ML2B Stroke Reading Rodless Cylinder with Brake Series ML2B 25, 32, 40 RE A B REC CX CY Transfer Transfer Transfer Transfer MQQ M RHC MK(2) RS Q G Position feedback RS H A RZQ MI W S Rodless cylinder With brake CEP1 CE1 CE2 ML2B C J G5-S CV MVGQ CC RB J D-X 20Data 10-13-1 Stroke Reading Rodless Cylinder with Brake Incorporating a brake mechanism and stroke sensor allows positioning with high repeatability
Rc 1/4 MM 16 21.5 24.5 LL 28 30.5 37.5 KK 15 16 17.5 NN 22 26 37.5 Applicable cylinder ML2B25 ML2B32 ML2B40 Applicable cylinder ML2B25 ML2B32 ML2B40 RS H A RZQ MI W S Stroke Adjusting Unit CEP1 With shock absorber: CE1 ML2B Bore size S Stroke L CE2 TT h ML2B EB FF EA Stroke adjusting unit C J G5-S CV ED MVGQ CC TA FA (Absorber stroke) RB FB FC J Shock absorber Cushion needle EC DFH -X EY
075 (3/4") NCQ8B075-S-PS 106 (1-1/16") NCQ8B106-S-PS Piston seal is included. 150 (1-1/2") NCQ8B150-S-PS 200 (2") NCQ8B200-S-PS 250 (2-1/2") NCQ8B250-S-PS With auto switch Here is the typical, cross-sectional construction.
L 25 N NCG 00 S N 25 M9NW L 04 NCDG With auto switch Number of auto switches Built-in magnet Nil S n 2 pcs. 1 pc. n pcs.
per square mtr Newton Earth acceleration m I m2 mt m s'' s ' m s-2 m2 kg N a,F,1-6,e.p A,S v v a) J F G = kg ' rn's'2 9.80665 m's-2 N Impulse Ns Newton Second w E , W E , W M P Work Potential energy Kinetic energy Torque Power Joule = Newton meter Joule Joule Joule Watt J J t ' J w = kg . m2's-2 0.5-m-i = J's-l 3.
per square mtr Newton Earth acceleration m I m2 mt m s'' s ' m s-2 m2 kg N a,F,1-6,e.p A,S v v a) J F G = kg ' rn's'2 9.80665 m's-2 N Impulse Ns Newton Second w E , W E , W M P Work Potential energy Kinetic energy Torque Power Joule = Newton meter Joule Joule Joule Watt J J t ' J w = kg . m2's-2 0.5-m-i = J's-l 3.
"BjEli ~ :11 t y X 8N N X Y H S + Stroke h+f LS + Stroke II + Stroke ZZ + f + Stroke In the case of stroke exceedlno 1001, mounl reinforcing ring for tie-rod. p A ""Rear cylinder port E~K F .$. ~ ($j Long Stroke length of thread ~J ~-I ~ 1 ~ ~ (0500100) ~r hi ..., '\ !:J?
Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com A A a B B s j C f g t C0.5 C0.2 b C0.2 d e 45 45 Section A-A p k C0.5 45 (d) C n h i l C0.5 q m O Section B-B r (I) View C (mm) a b c d e f g h i o j k m n p q r s l t Model 0 0.2 0.05 0.15 +0.2 0 +0.1 0 +0.2 0 CXS6
Operating conditions E: Kinetic energy of load (J) W V 2 E= _ x ( _) 2 1000 W: Load weight (kg) P: Operating pressure (MPa) Position of work piece center of gravity (m) Mode of operation (horizontal, inclined, vertical) V: Speed (mm/s) Stroke (mm) Es: Allowable kinetic energy for intermediate stop using an air pressure circuit (J) Ps: Operating pressure limit for intermediate stop using
