What are the models of scaffold fasteners
When it comes to scaffold fasteners, one of its major "characteristics" is that fasteners (especially their screws) are easily lost, and the quality of their node connections is significantly affected by the quality of the fasteners themselves and the operation of workers. The scaffold fasteners we produce have reasonably avoided some of their defects and have a more complete range of models. The small scaffold fasteners carry the safety of construction workers, and the quality, complete models, and correct use of fasteners can reasonably avoid accidents.
Scaffold fasteners are divided into forged fasteners, stamped fasteners, and cast iron fasteners. The building fastener consists of two sub fasteners, with the lower end of each sub fastener connected to a joint bolt and the larger end connected to an upper fastener with a notch and a thrust surface. The two sub fasteners are connected by rolling and riveting, and can rotate at any angle. Right angle fasteners (cross fasteners) are used to connect two vertically intersecting steel pipes.
Such as the connection between the upright pole and the large horizontal pole, and the connection between the large horizontal pole and the small horizontal pole; Rotary fasteners are used to connect two intersecting steel pipes at any angle; Docking clip (tube clip or straight clip) is used for docking two steel pipes. Fasteners reduce costs in design and use, and because their own flange thickness is greater than that of hollow rivets, they increase tensile strength and greatly improve torque resistance and rigidity.
Compared with traditional building fasteners, Heyuan Building Materials Building Fasteners are safer and more reliable. The structural strength of Heyuan Building Materials Building Fasteners is much better than the old-fashioned building fasteners. The product material is made of Q235 grade steel, which is higher than the standard, and the bolts are made of 8.8 grade high-strength bolts. The quality is guaranteed, which are more resistant to impact, improve the efficiency of scaffold dismantling, and save labor hours.
