Embedded 3D Printing Based on High Elastomeric Strain Wireless Sensor

In view of the high degree of personalization of embedded 3D printing products, traditional 3D printing is not applicable. This paper presents an embedded three-dimensional printing technology based on high elastic strain wireless sensor. The whole method framework includes mechanical system, control module and visual module. Firstly, three non-collinear points on the high elastic strain wireless sensor are used to align the guide plate and the model. Then, according to the position and direction of the guide hole on the high elastic strain wireless sensor, the mechanical system is controlled to guide the model guide hole to move to the center of the visual module. The characteristic parameters such as roundness, length-width ratio, diameter and center distance of the guide hole are analyzed to determine whether the guide hole is qualified. The experimental results show that compared with the traditional three-dimensional printer, the three-dimensional printer designed in this paper shortens the production cycle and improves the print resolution.