RTX
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Rotary indexers TYPE RTX

* Dimensions depend on the used drive

upside down Load on output flange Torque on output flange [Nm] 376 Load on central column Precision Axial runout on the output flange ø [mm] Runout on the output flange ø [mm] Indexing accuracy * in angular seconds [“] * Increased indexing accuracy accessible through selected components „From division 16, the division error due to multi-point locks on the drive cam is larger by a factor of 1.5“ Torque on output flange [Nm] 10 Combined loads and possible process forces must be confirmed by TAKTOMAT. Standard drive Motor size Overall height (output flange screw-on suface) Gear size (Center...

Load table Speed t = Step time in [s] JMax = Mass moment of inertia (base plate + fixtures and parts) in [Kgm²] Without motor and lifetime n = Number of stops / 360° revolution of output flange JL = Mass moment of inertia by life time (base plate + fixtures and parts) in [Kgm²] J = Mass moment of inertia with motor (base plate + fixtures and parts) in [Kgm²] From n=16 The output flange steps 2 times per cam revolution J From n=36 The output flange steps 3 times per cam revolution

* Dimensions depend on the used drive

upside down Load on output flange Radial force FrA [kN] 17,5 Axial force FaA [kN] 20 Torque on output flange [Nm] 322 Load on central column Precision Axial runout on the output flange ø [mm] Runout on the output flange ø [mm] Indexing accuracy * in angular seconds [“] * Increased indexing accuracy accessible through selected components „From division 16, the division error due to multi-point locks on the drive cam is larger by a factor of 1.5“ Torque on output flange [Nm] 77 Combined loads and possible process forces must be confirmed by TAKTOMAT. Standard drive Motor size Overall height...

Load table Speed t = Step time in [s] JMax = Mass moment of inertia (base plate + fixtures and parts) in [Kgm²] Without motor and lifetime n = Number of stops / 360° revolution of output flange JL = Mass moment of inertia by life time (base plate + fixtures and parts) in [Kgm²] J = Mass moment of inertia with motor (base plate + fixtures and parts) in [Kgm²] J From n=16 The output flange steps 2 times per cam revolution J From n=36 The output flange steps 3 times per cam revolution

drehend feststehend Position of the hole pattern in the output flange Stop number Quantity bolts Torsion fitting holes Further stop numbers you can find in the RTF/RTX550 dimension sheet at our website. * Dimensions depend on the used drive feststehend drehend Distanzausführung (feststehend)

upside down Load on output flange Axial force FaA [kN] 18,4 Torque on output flange [Nm] 508 Load on central column Precision Axial runout on the output flange ø [mm] Runout on the output flange ø [mm] Indexing accuracy * in angular seconds [“] * Increased indexing accuracy accessible through selected components „From division 16, the division error due to multi-point locks on the drive cam is larger by a factor of 1.5“ Torque on output flange [Nm] 77 Combined loads and possible process forces must be confirmed by TAKTOMAT. Standard drive Motor size Overall height (output flange screw-on...

Load table Speed t = Step time in [s] JMax = Mass moment of inertia (base plate + fixtures and parts) in [Kgm²] Without motor and lifetime n = Number of stops / 360° revolution of output flange JL = Mass moment of inertia by life time (base plate + fixtures and parts) in [Kgm²] J = Mass moment of inertia with motor (base plate + fixtures and parts) in [Kgm²] From n=16 The output flange steps 2 times per cam revolution J From n=36 The output flange steps 3 times per cam revolution

* Dimensions depend on the used drive

upside down Load on output flange Axial force FaA [kN] 22,5 Torque on output flange [Nm] 833 Load on central column Precision Axial runout on the output flange ø [mm] Runout on the output flange ø [mm] Indexing accuracy * in angular seconds [“] * Increased indexing accuracy accessible through selected components „From division 16, the division error due to multi-point locks on the drive cam is larger by a factor of 1.5“ Torque on output flange [Nm] 170 Combined loads and possible process forces must be confirmed by TAKTOMAT. Standard drive Motor size Overall height (output flange screw-on...

Load table Speed t = Step time in [s] JMax = Mass moment of inertia (base plate + fixtures and parts) in [Kgm²] Without motor and lifetime n = Number of stops / 360° revolution of output flange JL = Mass moment of inertia by life time (base plate + fixtures and parts) in [Kgm²] J = Mass moment of inertia with motor (base plate + fixtures and parts) in [Kgm²] J From n=16 The output flange steps 2 times per cam revolution From n=36 The output flange steps 3 times per cam revolution

* Dimensions depend on the used drive

upside down Load on output flange Torque on output flange [Nm] 1063 Load on central column Precision Axial runout on the output flange ø [mm] Runout on the output flange ø [mm] Indexing accuracy * in angular seconds [“] * Increased indexing accuracy accessible through selected components „From division 16, the division error due to multi-point locks on the drive cam is larger by a factor of 1.5“ Torque on output flange [Nm] 200 Combined loads and possible process forces must be confirmed by TAKTOMAT. Standard drive Motor size Overall height (output flange screw-on suface) Gear size (Center...

Load table Speed t = Step time in [s] JMax = Mass moment of inertia (base plate + fixtures and parts) in [Kgm²] Without motor and lifetime n = Number of stops / 360° revolution of output flange JL = Mass moment of inertia by life time (base plate + fixtures and parts) in [Kgm²] J = Mass moment of inertia with motor (base plate + fixtures and parts) in [Kgm²] From n=16 The output flange steps 2 times per cam revolution From n=36 The output flange steps 3 times per cam revolution