xiehe model

Compared with plane 2D, medical product design prototype has irreplaceable advantages

Compared with the flat 2D representation, the prototype has irreplaceable advantages. Creating a domain rapid prototype can make the details of the product clearer and the visual experience of the product more intuitive. Everyone on the design team can see the designs, which has a distinct advantage in coordinating the work of the entire team.

Modern industrial design covers a wide range of content, from paper clips and ballpoint pens to airplanes and ships, all of which contain the shadow of modern industrial design, but the design methods of so many products are different. The mechanical parts mainly based on geometric figures can be directly designed by computer drawing, and the dynamic laws of computer 3D software can be used for motion simulation experiments to a certain extent.

For some products with curved surfaces, such as small household appliances, on the one hand, they can be designed directly through the computer, and on the other hand, they can be textured through reverse engineering technology (commonly known as copying) to obtain 3D modeling data, and then smoothed and corrected by computer differential algorithm. The corrected 3D model data can be used for prototype production.

This method has more obvious advantages when designing artworks that focus on changes in surface shape, because the appearance of artworks focuses on the direct beauty of people, and there are often no rules to follow, and it is difficult to find regular geometric elements in them. If you directly perform computer 3D rendering, you will get twice the result with half the effort, and even if the model is established, its subsequent modification will be very poor. If the opposite is true, the stylist will directly use materials such as clay to shape the shape. Then, the model is parameterized by 3D scanning equipment to obtain the computer data of the original model, and then further processed by hand-held rapid modeling equipment, which can greatly improve the design efficiency.

In the production process of product prototype, it is very important to verify the product. The visualization of the prototype is an important part of product design expression, and it is also the cornerstone of design discussion. Building product models quickly and efficiently can simultaneously achieve higher design efficiency. During the creative phase of design, drawing-based 2D representations are often used. But in the middle and late stage, the performance of the design will be more specific, and the more specific and intuitive prototype should be the object of discussion.

In the market research of medical product design prototype, it is necessary to improve the intended use, performance, efficacy, safety and reliability of medical products according to the performance, function, material and risk management requirements of medical products. At the same time, there are certain requirements for the user's operating production environment and service life. After detailed review, confirmation and approval, corresponding documents are formed.

Medical product design prototype

The digital enterprise in the medical device industry represents the concept of a cross-device product life cycle and is a holistic approach to product life cycle management in the implementation and use phases. Our customers harness the power of digitization through the seamless connection of digital twins by weaving digital threads with flexibility and precision throughout the product lifecycle.

We offer powerful and unique capabilities, especially the use of digital twins at every stage of a device's product life cycle. This represents not only the conception and use stage of the digital twin, but also the realization stage of the digital twin in the factory and production process.The digital twin powers digital simulation, enabling our customers to predict, optimize, and achieve the engineering performance and quality of products and manufacturing operations.

Additionally, digital threads are woven into design, supplier and quality control to provide traceability across functional boundaries, engineering disciplines and product lifecycle stages. These digital cues, combined with big data analytics, can generate insightful reports and identify trends, leading to better and more effective medical product design.