Speed Controller Adjustable by Flat Head Screwdriver with One-touch Fitting Series AS


1F-D Elbow Type/Universal Type 1

28.2 49.1 15.2 8 39.7 43.7 32.6 56.2 R 3/8 23 9.8 53.7 1.2 47.4 19 AS331F-03-10SD AS331F-N03-07SD 21 32.6 53.5 18.5 1/4" 13.2 38.7 25.6 46.1 17 10 43.7 20.6 12.9 16.2 23 AS331F-03-12SD AS331F-N03-09SD 53.7 5/16" 15.2 NPT 3/8 19 23 1.2 47.4 22 34.4 55.3 9.8 20.9 18.5 12 44.9 39.7 28.2 49.1 AS431F-04-10SD AS33F-N03-11SD 16.2 21 32.6 58 18.5 17.9 23 10 49.4 3/8" 43.7 32.6 53.5 25.8 21 16.2

IDX-OM-W032

273 m 3/h 390 m 3/h 660 m 3/h m 3/min (ANR) 1 7 oC 231 m 3/h 347 m 3/h 432 m 3/h 720 m 3/h 10 oC 254 m 3/h 382 m 3/h 510 m 3/h 822 m 3/h 0.7MPa 35 oC 25 oC 230V 50Hz 550 oC 0.15MPa 1.0MPa 24085% AC230V10 50Hz (4) (2) 4.3A 6.1A 7.9A (2) 760W 1390W 1700W (3) 10A 20A R407C(HFC) 42010g 73010g 55010g 67010g R1 R1-1/2 R2 10mm 1 2 54kg 62kg 100kg 116kg 1ANR 2065% 2 3 30mA

Heavy Duty Stopper Cylinder

RS2H50, 63, 80 1.0 0.9 RS2H63 RS2H50 0.8 RS2H80 Operating pressure P [MPa] 0.7 0.6 0.5 0.4 0.3 0.2 0.1 1000 2000 3000 4000 0 5000 Lateral load F [N] Even after the impact of the carried object is absorbed, lateral load acts on the stopper cylinder due to the friction generated between the conveyor and the carried object.

PFxx-OMS0001CN

1]OUT1(29)[F 2]OUT2(47) -23No.PF-OMS0001CN-A <> 1 [P_1][n_1] [] 500 L/min OUT1OUT2[P_2][n_2] [F 1]OUT1(29)[F 2]OUT2(37) 30 (25) -24No.PF-OMS0001CN-A [] 2 [F 0] 2 F99 F1 F0 2 -25No.PF-OMS0001CN-A () () [F 0] [ rEF] [ ANR] 27 [ Uni] 1 [ L] L/min [ oU1] OUT1 [ HYS] [ 1ot] OUT1 [ 1_P] [ 250] 250 L/min(PFMC7501) [ P_1] OUT1 [ 500] 500 L/min(PFMC7102) 29 [F 1] [ 1000] 1000 L/min

PF-OMM0004_C

(60)[F 2]OUT2(36) -24No.PF-OMM0004-D 3 1 [P_1][n_1] 1 1 OUT1OUT2[P_2][n_2] [ tn][ tp] [F 1]OUT1(60)[F 2]OUT2(36) 30 (26) -25No.PF-OMM0004-D 2 [F 1] [F] 2 [F 1] OUT1 60 ON OFF 50% 5% ON OFF [F 2] OUT2 36 ON OFF 50% 5% OUT1 ON OFF 50 5 -26No.PF-OMM0004-D / [F3] 42 1 [F10] 43 [F20] 47 [F22] 48 OFF [F30] 50 OFF[] [F80] 51 [] [F81] 52 OFF [F82] 53 [*]

