Compact Cylinder with Air Cushion and Lock Series RLQ RLQA63 4.2 16 4.2 16 2 x 4-M8 x 1.25 Standard (through hole)/RLQB63 PC Rear cylinder port PC Front cylinder port Extension locking LOCK M10 x 1.5 Effective thread depth15 31 75 16.5 103 Dust cover (Manual unlocking unit) 20 77 60 19 1.6 2-Cushion needle 9 17 PL Unlocking port Unlocks when pressurized 4-14 Counterbore depth 10.5 4-15.6 Spring washer 4 pcs. 7 77 60 Counterbore depth 15 4-9 104
Connector pin numbers Load Blue Pin description Pin no. 68 69 DC (+) 1 PFA7H-(-M) Analog output 2 DC () 3 Accumulated pulse output wiring examples OUT1 4 4-I thread depth J 40 Max. 30V 80mA or less OUT1 Black Load ON H OFF Blue 50msec PFA7H-(-M) 28 29 B C D E F G H I J A Model Brown PFA703H PFA706H PFA712H 55 160 40 92 67 55 Rc 1, NPT 1, G 1 36 M5 x 0.8 8 OUT1 80mA Load Black 65 180 45 104
However, the pressure difference needs to be set with a large enough difference so that the Reynolds number does not go below a range of 4 x 104. By substituting the measurement results for formula (8) to figure out Av.
Valve side exhaust 29 Series XLS High Vacuum Angle Valve Dimensions (mm) 1in=25.4mm XLS/Without control power supply Grommet (G) D Conduit (C) J K 27010 E D G B C G(PF)1/2 Terminal (T) J K2 J H 29010 L 25 33 B C G(PF)1/2 DIN terminal (D) J K L C B F A 29.5 39 B C G(PF)1/2 6 to 9 22 A (mm) A B 104 L 48 62 C D F G H J E K 41 60 95 43 Model XLS-16G XLS-16C XLS-16D XLS-16T XLS-25G XLS-
VV3Q11 (L5) (L4) (L3) (8.5) 88 L2 48.7 L1 Plug ass'y VVQ100-12A2 3 1 (35) (45) 33 (5.5) 23.5 12.3 E 3 2 R11(Min. bending inner radius) 21.5 Manual override (29.3) 104 D side U side Stations 1 2 3 4 5 n 2-M50.8(E port) 2-M50.8(P port) 42.9 A A (8.5) 20 5 15 (7.5) 5 (A port) n-M50.8 15 P=10 Dimensions n: Stations(Max.18 stations) Equation : L1=10n+32 L2=10n+43 n L 2 52 63 83 112.5 123 3 62
Electrical entry P Port size B C D E F H K L M N A Model Grommet: G Conduit: C Conduit terminal: T Q R Q R Q R S U 13.5 28 64 31 6.5 12.5 28 14 12.8 M4 4.5 22 59 44 50 99 50 66 83 1/8 VCS21 18 36 67.5 31 8.5 12.5 28 18 12.8 M4 6 22 62 44 53 99 53 66 86 1/4 22 40 81.5 36.5 11 15 32 20 19 M5 8 24 76 46 66.5 101 66.5 68 99 1/4, 3/8 VCS31 30 50 86 36.5 13.5 15 32 25 23 M5 8 24 80 46 71 101 71 68 104
depth N L K (mm) Electrical entry P Port size Model Grommet: G Conduit: C Conduit terminal: T M L K H F E D C B N A U S R Q R Q R Q M4 12.8 14 28 12.5 6.5 31 64 28 4.5 13.5 83 66 50 99 50 44 59 22 1/8 VCB21 M4 12.8 18 28 12.5 8.5 31 67.5 36 6 18 86 66 53 99 53 44 62 22 1/4 M5 19 20 32 15 11 36.5 81.5 40 8 22 99 68 66.5 101 66.5 46 76 24 1/4, 3/8 VCB31 M5 23 25 32 15 13.5 36.5 86 50 8 30 104
G Conduit: C DIN terminal: D Conduit terminal: T P Port size Rc A B C D E F H K L M N Model Note) U Q V R Q R Q R S Q R S 83 22 23 45 44 43 58 40.5 46.5 99 43 66 13.5 28 64 31 6.5 12.5 28 14 12.8 M4 4.5 1/8 VCL21 86 22 23 46 44 44 58 41.5 46.5 99 44 66 18 36 67 31 8.5 12.5 28 18 12.8 M4 6 1/4 99 24 25 56.5 46 54.5 60 52 48.5 101 54.5 68 22 40 81.5 36.5 11 15 32 20 19 M5 8 1/4, 3/8 VCL31 104
18.5 R P R P 11.5 18 37 11.5 18 37 67.5 59 Max .10 71.5 Pg.7 Manual override (non-locking) 4Rc(PT) 1/8 (ports P, R) 18 25 31 53.5 Approx. 300 (lead wire length) Light (DZ type only) 4Rc(PT) 1/8 (ports P, R) 75.5 83 Manual override (non-locking) nRc(PT) 1/8 (port A) Applicable cord O.D. 4 to 6.5 A A P = 19 20 L: Dimension table n: Stations n L L1 L2 1 38 28 2 57 47 3 76 66 4 95 85 5 114 104
