Compact Guide Cylinder Max. speed Up to 300 mm/s Up to 400 mm/s Up to 500 mm/s Coefficient 1.7 1 0.6 10 MGPK Series L L m m Plate Material Carbon Steel /MGPKM Vertical Mounting Operating pressure: 0.5 MPa or more Operating pressure: 0.4 MPa MGPKFM12 to 50 50 mm stroke or less, V = 200 mm/s or less Over 50 mm stroke, V = 200 mm/s or less 100 100 50 50 40 40 32 32 10 10 25 25 Load mass m [kg] Load mass m [kg] 20
PTFE (TF) option available for the AP 500, AP, AZ & AK 1000 & 1100 and AZ & AK 1300. The primary application for this material is for pressure regulators inside process tools. [Vespel] Trademark of DuPont Plastic with excellent heat resistance (polyimide resin). This material has excellent heat and wear resistance.
(Mounting position: Horizontal) W 1000 500 400 Allowable lateral load W (N) 300 Allowable kinetic energy 200 Piston speed 200 180 200 100 180 Piston speed Allowable kinetic energy 20 to 400mm/s 12.4J 50 40 30 (m1 + m2) V Kinetic energy E (J) = 2 m1: Weight of moving cylinder parts kg m2: Load weight kg V: Piston speed m/s 20 10 0 20 40 60 80 100 120 140 160 180 200 220 260 240 280 300 Kinetic
No load 50 1000 500 The length of overrun Piston speed just before stop (mm/s) The graph above shows the relation between piston speed and overrun. (The length of overrun is changed, dependent on piston speed, load, piping conditions and control method.
moment 70 MXW25 70 100 50 30 40 N m 50 MXW20 Pitch moment Yaw moment Roll moment 25 30 40 MXW20 Model 20 Moment N m Moment N m Mp/Mep My/Mey Mr 15 MXW16 20 MXW16 12 5 5 3 MXW 8 10 15 7 10 MXW12 MXW12 10 10 6 MXW12 4 5 7 5 4 3 20 20 12 MXW16 MXW8 MXW8 3 2.5 40 40 25 MXW20 2 110 110 65 2 1.5 MXW25 50 100 200 300 500 700 50 100 200 300 500 Piston speed mm/s Piston speed mm/s (Graph3) (Graph2
Selecting Conditions/Table 1 Vertical Upward facing Downward facing Horizontal l = Eccentric distance l = Distance between the plate and load center of gravity m Mounting orientation m m l = Eccentric distance Maximum load speed V Graph (Slide bearing type) Graph (Ball bushing type) 50 to 200mm/s 201 to 400mm/s 50 to 200mm/s 201 to 400mm/s 50 to 200mm/s 201 to 400mm/s 1 , 2 3 , 4 1 3, 1 4
Selecting Conditions/Table 1 Vertical Upward facing Downward facing Horizontal l = Eccentric distance l = Distance between the plate and load center of gravity m Mounting orientation m m l = Eccentric distance Maximum load speed V Graph (Slide bearing type) Graph (Ball bushing type) 50 to 200mm/s 201 to 400mm/s 50 to 200mm/s 201 to 400mm/s 50 to 200mm/s 201 to 400mm/s 1 , 2 3 , 4 1 3, 1 4
L Required facility water system
Speed V (mm/s) V 500 mm/s MY CY Required conditions Guideline for Selection of Bearing Type Bearing type MG Selection of bearing type 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 Impact load and vibration load are added. Change in load is large.
Pressure 0.5 MPa Load rate: 50% Stroke 60 mm Series MB/CA2 Pressure 0.5 MPa Load rate: 50% Stroke 500 mm 6 10 16 20 25 32 40 40 50 63 80 100 Series MB/CM2 Pressure 0.5 MPa Load rate: 50% Stroke 300 mm Average speed (mm/s) Series 800 700 600 500 400 300 200 100 0 Perpendicular, upward actuation Horizontal actuation SYJ7140-02 Cylinder is in extending.
The kinetic energy of the load can be obtained with the following formula: Cushion rush speed u (mm/s) 200 300 400 500 Also, the graph above can be used for making a selection. Example: Obtain the maximum load weight when a lifter is used at an average speed of ua 300mm/s on a slide bearing type cylinder with a 32 bore and a 100mm stroke.
Built-in magnet for auto-switches CE1 CE2 Maximum Driving Speed of Cylinders ML2B 1000 1000 900 900 C J G5-S Load factor: 10% Load factor: 50% 800 800 Cylinder speed (mm/s) Cylinder speed (mm/s) 700 700 600 600 CV 500 500 400 400 MVGQ 300 300 200 200 CC 100 100 0 0 12 16 20 25 32 40 50 63 80 100 RB SYJ3000 VZ3000 VZ5000 VF3000 Bore size (mm) J Series Variations DDetailed specifications
steel rod Rod side nose mounting Head side pivot mounting Double end mounting Block mounting O O O O O O O S S O O O O O O NCA S S S S S O O O S O O N N S S S S S S N N N O O O O S 1 1 1 1 1 2 1 1 1 3, 4 1 DN S S S S S S O O O O N S S O S S S O O O O N -X N N O N N N O O O O O N N N O O O O O 20N N O O O O O O N N O O O O S Data N O O O O S O O O O O O O O O 1, 5, 6 O Combination
"S" option is not available.
65536 H 30 1875 LEFS40 A 20 1250 B 10 625 LEFB25 S 54 3375 LEFB32 S LEFB40 S LEJB40 T 27 131072 3375 LEJB63 T 42 2625 H 24 1500 LEJS40 A 16 1000 LEJ B 8 500 65536 H 30 1875 A 20 1250 LEJS63 B 10 625 *The travel distance of the actuator per 1 pulse should be 1 [m/pulse]. 26 - 4.5 Positioning Completed Width This signal indicates that servomotor movement has been completed during position control
65536 H 30 1875 LEFS40 A 20 1250 B 10 625 LEFB25 S 54 3375 LEFB32 S LEFB40 S LEJB40 T 27 131072 3375 LEJB63 T 42 2625 H 24 1500 LEJS40 A 16 1000 LEJ B 8 500 65536 H 30 1875 A 20 1250 LEJS63 B 10 625 *The travel distance of the actuator per 1 pulse should be 1 [m/pulse]. 25 - 4.5 Positioning Completed Width This signal indicates that servomotor movement has been completed during position control
Linearity (77F) 0.15% F .S. Repeatability (77F) 0.6% F .S. 0.5% F .S.
FN112-10-S FN4102-20-S i u y o i y o t OUT IN OUT IN OUT u IN DRAIN DRAIN DRAIN Number is the same as the Replacement Seal List of the Best Pneumatics No.7 Series FN1/FN4.