1. The annular hole can undergo geometric deformation during impact.

2. Demonstrates superior flexibility characteristics.

3. Enhanced energy absorption capability.

4. Achieve a falling rock interception with kinetic energy exceeding 3,000 KJ.

5. Enhanced flexibility in working scope.

6. Reduced maintenance requirements.

7. Interlocking of independent annular holes.

8. Replacement and repair after local damage are easier and more cost-effective.

Occupancy of production site is minimal.

Full digital control ensures high production precision, excellent product quality, and low waste rate.

Optimized structure eliminates the need for fasteners, resulting in low production costs.

Unit weight cost of wire is lower than that of wire rope; construction with circular nets, production of circular nets involves processing wire raw materials, which has a higher added value than that of wire rope net production.

The comprehensive production cost is basically equivalent between annular mesh and wire rope mesh per unit area.

The latest generation of circular mesh machines boasts mechanical performance and functions at international standards, significantly advancing the domestic circular mesh manufacturing process and greatly reducing production costs. At the same time, it propels the protective capability of domestically produced circular mesh to quickly join the ranks of advanced Western developed countries, bridging the decades-long gap with foreign products.

The application of the new generation of annular net machines signifies a leap forward for the domestic slope protection net manufacturing industry. Without increasing material costs, it can address the major隐患 of inadequate protective levels in past flexible net systems. The trend towards comprehensive replacement of wire rope nets by the new annular net is imminent!