MXS J J mm Nm Nm Nm Nm Nm mm/s Load equivalent to collision Max. allowable static load Load rate Allowable static load coeficient Allowable moment coeficient Damper coeficient Work mounting coeficient 3.11-11 Series MXS Dimensions MXS 6 2-M2.5 X 0.45 thread 3 deep Operating port 2-M3 X 0.5 6 3 2 J I 5 Max. 10.5 (With stroke adjuster at retraction end) Basic style 5.5 3 5.5 5.5 3 6.5 2-M2.5 X
H 364 H 364 H 364 J 116 H 364 V 564 H 364 K 332 J 116 J 116 J 116 V 564 J 116 K 332 V 564 V 564 V 564 K 332 K 332 K 332 Table B FLOW CONFIGURATION VALVE NO.
H 364 H 364 H 364 J 116 H 364 V 564 H 364 K 332 J 116 J 116 J 116 V 564 J 116 K 332 V 564 V 564 V 564 K 332 K 332 K 332 Table B FLOW CONFIGURATION VALVE NO.
Absorbing Energy ft lb (J) Absorbing Stroke mm Max. Impact Speed mm/sec Max. Frequency cycles/min Max.
D MP2 Double Detachable Rear Clevis T MT4 Center Trunnion C MP4 Single Detachable Rear Clevis Rod Boot Without Boot J Nylon Boot K Neoprene Boot X MP1 Double Rear Clevis S MS2 Side Lug U MT1 Rod Trunnion J MT2 Head Trunnion Standard Stroke Inches Air Cushion Both Ends N None H Head End R Rod End Stroke Hundredths Of An Inch Mounting Bracket Part Numbers Part Number Mounting Bracket
A Tightening torque Model MY-J 80 MY-J100 Model MY-J 80 MY-J100 Applicable bore size MY1B 80 MY1B100 Description Bracket Parallel pin Holding bolt Qty. 1 2 4 25 181 15 9 44 221 15 9 Note) Flat bar or round bar mounting are possible for the support bracket (slanted lines) mounted by the customer.
,E,E1,E2,E3,E4,G,M)-(1,2,3,6,8,J,N,R,W,Z,ZA)-D AC40B,C,D -(F,N)02~(F,N)04(C,D,E,E1,E2,E3,E4,G,M)-(1,2,6,8,J,N,R,W,Z,ZA)-D AC40(A)-(F,N)06(C,D,E,E1,E2,E3,E4,G,M)-(1,2,3,6,8,J,N,R,W,Z,ZA)-D AC40B,C,D-(F,N)06(C,D,E,E1,E2,E3,E4,G,M)-(1,2,6,8,J,N,R,W,Z,ZA)-D AC50(A)-(F,N)06(F,N)10(C,D,E,E1,E2,E3,E4,G,M)-(1,2,3,6,8,J,N,R,W,Z,ZA)-D AC50B-(F,N)06(F,N)10 (C,D,E,E1,E2,E3,E4,G,M)-(1,2,6,8,J,N,R,W,Z,
switch J E Japanese English The displayed language can be changed to English or Japanese.
Applicable shaft types: J, K, T Shaft through-hole and female thread machining Applicable shaft types: J, X, Z Equal dimensions are indicated by the same marker. Applicable shaft types: K, T Equal dimensions are indicated by the same marker.
(Example) For M3: L1 = 6 mm Applicable shaft types: J, K, T The maximum dimension L2 is, as a rule, twice the thread size. (Example) For M3: L2 = 6 mm Applicable shaft types: J, K, T 2. Q1 = M L2 = L2 + (3 x P) 3. L1 + (3 x P) L2 + (3 x P) 4.
PFM5-(N)01/(N)02/F01-1/2 -25No.PF-OMJ0016-J PFM5-(N)01L/(N)02L/F01L-1/2 -26No.PF-OMJ0016-J PFM5S-(N)01/(N)02/F01-1/2 -27No.PF-OMJ0016-J PFM5S-(N)01L/(N)02L/F01L-1/2 -28No.PF-OMJ0016-J PFM5-F02-1/2 -29No.PF-OMJ0016-J PFM5-F02L-1/2 -30No.PF-OMJ0016-J PFM5S-F02-1/2 -31No.PF-OMJ0016-J PFM5S-F02L-1/2 -32No.PF-OMJ0016-J PFM5-C/N-1/2 -33No.PF-OMJ0016-J PFM5-C/NL-1/2 -34No.PF-OMJ0016-J PFM5S-C/N
of the load. ) Correction factor (Reference values) V = 1.4 x 300 = 420 Find the allowable kinetic energy Ea (J).
W K CY1RG50/63 HB HC N X MX H MTS CB HA 2-P (Piping port) 4-J x E (Depth) 4-Counterbore dia.
L1 L2+A5 L3 2 1 V 2 E = W () 2 1000 Collision speed V = 1.4 Va 1 420 2 E = 1 () = 0.088 2 1000 Find the kinetic energy E (J) of the load. ) Correction factor (Reference values) V = 1.4 x 300 = 420 Ea = K E max Find the allowable kinetic energy Ea (J). Confirm that the kinetic energy of the load does not exceed the allowable kinetic energy.
4 x J 2 x P Width across flats KA ~ = ~ = d S + Stroke ZZ + Stroke ZZ1 + l + Stroke (mm) Stroke range Type Bore size (mm) A AL B C D E EA F FA G J K KA M MM N P S (mm) 125 140 160 180 200 250 300 1 2 1 2 3 4 3 4 3 4 to 1000 50 47 145 115 36 90 59 43 14 16 15 31 27 35 98 M14 x 1.5 M30 x 1.5 Lube Non-lube Air-hydro to 1000 50 47 161 128 36 90 59 43 14 16 15 31 27 35 98 M14 x 1.5 M30 x 1.5
L1 L2+A5 L3 Kinetic Energy 2 1 V 2 E = W () 2 1000 Collision speed V = 1.4 Va 1 420 2 E = x 1 () = 0.088 2 1000 Find the kinetic energy E (J) of the load. ) Correction factor (Reference values) V = 1.4 x 300 = 420 Ea = K E max Find the allowable kinetic energy Ea (J). Confirm that the kinetic energy of the load does not exceed the allowable kinetic energy.