Indexing Accuracy in Angular Seconds (")
Axial Force on Output Flange [kn]
Radial Force on Output Flange [kN]
Tilting Moment on Output flange k[Nm]
Tilting Moment on Central Column k[Nm]
Axial Runout on Output Flange Ø [mm]
Runout on the output flange Ø [mm]
Indexing Accuracy in Angular Seconds (") ±30
Axial Force on Output Flange [kn] 23
Radial Force on Output Flange [kN] 24
Tilting Moment on Output flange k[Nm] 2
Tilting Moment on Central Column k[Nm] 2
Axial Runout on Output Flange Ø [mm] ±0.01
Runout on the output flange Ø [mm] ±0.01
Indexing Accuracy in Angular Seconds (") ±22
Axial Force on Output Flange [kn] 32
Radial Force on Output Flange [kN] 17
Tilting Moment on Output flange k[Nm] 5
Tilting Moment on Central Column k[Nm] 4
Axial Runout on Output Flange Ø [mm] ±0.01
Runout on the output flange Ø [mm] ±0.01
The TT125 Indexing Table was engineered to meet the high demands of medical manufacturing, particularly in response to the COVID-19 pandemic. It allows for rapid production of medical-grade face masks by indexing at 90 degrees swiftly and efficiently. The integration of a 3 phase AC gearmotor with a 24VDC brake ensures an index time of approximately 0.5 seconds for each 90-degree motion, making it ideal for high-volume manufacturing environments. Its robust construction and precise engineering contributed to its effectiveness in producing the necessary quantities of face masks, thereby aiding in the prevention of COVID-19 spread.
– TT251 fixed cam indexers allowed for infinite positioning and index angles.
– Complete trunnion assembly with frames and risers.
– The system can utilize any motor type required by the customer, including AC motors with encoders, servo motors.
The TT251 indexers were custom-designed with special cam profiles and output follower wheel, to achieve an output rotation specific to the application. The system uses oversized cam followers that always remain engaged with the cam profile, ensuring smooth, high-precision rotation during the welding process. Despite its capability to handle high loads, the system was extremely compact relative to its inertial load capacity, allowing for space-saving in tight automation setups.
