Model: 41 (AC/Dual AC for IZTB40 and 42 Bars, and IZT43 Nozzles), Input, Output Specification: P (PNP), Power Supply Cable Length: N (None), Power Supply Cable Length (IO-Link): None, Communication Cable Entry Direction/Length: None, DIN Rail Mounting Bracket: W (DIN Rail Mounting Bracket Included)
INLINE SOLID PNP DIRECT ATEX, AUTO-SWITCH, 605, 42 lb
available up to 2000mm with a 5000mm long stroke option on some bore sizes.Mechanical joint rodless cylinder with cam follower guide, Bore sizes: 16, 20, 25, 32, 40, 50, 63 *, Strokes up to 5000mm depending upon bore size, With one or two stroke adjusters with or without shocks, Variety of switches and a variety of lead wire lengths, Cylinder, Rodless, Mechanically Jointed, RODLESS CYLINDER, 42
SPEED CONTROLLER, FLOW CONTROL, 42 lb
HRX-OM-X084 FLT Operation of this product will stop when the alarm occurs. 5.5 Advanced setting mode HRR Series 5-42 HRX-OM-X084 Chapter 5 Display and Setting of Various Functions Communication error alarm detection time 27. Press the [] key. Displays screen for setting the communication error alarm detection time. Time (sec.) to generate alarm AL29: Communication error can be changed.
FLT Operation of this product will stop when the alarm occurs. 5.5 Advanced setting mode HRR Series 5-42 HRX-OM-W002 Chapter 5 Display and Setting of Various Functions Communication error alarm detection time 27. Press the [] key. Displays screen for setting the communication error alarm detection time. Time (sec.) to generate alarm AL29: Communication error can be changed.
FLT Operation of this product will stop when the alarm occurs. 5.5 Advanced setting mode HRR Series 5-42 HRX-OM-X071 Chapter 5 Display and Setting of Various Functions Communication error alarm detection time 27. Press the [] key. Displays screen for setting the communication error alarm detection time. Time (sec.) to generate alarm AL29: Communication error can be changed.
message Response message Code Contents Code Contents 01 Slave Address 01 Slave Address 03 Function 03 Function 0 Head address of specified register 02 Quantity of bytes to read 0001 Quantity of register to read 00EE Information of 0h (circulating fluid discharge temperature: 23.8 oC) FB LRC 0C LRC Request message (Master to Slave) Start Slave Address Function Data LRC End 3A 30 31 30 33 46 42
message Response message Code Contents Code Contents 01 Slave Address 01 Slave Address 03 Function 03 Function 0 Head address of specified register 02 Quantity of bytes to read 0001 Quantity of register to read 00EE Information of 0h (circulating fluid discharge temperature: 23.8 oC) FB LRC 0C LRC Request message (Master to Slave) Start Slave Address Function Data LRC End 3A 30 31 30 33 46 42
60S-2 XLA25-60S-2 2 3 4 XLD-80H5 2 XLA25-60S-2 8 XL-OMY0002 4. 4-1 XLD-25 XLD-40 XLD-50 XLD-63 XLD-80 XLD-100 XLD-160 25 40 50 63 80 100 160 [] 5605150 -6 Pa abs 110 14 45 80 160 200 300 800 L/S 1 0.53 28 2.511 48 418 6.531.5 6.531.5 10 FKM1.310 3/s Pam -11 FKM1.310 KFNW KFNW KDN SUS316L,SUS304,FKM 2 MPa G 0.40.7[ ] 46 200 360 660 1350 3000 5150 3 3 cm O.5MPa 2.5 12 15.5 30 42
M4x0.7x22L 20 NBA-088S 25 NBA-106S (mm) 32 BGS1-032S 40 BAF-04S 50 BAF-05S 63 BAF-06S 80 BAF-08S 100 BAF-10S D-G5BA mm 20 25 32 40 50 63 80 100 D-G5BA 5 5 5.5 6 7 7.5 7.5 8 30% 1 2 2 mm mm D-G5BA A B Hs 20 25 31.5 31.5 24 26 24 25 28 36 36 46 80 28.5 32 40 50 63 32.5 33 37 36.5 45.5 45.5 42 48.5 57.5 56 100 57 46 68 (mm) 10 20 75 15 3. 3-1. 1 2 3 4 5 6 7 8 9 10 1 2 3 416
10 (MXQ6(B)) (MXQ8(A,B,C),12(A,B,C)) (MXQ8(A,B,C),12(A,B,C)) 11 (MXQ16(A,B),20(A,B),25(A)) (MXQ16(A,B),20(A,B),25(A)) 12 13 A 14 15 16 17 18 19 (MXQ6A,8A,12A, MXQ16(A,B),20(A,B),25(A)) 20 21 22 O 19 / 23 24 25 26 27 28 / 29 30 31 32 33 34 35 36 NBR 37 NBR 38 NBR 39 (MXQ6,8(C),12(C)) / 40 (MXQ6,MXQ8(C),MXQ12(C)) 41 NBR (MXQ6,MXQ8(C),MXQ12(C)) 42
M 10 16. 16-1. 1 22 (mm) gfcm) (mm) 12 RTW-13 5 14 16 RTW-18 6 34 20 RTW-22 8 52 25 RTW-26 10 88 32 RTW-34 14 220 40 RTW-42 14 220 50 RTW-52 17 440 63 RTW-62 17 440 80 RTW-82 22 1,240 100 RTW-102 27 2,000 16-2. 1) 1 1 2) 2 2 11 3) 32 4) 3 3 16-3. 2JIS2 1 , 4 2 3 4 16-4. 1 5 5 6 6 12 () 32 () 32 7 7 () 8 2 1 13 17. 17-1.
