Construction Safety Net
Advantages of Building safety nets
The application of construction safety nets in construction sites can significantly improve project quality and ensure worker safety. It also contributes to environmental protection and the beauty of the construction site. Specifically:
Improve project quality: The use of construction safety nets can avoid the omission of manual lashing nets, weak building supports, and cutting corners. Its mesh has high density, good elasticity, uniform and accurate spacing, and high safety factor, so it can greatly improve the quality of the project.
Guarantee personal safety: Building safety nets can effectively prevent falling injuries of people and objects, catch falling people or objects, buffer and disperse impact forces, reduce the degree of injury, and thereby protect the safety of workers and pedestrians.
Prevent fires: Building safety nets can also prevent fires caused by welding sparks, thereby ensuring the safety of the construction site.
Reduce noise and dust pollution: The use of construction safety nets can reduce noise and dust pollution on construction sites and help protect the environment.
Beautify the construction site: The construction safety net is especially suitable for high-rise buildings, which can achieve fully enclosed construction and thus beautify the construction site.
Production process of building safety net
Building safety net is a labor-intensive industrial product. Its production process requires multiple processes to complete, mainly including the following steps:
Purchase of raw materials: The options include virgin plastic granules high-density polyethylene (HDPE). The finished products are mainly dense mesh for testing, and recycled materials (generally preferably mineral water bottle cap materials), which are then crushed and granulated by machines.
Wire drawing: Also known as silk making, the production process requires precise control of the cooling water temperature. The thickness, color, and flexibility of the produced plastic wire determine the quality of the finished product.
Weaving: The commonly used dense mesh looms are 2 meters, 4 meters, 6 meters wide, etc. The weaving process determines the quality of the finished product. It is mainly to control the weaving structure and weaving density of the dense mesh. Usually the mesh density is ≥800 mesh/100cm² or more.
Sewing with a sewing machine: First cut the woven tubular mesh cloth, usually 6.2m to 6.5m, so that the length can be kept at about 6m after sewing. When sewing, wrap the rope around the edge of the mesh and then sew it together. The weight of the rope should be adapted to the mesh, not too light or too heavy. Sew around the edge of the mesh twice to ensure it is firm and sew the product certificate in.
Mesh nail: A metal ring used to facilitate the rope to pass through when hanging the dense mesh. Usually more than 20 to 30 holes are punched. It was previously done by hand, but now it is widely used by machine.
Folding and packing: Fold the finished dense mesh, pack it, and it can be shipped out.
Packaging and transportation of building safety nets
The packaging and transportation of building safety nets include the following items:
Packaging: Each safety net should be individually packaged with plastic film, paper bags, etc., with product instructions, factory inspection certificates and other documents that must be provided according to relevant regulations. The outer packaging can be cartons, polypropylene film bags, etc.
Transportation: During transportation, the safety net should be kept and issued by a dedicated person. If it is not used temporarily, it should be stored in a warehouse or special place that is ventilated, light-proof, heat-insulated, and free of chemical pollution. If the storage period of the safety net exceeds two years, it should be sampled at 0.2% (sampled 2 sheets when less than 1,000 sheets) for impact resistance test, and it can be sold and used only after passing the test.
Application scenarios of building safety nets
Building safety nets play a vital role in construction, aerial work and other occasions. Specifically:
Construction: Safety nets are often used in scaffolding construction, between buildings and scaffolding boards, elevator shafts, reserved openings, and around unprotected second-floor slabs of buildings to prevent construction workers or materials from falling.
Aerial work: Safety nets are essential protective facilities in installation, maintenance, cleaning and other work. It can provide reliable support and protection for workers to prevent accidental falls.
Stunt performances: Safety nets are also widely used when performing stunts or aerial skills. It can provide safety protection for performers to prevent accidental falls during the performance.
In summary, building safety nets have many advantages, their production process is strictly standardized, and there are clear requirements for packaging, transportation and storage. They are widely used in many fields such as construction and aerial work.
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