Here’s where you’ll get a feel for how our problem-solving software solutions work.
Of course, this is only a sampling of our product capabilities. For a closer look at how our high-productivity solutions can benefit your organization, please visit the Demonstrations section or request a Free Trial (available for select products). Better yet, give UTS a call at 800-435-7887 to discuss your interests, or get a live demonstration of our products through GoTo Meeting. We look forward to the opportunity of serving you.
The purpose of this model is to enable you to calculate the tooth thickness at the reference pitch diameter from the chordal caliper dimensions usually found on shaper cutter tool drawings and sometimes found on gear drawings.
Integrated Gear Software: 60-1441
This model calculates either the measurement over pins/balls or the length over a block of gear teeth from the tooth thickness.
Integrated Gear Software: 60-1442
This model calculates the measurement between pins or balls for internal involute spur and helical gears. This measuring system is used extensively for gears and splines and is a very accurate method for control of space width and tooth thickness.
Integrated Gear Software: 60-1443
This model calculates the measurement over pins for an involute helicoid worm.
Measurement over pins is used extensively in the industry and is a very accurate method for control of thread thickness.
Integrated Gear Software: 60-145
The measured and “effective” tooth thickness of involute gears and splines are usually different.
Integrated Gear Software: 60-146
When the coefficient of thermal expansion of the material used for gears is different from the coefficient for the mounting or housing material, it is necessary to allow for the size changes caused by this condition.
Integrated Gear Software: 60-150
This Integrated Gear Software: module calculates the angular position errors (index errors) produced by a train of gears due to the errors allowed by the AGMA tolerances for the gear quality class to which the individual gears are made.
Integrated Gear Software: 60-151
This TK Model calculates the synchronic index of an in-line geared transmission system. The synchronic index of a geared system is the minimum number of full turns made by the driver to bring the system back to the initial alignment of the gear teeth.
Integrated Gear Software: 60-164
Finding the two possible idler gear center locations is a recurring problem when designing gear trains. The problem is really one of finding the intersections of two circles.
Integrated Gear Software: 60-166
This model will find the location of the center of a central gear meshed with 3 other gears and the (equal) change in center distance from “standard” for all 3 meshes.
