10 1.5 (N)CQ-F012 (N)CQ-D012 12 (N)CQ-L012 (N)CQ-F016 (N)CQ-D016 16 (N)CQ-L016 (N)CQ-F020 (N)CQ-D020 20 (N)CQ-L020 (N)CQ-F025 (N)CQ-D025 25 (N)CQ-L025 (N)CQ-F032 (N)CQ-D032 32 (N)CQ-L032 (N)CQ-F040 (N)CQ-D040 40 (N)CQ-L040 Note) For dimensions and types, refer to CAT:N320 (N)CQ-F050 (N)CQ-D050 50 (N)CQ-L050 (N)CQ-F063 (N)CQ-D063 63 (N)CQ-L063 Note) * If Foot Bracket is required
N C Q 2 / C Q 2 M5 0.8 M6 1 M8 1.25 Flange Double Clevis** Bore Size (mm) Foot* M10 1.5 (N)CQ-F012 (N)CQ-D012 12 (N)CQ-L012 (N)CQ-F016 (N)CQ-D016 16 (N)CQ-L016 (N)CQ-F020 (N)CQ-D020 20 (N)CQ-L020 (N)CQ-F025 (N)CQ-D025 25 (N)CQ-L025 (N)CQ-F032 (N)CQ-D032 32 (N)CQ-L032 (N)CQ-F040 (N)CQ-D040 40 (N)CQ-L040 (N)CQ-F050 (N)CQ-D050 50 (N)CQ-L050 (N)CQ-F063 (N)CQ-D063 63 (N)CQ-L063 Note) * If Foot
(n=2, 3, 4, 5) (n-2) 2 35 + 35 (n-2) 20 + 35 (n=2, 4, 6) Note 3) D-M9V 5 35 20 (n=2, 3, 4, 5) (n-2) 2 25 + 35 (n-2) 15 + 35 (n=2, 4, 6) Note 3) D-A9V 5 25 15 (n=2, 3, 4, 5) (n-2) 2 D-M9WV D-M9AV 35 + 35 (n-2) 20 + 35 (n=2, 4, 6) Note 3) 10 35 20 (n=2, 3, 4, 5) (n-2) 2 50 + 45 (n-2) D-C7 D-C80 15 + 45 (n=2, 4, 6) Note 3) 10 50 15 (n=2, 3, 4, 5) D-H7 D-H7W D-H7NF (n-2) 2 60 + 45 (n-2) 15 +
(N) VVZS2000-1A-3-Bore size-1 (-X12) Conventional block assembly part no. (N) VVZS2000-1A-3-Bore size (-X12) For VZS3000 New block assembly part no. (N) VVZS3000-1A-3-Bore size-1 (-X12) Conventional block assembly part no. (N) VVZS3000-1A-3-Bore size (-X12) Note) -X12 shows the part no. for all common style.
Stations Stations L L1 L2 L3 (MP) L3 (AP) Formula L1 = 28 x n + 47 L2 = 28 x n + 56 L3 = 28 x n + 194 L3 = 28 x n + 235.5 3 131 140 278 319.5 4 159 168 306 347.5 5 187 196 334 375.5 6 215 224 362 403.5 7 243 252 390 431.5 8 271 280 418 459.5 9 299 308 446 487.5 10 327 336 474 515.5 6-Rc 1/4 (P , EA, EB port) 3-5-26 27 5 Port Pilot Operated Solenoid Valve Rubber Seal, Plug-in/Non Plug-in
No. of auto switches mounted 2 Different sides C85 Auto switch model Same side n Different sides 1 Same side C95 D-C7 D-C80 D-H7 D-H7W D-H7BAL D-H7NF D-C73C D-C80C D-H7C 10 50 15 50 + 45 (n 2) n 2 2 15 + 45 ( ) (n = 2, 4, 6) CP95 10 60 15 60 + 45 (n 2) NCM NCA n 2 2 15 + 50 ( ) (n = 2, 4, 6) 10 65 15 65 + 50 (n 2) Dn 2 2 D-B5/B6 D-G5NTL 15 + 50 ( ) (n = 2, 4, 6) 75 10 15 -X 75 + 55
Force Conversion Graph (Guide) LEY25l (Motor mounting position: Top/Parallel, In-line) 500 400 Lead 3: LEY25C 300 Force [N] 200 Lead 6: LEY25B 100 Lead 12: LEY25A 0 60 30 120 90 Ratio to rated torque [%] LEY32Dl (Motor mounting position: In-line) LEY32l (Motor mounting position: Top/Parallel) 800 600 700 500 Lead 5: LEY32C 600 400 Lead 4: LEY32DC 500 Force [N] Force [N] 400 300 Lead 10: LEY32B
800 N Holding force 320 N 0.43 0.68 1.
Holding force 25 320 N 32 500 N 40 800 N MLGC Shock absorber can absorb small to large impacts without adjustments due to self compensation. CNG MNB Brake construction is designed not to allow loads on guide.
Holding force 25 320 N 32 500 N 40 800 N CNG MNB CNA2 CNS Brake construction is designed not to allow loads on guide. CLS Spring force works directly on the brake-shoe and the brake plate is caught between brake shoes from top and bottom so that the slide table can stop without compromising guide performance.
W: Weight (kg) F: Load (N) FE: Load equivalent to impact (N) a: Average speed (mm/s) M: Static moment (Nm) : Collision speed (mm/s) L1: Distance to center of load gravity (m) ME: Dynamic moment (Nm) g: Gravitational acceleration (9.8m/s2) 1.4 100 =1.4 a(mm/s) FE= agW (4) 1 3 ME= FEL1=0.05aWL1(Nm) Note 4) Average load ratio (This is for averaging Max. load moment when stopper collides in case
Expression of Calculation of Allowable Fp, Fy, Fr Pitch moment Yaw moment Roll moment Fp = Lp x Cp x (St/12) (N) Fy = Lr x Cy (N) Fy = Ly x Cy x (St/12) (N) Lp: Distance between table and loading point (mm) Cp: Correction value of moment center position distance (mm) St: Stroke (mm) Ly: Distance between table and loading point (mm) Cy: Correction value of moment center position distance (
Expression of Calculation of Allowable Fp, Fy, Fr Pitch moment Yaw moment Roll moment Fp = Lp x Cp x (St/12) (N) Fy = Lr x Cy (N) Fy = Ly x Cy x (St/12) (N) Lp: Distance between table and loading point (mm) Cp: Correction value of moment center position distance (mm) St: Stroke (mm) Ly: Distance between table and loading point (mm) Cy: Correction value of moment center position distance (
AC Adapter for series IZF10 and IZS40 ionizers. Option with or without AC cord. Note: NOTcompatible with IZS41/42. AC Adapter for series IZF10 and IZS40 ; Optional AC cord ; Note: NOT compatible with IZS41/42
Mounting bracket for series IZF10 Fan Ionizers Mounting bracket for series IZF10 Fan Ionizers ; Includes mounting hardware