IDX-OM-W017 PE CM PE FM1 PRS PE FM1 P PRS FM2 PE P MC TDR FM2 PE FM2 DFA6E/8E MC TDR IDFA6E/8E FM2 IDFA15E1-23-T Operation Failure L N PE 1 3 2 TB TDR MC ILS CM FM1,2 OLR PRS MC TDR ILS PTC MC OLR PTC PTC PE MC CM C01 TDR MC TB C02 C11 FM C11 PRS RY P GFCI TDR MC EDV 12-5 IDFA Series 12 3 IDX-OM-W017 13 V 13 V V 12-2 13-1 1. 1 2 2. 3.
5 kg.m 1ag Lqrgnl Fn 0.0391 hln 0.0394 cm 0,3937 m 32E,|0 It. b li. h pm mm cm N . m kg' m mNs in in n tn Praatur! in{Hp) 2.s357 r 10' h(HS) 0.0s5t8 mrf psi 6 897 qe psi 0.06697 l|t, psi 0.07G1 Prrt|0fa mm(H,O) 0,00142 Pll mn(Hg) 0.0197 Psl bn 0.0t97 Pri kPs 0,145 Prt bar la.5o Pg kg/cm?
A cm Cylinder conductance With length L (cm) and diameter D (cm) where L>>D, from the formula C=(2RT/M)0.5D3/6L, the conductance C=12.1D3/L l/sec, at an air temperature of 20C. ON OFF Short pipe conductance From the Clausings factor K and the hole conductance C in the drawing below (Clausings factor drawing), the short pipe conductance CK is easily found as CK=KC.
to load's center of gravity (cm) 32 6 10 15 20 Bore size (mm) 40 6.48 3.6 + Lo 15 5 + Lo 45.5 6.5 + Lo 80.7 8 + Lo Allowable load mass (WA) (kg) 6.
9 Wear ring CM-020-07-301A CM-025-07-302A CM-032-07-304A C1A040-07-305A Resin @0 Piston gasket SO-012-13 SO-010-22 SO-010-23 SO-013-7 NBR @1 Cylinder tube gasket CM-020-16-123 CM-025-16-124 CM-032-16-126 CM-040-16-127 NBR @2 Rod seal PDU-10Z PDU-12LZ PDU-12LZ PDU-16Z NBR @3 O ring SO-017-30 SO-017-32 SO-017-34 SO-017-36 NBR @4 O ring SO-015-23 SO-015-23 SO-017-36 SO-017-37 NBR @5 4.10-10
The unit is [S/cm] (siemens/centimeter). The lower the electric conductivity, the more difficult the electricity flows in the fluid. On the contrary, the higher the electric conductivity, the easier the electricity flows in the fluid.Conductivity of tap water is 100 to 200S/cm.
The unit is [S/cm] (siemens/centimeter). The lower the electric conductivity, the more difficult the electricity flows in the fluid. On the contrary, the higher the electric conductivity, the easier the electricity flows in the fluid.Conductivity of tap water is 100 to 200S/cm.
The unit is [S/cm] (siemens/centimeter). The lower the electric conductivity, the more difficult the electricity flows in the fluid. On the contrary, the higher the electric conductivity, the easier the electricity flows in the fluid. The minimum electrical conductivity for fluids for this sensor is 5uS/cm. Conductivity of tap water is 100 to 200S/cm. E Electric conductivity F F.S.
Selector Divider Vacuum pad (1) Cylinder exhaust valve Tightness of Valve (Leak rate) Application example Fluid Air Liquid Non-leak (3) Vacuum Steam Seal material Energizing pressure NBR, FPM EPR 1 cm 3/min or less 0.1 cm 3/min or less(1) 10 6 Pa m3/s or less Energizing exhaust 5 cm 3/min or less (1) 50 cm 3/min or less(2) 150 cm 3/min or less(1) PTFE Differs depending on the operating
Lock Specifications Locking Spring locking (exhaust locking) 0.25MPa {2.5kgf/cm} or more Unlocking pressure Locking pressure 0.20MPa {2.0kgf/cm} or less Maximum operating pressure 1.0MPa {10.2kgf/cm} Locking direction Both directions Maximum Stroke Table/Numbers inside ( ) are for steel tubing.
Lock Specifications Locking Spring locking (exhaust locking) 0.25MPa {2.5kgf/cm} or more Unlocking pressure 0.20MPa {2.0kgf/cm} or less Locking pressure 0.25 to 0.7MPa {2.5 to 7.1kgf/cm} Maximum operating pressure Locking direction Both directions Maximum Stroke Table/Numbers inside ( ) are for steel tubing.
Lock Specifications Lock actuation Spring lock (exhaust lock) Unlocking pressure 0.25MPa{2.5kgf/cm} or more Locking pressure 0.20MPa {2.0kgf/cm} or less Maximum operating pressure 1.0MPa {10.0kgf/cm} Locking direction Two-way For cases with auto switches, refer to the table of minimum strokes for mounting of auto switches on page 12.
Cylinder port size Rc3/8 Rc1/2 Bottom ported Rc1/2 Mixed sizes 03 04 B CM See page 54 (grommet type) for wiring specifications. Connector kit C 12 stations max. How to Order Manifold Assemblies (Example) How to Order Valves Enter part numbers for valves and options to be mounted below the manifold base part number.
Note 1) Indicate CM and LM in the specification table. Note 2) Inch sizes use the following symbols. N1: 1/8" N3: 5/32" N7: 1/4" N5T: 10-32UNF NM: Mixed Top ported elbows are LN and bottom ported elbows are BN. 2.
Stainless (Include heat exchanger brazing), SiC, Carbon, PTFE, PP, PE, POM, FKM, EPDM, PVC (No. copper used) Circulating fluid wetted materials Servieable conductivity: 0.22S/cm or more. (Resistivity: 4.5Mcm or less.)
: JIS B 9960-1:-((1 :) JIS B 8433-1993: 2) : : : 1 2. 3. 1. 2. 3. 4. 2 No.LFE*-OMY0008 / 1 1.5 3 3) 1 1 () [] 3 No.LFE*-OMY0008 () () () () 4 No.LFE*-OMY0008 () * (100 20 ) () <> 2MPa 5 No.LFE*-OMY0008 * (1623 ) FG (49N ) () M12 IN IN OUT OUT OUT OUT () 6 No.LFE*-OMY0008 1. 2.() 48 7 No.LFE*-OMY0008 *() () 6 33 () ( ) 10m DC(-)() ( 8 No.LFE*-OMY0008 * ( ) 5S/cm
U D U D Kit/Electrical entry/Cable length F L Cylinder port kit (D-sub connector) kit (Lead wire cable) 03 04 B CM Rc 3/8 Rc 1/2 Bottom ported Rc 1/2 Mixed Note) Note)In case of mixed specification, indicate on the manifold specification sheet. .
MK20/25 When arm length is 8 cm, pressure should be less than MK20/25: 0.45 MPa MK32/40: 0.55 MPa MK50/63: 0.8 MPa. MK16 Arm length l (cm) Ensuring Safety Operating range 1. If one side of the piston is pressurized by supplying air with the clamp arm attached, the piston will move vertically while the clamp arm rotates.
Calculation Pad W P S t : Lifting force (N) : Vacuum pressure (kPa) : Pad area (cm 2) : Safety factor Horizontal lifting: 4 or more Vertical lifting: 8 or more Horizontal lifting Vertical lifting W = P x S x 0.1 x 1 t This type of application should basically be avoided.
*Combination of body options(CM) is available. Note 1) With switch is available on strokes 025(1/4") and greater.