Series ASP is a speed controller with an integrated pilot check valve. This combination makes it possible to control cylinder speeds and permits temporary intermediate stops. The ASP is standard with electroless nickel plating on all brass parts and allows 360 degree freedom for tube mounting direction.Pilot check operates with 50% of operating pressure, One-touch connection for supply air
Series ASP is a speed controller with an integrated pilot check valve. This combination makes it possible to control cylinder speeds and permits temporary intermediate stops. The ASP is standard with electroless nickel plating on all brass parts and allows 360 degree freedom for tube mounting direction.Pilot check operates with 50% of operating pressure, One-touch connection for supply air
Series ASD, combines a meter-in and meter-out dual speed controller in a single body. The series is available with PT or NPT ports and one-touch fittings are standard. Tamper proof and flat head screwdriver adjustable versions are also available for extra protection against inadvertent operation.Dual speed controller with one-touch fitting, Enables bi-directional flow control, Unrestricted
Suitable for applications where copper free specifications are required, the in.?FGin. series can also be used in areas where wash down could degrade standard flow controls, such as food and packaging. This series is designed to offer the maximum control by increasing the number of turns of the needle to 10. The body and adjustment are made of high impact white resin for a clean look. This
Lightweight, compact, and precision control make these speed controls the right choice for many heavy-duty applications. These speed controls are offered with in-line and elbow construction to give the widest choice to your unique application. Locking nuts are included as standard as well as simplified mounting. Thread sizes range from M3 to 2 and are available in both inch (NPT) and metric
HEC_W-E J o 0001 Serial No. Manufacturing month o: January U: July P: February V: August Q: March W: September R: April X: October Manufacturing year S: May y: November J: 2005 T: June Z: December K: 2006 L: 2007 . . . 4-1 Unit Overview 4.3 Model No. label Model No. label is attached to the unit and indicated as shown below.
H B A G A Unit: (mm) Model A B C D E Fn Fd G H J XLC-16-2 40 108 38 20 30 17 44 19 XLC-25-2 50 121 48 27 12 40 26 44 21 XLC-40-2 65 171 66 39 11 55 41 67 29 12 XL-OMV0007 5-3.Dimensions Size 50, 63, 80 E C C E E (KF flange) (K flange) Fd Fn D K J H B A G A Unit: (mm) Model A B C D E Fn Fd G H J K XLC-50-2 70 185 79 46 11 75 52 72 29 9 XLC-63-2 88 212 100 55 11 87 95 70 76 33 9 XLC-80-2 90
H B A G A mm A B C D E Fn G H J XLC-16 40 110 38 1 30 17 40 26 XLC-25 50 120 48 1 12 40 26 39 27.5 XLC-40 65 171 66 2 11 55 41 63 36 9 XL-OMV0002 4-2.162580,100,160 C E D C E E (KF ) (K ) Fn Fd J K H B A G A mm A B C D E Fn Fd G H J K XLC-50 70 183 80 31 10.5 75 52 77 29 10.5 XLC-63 88 209 100 39 11 87 95 70 76.5 36 9 XLC-80 90 250 117 45.5 11 114 110 83 105 44 9 XLC-100 108 317.5 154 55
Dimensions C D L1 L2 Fd Fc C Fn (Fc) (KF Flange) (K Flange) (CF Flange) K B J H A G A Unit: mm Model A B C D Fn Fd Fc G H J KK P.C.D.
Dimensions XMH series / Angled Valve C D L1 L2 A Fn Fc C (Fc) (CF Flange) (KF Flange) H J H B G A Unit:mm Table 5 Model A B C D Fn Fc G H J P.C.D L1 L2 XMH-16 40 100.5 38 1 30 34 17 35 18 P.C.D 27 6x4.4 XMH-25 50 114 48 1 40 26 41 21.5 XMH-40 65 162.5 66 2 55 70 41 57 30 P.C.D 58.7 6x6.6 XMH-50 70 179.5 79 2 75 52 70 35 XYH series / Straight Valve D G C C B H Fn J (KF Flange) 45 Unit: mm
mm) J) (J) 12 0.043 8.5 0.23 0.31 16 0.075 9.5 20 0.11 1.9 50 0.91 11.5 3.2 40 0.52 10.5 1 25 0.18 8.4 0.53 32 0.29 10.5 100 4.54 16.5 80 2.71 16.5 63 1.54 11.5 5.2 10.9 16.4 2 2 m M E k + = = 1 4 .. a Ek J M kg m kg ms ms 1 0.5m/s801000.4m/s 2 3 9. 1 2 3 3 4 5 1 5 10. 1 2 3 4 5 6 7 8 9 10 11. 1 (d=) 6 11-1. 1 1 2 3005mm 4 5 6 7 2d(MGPS1.5d MGP MGPS
E = 1/2 x I x 2 EKinetic energy (J) IMoment of inertia (kg/m2) Angular speed (rad/s) (2) There is a threshold of kinetic energy that a rotary actuator allows. Therefore, by finding the moment of inertia, it is possible to find the threshold value of the rotation time. The basic formula for finding the moment of inertia is shown below.
