Hyundai HX200L-2000 Robotics User Manual


 
HX200/HX200L-2000/HX300/HX300L/HX400
3-12
Allowable Moment of Inertia
Table 3-4 Allowable Moment of Inertia
Allowable Load Torque
Robot Model
R2 Axis
Rotation
B Axis Rotation R1 Axis Rotation
HX300/300L 150kg·m²(15.3kgf·m·s²) 30 kg·m²(3.1 kgf·m·s²)
HX400 120 kg·m²(12.2 kgf·m·s²) 50 kg·m²(5.1 kgf·m·s²)
HX200L/200L-2000
117.6 kg·m²(12.0 kgf·m·s²)
58.8 kg·m²(6.0
kgf·m·s²)
Loads must be kept below maximum conditions shown in [Fig. 3.8~Fig 3.10].
[Fig 3.8] and [Fig 3.10] show the possible range in which a point load can be
positioned, assuming the attached load is a particle. However, as the actual load(End
Effector) is not a particle, calculate and evaluate the moment of inertia on each axis.
The following exmple shows moment of inertia calculation assuming the attached
load is a particle.
[ExampleAn attached load weight is 200Kg with the HX300 Model
Allowable position of the center of gravity from the center of R1 axis
Allowable position of the center of gravity from the center of Axis R1
L
R1
≤ (Allowable Torque) / (Load Weight)
L
R1
= 687 N·m / (200Kg×9.8 m/s
2
) = 0.35 m
Allowable position of the center of gravity from the allowable moment of
inertia
L
R1
≤ (Allowable moment of inertia/ Load Weight)
1/2
= (30 kg·m
2
/ 200 kg )
1/2
= 0.387 m( > 0.35 m)
From the above result, the maximum distance from the center of R1 axis becomes
0.35 m, being restricted by the allowable moment of inertia.