2–4

-RA Both ends tapped (CQMA) (mm) Without auto switch With auto switch Stroke range (mm) Bore size (mm) P P EA EB EC B F Q A B F Q A TN TF NN NN TN TF 5 5.5 11.5 M5 x 0.8 M5 x 0.8 40 23 32 10 to 50 50 33 7.5 10.5 45 43 34.4 Rc1/8 NPT1/8 NPT1/8 G1/8 7.5 10.5 G1/8 Rc1/8 NPT1/8 NPT1/8 75, 100 50 33 5 to 50 46.5 29.5 40 Rc1/8 NPT1/8 NPT1/8 G1/8 8 11 G1/8 56.5 39.5 8 11 52 50 41.4 Rc1/8 NPT1

CC

A Manual push button RZQ MI W S CEP1 CE1 CE2 Oil port size Rc Oil draining hole Rc 1/4 Throttle valve locking screw ML2B C J G5-S CV MVGQ (mm) Model Air port size Rc Oil port size Rc A B C DA DB DL EA EB EL F H GA GB GL KA KB KL M CC CC63-S1-G CC100-S1-G CC100-L1-G CC160-L1-G 186 64 86 88 53 121.8 98 151.5 35 18 35 104 45 86 45 83 60 3/8 1/2 104 RB 223 92 116 123 61 121.8 98 156.5 35 18 35

60

H-NBR Stainless steel POM The VHS series cannot be disassembled. Parts cannot be shipped separately. 5 Conforming to OSHA Standard Series VHS2510/3510/4510/5510 Pressure Relief 3 Port Valve with Locking Holes (Double Action) Dimensions VHS4510/5510 VHS3510 VHS2510 10 I EXH. H S U P EXH. H S EXH. U H S P U P G H F SUP. SUP.

Digital Flow Switches Series PF2A

Pin description Load is an analog input equipment such as a voltmeter, ammeter. 1 DC(+) PF2A7H-(-M) 68 69 2 Analog output 3 DC() Accumulated pulse output wiring examples 4 OUT1 4-I thread with depth J 40 Max. 30 V 80 mA or less OUT1 Load Black H 0 V or Blue 50 msec 50 msec PF2A7H-(-M) 28 29 A B C D E F G H I J Model Brown PF2A703H PF2A706H PF2A712H 55 160 40 92 67 55 Rc1, NPT1, G1 36 M5 x

Fieldbus system EtherNet/IP TM compatible SI Unit IO-Link Master Unit

F FE Abbreviation of functional earth. Fieldbus The protocol that uses digital communication to exchange signals between field equipment (instruments and actuators) running on site and a PLC. Full duplex Communication system that can send and receive data at the same time bi-directionally. H Half duplex Communication system that sends and receives data in one direction at a time.

Compressed Air Preparation Filter

A B C D E EE F G H J K Applicable model Y200T-D 3.2 67 29 51 24 33 11.5 5.5 15.5 3.5 30 AFF/AM/AMD/AMK20 Y300T-D 4.2 85 42.5 67.5 35 14 7 20 6 41 AFF/AM/AMD/AMK30 Y400T-D 5.2 115 50 85.5 40 55 18 9 26 7 50 AFF/AM/AMD/AMK40 Part no.

NCA1

CB CD DD E F FL LR M MR R NCA1-P150 3/4 1/2 13/32 2 1/2 3/8 1 1/8 3/4 1/2 9/16 1.63 NCA1-P325 1 1/4 3/4 17/32 3 1/2 5/8 1 7/8 1 1/4 3/4 7/8 2.56 CD dia. DD dia. Clevis Bracket AA 2.3 3.6 1 5/8 2 9/16 0.785 1.265 1/2 3/4 1/2 5/8 3/8 -24 1/2 -20 2 1/2 3 1/2 3/8 5/8 1 1/8 1 7/8 1/2 1 1/16 1/2 3/4 9/16 1 1/16 Part no. BA CB CD CW DD E F FL LR M MR NCA1-CB150 NCA1-CB325 DD dia.

