0.01 P P P P T T T T U T U U U U E L E E E E L S L L L S S S S L L L L L 6 9 6 9 6 9 6 9 6 9 IN IN IN MPa MPa MPa MPa MPa Right Left Right Bracket DIN rail mounting bracket DIN rail mounting bracket Stations 1 Stations 1 Stations 1 2 3 IISA2NSR-1B1 set (1 station manifold part number) ISA2-GE41P1 set (Air catch sensor part number) IISA2NSR-3D1 set (3 stations manifold part number) ISA2-HE41P 3
-W Approx. 2 HRR018-W Approx. 4 HRR024-W Approx. 5 HRR030-W Approx. 6 HRR050-W Approx. 10 Electric conductivity (25C) [S/cm] 100*1 to 300*1 v v Refer to Facility water system in the specifications.
RZQ
filter ZF With L type plug connector ZP Vacuum pressure switch PE P EXH ZCU AMJ S R U N L H L H S R U N L H L H S R U N L H L H S R U N L H L H k Pa MO D E SET HYS k Pa MO D E SET HYS k Pa MO D E SET HYS k Pa MO D E SET HYS Misc. (72.4) Attached washer (63.6) (60.1) Attached washer SMC SMC SMC SMC 10.2 V V V V V 28.8 8.5 21 10 9 8.5 9 81 Vacuum port (V port) Note 4) 107 (M5 x 0.8) Dimensions
New New [mm] 300 2 s 4 s 6 s 8 s 0 300 Compact fan types 0 200 800 1600 2000 2400 Installation distance sPage 21 When neutralizing static electricity from 1000 V to 100 V at a distance of 300 mm from the workpiece (front surface). When air flow of IZF31 is maximum.
CNG 2 2 MNB 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 1 1 CNA 0.5 100 500 400 300 200 100 0.5 500 400 300 200 1000 1000 Maximum speed: V (mm/s) Maximum speed: V (mm/s) CNS Graph (6) Graph (3) 0.4 MPa P < 0.5 MPa 0.4 MPa P < 0.5 MPa CLS 200 200 CLQ 100 100
(Values at the initial period) VG JIS Symbol VP S070 VQ Model Valve model VKF VS3145 VS3135 P A C [dm3(s
V V V v v IC circuit 3-wire (PNP) M9PWV M9PW V V V v v Relay, PLC Diagnostic indication (2-color indicator) Grommet Yes 24 V 2-wire 12 V M9BWV M9BW V V V v v 3-wire (NPN) 5 V, 12 V M9NAV1 M9NA1 v v V v v IC circuit 3-wire (PNP) M9PAV1 M9PA1 v v V v v Water resistant (2-color indicator) 2-wire 12 V M9BAV1 M9BA1 v v V v v 1 Water-resistant type auto switches can be mounted on the above models
Reed switch Solid state switch Relay, PLC C73 C73C Connector Yes 12 V 24 V 2-wire A33 A34 A44 B59W PLC Terminal conduit 100 V, 200 V Relay, PLC DIN terminal Grommet Diagnostic indication (2-color indication) G59 G5P K59 H7A1 H7A2 H7B H7C 3-wire (NPN) 3-wire (PNP) 5 V, 12 V IC circuit Grommet 2-wire 12 V Connector G39 K39 IC circuit 3-wire (NPN) 2-wire 5 V, 12 V Terminal conduit Relay
Unit switching Real-time switch output ( ) For air Hysteresis mode Display Real-time flow rate l/min Accumulated flow l ON YES CFM x 10-2, CFM x 10-1 ft3 x 10-1 OFF P-1 P-2 High flow rate CFM=ft3/min "P" Window comparator mode H : Hysteresis High Flow Rate Type (For Air) H H Display Real-time flow rate l/min Accumulated flow l, m3, m3 x 103 ON NO OFF P-1 P-2 ft3, ft3 x 103, ft3 x 106 CFM
Graph 1 10 500st 600st 700st 400st 4 5 300st 3 200st 2 Load movement time: t(s) 100st [Example] 1 Example) 0.4 0.5 0.3 0.2 300 0.1 V' 100 200 1000 400 500 Maximum speed: V(mm/s) V W Step 2 Find the cylinder bore size.
