Fieldbus system EtherNet/IP TM compatible SI Unit IO-Link Master Unit (No condensation) Withstand voltage 500 VAC for 1 minute between external terminals and F.E. Insulation resistance 500 VDC, 10 M min. between external terminals and F.E.
C H G F E D B A Port size Model J K 959 317 289 363 157 152 910 260 R 3/4 IDU11C/11D 571 580 30 70 1009 337 309 383 207 175 960 280 R 1 IDU15C : Power source 220 to 240VAC 7
3 @4 e !5 !1 r u @2 @3 !3 @4 e !2 MXH16/20 (16, 20) @0 y @1 !7 w q!9 t !8 i !0 !1 r u @2 @3 !3 @4 e !2 Component Parts Description Material Note Description Material No. q w No. !2 !3 !4 !5 !
Facility water temp. 25 1500 Cooling capacity[W] 1500 25 Cooling capacity[W] 32 32 35 35 1000 1000 500 500 0 0 10 15 20 25 30 35 40 10 15 20 25 30 35 40 Circulating fluid temperature[] Circulating fluid temperature[] 50Hz 60Hz The cooling capacity will be reduced by 300W when option: T1 is selected.
[mm] [s] 0 1 Pushing Absolute 9.00 0.50 2 500 2 Positioning Absolute 5.00 0.10 500 Controller Parallel input / output signals Flow chart (Reference) (1) Turn the SVON signal ON. (The motor is energized.) (2) Select/input Step No.1: Turn the IN0 input ON, and the "IN1"input OFF.
Applicable bore Shock absorber model ML1-A25H ML1-A32H ML1-A40H ML1C25 ML1C32 ML1C40 101 90 25 20 11 72 67.3 12 31 39.5 Max. 16.5 4.5 3 RB1412 120 107 30 25 16 93 73.2 15 38 49 Max. 20 5.5 6 RB2015 147 129 30 31 16 105.5 73.2 15 40.5 54.5 Max. 25 5.5 6 Side Support Side support A 2 x G E E F 2 x H A B Side support B 2 x J A B (mm) A B C D E F G H J Part no.
L L+A Fig. 1 Fig. 2 L 2 1 V E = W ( ) 2 1000 Collision speed V = 1.4 Va Find the kinetic energy E (J) of the load. 1 420 E = 1 ( ) = 0.088 2 1000 V = 1.4 x 300 = 420 Correction factor (reference value) Find the allowable kinetic energy Ea (J).
1000 70 100 300 500 1000 70 100 300 500 1000 Stroke (mm) Stroke (mm) Stroke (mm) 2.
For notes w and e, refer to the left. 4B/6B 870 M20 X l 500 AMD1000 w When the element has reached its replacement interval, replace it immediately with a new element.
L1 L2 + A5 L3 2 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 V 1000 1 2 420 1000 1 2 E = W (-) 2 E = 1 (-) 2= 0.088 Find the kinetic energy E (J) of the load. Find the allowable kinetic energy Ea (J).
, 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 K PB GB GA [mm] FA PA + Stroke Bore size [mm] a b c d e FB A + Stroke B + Stroke C + Stroke 32 6.5 10.2 5.5 3.5 9.5 40 6.5 10.5 5.5 4 10 50 8.5 12.5 7.5 4 12.5 E The
For notes e and r, refer to the left. 4B/6B 870 M20 X l 500 AMF1000 e Even if its deodorization performance has not decreased, the replacement interval for the element is when the pressure drop reaches 0.1MPa or after 2 years of operation, whichever comes first. r When the element has reached its replacement interval, replace it immediately with a new element.
1 e @2 !2 #7 #3 #1 32 w 50, 63, 80 Double acting (DL, DM) @3 !3 !5 #6 o @5 @4 i @1 @6 !0 @7 @9 !6 t u !7 !8 q #8 $1 y Single acting, Spring extend (TL, TM) Double acting with spring (BL, BM) r $0 !1 !2 #7 #4 #7 @2 e #5 #3 @8 #7 #7 #1 @8 w 10-9-6 6 Heavy Duty Stopper Cylinder Series RSH/RS1H Construction Component Parts (For single acting) No.
Consider q Max. payload, w static moment, e dynamic moment (when stopper collides) when calculating the Max. allowable moment and payload. Evaluate q and w as a (average speed), and e as (collision speed =1.4a). Calculate q (Wmax) from the graph of Max. payload (W1, W2, W3) and calculate w and e (Mmax) from the graph of Max. allowable moment.
1 e @2 !2 #7 #3 #1 32 w 50, 63, 80 Double acting (DL, DM) @3 !3 !5 #6 o @5 @4 i @1 @6 !0 @7 @9 !6 t u !7 !8 q #8 $1 y Single acting, Spring extend (TL, TM) Double acting with spring (BL, BM) r $0 !1 !2 #7 #4 #7 @2 e #5 #3 @8 #7 #7 #1 @8 w 10-9-6 6 Heavy Duty Stopper Cylinder Series RSH/RS1H Construction Component Parts (For single acting) No.
S = 38mm VCA21 200 300 400 500 600 700 VCA21 VCA31 VCA31 VCA41 VCA41 VCA41 Other 200 400 400 600 800 1000 1200 1. Material HNBR: Nitrile hydride rubber 500 700 500 1000 1500 800 1000 1200 1000 500 Flow rate Q l/min (ANR) Viewing the graph The sonic range pressure to generate a flow rate of 500l/min (ANR) is P = 0.64MPa for a 3 orifice, and P = 0.35MPa for a 4 orifice.
A G E G A S K E T: N I P P L E: M-3N M-5N U N I V E R S A L T E E: M-3UT M-5UT P L U G: M-3P M-5P M-5G1 M-3G P R O D U C T S E L E C T O R P R O D U C T S E L E C T O R P R O D U C T S E L E C T O R P R O D U C T S E L E C T O R P R O D U C T S E L E C T O R E L B O W: M-5L G A S K E T: M-5GH T E E: M-5T H O S E N I P P L E: M-5H-4 M-5H-6 H O S E E L B O W: M-5HL-4 M-5HL-6 Similar to Picture
BMA3-050S (A set of a, b, c, e) BMA3-063S (A set of a, b, c, e) Auto switch Switch bracket (Resin) Transparent (Nylon)Note 1) d e White (PBT) c Switch holder b Auto switch mounting screw a * Band (a) is mounted so that the projected part is on the internal side (contact side with the tube).
A B C D E F A B C D E F G H Pressure port Pressure port Right Left Left Right Left Right Right Left Left Right Right Left Left Right Operating direction Operating direction There are 9 possible reciprocating piping methods. There are 16 possible reciprocating piping methods.
(A set of b, c, d, e) BMA3-050S (A set of b, c, d, e) BMA3-063S (A set of b, c, d, e) Switch bracket (Resin) Transparent (Nylon) Note 1) Auto switch a e White (PBT) b Switch holder d Auto switch mounting screw c Auto switch mounting band Band (c) is mounted so that the projected part is on the internal side (contact side with the tube).