" " PRG 1 STEP 0 2 WRITE " End End0.0 2 LEFT PRG 1 STEP 1 " " UP 5 " " 5 UP PRG 1 STEP 1 " " 5 " " 1 WRITE 2 PRG 1 STEP 2 " " 3 LEFT " " UP 3 3 ) 41 PRG 1 STEP 2 " " " " 1 WRITE 3 PRG 1 STEP 3 " " 2 LEFT " " UP 3 PRG 1 STEP 3 " " " " 1 WRITE PRG 1 STEP 4 1 1 End " " " " " " 1 PRG 1 STEP 1 " " " PRG 1 STEP 1 UP No.8 " PRG "8" " " PRG 8 STEP 0 2 WRITE " End 42
Pause is effective less. (1) Timing between stopping till output is 0.2sec(max). 42 Emergency Stop (Automatic Execution) Timing Chart (Input) Homing SetHome Man'l / Auto Start Program Selection Man'l(+) Man'l(-) Pause (Output) Driving(+) Driving(-) Brake Origin Determined Position Determined Program END Error Cylinder Movement Origin Note: When Emergency Stop is set to be ON, error will
External gripping 11 34 42 65 158 254 force D I.D. Internal 17 45 66 104 193 318 Note 1) Gripping force per finger Effective value (N) gripping force O.D. External gripping S 7.1 27 33 45 131 217 force I.D.
General requirements) ISO 10218-1992: Manipulating industrial robots -Safety JIS B 8370: JIS B 8361: JIS B 9960-1: 1 ) JIS B 8433-1993: *2) 1. 2. 3. 1. 2. 3. 4. 2 - / *3) 1 1.5 *3)1 1 () 3 - 1 1-1. 1)0.5MPa L = 20mm MHZ2-10* MHZ2-16* MHZ2-20* MHZ2-25* MHZ2-32* MHZ2-40* mm 10 16 20 25 32 40 D 0.20.7 0.10.7 MPa S 0.350.7 0.250.7 C oC -1060 mm 0.01 0.02 c.p.m. 180 60 D 11 34 42
Movement mode Movement mode 3 ABS 1 () INC 2 Speed Speed *1 (mm/s) Position Position (-) (+) [mm] 1 (mm/s 2) Accelerati on Accelerati on Decelerati on Decelerati on 1 (mm/s 2) 100% (%) * Pushing force Pushing force *1 0 1100 (1100 ) INP ON INP ON (:%) Trigger LV Trigger LV *1 -42- (1100 ) ( mm/s) * Pushing speed Pushing speed *1 Moving force Moving force *1 (%) (mm/s)
bit1) Rx1A (bit2) Rx1B (bit3) Rx1C Rx2F (1) Rx01 Rx00 0 0 0 1 1 0 41 - (2)READY 1(ON) (3)ALARM 1 1(ON)0(OFF) (4) 0(OFF)1(ON) (5) 1 1(ON)0(OFF) CN2SW OFF [Ry07]ON (6)() ID ON(1)ID OFF(0) Rx0F Rx0E Rx0D Rx0C Rx0B Rx0A Rx09 Rx08 ID8 ID7 ID6 ID5 ID4 ID3 ID2 ID1 Rx13 Rx12 Rx11 Rx10 ID12 ID11 ID10 ID9 (7) (LEC)ID ID 2 ID Rx1B Rx1A Rx19 Rx18 1 0 0 0 1 2 0 0 1 0 3 0 0 1 1 12 1 1 0 0 42
IN1 bit 0,1 2 IN2 bit 0,1 3 IN3 bit 0,1 0 4 IN4 bit 0,1 5 IN5 bit 0,1 6 bit 0 7 bit 0 0 HOLD bit 0,1 1 SVON bit 0,1 2 DRIVE bit 0,1 3 RESET bit 0,1 1 4 SETUP bit 0,1 5 JOG(-) bit 0 6 JOG(+) bit 0 7 FLGTH bit 0 ID1 0,1 2 1 No. 063 1ABS() 2 INC( 3 1 )0: ( ) 4 H 2 065500 mm/s 5 L 6 H 7 4 2147483647 0.01mm 8 9 L 10 H 2 065500 mm/s2 11 L 12 H 2 065500 mm/s2 13 L H=L= (LECP6)(LECA6) 42