TBI MOTION Ball Spline Feature
High Load-Carrying Capacity
Every groove on the TBI Spline shaft is precision ground to form a perfect 40° angular contact point. The concept of 40° contact design is to increases the load carrying capacity and rigidity so that it is able to handle a greater moment load.
Zero Angular Clearance / Backlash
Every groove on the TBI Spline shaft is precision ground to form a perfect 40° angular contact point which is called the Gothic arch. The Gothic design eliminates clearance that could generate deflections and therefore best suited for the applications that requiring maximum precision.
The unique TBI 40° angular contact is design to drive with the minimum of friction force while the design performs not only the highest sensitivity but also the rigidity.
A wide contact angle and an appropriate level off preload are combined to provide high torque and moment rigidity.
EZY Mount on Design
TBI Ball spline is low and simple maintenance designed, therefore even if disassembly is required. When the Spline Nut is necessary to remove for the spline shaft due to the ball retaining design the steel balls will not fall apart like the traditional Nut design.
- About TBI MOTION
- Linear Guide
- Ball Screw
- Ball Spline
- Rotary Series
- Single Axis Actuator
- Human Source
Ball Spline | Linear Motion Products Design and Manufacturing - TBI MOTION
TBI MOTION Technology Co., Ltd., since 1986, is a Ball Spline | transmission component manufacturer. ISO9001 certified, PDCA and TPM systems for quality control and green energy supply chain, linear motion products such as linear actuator, ball screw, single axis actuator, ball spline and linear guide are supplied with high efficiency.
TBI MOTION's linear motion products are widely applied in various industries, including automatic control machine robots, semi-conductors, machinery, medical equipment, solar energy equipment, machine tools and parking systems. With both advanced technology and 32 years of experience, TBI MOTION ensures each customer's demands are met.