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Products and Applications of The Technology
As mentioned above this technology can be used universally for all possible gearing and power transmission tasks and applications including any shaft geometries, arrangements and angles such as intersecting and evading shaft axes of any angles also including parallel shafts, any external and internal coupling arrangements, any planetary drive arrangements, any gear rack arrangements, and various different roller types such as balls, cylinders etc.
Without trying to be complete, the figure below pulls together the main applications of the roller gearing mechanism using simple schematic drawings. Apparently, the variety of applications covers all the currently existing gear technologies and perhaps even more. The advantages and benefits listed above make the roller gearing products highly competitive alternatives to existing conventional designs.
  
  
  
  
  
Figure 1A |
| General design with non-intersecting shaft axes of general angle
| Figure 1B
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| General design with a large number (18) of engaged rollers | Figure 1C
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| General design with non-intersecting shaft axes of general angle
| Figure 2A
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| Design with perpendicular intersecting shaft axes | Figure 2B
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| Design with perpendicular non-intersecting shaft axes | Figure 2C
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| Design with parallel shaft axes | Figure 3A
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| Design with parallel shaft axes of opposite rotation
| Figure 3B
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| Design with parallel shaft axes of the same rotation | Figure 3C
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| Design with parallel shaft axes of opposite rotation | Figure 4A
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| Gear rack design of parallel shaft axis
| Figure 4B
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| Gear rack design of perpendicular shaft axis | Figure 4C
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| Internally coupled design | Figure 5A
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| Design without rollers | Figure 5B
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| Worm gear design
| Figure 5C
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| Planetary design |
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