Vacuum Pad: Ball Joint Type ZPT/ZPR Series Pad Diameter: 10, 13, 16, 20, 25, 32, 40, 50 on n io on n a io a pt pt s s or la or la ds nt ds nt ed ed a a or or w w l f l f or or ea ea k k id su id su pe rfa pe rfa ty ty ce ce nt nt s s oi oi ac ac l j l j ac ac al al e e B B s s ZP3 ZP3E ZP2 ZP2V ZP ZPT ZPR ZPT ZPR XT661 ZPT Series: Vertical Vacuum Entry Type ZPR Series: Lateral Vacuum Entry
20.5 166 8 97.5 55 20 25 6.8 28 142.5 3.2 40 47 24.5 175 8 102.5 55 20 CEP1 CE1 Rod side flange style: MQMLF 6 CE2 20 ML2B 2.3 C J G5-S 33 42 27.5 2-5.5 66 + Stroke 93.5 + Stroke CV MVGQ 10, 16, 20, 25 CC RB FY J FT FX FZ H 2-FC S + Stroke ZZ + Stroke D-X 20Bore size (mm) FC FT FX FY FZ H ZZ S Data 10 5.5 2.3 33 20 42 28 101 65 16 5.5 2.3 42 24 54 30 114 74 20 7 4 60 34 75 40.5 151 97.5 25
Q G RS H A Bore size (mm) LC LH LS LT LX LY Z ZZ X S LZ Y RZQ 10 5.5 14 83 2.3 33 25 19 108 6 65 42 9 16 5.5 18 92 2.3 42 30 21 119 6 74 54 9 MI W S 20 6.8 25 137.5 3.2 40 40 20.5 166 8 97.5 55 20 25 6.8 28 142.5 3.2 40 47 24.5 175 8 102.5 55 20 CEP1 CE1 Rod side flange style: MQMLF 6 CE2 20 ML2B 2.3 C J G5-S 33 42 27.5 2-5.5 66 + Stroke 93.5 + Stroke CV MVGQ 10, 16, 20, 25 CC RB FY J FT
Z1K Z1L Z1M Z1W Z1N Z1P Z1Q Z1R Z1Y Z1S Z1T Z2K Z2L Z2M Z2N Z2P Z2Q Z2R Z2S Z2W Z2T Z3A Z3B Z3C Z3D Z3E Z3F Z3G Z3H Z3V Z3J A B C D E F H J K L M N Nil A B C D E F G H K L Z Nil XB A B D E H J L M Nil A B C D E F G H K L Z Nil XB A B C D E F G H J K L M N P Nil A B C D E F G H K L Z Nil XB A B C D E F M N P Q R S T U V W Y Z1A Z1B Z1C Z1U Z1D Z1E Z1K Z1L Z1M Z1W Z1N Z1P Z1Q Z1R Z1Y Z1S Z1T
Center Trunnion: CA2T Z + 1/2 Stroke 2 x Cushion valve G G Width across flatsKA 2 x P 4 x J B1 MM TDe8 TY D E d e C B H1 AL 10.2 L f B C A K h + L TT N F N TZ TX ZZ + L + Stroke H S + Stroke ZZ + Stroke (mm) Bore size Stroke range (mm) A AL B B1 C D E F G H1 J K KA MM N P S (mm) 40 50 63 80 Up to 500 Up to 600 Up to 600 Up to 700 Up to 700 30 35 35 40 40 27 32 32 37 37 60 70 85 22 27 27 32
13 16 29.8 59 47 127 32 35 Additional Dimensions by Stroke (mm) (mm) Q: 6 Q: 8 Model R S R S J I H Stroke ZPR20F10-0-A14 20 3 +10 0 ZPR25F10-0-A14 30 +7 12.8 24.3 15.2 26.2 +20 ZPR32F10-0-A14 50 +25 +52 +40 13-11-115 20 Series ZPR 40 50 J K ZPR F 0-0-A14 (With buffer) S S M14 x 1 Hexagon width across flats 19 M14 x 1 Hexagon width across flats 19 I 5 5 I 5 5 J J Hexagon width across flats
32 F J/K10-0-A14 (With Buffer) S S M14 x 1 M14 x 1 Width across flats 19 I 5 Width across flats 19 5 I 5 J 5 J Width across flats 12 Width across flats 12 Applicable tube O.D.
Use the collision speed when calculating dynamic moment. 32 32 32 32 52 140 130 140 130 78 130 52 81 81 81 81 110 110 Symbol Definition Average speed Load weight Allowable load weight Weight equivalent to impact Max. allowable load weight Load factor Symbol Definition Unit mm J J mm Nm Nm Nm Nm Nm mm/s Symbol Va W Wa We Wmax K Unit mm/s kg kg kg kg An (n = 1 to 6) E Emax Ln (n = 1 to 3) M
Port S (10) remains pressurized and valve S (18) remains open.