MK 19.5 21.5 W 5.5 6 A 11.5 12 B 4.5 4 A 7.5 8 B 0 0 Hs 17 19 W 1.5(4) 2(4.5) A 7.5 8 B 0 0 12 16 Bore size (mm) D-F9BAL Model Symbol Bore size (mm) A 10.5 11 B 3.5 3 W 14.5 15 Hs 17 19 12 16 4.1-13 Rotary Clamp Cylinder/Heavy Duty Series MK2 20, 25, 32, 40, 50, 63 How to Order MK2 B S A73 20 10 R F Number of auto switches Rotary clamp cylinder S 2 1 Mounting Style Auto switch Symbol Through
Tie-rod base SS5V W 1 A1W D 05 U 10S Cassette base U SS5V W D 05 16S 1 A1W Enclosure IP67 Series DIN rail length specified 1 2 SV1000 SV2000 Standard length Nil 3 SI unit specification Specify a rail longer than the standard length.
Foor I ype [L) r.rcrzwriFGE4j5-6El NCJ2WL6 Rod Cover frftr. rrl +[g r y t l Jlllt I +41 NcJ2wLlo, 16 I LY f ^o.fP, w/ Rod Cover d f fll I 1 t r B I ' In case of auto switch with e6 bore, add smm io S and Z. 20 ?srrc SERIES NCJ2 Standard Type: Double Acting/Double Rod I Flange Type (F) r.rcrzwrfEiE@FIFF@l NCJ2WFl0. 16 'ln cass of auto switch with a6 bore, add Smm to S and Z.
Rod end contiguration Auto switch mounting bracket o-Am H AEOH A-7trC A80C D F79 D J79 D J79C ' The leler model is applied only 10 bore siz$ i M 3 r 0 . 5 x S l The slandad ead w 6 anglh s 0.5m.'L' 5 added lor 3m Ltrdfl,#:"[ffi."
Female lhread length {"1') is shonerfor the lollowing . 2o0 (2') 1/g & 1A st. 1/s & 1/a st. r/s & 1/a st. l=o.44 25O (2112')' I/s st. r/s st. '/s stl=0.44 300 (3") ]/s & 1/a st. 1/e &r/l st. 1/e & 1A st. 400 (4) 1/s &1/a st. r/s & 1/a st. 1/e &14 st. Series NCQT Dimensions Spring Extend NCQTBO-OT T Type Bore,, 9t4,F' I 60re ,b,:!
With control unit Centralized wiring/Supply port left Individual wiring/Supply port right Centralized wiring air catch sensor ISA2-HE41P Terminal box Individual wiring air catch sensor 2 port solenoid valve 2 port solenoid valve ISA2-GE41 3 0 3 0 3 0 Regulator 3 0 3 0 3 0 Supply port P P P T T T U U U E E E L L L Supply port S S S L L L P P P T T T U U U E E E L L L S S S L L L 6 9 6 9 6
(10003200) Setting of OUT2 delay time at ON 0.01 s increment 1027 0x0403 0 R/W dtH2 (Delay time at ON) U16 0 Y Settable values 0x0 ~ 0x1770 (0 ~ 6000) 1028 0x0404 0 R/W dtL2 (Delay time at OFF) U16 0 Y Setting of OUT2 delay time at OFF 0.01 s increment Settable values 0x0 ~ 0x0BB8 (0 ~ 3000) 1030 0x0406 0 R/W FiL (Digital filter) U16 0 Y Setting of digital filter 0.01 s increment FSC (Display
0 R/W (1000 ~ 3310) ISE71: 0x03E8 ~ 0x0C9E (1000 ~ 3231) Setting of OUT2 delay time at ON 0.01 s increment 1027 0x0403 0 R/W dtH2 (Delay time at ON) U16 0 Y Settable values 0x0 ~ 0x1770 (0 ~ 6000) 1028 0x0404 0 R/W dtL2 (Delay time at OFF) U16 0 Y Setting of OUT2 delay time at OFF 0.01 s increment Settable values 0x0 ~ 0x0BB8 (0 ~ 3000) 1030 0x0406 0 R/W FiL (Digital filter) U16 0 Y Setting
(10003200) Setting of OUT1 delay time at ON 0.01 s increment 1017 0x03F9 0 R/W dtH1 (Delay time at ON) U16 0 Y Settable values 0x0 ~ 0x1770 (0 ~ 6000) 1018 0x03FA 0 R/W dtL1 (Delay time at OFF) U16 0 Y Setting of OUT1 delay time at OFF 0.01 s increment 0: HYS (Hysteresis) 1: Wind oUt2 (Selecting output mode) Setting of OUT2 output mode U8 0 Y 1020 0x03FC 0 R/W (Window comparator) 2: Err
