XL XLAV/With solenoid valve J Port P (pressure port) N M K L P R Port R (exhaust port) (mm) M 3 3 3 3 4 4 L 8.5 8.5 8.5 8.5 12 12 K 13 14 23 25 29 39 J 16.5 16.5 17.5 17.5 29 29 N Model XLAV-16 XLAV-25 XLAV-40 XLAV-50 XLAV-63 XLAV-80 3 3 3 3 2 2 Other dimensions are the same as XLA. 7 Series XLC Normally Closed/Bellows Seal Air Operated Type How to Order XLC 16 F9N Switch quantity/Mounting
NPT1/2 C J E IN A 2 x Port size 1(IN), 2(OUT) port B [mm] Size Port size A B C D E F 20 1/4 28.1 40 69 36 12.5 18 3/8 48 G3/8 72 14 30 1/4 28.1 40 78 42 12.5 21 3/8 48 G3/8 81 14 Size Port size Grommet Grommet with PCB Conduit J K J K J K 20 1/4 39 28.5 44.8 38 46.4 48.9 3/8 G3/8 42 47.8 49.4 30 1/4 40 31.1 45.8 41 47.4 51.9 3/8 G3/8 43 48.8 50.4 17 Direct Operated 2-Port Solenoid Valve
3/8 NPT 1 10 1/2 NPT 33 12 11 1 NPT 23 13 1 1/2 NPT 24 14 3/4 NPT 29 19 2 NPT 26 16 2 1/2 NPT 27 17 3 NPT 28 18 B Mounting Bracket In an AC appl. give full details 2 Series 20 3 Series 30 4 Series 40 5 Series 50 7 Series 70 8 Series 80 1 2WNO 2 2WNC 3 3WNC 4 3WNO 5 3WDC 6 3WMP 18 Direct Lift 2WNO 27 Direct Lift 2WNC 28 Pilot Lift 2WNC G 1/32 H 3/64 J 1/16 K 3/32 L 7/64 N 1/8 O 5/32 P 3/16
XLAV/With solenoid valve J Port P (pressure port) N M K L P R Port R (exhaust port) (mm) M 3 3 3 3 4 4 L 8.5 8.5 8.5 8.5 12 12 K 13 14 23 25 29 39 J 16.5 16.5 17.5 17.5 29 29 N Model XLAV-16 XLAV-25 XLAV-40 XLAV-50 XLAV-63 XLAV-80 3 3 3 3 2 2 Other dimensions are the same as XLA. 7 Series XLC Normally Closed/Bellows Seal Air Operated Type How to Order XLC 16 F9N Switch quantity/Mounting
Form w 1 Material e Buffer spec. r Buffer stroke t Vacuum inlet M5 x 0.8 Effective thread depth 4 3 40 22.5 1.2 11 6 46 25 14.5 10 56 29 20.5 04 A J K 3 40 22.5 1.8 11 6 46 25 14.5 10 56 29 20.5 06 08 N S U F GN GS HS 18 11 15 59 42.5 1.2 10 20 66.5 50 06 08 15 59 42.5 1.8 20 66.5 50 04 JB K ZP3 Y UM B5 3 41 23.5 11 6 47 26 14.5 10 57 30 20.5 JB K 15 60 43.5 10 20 67.5 57 J K 4 10 13 16 D
2For DeviceNetTM Connects to the communication port of the communication unit connected at the end K !3 K !8 K !5For PROFIBUS DP K w For EtherNet/IPTM, PROFINET, EtherCAT, Ethernet POWERLINK K w and K e are used in combination with each other. K !
voltage suppressor Page 3-7-7 VFN L plug connector (L) L plug connector (LZ) M plug connector (MZ) K plug connector (KZ) DIN terminal (DZ) M plug connector (M) 1.4 1.1 3 position pressure center Locking type (Tool required) VZS3000 Rc 1 4 Single Double 3 position (Closed center) Page With surge voltage suppressor K plug connector (K) 3-7-23 3 position double check Grommet (GS) 2.4 2.4 L
(Example) For M3: L1 = 6 Applicable shaft types: J, K, T Q1 = M K axis T, X shaft Q1 = M L1 = L2 + (3 x P) L2 + (3 x P) L1 + (3 x P) L1 + (3 x P) L2 = L2 = L1 = Q2 = M Q2 = M (mm) (mm) Q2 M3 M3, M4 M3, M4, M5, M6 M4, M5, M6, M8 M4, M5, M6, M8, M10 Q1 M3 M3, M4 M3, M4, M5, M6 M4, M5, M6, M8 M4, M5, M6, M8, M10 Size 10 15 20 30 40 Size 10 15 20 30 40 (mm) Q1 M3, M4 M3, M4, M5, M6 M4, M5, M6
