Indexing Accuracy in Angular Seconds (")
Max permissable static Torque (Nm)
Through hole dimension (mm)
Axial Force on Output Flange [kn]
Radial Force on Output Flange [kn]
Tilting moment Mka (kNm)
Axial Runout on Output Flange Ø [mm]
Runout on the output flange Ø [mm]
Indexing Accuracy in Angular Seconds (") ±45
Max permissable static Torque (Nm) 376
Through hole dimension (mm) 18
Axial Force on Output Flange [kn] 11
Radial Force on Output Flange [kn] 10
Tilting moment Mka (kNm) 0.1
Axial Runout on Output Flange Ø [mm] 0.01
Runout on the output flange Ø [mm] 0.01
Indexing Accuracy in Angular Seconds (") ±35
Max permissable static Torque (Nm) 322
Through hole dimension (mm) 22
Axial Force on Output Flange [kn] 20
Radial Force on Output Flange [kn] 17.5
Tilting moment Mka (kNm) 1.3
Axial Runout on Output Flange Ø [mm] 0.01
Runout on the output flange Ø [mm] 0.01
Indexing Accuracy in Angular Seconds (") ±30
Max permissable static Torque (Nm) 508
Through hole dimension (mm) 40
Axial Force on Output Flange [kn] 18.4
Radial Force on Output Flange [kn] 23
Tilting moment Mka (kNm) 1
Axial Runout on Output Flange Ø [mm] 0.01
Runout on the output flange Ø [mm] 0.01
Indexing Accuracy in Angular Seconds (") ±25
Max permissable static Torque (Nm) 833
Through hole dimension (mm) 50
Axial Force on Output Flange [kn] 22.5
Radial Force on Output Flange [kn] 20
Tilting moment Mka (kNm) 2.3
Axial Runout on Output Flange Ø [mm] 0.01
Runout on the output flange Ø [mm] 0.01
Indexing Accuracy in Angular Seconds (") ±20
Max permissable static Torque (Nm) 1063
Through hole dimension (mm) 60
Axial Force on Output Flange [kn] 25
Radial Force on Output Flange [kn] 20
Tilting moment Mka (kNm) 2.9
Axial Runout on Output Flange Ø [mm] 0.01
Runout on the output flange Ø [mm] 0.01
Indexing Accuracy in Angular Seconds (") ±16
Max permissable static Torque (Nm) 1572
Through hole dimension (mm) 80
Axial Force on Output Flange [kn] 25
Radial Force on Output Flange [kn] 22
Tilting moment Mka (kNm) 3.5
Axial Runout on Output Flange Ø [mm] 0.01
Runout on the output flange Ø [mm] 0.01
Indexing Accuracy in Angular Seconds (") 23
Max permissable static Torque (Nm) 2030
Through hole dimension (mm) 90
Axial Force on Output Flange [kn] 32
Radial Force on Output Flange [kn] 17
Tilting moment Mka (kNm) 5
Axial Runout on Output Flange Ø [mm] 0.01
Runout on the output flange Ø [mm] 0.01
Indexing Accuracy in Angular Seconds (") 18
Max permissable static Torque (Nm) 3250
Through hole dimension (mm) 110
Axial Force on Output Flange [kn] 50
Radial Force on Output Flange [kn] 26
Tilting moment Mka (kNm) 10
Axial Runout on Output Flange Ø [mm] 0.01
Runout on the output flange Ø [mm] 0.01
Indexing Accuracy in Angular Seconds (") 15
Max permissable static Torque (Nm) 7500
Through hole dimension (mm) 140
Axial Force on Output Flange [kn] 84
Radial Force on Output Flange [kn] 49
Tilting moment Mka (kNm) 22
Axial Runout on Output Flange Ø [mm] 0.01
Runout on the output flange Ø [mm] 0.01
The RT series 400-Flex trunnion indexing rotary table is engineered to meet the strict requirements of aerospace manufacturing for Boeing Aerosospace by providing a zero backlash rotation system. This system is a “Zero Backlash” rotation system made for the positioning of reverse thrusters. This system was required to handle a reverse thruster and carriage with a total load of 4000 lbs with a payload of a physical size of 140”x 80” x 60” and a 5:1 safety factor. It efficiently handles a substantial load while ensuring precise positioning during assembly. The system is designed with a programmable barrel cam and a floating bearing assembly to allow for slight misalignments and structural changes. Additionally, the inclusion of a safety lock-out device enhances operational safety by preventing any movement during maintenance or assembly.
Motion Index Drives successfully helped the customer transition from an expensive and complex servo-based system to a simpler, more cost-effective solution using the RTX650/4 Rotary Indexing Table. The combination of a reliable AC gearmotor, open-loop VFD control, and a mechanically robust design provided the customer with significant savings while maintaining the performance and reliability required for their application. The solution not only streamlined the customer’s production process but also allowed for easy scalability, with over 40 units now set to be upgraded to this efficient, low-cost indexing system.
