CQ2 l X 140 l M6 X 45 l X 50 l X 55 l X 60 l X 65 l X 70 l X 75 l X 80 l X 85 l X 120 l X 145 l M8 X 50 l X 55 l X 60 l X 65 l X 70 l X 75 l X 80 l X 85 l X 90 l X 125 l X 150 l M10 X 55 l X 60 l X 65 l X 70 l X 75 l X 80 l X 85 l X 90 l X 95 l X 130 l X 155 l M10 X 65 l X 70 l X 75 l X 80 l X 85 l X 90 l X 95 l X 100 l X 105 l X 140 l X 165 l M3 X 25 l X 30 l X 35 l X 40 l X 45 l X 50 l M3
L R L R L R L R L R L R Glass q w e Stainless steel Stainless steel Cross recessed round head screw Brass Stainless steel r t Stub 3.8-2 ISA Specifications Fluid Dry air (Filtered through a 5m filter) Operating pressure range 0.05 to 0.2MPa Recommended pressure range 0.1 to 0.2MPa Detection zone 10 to 300 m Repeatability including temperature characteristics 10m (for 0 to 60C on the basis
(mm) Gripping point L (mm) Gripping point L (mm) Gripping point L (mm) Note) Distance to the gripping point L of single acting type is shortened by spring return.
CDQSXB20-30D CDQSXB12-5D 60 CQ-M5 x 60 L 30 CQ-M3 x 30 L 35D 10D 65 x 65 L 35 x 35 L 40D 15D 70 x 70 L 40 x 40 L 6.5 Example) CQ-M3x30 L 4 pcs. 6.5 45D 20D 75 x 75 L 45 x 45 L REA 50D 25D 80 x 80 L 50 x 50 L CDQSXB25-5D 30D Mounting bolt 40 55 x 55 L CQ-M5 x 40 L REB 10D CDQSXB16-5D 45 30 x 45 L CQ-M3 x 30 L 15D 10D 50 35 x 50 L x 35 L REC 20D 15D 55 40 x 55 L x 40 L 6.5 CY 25D 20D 60 45
S P L S P O N O N O F F L O F F L S N S N 1 S S S S 0 r / m i n 0 r / m i n L S P L S P O N O N O F F O F F L L S N S N 2 S S S S S S 0 r / m i n 0 r / m i n L S P L S P O N O N O F F L S N O F F L S N 3 S S S S S S S 0 r / m i n 0 r / m i n L S P L S P O N O N L S N O F F L S N O F F 6 39 6 6.4.4 (PC31PC34) PD20 PD20 0 1 2 3 0() 1() 2() 3() PD20 0 S S S
, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Supply pressure (MPa) Suction flow (l /min (ANR)) Supply pressure (MPa) Suction flow (l /min (ANR)) ZL ZR1-W13L1 ZR1-W20L1 ZY Air consumption (l /min (ANR)) Suction flow (l /min (ANR)) Air consumption (l /min (ANR)) Suction flow (l /min (ANR)) ZQ
Select the graph that corresponds to the imaginary stroke l. l k Imaginary stroke l = (Stroke) + k + l k: Distance between the center and end of the plate 6 (Example) 1. When using CXSJM6-10 and l = 15 mm: Imaginary stroke l = 10 + 2.75 + 15 = 27.75 Therefore, the graph used for your model selection should be the one for CXSJM6-30 (6) ). 2.75 mm 10 4 mm 15 5 mm 20 6 mm 25 2.
Select the graph that corresponds to the imaginary stroke l. l k Imaginary stroke l = (Stroke) + k + l k: Distance between the center and end of the plate 6 (Example) 1. When using CXSJM6-10 and l = 15 mm: Imaginary stroke l = 10 + 2.75 + 15 = 27.75 Therefore, the graph used for your model selection should be the one for CXSJM6-30 (6) ). 2.75 mm 10 4 mm 15 5 mm 20 6 mm 25 2.
mm Holding point L mm Holding point L mm Holding point L mm Note) Distance to the holding point L of single acting type is shorten by spring return.