Please refer below for calculation of kinetic energy. 2 ) ( 2 1 O I I E E: Kinetic energy [ J ] I: Moment of inertia of load [ 2 m kg ] Io: Moment of inertia of load [ 2 m kg ] : Angular speed [ s rad ] The following table shows moment of inertia of table. Table 6.
The end angular speed is obtained by: Table 7 Allowable kinetic energy (J) t Size Allowable kinetic energy : Rotation angle [ rad ] : Rotation time [ s ] 10 0.00025 15 0.00039 Kinetic energy E is obtained by: 20 0.025 30 0.048 40 0.081 E Therefore, the rotary actuator rotation time is: E: Allowable kinetic energy [ J ] : Rotation range [ rad ] I: Moment of inertia [ kgm2 ] Note) If the
IDFA Series 6-1 Specifications 6 1 IDX-OM-W016 Air dryer6 References 6-3 Dimensions DRAFT AIR OUTLET IDFA3E B Q A E D AIR INLET VENTILATION WITH LAMP SWITCH AIR OUTLET THERMOMETER EVAPORATION G F C DRAFT AIR INLET DRAIN TUBE (O.D.10 LENGTH:0.8m) VENTILATION (820) J TERMINAL BLOCK N L K M H GROMMET POWER SUPPLY ENTRY(17) P Measuremm Model Thread size A B C D E F G H J K L M N P Q IDFA3E Rc3
Exterior dimensions Grommet: G Face seal fitting / compression fitting Terminal part Flat terminal connector 250 Series Model A B Bs C D E F L M P [inch] Grommet: G Grommet: GS Conduit: C Fast on: F DIN terminal: D Terminal: T G H G H G H G H G H J G H J XSA1-2S 22 55 24 63 30 8.5 20 3 8 27 53.5 30 40 47.5 47.5 23 53.5 64.5 45.5 52.5 99.5 47.5 68.5 -2V 50 1/4 XSA2-2S 63 31.5 73.5 63 32.5
66 2 11 55 41 63 36 10 XL*-OMI0010-E 4-2Size 50,63,80,100,160 C E D C E E (KF Flange) (K Flange) Fn Fd J K H B A G A Unit: mm Model A B C D E Fn Fd G H J K XLG-50-1 70 183 80 31 10.5 75 52 77 29 10.5 XLG-63-1 88 209 100 39 11 87 95 70 76.5 36 9 XLG-80-1 90 250 117 45.5 11 114 110 83 105 44 9 XLG-100-1 108 270.5 154 55 11 134 130 102 92 58 9 XLG-160-1 138 339 200 65 11 190 180 153 124 62
X 0.02 (Pin hole position) (Mounting hole position) X 4 x YY depth YL Section XX Bottom view 4 x OA through 4 x NN through 4 x MM depth ML L 2 x Counterbore diameter OB, depth OL WA Z XAH9 XB Section XX Section XX XA XL XC HA: T-slot for hexagon bolt Section XX details X 0.02 R T X 0.02 DB DA H VA VB U X PW b a e d c T-slot dimensions 2 x P XAH9 depth XL 2 x P (Plug) XAH9 depth XL S Q G J
.: GR-S-010 (10 g) D-X 511 MGPW Series 20 to 63/MGPWM Stroke Z 4 x YY depth YL Stroke Z L 4 x MM depth ML 4 x NN through DA DB H V U X T R PW 2 x P OL GA GB 4 x OA through FA FB 2 x OB counterbore Q J K C + Stroke B + Stroke E S G A + Stroke For intermediate strokes other than standard strokes, refer to Manufacture of Intermediate Strokes on page 499.
Air passage Brake plate Brake shoe 2 Air tube (Brake released state) (Brake operating state) Brake Capacity Allowable Kinetic Energy Holding Force (Maximum static load) 25 32 40 25 32 40 Bore size (mm) Bore size (mm) Allowable kinetic energy (J) 1.21 500 N 800 N Holding force 320 N 0.43 0.68 1.