| Integrated Gear Software: 60-180 |
| Once a target gear ratio has been determined and the load is known the next step in the design procedure is to obtain the geometry for a preliminary gear set. |
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| Integrated Gear Software: 60-196 |
| This model calculates the mathematical and geometrical data for the involute of a circle. The data is divided into three parts. The first is for a point on an involute curve. |
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| Integrated Gear Software: 60-1961 |
| The purpose of this model is to provide lead gear ratios for Barber Colman “D” and #10 hobbing machines. The feed constant is incorporated in the equation for “b” in the TK Solver procedure function “LGR” (b=0.5*pn/pi()). |
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| Integrated Gear Software: 60-1962 |
| The purpose of this model is to provide lead gear ratios for Gould and Eberhardt hobbing machines. The feed constant is incorporated in the equation for “b” in the TK Solver procedure function “LGR” (b=.75*pn/pi()). |
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| Integrated Gear Software: 60-1963 |
| The purpose of this model is to obtain index and lead gear ratios for gears cut on hobbing machines without the use of a differential. |
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| Integrated Gear Software: 60-1964 |
| The purpose of this model is to obtain a two or four gear set to produce a required ratio using gears with tooth numbers between desired limits. The ratio must be between 0 and 1. The model first finds a fraction very close to the ratio desired. |
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| Integrated Gear Software: 60-400 |
| The primary purpose of this model is to provide an accurate set of polar and rectangular coordinates for use in plotting the final form of external involute spur and helical gears singly and in mesh. |
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| Integrated Gear Software: 60-410 |
| The primary purpose of this model is to provide an accurate set of polar and rectangular coordinates for use in plotting the form of external involute spur and helical gears produced by various methods. |
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| Integrated Gear Software: 60-411 |
| This model will plot the transverse plane projection of the positions of the cutting edges of a hob. (The transverse plane is the plane of rotation of the gear.) It may be used to evaluate the suitability of a hob for the production of a gear. |
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| Integrated Gear Software: 60-450 |
| The primary purpose of this model is to provide an accurate set of polar and rectangular coordinates for use in plotting the final form of external and internal involute spur and helical gears singly and in mesh. |
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