KJ P. 64 15-2-61 3 Series H/DL/L/LL Male Connector: H H1 (width across flats) H2 (width across flats) Applicable tubing O.D.
M1 M2 Body (B) N Body (A) 2-R A port J E2 H E1 F S N A port B port 2-R CRB1 Y Y A1 M1 A2 P 6-Q X A1 (mm) R (RC) E2 (h9) F (h9) E1 (g6) V B W C Model A1 D G M2 X U A2 Y H N P J Z M1 S Q K T L CRB1BW 50CRB1BW 50-E CRB1BW 63CRB1BW 63-E CRB1BW 80CRB1BW 80-E CRB1BW 100CRB1BW 100-E 26 21 29 27 30 29 35.5 38 18 22 30 32 14 18 15 25 20 30 24 38 M6 x 1 depth 9 12 0.006 0.017 11.9 0 0.043 25 0
L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/10 = 0.03 [s], T3 = V/a2 = 300/10 = 0.03 [s] Time T = T1 + T2 + T3 + T4 [s] [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be found by the following equation.
wire (NPN) 3-wire (PNP) P P A96V A96 s s s s 5V p P P F9NV F9N IC circuit 5V 12V p P P F9PV F9P s p P P 12V F9BV F9B 2-wire s Relay PLC Grommet Yes 24V s 3-wire (NPN) 3-wire (PNP) p P P F9NWV F9NW Diagnostic indication IC circuit 5V 12V p P P F9PWV F9PW 2-color display p P P F9BWV F9BW 2-wire 12V s Lead wire length symbols 0.5m/ Nil (Example) F9NW 3m/ L F9NWL 5m/ Z F9NWZ Solid state switches
T1 T2 T3 T4 L 0.5 V (T1 + T3) V T2 = L : Stroke [mm] (Operating condition) V : Speed [mm/s] (Operating condition) a1: Acceleration [mm/s2] (Operating condition) a2: Deceleration [mm/s2] (Operating condition) 500 0.5 300 (0.1 + 0.1) 300 T1 = V/a1 [s] T3 = V/a2 [s] = P T2: Constant speed time can be found from the following equation. = 1.57 [s] T4 = 0.3 [s] T2 = [s] L 0.5 V (T1
LES8R/L LESH8R/L LES8D LES16R/L LES16D LESH16R/L LESH16D LES25R/L LES25D LESH25R/L LESH25D M3 x 0.5 0.63 M4 x 0.7 1.5 When a cable duct or flexible moving tube is attached to the actuator, the sliding resistance of the table increases and may lead to operational failure of the product. L M5 x 0.8 3 16.
Layout No. 18 Port Port combination: Individual PV Common PS = Common PD Single unit: ZK2FA--L Manifold: ZZK2A-A2-L System Ejector Body type Manifold Exhaust type Individual port exhaust PV pressure can be Vacuum pressure changed per station.
Port combination: Individual PV Common PS = Common PD Layout No. 18 Port Single unit: ZK2F--L Manifold: ZZK2-A2-L System Ejector Body type Manifold Exhaust type Individual port exhaust PV pressure can be Vacuum pressure changed per station.
