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We keep on updating and iterating our products, optimizing the structural design and creating a more scientific and reliable slewing drive device.
- Overview of slewing drive design for large...
This type of slewing drive is used on rotary platforms for large automation equipment, which has certain requirements...
Detailed instructions Contact - Gear-type slewing drive for use in high-te...
This type of slewing drive is used in high-temperature environments, and customers have high requirements for the amb...
Detailed instructions Contact - Precision helical gear slewing drive with ...
These precision helical gear H-II-O-0260 gear type slewing drives are used in automated assembly line operation produ...
Detailed instructions Contact - SE5 slewing drive with encoder and matchin...
SE5 slewing drive with encoder and matching gear motor is used in light automation equipment, with low speed, frequen...
Detailed instructions Contact
What are the advantages of using 3D modeling to design slewing drives?
Publish time:2024/04/19 News Views:69
At the beginning of its establishment, U-TRSM designed and manufactured slewing drive products based on 3D modeling. With the continuous development of Industry 4.0 and intelligent manufacturing, 3D modeling can improve the work efficiency of design engineers and quickly complete various complex design tasks. The functions such as 3D motion simulation and finite element analysis are greatly helpful for mechanical design. In the design of slewing drive, the 3D model can better communicate with the customer, quickly improve the shortcomings in the design, and quickly determine the solution. Let’s briefly talk about the advantages of using 3D modeling to design slewing drives.
1. Visual design
3D modeling software allows designers to create slewing drive 3D models in a virtual environment, giving them a comprehensive understanding of the product’s appearance, structure, and functionality at the design stage, which helps to identify potential problems and reduces modifications and rework during the actual production process.
2. Accurate measurement and analysis
Through 3D modeling, designers can accurately measure and analyze critical dimensions, materials and assembly relationships of slewing drives, which helps ensure design accuracy and reliability while optimizing product performance.
3. Modeling and simulation
3D modeling can be used for motion simulation examples and dynamic and static analysis, simulating the motion state and force condition of the slewing drive during operation, which can help to discover potential motion interference and collision problems, as well as predict the life and reliability of the product.
4. Collaborative design and optimization
Through 3D modeling design, designers can collaborate with other team members to share data and models, which helps to improve design efficiency and quality while optimizing the design solution.
In conclusion, 3D modeling plays an important role in the design of slewing drives for U-TRSM, which can not only improve design efficiency and quality, but also help designers identify problems and optimize them at the beginning of the design, so as to ensure the performance and quality of the final product.
U-TRSM’s slewing drive products have a very wide range of applications in the field of automation, 3D modeling is the basis for us to discuss and communicate with our customers. U-TRSM’s design engineers have a wealth of design foundation and experience to help customers provide better solutions.
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