NCA1

CB CD DD E F FL LR M MR R NCA1-P150 3/4 1/2 13/32 2 1/2 3/8 1 1/8 3/4 1/2 9/16 1.63 NCA1-P325 1 1/4 3/4 17/32 3 1/2 5/8 1 7/8 1 1/4 3/4 7/8 2.56 CD dia. DD dia. Clevis Bracket AA 2.3 3.6 1 5/8 2 9/16 0.785 1.265 1/2 3/4 1/2 5/8 3/8 -24 1/2 -20 2 1/2 3 1/2 3/8 5/8 1 1/8 1 7/8 1/2 1 1/16 1/2 3/4 9/16 1 1/16 Part no. BA CB CD CW DD E F FL LR M MR NCA1-CB150 NCA1-CB325 DD dia. CD dia.

2 Finger, 3 Finger Rotary Actuated Air Gripper Series MHR2/MHR3 1

MDHR3-15 MDHR3-10 H L H When auto switch D-M9V is used When auto switch D-M9 is used When auto switch D-M9V is used Max. Protrusion of Auto Switch from Edge of Body: L, H Max. Protrusion of Auto Switch from Edge of Body: H (mm) (mm) D-M9V D-M9V D-M9N Auto switch model Auto switch model L H 1.3 The auto switch will not protrude in the case of D-F9. H 2.3 12-5-26

PSxx-OMV0003CN

OFF ON SET2OUT1 ()[P_2][n_2]OUT2 SET2 1SET 2SETSET2 3(29)OFF ([SEt]) -23No.PS-OMV0003CN-G 23 P1L()P1H()WH1() dtH/dtL() (n1L n1H) 31 OUT2 -24No.PS-OMV0003CN-G SET3~5[F 0] [F] SET2 SET 3 ~5 FO F1 F99 ()[-] [F 0] 27 [M]MPa PNP ALL [F 1] OUT1 29 OFF ONOFF ISE700.500 MPa ISE710.800 MPa ISE700.050 MPa ISE710.080 MPa 0.00 sec.

JXCx-OMT0034CN

0.01mm 700.00mm 7016 00011170h 00 01 11 70 h 64h 00h RWwn+1 15bit 8bit 7bit 0bit 01h 00h RWwn+2 15bi 8bit 7bit 0bit 70h 11h RWwn+3 15bi 8bit 7bit 0bit 39 - 12.2 IF ( ) IF ID ID=1 bit 7 6 5 4 3 2 1 0 I_Address RWrn+8 bit F E D C B A 9 8 I_Address RWrn+8 (1) (LEC)1(ON)0(OFF) (2) (LEC)0(OFF)(LEC)1(ON) (3) 1 (LEC)1(ON)0(OFF) (4) (LEC)1(ON)0(OFF) 40 - 12.3 (IO ) No Rx00 (L) Rx01 (H) Rx02

ASR

H ASP (Width across flats) (Width across flats) ASN D3 D3 AQ A1 A1 ASV L5 L5 A2 A2 AK ASS T T ASR ASF Model T H D1 D2 D3 L1 L2 L6 A2 M L5 A1 Weight (g) Note 5) MAX.

IDX-OM-W014

27 28 () kW 2.2 3.7 5.5 1ANR2065% 2 330mA 4() IDU Series 6-1 6 1 IDX-OM-W014 6 6-2 GWP (GWP) Regulation (EU) No 517/2014 IPCC AR4) R134a 1,430 1,430 R404A 3,922 3,920 R407C 1,774 1,770 R410A 2,088 2,090 (1) (2) IDU Series 6-2 GWP 6 2 IDX-OM-W014 6 6-3 Q E D A B P G [AC200V] C F J M K L N H 4x13 [AC100V] [AC200V] 10 (:1.9m) (17) :0.8m mm A B C D E F G H J K L M N P Q

Air Cylinder: Standard/Non-rotating Rod Double Acting/Single Acting, Single Rod/Double Rod Series NCM ø3/4", ø7/8", ø1 1/16", ø1 1/4", ø1 1/2", ø2" 1

-www.stevenengineering.com Material: Rolled steel F pin dia.

Escapements Series MIW/MIS

Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 1. Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 2.