The Auxiliary function set to the requested point table No. is returned. 0A01h (1) to 0AFFh (255) -104- 6.7.1 Timing chart of read instruction code Read instruction codes (0h to 0A1Fh) Instruction code (RWwn+2) Instruction code execution demand (RYn9) Instruction code execution completion (RXn9) Reading data (RWrn+3) Respond code (RWrn+2) Data read period Set the read instruction code (0h
. 72 7.1.1 . 72 7.1.2 . 75 7.1.3 . 77 7.1.4 . 78 7.1.5 . 78 7.1.6 . 7-12 7.2 . 7-14 7.2.1 . 7-14 7.2.2 . 7-15 7.2.3 . 7-16 7.2.4 . 7-18 7.3 Tough Drive . 7-21 7.3.1 Tough Drive . 7-21 7.3.2 Tough Drive . 7-23 7.4 SEMI-F47 . 7-26 8 81 8-71 8.1 . 82 8.2 . 87 8.3 . 88 8.4 . 8-50 8.5 . 8-57 8.6 . 8-66 8.7 . 8-71 8 91 95 9.1 . 92 9.2 . 95 10 101107 10.1 . 102 10.2 . 104
65 41 A 97 61 a 2 2 STX 34 22 " 66 42 B 98 62 b 3 3 ETX 35 23 # 67 43 C 99 63 c 4 4 EOT 36 24 $ 68 44 D 100 64 d 5 5 ENQ 37 25 % 69 45 E 101 65 e 6 6 ACK 38 26 & 70 46 F 102 66 f 7 7 BEL 39 27 ' 71 47 G 103 67 g 8 8 BS 40 28 ( 72 48 H 104 68 h 9 9 HT 41 29 ) 73 49 I 105 69 i 10 0A LF 42 2A * 74 4A J 106 6A j 11 0B VT 43 2B + 75 4B K 107 6B k 12 0C FF 44 2C , 76 4C L 108 6C l 13 0D CR 45 2D
Set the pulse input signal so that the Target Position of the pulse input signal is approximately 1 mm longer than the workpiece position. 11.3 Pushing operation (P.55) 12.3 Pushing operation example (P.63) Incorrect pulse input Confirm that the number of pulses of the pulse input signal is correct. 104 - 18.3 Configuration software Problem Possible cause of Investigation method and location
Fig. 1 shows the possible issues due to water quality 9 Trouble due to scale is likely to occur 8 pH (25oC) Within criteria 7 Trouble due to corrosion is likely to occur 6 5 4 102 2 3 4 5 103 2 3 4 5 104 102 102102102 102 102102102 Electric conductivityS/cm Fig. 1 Relation between pH conductivity and trouble (3) Maintenance and inspection of the strainer (monthly) CAUTION If the mesh of the
(120 m 3/h) 11 SCFM 16 SCFM 26 SCFM 43 SCFM 62 SCFM 80 SCFM 45 F (7.2C) (19 m 3/h) (27 m 3/h) (45 m 3/h) (74 m 3/h) (106 m 3/h) (136 m 3/h) 17 SCFM 28 SCFM 45 SCFM 65 SCFM 86 SCFM 12 SCFM 50 F (10C) (20 m 3/h) (28 m 3/h) (47 m 3/h) (77 m 3/h) (110 m 3/h) (147 m 3/h) 100psig (0.7MPa) 100 F (37.8C) 100 F (37.8C) 115V 60Hz 41-122 F (5-50C) 22psig (0.15MPa) 150psig (1.0MPa) () 36-104
V 600 50 ()Low 0.4 V 5 ms 3 1/2 7 LCD 2 (/) 2 F.S.1 digit(253 ) ON OUT1OUT2 IP65 -550 -1060 () 3585RH() AC1000 V 1 50 M (DC500 V ) 2F.S. (25 ) 5 3.52 m 0.15 mm 2(AWG26) 0.95 mm CEUL/CSARoHS 1 2 3 -60No.PS-OMM0006CN-E 01 N01 W1 WF1 M5 C4 C6 NPT1/8 (M5 ) Rc1/8 G1/8 M50.8 4 6 R1/8 (M5 ) ZDC2POMSUS304 C304() O HNBR C3602 () O HNBR ZDC2 O HNBR 78 g 79 g 97 g 97 g 104
A code 1 24 V() 1 24 V() 2 24 V() 2 24 V() 3 0 V() 3 0 V() 4 0 V() 4 0 V() 5 (4)EX600-ED5PWR INM12 4 A code PWR OUTM12 5 A code 1 24 V() 1 24 V() 2 0 V() 2 0 V() 3 24 V() 3 24 V() 4 0 V() 4 0 V() 5 -29No.EX-OMN0027CN-D 2 SI IP67 -30No.EX-OMN0027CN-D EX600-ED2EX600-ED3EX600ED4EX600-ED5PWR IN M12(5 ) 7/8 (5 ) M12(4 ) M12(4 ) PWR OUT M12(5 ) M12(5 ) DC24 V 102 A DC24 V 108 A DC24 V 104
L3 [mm] 67 88 109 130 151 172 193 214 L2 [mm] 72 93 114 135 156 177 198 219 L1 [mm] 83 104 125 146 167 188 209 230 M3 18 : 2 pcs. ( Hexagon socket head cap screw ( with spring washer )) Note NOTE Holding with hand so that there will be no gap between units and tighten the bolts.
Options include auto switch capabilities, double and single acting, mounting from 4 directions.Miniature free mount , Space saving compact cylinder , Available in 4mm to 10mm bore size, Cyl, Free Mount, Dbl Acting, COMPACT CYLINDER, 104 lb
Bore sizes from 6mm to 32mm available, Stroke lengths up to 50mm, Any surfaces can be used for mounting, Space saving, Auto-switch capable, Cyl, Free Mount, COMPACT CYLINDER, 537, 104 lb