Protective clothing
Design plan
1. The protective suit adopts a segmented design, and each segment can be installed and removed independently.
2. The fabric of this protective suit is elastic fabric, which requires tailoring and design to fit the body and not hinder the movement of the robot. Elastic bands are added to shrink the edges of each segment, and loose positions are added at stretching locations to ensure its ductility and aesthetics.
Material properties:
A. Wear resistance: no pilling and no fiber falling after friction.
B. Ductility: tensile ductility: 20%-50%. The fabric is dimensional stable, does not deform, has good resilience, and can be washed repeatedly.
C. Fiber shedding rate: less than 5 fibers per square centimeter.
D. Corrosion resistance: the material is soaked in alkaline detergent for 24 hours, the strength remains unchanged, no pilling, no fiber falling, no deformation, and normal resilience.
E. Paint adsorption: advanced weaving technology can adsorb paint and prevent dripping.
F. Antistatic level: 1x105 ~ 1x1011 Ω.
Headgear
Design plan
1. The headgear adopts an integrated modular design, which is easy to install and remove.
2. As shown in the figure, the back opening is connected with Velcro, and the outlet and the illustrated position are elastic, which makes the overall fit beautiful.
Fabric specifications and models:
| Name | Fabric Specifications | Color | Use period |
| Headgear | Main body is mesh cloth with dust-free sponge, contact surface is knitted cloth | Black | 2h without paint dripping |
Fabric characteristics:
1. Paint adsorption: Hexagonal mesh plus medium-density sponge, excellent adsorption, can firmly adsorb the paint on the protective cover to prevent dripping.
2. Fiber shedding rate: less than 5 fibers per square centimeter.
3. Corrosion resistance: The material is soaked in alkaline detergent for 24 hours, and the physical properties are unchanged, there is no fiber shedding, no deformation, and rebound.
