Table of Contents 2-P (Piping port) HA CB 4-J x E T 4-counterbore dia.
INDEX 166 Series AF10-A to AF60-A Dimensions AF10-A/AF20-A AF50-A/AF60-A D U M J N T Bracket (Option) S Bracket (Option) R R B C V Q OUT IN J M U S N T 2 x P (Port size) D R V Q B C IN OUT Clearance for maintenance G Drain A AF30-A to AF40-06-A N T J M 2 x P (Port size) Bracket (Option) U D S V Q IN OUT B C 2 x P (Port size) Clearance for maintenance G Drain A E Clearance for maintenance
D 5.0 x P First tentative bore size determination 0.1 x W + W D 5.0 x P W W > WV P > PV Determination of allowable load weight & pressure Inclined operation W WV P PV (For vertical operation, refer to page 10-2-79.)
F2 D 1.6 x ---P F3 D 1.6 x ---P F1 D 1.6 x ---P WB Inclined operation W + WB WV P PV W + WB > WV P > PV Allowable Driving Force (Fn) (n = 1, 2, 3) Determination of allowable load weight & pressure F1 = x (W + WB) x 9.8 Horizontal F2 = (W + WB) x 9.8 x (cos + sin) Inclined (For vertical operation, refer to page 10-2-18.)
LD Piping port P Operating direction A 7 Piping port P Operating direction B W K G With switch rail Q + Stroke Z + Stroke Piping port P (plug) Operating direction B HS CR HR Plug 22 8 Piping port P Operating direction B Piping port P (plug) Operating direction B 8 Piping port P Operating direction A 16 19.5 16 Plug REBR15 REBR15 (mm) A B C CB CR D F G GP GW H HA HB HC HP HR HS HT Model REBR15
B Counter bore depth C CB HA 2-P (piping port) 4-J x E (depth) HT 2 x 4-MM thread depth M T T Y HP L TC F X WP GW QW PW GP D 4-LD W K WS With switch rail Plug HS G Q + Stroke CR HR Z + Stroke (Area E) for CY1RG25, 32, 40, 50, 63 2-P (piping port) 22 8 14 12.5 19.5 13 30 Plug 2-P (piping port) 12.5 CY1RG10 CY1RG15 (mm) CB CR B C D G GP GW H HA HB HC HP HR HS HT J x E K F Model CY1RG10 2 0.5
Note 2) Determination of pressure (P) when making intermediate stop P Ps P > Ps (Refer to page 1529.) (For intermediate stops, refer to page 1527.)
low particulate generating vacuum grease. p r Non-contact construction a w t i o o n L There is no particulate generation due to friction, since the construction does not allow contact between the cylinder tube's exterior surface and the slide table's internal surface. a t e l u g c Reduced initial particulate generation 3 e i t n r a e p r a w t i o o n L No contact Cleaned, assembled,
-A22 ZPT125 50-(B/N/T)01-A22 ZPT125 75-(B/N/T)01-A22 ZPT125 100-(B/N/T)01-A22 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T3 25-(B/N/T)01 ZPB-T3 50-(B/N/T)01 ZPB-T3 75-(B/N/T)01 ZPB-T3 100-(B
-A22 ZPT125 50-(B/N/T)01-A22 ZPT125 75-(B/N/T)01-A22 ZPT125 100-(B/N/T)01-A22 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T3 25-(B/N/T)01 ZPB-T3 50-(B/N/T)01 ZPB-T3 75-(B/N/T)01 ZPB-T3 100-(B
low particulate generating vacuum grease. p r Non-contact construction a w t i o o n L There is no particulate generation due to friction, since the construction does not allow contact between the cylinder tube's exterior surface and the slide table's internal surface. a t e l u g c Reduced initial particulate generation 3 e i t n r a e p r a w t i o o n L No contact Cleaned, assembled,
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Leakage test result a t e l u g c Stainless steel linear guide & low particulate generation vacuum grease e i 2 t n r a e CX p r a 0.0 10 0 20 10 w 10-10 0 5 10 t i o o n L DTime [min] Operation cycles -X e e a a l l k k a t e l u w w g a a c 2 e i o
(mm) Internal cross section a (mm 2) Nominal size = Length of piping [mm] a = Internal cross section of piping [mm 2] T 0425 T 0604 TU 0805 T 0806 1/8B T 1075 TU 1208 T 1209 1/4B TS 1612 3/8B T 1613 1/2B 3/4B 1B 4 2.5 4.9 [l (ANR)] QC = Air consumption required for one reciprocation of rotary table 6 4 12.6 8 5 19.6 8 6 28.3 6.5 33.2 7.5 10 44.2 12 8 50.3 12 9 63.6 9.2 66.5 16 12 113 12.7
2-P (Piping port) HA CB 4-J x E T 4-counterbore dia.
Wall mounting z P. 26 P. 58 y x y Wa: Connection plate t = 10 (880g) x z MY1C40-500 3. Ceiling mounting 4.
W = P x S x 0.1 x 1/t W = 1 g = 0.0098 N 0.0098 = P x 0.13 x 0.1 x 1/4 S = P/4 x (0.4)2 = 0.13 cm2 P = 3.0 kPa t = 4 (Horizontal lifting) According to the calculation, 3.0 kPa or more of vacuum pressure can adsorb the workpiece. (3) Based on the workpiece shape and type, select: Pad type: Flat Pad material: Silicone (4) According to the results above, select a vacuum pad part number ZP3-04US
V Ps + 0.1 293 S = 12.1 log10 () (6) t P + 0.1 T S : Effective area [mm2] V : Air tank capacity [L] t : Discharging time [s] Ps : Pressure inside air tank before discharging [MPa] P : Residual pressure inside air tank after discharging [MPa] T : Temperature inside air tank before discharging [K] Power supply Pressure switch Thermometer Pressure control equipment Control circuit Solenoid
We 0 We A L Since there are 2 guides, the guides' central axis and the cylinder's central axis are the same.