CYP Dynamic moment Va Calculation example m Operating conditions Cylinder: CYP32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of arm section) L1 = 50 [mm] L2 = 50 [mm] L2 L1 Item Load factor n Note 1. Maximum load mass m 1 = m/mmax = 1/5 = 0.20 L2 Review m. L1 M2 = m g (L1 + B) 103 2.
Dynamic moment Va Calculation example m Operating conditions Cylinder: CYP32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of arm section) L1 = 50 [mm] L2 = 50 [mm] L2 L1 Item Load factor n Note 1. Maximum load mass m 1 = m/mmax = 1/5 = 0.20 L2 Review m. L1 2.
Dynamic moment Va Calculation example m Operating conditions Cylinder: CYP32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of arm section) L1 = 50 [mm] L2 = 50 [mm] L2 L1 Item Load factor n Note 1. Maximum load mass m 1 = m/mmax = 1/5 = 0.20 L2 Review m. L1 2.
L2 A4 K = 0.6 W Mey Mep Note) No need to consider this load factor in the case of using perpendicularly in a vertical position.
Cylinder: MXJ6-10 Cushion: Rubber stopper Mounting: Horizontal wall mounting Average speed: Va = 100 mm/s Load mass: W = 0.1 kg L2 = 40 mm L3 = 50 mm Model to be used Type of cushion Mounting orientation Average speed Va (mm/s) Load mass W (kg) Overhang (mm) MXU MXS L2 MXQ L3+A3 MXF Load Mass 2 MXW V = 1.4 Va Correction factor (Reference value) V = 1.4 x 100 = 140 Find the collision
A3 End plate mounting MX Mp Mr W My W W MTS W L3 A6 W L1 A2 L2 A4 MY K = 0.6 W Mey Mep CY L2 A4 MG Note) No need to consider this load factor in the case of using perpendicularly in a vertical position.
Dynamic moment MG Va Calculation Example CX m Operating Conditions Cylinder: CYP32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of arm section) L1 = 50 [mm] L2 = 50 [mm] D-X L2 L1 20Data Item Load factor n Note 1. Maximum load mass m 1 = m/mmax = 1/5 = 0.20 L2 Review m. L1 M2 = m g (L1 + B) 103 2.
Cylinder: MXY8-100 Cushion: Rubber stopper Mounting: Horizontal wall mounting Average speed: Va = 300 [mm/s] Load mass: W = 0.2 [kg] L2 = 40 mm L3 = 50 mm Model to be used Type of cushion Mounting orientation Average speed Va (mm/s) Load mass W (kg) Overhang Ln (mm) W L3 + A3 L2 Load Mass 2 V = 1.4 Va V = 1.4 x 300 = 420 Correction factor (Reference value) Find the collision speed
[mm] Overhang: L2 [mm] 400 400 m 700 mm stroke 300 300 1000 mm stroke 600 mm stroke L2 800 mm stroke 200 200 900 mm stroke 100 100 1000 mm stroke 0 0 Work load [lb] 0 2.2 4.4 6.6 8.8 11 Work load [lb] 0 2.2 4.4 6.6 8.8 11 300 300 250 250 500 mm stroke or less Overhang: L3 [mm] Overhang: L3 [mm] 200 200 m L3 600 mm stroke or less 150 150 100 100 600 mm stroke 50 50 0 0 Work load [lb] 0 2.2
L1 L2+A5 L3 Kinetic Energy 2 Find the kinetic energy E (J) of the load. Find the allowable kinetic energy Ea (J).
A3 MXH W Mp Mr W MXU W My L3 A6 W L1 A2 L2 A4 MXS W Mey Mep MXQ Note) There is no need to consider this load factor in the case of using perpendicularly in a vertical position.
Do not short-circuit these terminals. [1] Main circuit power input terminals, L1, L2 and Control power input terminals, L1, L2: Connect the 200VAC external power supply to the power supply. Refer to the power supply specification for the size of the acceptable electric wire. [2] Connect the motor cable (U, V, W) to the servomotor connection terminals (U, V, W).
IDF22E-20, IDF37E-20 IDF22E-30, IDF37E-30, IDF55E-30, (Single phase AC200V) IDF75E-30 (3 phase AC200V) L N PE L1 L2 L3 PE Customer Connection Side Customer Connection Side Terminal Connecting Screw: M3 Terminal Connecting Screw: M3 Applied Pressure Terminal: 1.25-3 Applied Pressure Terminal: 1.25-3 (Width 6.5mm and below) (Width 6.5mm and below) IDF Series 1-1 Parts Name and Functions
MAKER MADE IN IDF Series i-2 i-5 IDX-OM-W026 i i-3 HFC IDF Series i-3 i6 IDX-OM-W026 i i-4 / 1 1.5 () IDF Series i-4 / i7 IDX-OM-W026 1 1 1-1 OUT IDF22E75E IN (ONOFF ) (EVAPORATING TEMP) 5-2 IDF22E-20, IDF37E-20 IDF22E-30, IDF37E-30, IDF55E-30, AC200V IDF75E-30 AC200V L N PE L1 L2 L3 PE M3 M3 1.25-3 1.25-3 (6.5mm ) (6.5mm ) IDF Series 1-1 1 1 IDX-OM-W026 1 IDF22E75E OUT
Dynamic moment Va Calculation Example m Operating conditions Cylinder: CYV32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of the arm section) L1 = 50 [mm] L2 = 50 [mm] L2 L1 Item Load factor n Note 1. Maximum load mass m 1 = m/m max = 1/5 = 0.20 L2 Review m. L1 2.
W W Mey Mep We We L3 A3 L2 A2 Note) Static moment : Moment by gravity Kinetic moment : Moment by stopper collision Max.allowable load:W max.
When sum of load rate does not exceed 1, it is possible to use. n=1+2+3 1 < = < = 47 MXS Series Air Slide Table How To Select Allowable load: W(N) Fig.1 Overhung: Ln(mm), Correction value for moment center distance An (mm) Fig.2 Pitch moment Yaw moment Roll moment W My Mp Mr W W W Static moment Kinetic moment L1 A1 L3 A5 L2 A3 W Mp Mr My W W L3 A6 W L1 A2 L2 A4 W Mey Mep L2 A4 A2 L3 Work
Dynamic moment U: Maximum speed U Calculation examples Operating conditions Cylinder: REBH15 Mounting: Horizontal wall mounting Maximum speed: U = 500 [mm/s ] Load weight: W = 1 [kg] (excluding weight of arm section) L1 = 200 [mm] L2 = 200 [mm] W L2 L1 Item Load factor n Note 1. Maximum load weight W 1 = W/Wmax = 1/3 = 0.111 = 0.333 Review W.
L2 [mm] L2 [mm] L2 [mm] 600 600 600 Y 400 400 400 Mer m 200 200 200 0 0 0 0 5 10 15 20 25 30 35 0 10 20 30 40 50 0 10 20 30 40 50 60 70 Work load [kg] Work load [kg] Work load [kg] 1000 1000 1000 800 800 800 Mep L3 [mm] L3 [mm] L3 [mm] m 600 600 600 L3 Z 400 400 400 200 200 200 0 0 0 0 10 20 30 40 50 60 70 0 10 20 30 40 50 0 5 10 15 20 25 30 35 Work load [kg] Work load [kg] Work load [kg
Dynamic moment MG Va Calculation Example CX m Operating Conditions Cylinder: CYV32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of the arm section) L1 = 50 [mm] L2 = 50 [mm] D-X L2 L1 20Data Item Load factor n Note 1. Maximum load mass m 1 = m/m max = 1/5 = 0.20 L2 Review m. L1 2.