Graph 1 10 500st 600st 700st 400st 4 5 300st 3 200st 2 Load movement time: t(s) 100st [Example] 1 Example) 0.4 0.5 0.3 0.2 300 0.1 V' 100 200 1000 400 500 Maximum speed: V(mm/s) V W Step 2 Find the cylinder bore size.
Flow Rate Characteristics Operating Frequency Port size Valve flow rate characteristics 70 Ambient and fluid temperatures (Upper limit) [C] 1, 5, 3 (P , EA, EB) 4, 2 (A, B) 1 R 4/2 (P R A/B) 4/2 R 5/3 (A/B R E) Model 60 C [dm3/(sbar)] b C [dm3/(sbar)] b DXT1215 1/8 1/8 1.3 0.37 1.3 0.23 50 Calculation of effective area S and sonic conductance C: S = 5.0 x C 40 30 20 10 0 0 200 Operating
Refer to page 372 for pivoting bracket. (80, 100) Clevis: CG3DN Bore size Stroke With rubber bumper H S + Stroke L RR V CZ TZ GA GB 8 x J F 2 x P AL A Width across flats NA CDH10 (Hole dia.) C d9 (Shaft dia.)
S T V W X Y ZZ LD 20 25 121 5.5 40 55 M8 x 1.25 17 15 1/8 81 9.5 4.5 6.5 20 9 151 7 25 28 121 5.5 40 55 M10 x 1.25 17 15 1/8 81 11 3.5 5.5 20 9 156 7 32 30 133 6 45 60 M14 x 1.5 18 15 1/8 87 13 3 4 23 9 172 7 40 35 158 6 55 75 M16 x 1.5 22 21 1/4 108 16 5 0 25 11 198 9 6 Series CHN Dimensions Front flange type: CHNF Width across flats B2 Rc P Rc P GA2 Cushion valve GB1 NN GB2 T V Rc P MM
Note 3) Bowl assembly for the AL30 to AL60 models comes with a bowl guard (steel band material). 511 Series AL10 to AL60 Dimensions AL10 AL20 J M U T N S D Bracket (Option) A B C R B C Q IN OUT IN OUT OUT 2 x P (Port size) OUT 2 x P (Port size) Clearance for maintenance G Clearance for maintenance A G AL30, AL40 AL50, AL60 Bracket (Option) T N S T M U M U D J D J N S Bracket (Option) R B
For subsonic range Where P1 + 0.1013 = (1 to 2) (P2 + 0.1013) Formula based on Cv factor Q = 197.8Cv P (P2 + 0.1013) kg/h Formula based on effective area Q = 11.0S P (P2 + 0.1013) kg/h [650] (133) 0.2 [646] (120) 0.1 S = 2.8mm S = 5.9mm S = 9.2mm S = 11.7mm S = 6.3mm S = 9.7mm S = 14.4mm S = 10.8mm S = 15.3mm S = 24.8mm Flow rate Q kg/h VCS212 VCS213 VCS214 VCS215 VCS 13 VCS314 VCS315
Configuration 1 master : 1 thermo-chiller 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Fig. 3-11 Connection of RS-232C 3.3 Installation HRS Series 3-16 HRX-OM-W038 Chapter 3 Transport and Setting Up 3.4 Piping Connect piping firmly. Incorrect piping might cause leakage of supplied or drained leakage and wet surrounding area and facility.
15 8 30 8 6 8 10 5 5 20 4 5 12 10 16 10 12 16 10 2 0 0 0 0 100 200 300 400 500 600 V (mm/s) 0 100 200 300 400 500 600 V(mm/s) 0 100 200 300 400 500 600 V(mm/s) -9- (1)(DC24V) LEFS40 (mm) 1) 200, 300, (400), 500, (600) (700), 800, (900), (1000) 50 60 (kg) ) 23 (mm/s) 2) 20500 10250 (mm/s 2) 3,000 (mm) 0.02 (mm) 20 10 (m/s 2) 3) 50/20 () 540 (%) 90 RH ) 56.4 (DC24V) A/B 800 / (
(1mm/s for 16 or smaller) Operates smoothly with minimal stick-slip CJ2XB10-60 CQSXB20-20D Average speed 0.85mm/s Average speed 0.88mm/s 2.0 Average speed 0.43mm/s Average speed 0.43mm/s 2.0 Speed waveform Speed mm/s Displacement mm Speed waveform Speed mm/s Displacement mm 0 0 Operating direction in Operating direction out Operating direction in Operating direction out 2.0 -2.0 60 40 Displacement