Simulation and selection tool for rotary and linear motion mechanisms.
Easily simulate various mechanisms such as tables, arms, belts, ball screws, and rack and pinions. It is a powerful tool that allows you to select the optimal combination while changing values such as drive patterns, loads, gear ratios, and screw leads.
Inquire About This Product
basic information
Cymex, developed as the gear selection software for the top brand of planetary gear units, Wittenschein Alpha, incorporates the latest gear data from Wittenschein Alpha and also includes data from major servo motors worldwide. Users can create their own motor data as well. The software is graphical and user-friendly, allowing for immediate verification of detailed simulation results with simple numerical inputs. Of course, it is also possible to simulate direct drive mechanisms that do not use gears. We, Wittenschein Turnary Co., Ltd., are a group company engaged in the development and manufacturing of integrated controller-amplifier servo actuators in Japan. Cymex is used for the optimal selection and proposals of our servo actuators. We respond to requests for optimizing actuators and mechanisms you are currently considering, as well as for advancing to more compact and simplified wiring structures. Cymex can be downloaded for free, but please contact the sales department of Wittenschein Turnary Co., Ltd. (Tel: 0268-29-4620) first.
Price information
Free download from the website.
Delivery Time
P1
※Free download from the website.
Applications/Examples of results
Simulation for rotary and linear motion mechanisms Selection of motors, gears, and various mechanical components
Company information
Wittenstein Ternary is a Japanese company responsible for the development, design, and manufacturing of electric servo actuators within the Wittenstein Group, which is based in Germany and operates globally. Its products have been adopted by major machine manufacturers in Europe and America for over 10 years due to their integrated design and high basic performance. By optimally merging electricity, mechanics, and software, the servo actuators feature a compact, high power density design with a controller-amplifier integrated structure, promoting shorter development times for automated machines and energy efficiency.