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High precision Hypoid gear


Tooth contact on coast side was good.

Below are some more calculation results obtained with help of DDS method using software from kisssoft

1. Gear cutting machine summaries are used as input data for calculation of gear and pinion tooth surface geometry.

DDS method produces more data for 3-dimentional graphic presentation compare to other methods. The calculation results are presented as 3-d models with high resolution. The resolution and quality of graphical outputs are often underestimated.

DDS software provides high quality 3-dimentional calculation results in a form of a CAD model, which can be used in existing CAD programs like CATIA or Pro/Engineer.

2. Tooth Contact Analyzes (TCA).

The new method calculates distances between the meshing surfaces in each of a large number of points in order to provide a high quality representation of the combined tooth contact. The theoretical coordinates of the points on the tooth surface are calculated by using the gear cutting machine summary. The real coordinates can be measured on a CMM (reverse engineering). The theoretical or the real coordinates can be loaded to the TCA software for mathematical simulation of the tooth contact.

With DDS it is easy to show the 3-dimentional models of the gear tooth in rendering or in wire frame. The gear, the pinion and the contact pattern can be seen in one assembly in the same time. The image below has the gear tooth surface shown in 67% of transparency so it is easy to see both surfaces on the same image.

The image of the contact pattern shown above (elementary contact) is not the same contact patterns that one can see on a real gear set after the gears were rotated and the contact moved over the tooth surface. The image below shows the contact simulation on gear set that was rotated – combined contact. The combined contact pattern is calculated as a sum of the elementary contacts on different angular positions of the gears. Different increments of rotation can be selected in order to obtain different images of the combined contact.

Because of the high resolution of the DDS method it becomes posibble to calculate areas covered by different colors on the 3-dimentional contact model.

The following outputs can be helpful for gear noise, lubrication and driving effitiency analyzes.

The black lines on the picture are tangent to the gear tooth surface. Each line represents direction and value of sliding velocities between gear and pinion tooth surfaces.

he red lines show approaching velocity vectors of the pinion tooth surface to the gear tooth surface.

The driving efficiency can be calculated very accurate for each angular position of the rotating gears. The author calculates the driving efficiency as a sum of driving efficiency calculated on each cell on the gear tooth surface. DDS method allows to calculate sliding direction and friction on each cell of the tooth surface and for each position of the rotating gears. While the author has been conducting the driving efficiency calculation for different designs of spiral bevel and hypoid gears, different methods of improving of driving efficiency have been discovered.