HRX-OM-Z015 Broken wire exceeded. o r Broken wire 60 sec. AL19 Communication alarm is generated.
P V < 2 3 . 0 o C # 1 S V 3 0 . 0 o C M O D E R e m : 0 5.10.4 Circulating fluid set temperature The circulating fluid set temperature can be set by specifying the circulating fluid target temperature during Serial Remote mode.
XGT 3 1 2 50336 1 C O 1:FKM 2:Kalrez R 4079 Kalrez R DuPont Performance Elastomers 50336 50mm 336mm 2: 3: 1:1 3:300mm A :0.5m D-A93 C 6 (C016 30C006 100 12:AMP ) (2 ) F 9 D CDE-9PF05 5 - 3. 6 - 3-1 1AB 23 2 3 19 2A 21 23 2B 1B 2C 2 2 3 19 3-2 1A 1B 26 8 9 22 13 12 18 9 27 12 13 18 9 18 , 21O 5 6 7 ASSY O 4 3-3 2A2B CLOSEOPEN 8 9 9 13 12 18
23m ,, (8 ) CEP1 ,CE1-R, CEP1 ()() CEP1 ,CE1-R C C () CEP1, CE1-ROOC CE1-RO5 CE1-R10 CE1-R15 CE1-R20 CE1-R*C 3 3-1 CEP1B12 CEP1B20 () 1.5MPa 1.0MPa 0.15MPa 0.1MPa 50~300mm/s 0~60 () 25~85%RH() 0~+1.0 2 3 , JIS2 3-2 7,6 () [,R03-J8M] 23m*1 ,<> 145 DC12V~DC24V(10%) [1%] 50mA 0.01mm(4 ) (20) 0.02mm*2 (Max DC24V,40mA ) A /B DC500V,50M(12E ) 33.3Hz 6.8G XY 2 Z 4
P PNP C E U 1 C E U 5 AC80120V AC100240V DC24V DC24V NPN RS-232C P PNP RS-232C+BCD NPN P PNP C E 1 R *1) (CE1-ROOC) 05 5m 10 10m 15 15m 20 20m *1)() C ()(CE2)(CE2**-*Z ) CE1-ROOC CE1-RO5 CE1-R10 CE1-R15 CE1-R20 CE1-R*C 11 3 100 200 200 NO 100 80 YES 100 100 80 kgf kgf 63 NO 63 50 50 40 40 YES 100 100 300 300 200 400 500 200 400 500 NO mm/s mm/s OK YES NO NO YES
Basic inertia moment 2 r m I = m : Weight of load (kg) r : Load center of gravity and distance of rotation axis. (m) r m Fig. (12) Inertia moment This shows inertia moment of m (weight) at r from the rotation axis. Calculation of inertia moment depends on the shape of the object.
Basic inertia moment 2 r m I = m : Weight of load (kg) r : Load center of gravity and distance of rotation axis. (m) r m Fig. (10) Inertia moment This shows inertia moment of m (weight) at r from the rotation axis. Calculation of inertia moment depends on the shape of the object.
Leakage voltage Take note that the leakage voltage will increase when a resistor is used in parallel with a switching element or when a C-R circuit (surge voltage suppressor) is used for protecting a switching device because of the leakage voltage passing through the C-R circuit. The suppressor residual leakage voltage should be as follows.
Be certain that the gasket and filter element R of the supply valve are properly mounted as well. (Filter element R is installed in the supply valve only.) B 4) Tighten the mounting screw of the solenoid valve to the specified torque below.
R Rated flow range The flow range within which the product will meet all published specifications. Repeatability Reproducibility of the display or analogue output value, when the flow is repeatedly changing.
Air leakage will occur (5) Use R external threads with Rc internal threads and NPT external threads with NPT internal threads. Caution Caution (1) For R, NPT, G thread Tightening method To tighten a screw on the vertical type, first tighten it by hand and then hold the width across flats of the body B and turn it by using an appropriate wrench.
Internal circuit and wiring example Z/ISE80Output specification -N NPN open collector output type Max. 28 V, 80 mA Residual voltage 1 V or less -P PNP open collector output type Max. 80 mA Residual voltage 1 V or less -S/-R (Analogue output mode) Switch output NPN open collector output type 2 output Max. 28 V, 8 mA Residual voltage 1 V or less R: Analogue output 1 to 5 V Output impedance
Leakage voltage Take note that the leakage voltage will increase when a resistor is used in parallel with switching element or a C-R circuit (surge voltage suppressor) is used for protecting a switching device because of the passing leakage voltage through the C-R circuit. The suppressor residual leakage voltage should be as follows.
AF-OMR0020-C PRODUCT NAME MIST SEPARATOR MODEL / Series / Product Number AFM20-(F,N)01(F,N)02(B,C)(-2,6,C,J,R,Z)-A AFM30-(F,N)02(F,N)03(B,C,D)(-2,6,8,J,R,W,Z)-A AFM40-(F,N)02(F,N)04(B,C,D)(-2,6,8,J,R,W,Z)-A AFM40-(F,N)06(B,C,D)(-2,6,8,J,R,W,Z)-A Contents Page 1. SAFETY INSTRUCTIONS 1-5 2. APPLICATION 6 3. SPECIFICATIONS 6 4. HOW TO ORDER 7 5. OPTIONAL BRACKET ASSEMBLY 8 6.
3 r !5 u q y e t !2 w i A CJ1 CJP CJ2 A Cylinder tube sectional view A-A !0 o CM2 CG1 Component Parts MB No. q w e r t y u i o !0 !1 No.
Manifold Fitting Nomenclature 1/8 M = 1/8 Male NPT one end & branch outlets as required 1/8MM = 1/8 Male NPT and mixed branches 1/8MV = 1/8 Male NPT and 2nd row at 60 either L or R 1/8MMV = 1/8 Male NPT w/mixed branches at 60 either L or R 1/8MT = 1/8 Male NPT with branches at 180 1/8MMT = 1/8 Male NPT w/mixed branches at 180 1/8MB = 1/8 Male NPT Manifold blank (wall thickness suitable for
Switch rail mounting plugs R and L have different lengths; be sure to use the correct plug when reassembling. The short plug (mounting plug R) is used on the rod side. Dust cover Dust cover Unlocking bolt Unlocking bolt Clamp side locking type Unclamp side locking type Top 2. When the locking mechanism is to be used again, be sure to remove the unlocking bolt.
Material Note Description Aluminum alloy Hard anodized Cylinder tube q Aluminum bearing alloy Anodized Collar w Aluminum alloy Chromated Piston e Stainless steel Piston rod A r Stainless steel Piston rod B t Carbon tool steel Phosphate coating Snap ring y Carbon steel Nickel plated Rod end nut u Urethane Bumper i Aluminum alloy Chromated Switch spacer o Magnet !0 NBR Rod seal !
F (LC6D-2 only) +24V GND CW+ CW CCW+ CCW PD+ PD A B C D E 7 6 3 10 CW CW 10 10 2 R 330 CCW input 330 CCW input 2 2 9 1 CCW CCW 8 9 9 5 4 14 13 12 R 330 PD input 1 PD 8 11 F Functions Function change-over switch Input signal terminal CW pulse input terminal By applying the pulse input, the actuator moves from the motor side to the end side.
Description Model AS2000 AS3000 Aluminum alloy Brass Carbon steel Body Needle Zinc alloy Brass Brass q w r Lock nut Replacement Parts No. Description Model AS2000 AS3000 Valve O-ring Spring 14283 14284 14282 143022 143021 143023 e t y Electroless nickel plated Construction: AS4000 Component Parts No.