AV*-OMZ0091-A PRODUCT NAME Soft Start-up Valve MODEL / Series / Product Number AV2000-(F,N)02(B,G,S)-1~6(G,D,Y,DO,YO)(Z)(B,C)(-R,Z)-A AV3000-(F,N)03(B,G,S)-1~6(G,D,Y,DO,YO)(Z)(B,C)(-R,Z)-A AV4000-(F,N)04(B,G,S)-1~6(G,D,Y,DO,YO)(Z)(B,C)(-R,Z)-A AV5000-(F,N)06~10(B,G,S)-1~6(G,D,Y,DO,YO)(Z)(B,C)(-R,Z)-A AVA2000-(F,N)02(B,G,S)(-R,Z)-A AVA3000-(F,N)03(B,G,S)(-R,Z)-A AVA4000-(F,N)04(B,G,S)(-R,Z
CNA Vertical (Downward) Vertical (Upward) Horizontal collision CNS CLS Type of impact CLQ MLGP RLQ W 2 g Kinetic energy E1 V2 MLU Thrust energy E2 Fs Ws Fs Fs + Ws ML1C Absorbed energy E E1 + E2 DSymbol V: Impact speed (m/s) g: Gravitational acceleration (m/s2) W: Impact object weight (kg) F: Cylinder thrust (N) s: Stroke length of shock absorber (m) -X Air Cushion Stroke Note) The speed
CNA Vertical (Downward) Vertical (Upward) Horizontal collision CNS CLS Type of impact CLQ MLGP RLQ W 2 g Kinetic energy E1 V2 MLU Thrust energy E2 Fs Ws Fs Fs + Ws ML1C Absorbed energy E E1 + E2 DSymbol V: Impact speed (m/s) g: Gravitational acceleration (m/s2) W: Impact object weight (kg) F: Cylinder thrust (N) s: Stroke length of shock absorber (m) -X Air Cushion Stroke Note) The speed
CNA Vertical (Downward) Vertical (Upward) Horizontal collision CNS CLS Type of impact CLQ MLGP RLQ W 2 g Kinetic energy E1 V2 MLU Thrust energy E2 Fs Ws Fs Fs + Ws ML1C Absorbed energy E E1 + E2 DSymbol V: Impact speed (m/s) g: Gravitational acceleration (m/s2) W: Impact object weight (kg) F: Cylinder thrust (N) s: Stroke length of shock absorber (m) -X Air Cushion Stroke Note) The speed
or less 3% F .S. or less Repeatability Note 1) 2% F .S. or less 1% F .S. or less Temperature characteristics 2% F.S. or less (15 to 35C based on 25C), 3% F .S. or less (0 to 50C based on 25C) Pulse output, N channel, open drain, output for display unit PF2W3.
NS Edition C OAdded the KK130 series S coupler and one-touch fitting type. ONumber of pages from 16 to 12.
Tilt the screwdriver down in direction q so that the clip slides out in direction w. Seal part no.
W CX NA T U NB K F ZZ + Q + l + Stroke S + Stroke MA L RR B SS + Stroke A ZZ + Stroke (mm) With rod boot Bore size (mm) Stroke range (mm) l J B C F GA GB NA NB P R S T CX CD RR SS L U W e f Q 32 M10 x 1.25 58 38 16 32 15 37 31 3/8 39 141 11 25 16 16 209 38 22 12.5 52 21.5 15 25 to 1400 1/3.5 stroke 40 M10 x 1.25 65 45 12 32 15 36 30 3/8 42 141 11 25 16 16 209 38 22 12.5 52 12 15 25 to 1400
Rush speed into cushion is as follows: M + m 2 = 1.4a Ek = 2 Ek: Kinetic energy (J) M: Weight for the driven object (kg) m: Weight for movable part of cylinder (kg) : Maximum speed (m/s) a: Average speed (m/s) = 1.4 x 300 = 420 mm/s. Note) Set a so that rush speed into cushion should not exceed 0.75 m/s.
Power dissipation (W): For AC , W = V/A cos. For DC, W = V/A (Note) cos shows power factor. LVD LVQ 2. Surge voltage The surge voltage is a high voltage generated momentarily when cutting the power supply. LQ 3. Hum sound The hum sound is a noise generated through repeated adsorption and releasing on an armature adsorption surface.