KISSsoft supports the user with numerous calculations for different machine elements. The new KISSdesignmodule in KISSsoft supports the combination of these machine elements in building complex system transmissions containing any number of shafts, gears, and bearings.
The main objective of this study is to perform an experimental evaluation of the structural model of a five-planet first planetary stage from a modern 6MW wind turbine gearbox.
In KISSsoft, 97 (yes, ninety-seven!) plastics are available for calculation of cylindrical and crossed axis helical gears. The materials range from unreinforced POMs and PAs to high performance reinforced and internally lubricated materials.
GWJ Technology GmbH has introduced new versions of its integration modules for Solidworks, Autodesk Inventor and Solid Edge. In addition to comprehensive tooth form output in 2D DXF or 3D STEP/IGES for various gear types, GWJ also offers integration modules for its calculation solutions eAssistant and TBK in various 3D CAD systems.
The loaded tooth contact analysis (LTCA) is crucial in understanding the deformation of gears and its impact on various factors such as noise generation, contact patterns, contact shocks, and torque variations. With the contact analysis feature in KISSsoft, users can calculate tooth contact under specific torque and speed levels, thereby assessing the performance of gears and gearboxes.
Croix Gear, recognized as a leader in the custom manufacturing of loose gears, is excited to announce new branding for the organization. Ruthie Johnston, CEO/Owner, stated, “We are excited to have our brand reflect how Croix Gear has grown and developed over the past several years. It is a new look, but the same commitment to our customers, team members and industry.”
In KISSsoft's scheduled trainings until December 2023, attendees will find introductory training courses, advanced training courses and special training courses on selected topics.
The toothed belt and pulley system known by the designation T, which has been selected as an example within this paper, was developed in the 1950s and standardized first in DIN 7721 (1977) and then in ISO 17396:2014. In this case study, the authors check if a single hob can properly cut T5 profile pulleys with 25 and 30 teeth—and if so, define the range of the number of teeth covered by this hob.