Ea = K E max Ea = 1x 0.11 = 0.11 Workpiece mounting coefficient K: Fig. (3) Can be used based on E = 0.088 Ea = 0.11 Max. allowable kinetic energy Emax: Table (1) Kinetic energy (E) Allowable kinetic energy (Ea) Load Factor 3 3-1 Load Factor of Load Weight Wa = K Wmax Workpiece mounting coefficient K: Fig. (3) Allowable load weight coefficient : Graph (1) Max. allowable load weight Wmax
L plug connector (L) L plug connector (LZ) M plug connector (MZ) K plug connector (KZ) DIN terminal (DZ) M plug connector (M) 1.4 1.1 3 position pressure center Locking type (Tool required) VZS3000 Rc 1 4 Single Double 3 position (Closed center) Page With surge voltage suppressor K plug connector (K) 3-7-23 3 position double check Grommet (GS) 2.4 2.4 L plug connector (LS) M plug connector
D K 8 8 0 P 0 1 M D K 9 0 S 0 1 M D K KDM20 8 / 1 1 0 P 0 2 M D K 1 0 S 0 2 M D K 2 . 3 3 2 P 0 2 M D K 1 0 S 0 2 M D K e u l B 2 3 / 5 3 0 P 0 2 M D K 3 0 S 0 2 M D K 4 4 0 P 0 2 M D K 3 0 S 0 2 M D K 0 2 d e R 4 / 1 7 0 P 0 2 M D K 7 0 S 0 2 M D K 6 6 0 P 0 2 M D K 7 0 S 0 2 M D K 6 1 / 5 9 0 P 0 2 M D K 9 0 S 0 2 M D K 8 8 0 P 0 2 M D K 9 0 S 0 2 M D K Applicable Tube Material
. 1 ) 5 . 5 3 ( 6 1 . 1 ) 5 . 9 2 ( 1 9 . 0 ) 3 2 ( 8 2 . 0 ) 7 ( 4 / 1 S 5 3 1 1 H R K 1 1 / 6 1 ) 6 4 . 7 1 ( 0 8 . 0 ) 3 . 0 2 ( 5 . 2 3 8 / 3 S 6 3 1 1 H R K 2 2 . 1 ) 1 3 ( 6 9 . 0 ) 5 . 4 2 ( 5 . 0 3 8 / 3 2 / 1 S 7 3 1 1 H R K 7/8 ) 3 2 . 2 2 ( 4 1 . 1 ) 9 2 ( 3 8 . 0 ) 1 2 ( 5 . 7 4 5 3 . 0 ) 9 ( 4 4 . 1 ) 5 . 6 3 ( 0 2 . 1 ) 5 . 0 3 ( 4 9 . 0 ) 4 2 ( 4 / 1 S 5 3 3 1 H R K 7/8 )
Technical Data 345 CBG1 Series Construction: With Air Cushion With air cushion Head end lock Non-locking type manual release: Suffix N K q @5 y @4 u @7#6r#8#0@9@2@6t@3#7#1#9@8 !4!0!1iow !2 $0 #4 #3 #5 $1 w e #2 Rod end lock Long stroke Component Parts No.
(The SI unit type is provided for use in Japan.) 01 02 03 04 06 1/8 1/4 3/8 1/2 3/4 Option Note 3) Symbol Nil B C D H Applicable model AW20(K) to 40(K) AW20(K) to 40(K) AW30(K), 40(K) AW20(K) to 40(K) Description With bracket Float type auto drain (N.C.) Float type auto drain (N.O.)
9@0@1 Seal kit MHZ2-(N) MHZ2-(N)1 MHZ2-(N)2 MHZ2-3 MHZ2-D MHZ2-S MHZ2-C MHZ2-DW MHZ2-K MHZ2-M MHZ2-E rty!1!3 Mounting screw MHZ-A1002(N)-1 MHZ-A1602(N)-1 MHZ-A2002(N)-1 MHZ-A2502(N)-1 Finger assembly MHZ-A1002(N)-2 MHZ-A1002-3 MHZ-A1602(N)-2 MHZ-A1602-3 MHZ-A2002(N)-2 MHZ-A2002-3 MHZ-A2502(N)-2 MHZ-A2502-3 MHZ-A4003 MHZ-A3203 MHZ-A1003 MHZ-A1603 MHZ-A2003 MHZ-A2503 Piston assembly wo!0!
9@0@1 Seal kit MHZ2-(N) MHZ2-(N)1 MHZ2-(N)2 MHZ2-3 MHZ2-D MHZ2-S MHZ2-C MHZ2-DW MHZ2-K MHZ2-M MHZ2-E rty!1!3 Mounting screw MHZ-A1002(N)-1 MHZ-A1602(N)-1 MHZ-A2002(N)-1 MHZ-A2502(N)-1 Finger assembly MHZ-A1002(N)-2 MHZ-A1002-3 MHZ-A1602(N)-2 MHZ-A1602-3 MHZ-A2002(N)-2 MHZ-A2002-3 MHZ-A2502(N)-2 MHZ-A2502-3 MHZ-A4003 MHZ-A3203 MHZ-A1003 MHZ-A1603 MHZ-A2003 MHZ-A2503 Piston assembly wo!0!
Load rate Ea= K E max Ea=1 0.11=0.11 Work mounting coeficient K: Fig.3 Max. allowable kinetic energy Emax: Table 1 Kinetic energy (E)Allowable kinetic energy (Ea) Possible to use by E=0.0 3 3-1 Load rate of work Calculate static work Wa (N) Wa=1 X 1 X 4=4 K=1 b=1 Wmax=4 a1=1/4=0.25 Wa=K b Wmax Work mounting coeficient K: Fig.3 Allowable load coeficient b: Graph 1 Max.