Table of Contents Gripping point L (mm) MRHQ F F Misc.
Magnet: D (Built-in), Lock Unit Switch Type: M9BL--Solid State , Gen.
(Or None in the Case of No Switch), Lock Unit Built-in Magnet: D (Built-in), Lock Unit Switch Type: M9BL--Solid State , Gen. Purpose, 2 Wire, Horizontal, 3M
(Or None in the Case of No Switch), Lock Unit Built-in Magnet: D (Built-in), Lock Unit Switch Type: M9BL--Solid State , Gen. Purpose, 2 Wire, Horizontal, 3M
(Or None in the Case of No Switch), Lock Unit Built-in Magnet: D (Built-in), Lock Unit Switch Type: M9BL--Solid State , Gen. Purpose, 2 Wire, Horizontal, 3M
(Or None in the Case of No Switch), Lock Unit Built-in Magnet: D (Built-in), Lock Unit Switch Type: M9BL--Solid State , Gen. Purpose, 2 Wire, Horizontal, 3M
(Or None in the Case of No Switch), Lock Unit Built-in Magnet: D (Built-in), Lock Unit Switch Type: M9BL--Solid State , Gen. Purpose, 2 Wire, Horizontal, 3M
/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m Min Bending Radius (mm) 15mm 23mm 27mm 31mm 60mm 0.47 0.59 0.91 1.18 1.57 12mm -20~60OC = 4~140F Operating Temperature -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC Material Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon
/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m 20m/100m Min Bending Radius (mm) 15mm 23mm 27mm 31mm 60mm 0.47 0.59 0.91 1.18 1.57 12mm -20~60OC = 4~140F Operating Temperature -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC -20~60OC Material Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon
Length 20m 100m Symbol 20 100 Tube I.D.
Thread type Nil Rc T NPTF F G N NPT Refer to Table 1 below for applicability.
to 0 Alarm 1 7 F to 0 Pushing force F to 8 Alarm 2 8 7 to 0 Alarm 3 8 F to 0 Trigger LV F to 8 Alarm 4 9 F to 0 Sub Function 9 F to 0 Pushing Occupation speed 10 F to 0 Address 10 F to 0 Moving force area 11 F to 0 Address 11 F to 0 Area 1 12 F to 0 DATA(H) 12 F to 0 Occupation (always 0) area 13 F to 0 DATA(L) 13 F to 0 Area 2 14 F to 0 Occupation 14 F to 0 area 15 F to 0 15 F to 0 In position
force F to 8 Alarm 2 8 7 to 0 Alarm 3 8 F to 0 Trigger LV F to 8 Alarm 4 9 F to 0 Sub Function 9 F to 0 Pushing speed Occupation area 10 F to 0 Address 10 F to 0 Moving force 11 F to 0 Address (always 0) 11 F to 0 Area 1 Occupation 12 F to 0 DATA (H) 12 F to 0 area 13 F to 0 DATA (L) 13 F to 0 Area 2 14 F to 0 Occupation 14 F to 0 area 15 F to 0 15 F to 0 In position 108 - 22.
(i) (f) 3) Set the value of the position switch (h) to "0" and press and hold the set button (g) for 3 seconds. (b) (h) The 7-segment LED (f) displays "0" with a dot and the (g) alarm LED (b) flashes. 4) When the position switch (h) is set at the required parameter number ("2" in this case), the 7-segment (f) LED (f) displays the value of the position switch (h) with a dot.
(f) 2. Rotate Position switch (h) to 15. LED(f) displays F with flashing. 3. Push Set button (g) and keeps pushing 3 seconds or more. (h) (g) Stroke study is started. 4. When the display "F" in LED (f) is changed from flashing state to solid light state, Stroke study is completed. Caution During stroke study, all registered intermediate positions are changed.
H N-OT 0 1 2 3 4 5 6 Reverse Run Prohibited Pn50B.0 7 8 L /N-OT 0 A B C D E F L /P-CL 0 1 2 3 4 5 6 Forward External Torque Limit Pn50B.2 8 7 H P-CL 9 A B C D E F L /N-CL 0 1 2 3 4 5 6 Reserve External Torque Limit Pn50B.3 8 7 H N-CL 9 A B C D E F L /DEC 0 1 2 3 4 5 6 Homing Deceleration LS Pn511.0 8 7 H DEC 9 A B C D E F L EXT1 * * * * 4 5 6 External Latch Signal 1 Pn511.1 7 8 H /EXT1 *
H N-OT 0 1 2 3 4 5 6 Reverse Run Prohibited Pn50B.0 7 8 L /N-OT 0 A B C D E F L /P-CL 0 1 2 3 4 5 6 Forward External Torque Limit Pn50B.2 8 7 H P-CL 9 A B C D E F L /N-CL 0 1 2 3 4 5 6 Reserve External Torque Limit Pn50B.3 8 7 H N-CL 9 A B C D E F L /DEC 0 1 2 3 4 5 6 Homing Deceleration LS Pn511.0 8 7 H DEC 9 A B C D E F L EXT1 * * * * 4 5 6 External Latch Signal 1 Pn511.1 7 8 H /EXT1 *
The longest transmission distance for Hyrodless Monosashi-kun is 20m.
N] F=-q x PA+w x PC F=q x PA+(e-q) x PC F=-q x PA+r x PB+(w-e) x PC F=q x PA q, w and e are piston areas.