Supply pressure (MPa) Suction flow rate (l/min (ANR)) ZQ ZX1-W07 Exhaust Characteristics Flow Characteristics ZF Vacuum pressure Vacuum pressure ZP Air consumption Air consumption Air consumption Suction flow rate (l/min (ANR)) Air consumption (l/min (ANR)) Vacuum pressure (kPa) ZCU AMJ Suction flo Suction flow r w rate ate Suction flow rate Misc.
upper limit Suction flow rate: 0 L/min 10 10 Particle concentration [particles/m3] Particle concentration [particles/m3] LAT Suction flow rate: 20 L/min ISO Class 5 upper limit LZ 10 10 LC3F2 Suction flow rate: 40 L/min ISO Class 4 upper limit ISO Class 4 upper limit 1000 1000 Suction flow rate: 20 L/min Suction flow rate: 50 L/min 100 100 Suction flow rate: 30 L/min 10 10 1 1 0 0.1 0.6 0.5
mm/s 10 10 ISO Class 8 10 10 0 L/min (ANR) ISO Class 7 ISO Class 7 10 10 Particle concentration [particles/m3] Particle concentration [particles/m3] ISO Class 6 ISO Class 6 10 10 0 L/min (ANR) 50 L/min (ANR) ISO Class 5 ISO Class 5 10 10 1000 1000 20 L/min (ANR) ISO Class 4 ISO Class 4 100 100 70 L/min (ANR) 30 L/min (ANR) 10 10 1 1 0 0.1 0.2 0.3 0.4 0.5 0.6 0 0.1 0.2 0.3 0.4 0.5 0.6 Particle
(Station n) (Station 1) VVEX4-1 (Internal pilot) 83.3 A A 62.8 47.5 P R 13.5 38.5 P=46 n x Port 2(A): 1/4, 3/8 L Dimensions L1=46n+31, L2=46n+15 n: Stations Station L dimension 2 3 4 5 6 L1 123 169 215 261 307 L2 107 153 199 245 291 1736 VEX3 Series Specific Product Precautions 1 Be sure to read this before handling the products.
I T T I N G S T Y P E 2 Elbow 3 Universal C O N T R O L M E T H O D 0 Meter Out 1 Meter In Courtesy of Steven Engineering, Inc. !
IDX-OM-W029-B / Series IDU22E-23(-C,L,R,T,V) IDU22E-30(-C,L,M,R,T) IDU37E-23(-C,L,R,T,V) IDU37E-30(-C,L,M,R,T) IDU55E-23(-C,L,R,T,V) IDU55E-30(-C,L,M,R,T) IDU75E-23(-C,L,R,T,V) IDU75E-30(-C,L,M,R,T) URLhttps://www.smcworld.com/ English instruction manual can be downloaded from our URLhttps://www.smcworld.com/ SMC () * 1 ) JIS B8370 * 2 ) ISO4414 *1) ISO4414Pneumatic fluid power General
Example of Selection from Minimum Operating Flow 100 Example) Vacuum saving valve used: ZP2V-A8-05 From Table 1, Q2 can be calculated as 5.0 l/min (ANR). 90 31 {l/min (ANR)} 5 {l/min (ANR)} 80 N = 6 (unit) Vacuum pressure (kPa) 70 Q2 = 5.0 l/min (ANR) 60 Table 1.
from Top of Auto Switch CLKG CKQ CLKQ 50 Safety distance L1 (mm) CK CLK 40 Operational range 30 CKQ L1 20 L1 Dangerous range 10 0 5000 10 15000 20 Welding current (A) 50 Safety distance L2 (mm) 40 30 L2 L2 Operational range 20 10 0 5000 10 15000 20 Welding current (A) D-X 439 CK1 Series Related Products Please contact SMC for detailed dimensions, specifications and lead times.
How to find the flow rate for water Formula based on Cv factor Q = 14.2 Cv 10.2 P l/min Formula based on effective area (Smm) Q = 0.8 S 10.2 P l/min Q: Flow rate (l/min), P: Pressure differential (P1P2), P1: Upstream pressure (MPa) P2: Downstream pressure (MPa), S: Effective area (mm), Cv: Cv factor 17
L dimensions n (stations) Dimensions 3 8 9 2 6 10 4 7 5 L1 66 176 198 44 132 220 88 154 110 L2 75 185 207 53 141 229 97 163 119 L3 84 194 216 62 150 238 106 172 128 Manifold composition 3 stns. x 1 2 stns. + 3 stns. x 2 3 stns. x 3 2 stns. x 1 3 stns. x 2 2 stns. x 2 + 3 stns. x 2 2 stns. x 2 2 stns. x 2 + 3 stns. 2 stns. + 3 stns.