Zb2 JJ Eb Eb Q1 Zb1 JJ H H Eb Eb P A2 A1 L (Counterbore depth) Detail drawing of Zb2 (adjustable range) 2 x 2-LD L (Counterbore depth) Detail drawing of Zb1 (adjustable range) 2 x 2-LD MY3 Floating Bracket Mounting Dimensions (mm) Adjusting range Applicable cylinder Model Common JJ L P LD H G Ea Eb MYAJ16 MYAJ25 MYAJ40 MYAJ63 MY316 MY325 MY340 MY363 M4 x 0.7 M6 x1 M8 x1.25 M10 x1.5 1 1 1
P.1729 P.1731 P.1732 P.1733 P.1738 P.1739 P.1742 P.1743 P.1744 P.1747 P.1748 P.1752 P.1755 P.1756 P.1760 P.1765 P.1766 P.1769 P.1770 P.1776 P.1781 P.1786 P.1794 P.1796 P.1801 P.1802 P.1803 P.1804 P.1806 P.1806 P.1807 P.1809 P.1817 P.1818 P.1819 P.1820 P.1822 P.1823 P.1829 P.1829 P.1830 P.1831 P.1832 P.1832 P.1833 P.1836 P.1838 P.1839 P.1839 P.1841 P.1844 P.1844 P.1845 P.1848 P.1849 P.1850
41 p. 141 p. 133 p. 149 p. 41 p. 41 p. 59 p. 67 p. 77 p. 87 p. 97 p. 113 p. 103 p. 125 p. 124-1 p. 156-1 SY7 0 Type 11 SY5 0 Manifold Top ported Bottom ported Top ported From p. 41 p. 141 p. 133 p. 124-1 p. 156-1 p. 149 p. 41 p. 41 p. 59 p. 67 p. 77 p. 87 p. 97 p. 103 p. 113 p. 125 SY7 0 SY3 3 Type 12 SY5 3 From p. 53 p. 124-5 p. 156-7 p. 111 p. 131 p. 139 p. 147 p. 155 p. 64 p. 53
0 E 1 R 3 1 / 0 180 L 0 E T 2 R 3 3 / a 0 0 5 , bl 1) e e ot o N p er e g at n in ra g The figures show the origin position for each actuator.
CRB2 Formulas QCR = 2V x x 10 -3 P + 0.1 0.1 CRBU2 QCP = 2 x a x L x x 10 -6 P 0.1 CRB1 Formulas MSU QC = QCR + QCP Qc2 = Qc x n x Number of actuators x Reserve factor CRJ QCR =Air consumption of rotary actuator [l (ANR)] Qc2 = Compressor discharge flow rate n = Actuator reciprocations per minute Reserve factor: 1.5 or greater [l/min (ANR)] QCP =Air consumption of tubing or piping [l (ANR
Size 40 L L 2 K G1 0 0.030 F D B 4 K N V1 Body (B) T V2 M S Body (A) h Key dimensions L1 b C G2 J F h (h9) L1 b (h9) Model L 2 x R A CRB2B;40 4 0 0.030 4 0 20 E 0.030 CRB2B=10-=S CRB2B==-=SE/DE
CRB1 Formulas QCR = 2V x x 10 -3 P + 0.1 0.1 MSU QCP = 2 x a x L x x 10 -6 P 0.1 CRJ Formulas CRA1 QC = QCR + QCP Qc2 = Qc x n x Number of actuators x Reserve factor CRQ2 QCR = Air consumption of rotary actuator [L (ANR)] Qc2 = Compressor discharge flow rate n = Actuator reciprocations per minute Reserve factor: 1.5 or greater [L/min (ANR)] QCP = Air consumption of tubing or piping [L (ANR
CRQ2X MSQX M1 M2 Body (B) MRQ N Body (A) 2 x R A port J E2 H E1 F S A port B port N 2 x R Y Y A1 M1 A2 P 6 x Q X A1 (mm) R () E1 (g6) E2 (h9) F (h9) Model A1 A2 B C D G H J K L M1 M2 N P Q S T U V W X Y Z CRB1BW 5026 18 14 M6 x 1 depth 9 0 0.043 0.006 0.017 0 0.052 R6 1/8 67 70 3 10 13 5 50 60 34 66 46 5.5 6.5 78 19.5 39.5 13.5 11 11.9 12 25 CRB1BW 50-E CRB1BW 6321 18 29 22 15 M8 x 1.25
Allowable overhang L [mm] Allowable overhang L [mm] 167 Model Selection MXQ Series Determine the overhang.
a n e l D i s p l a y a n d SigmaWin+TM 2.
Area: (800) 258-9200-www.stevenengineering.com (mm) Stroke adjustment range (mm) Body mounting section Table mounting section A Applicable size Model B C F G M D E L E1 P *1) H J K Q 1) MXQ8(L) M3 x 12 M8 x 1 MXQ-BS8(L) M3 x 12 20 7 24.5 14 12.5 40.8 5 12 1.4 16.6 8 12 14.6 MXQ12(L) M4 x 12 M8 x 1 MXQ-BS12(L) M4 x 12 18 9.5 29 14 11 40.8 6 12 1.4 20.5 11 13 18.5 MXQ16(L) M5 x 16 M10 x 1