Steel Space Frame Structure Supplier - SAFS

Cement storage is a critical aspect of industrial production, and the design of industrial warehouses and long-span roof structures plays a pivotal role in this process. The application of steel space frame technology is spearheading the development of the future of cement storage, bringing more efficient and sustainable solutions to large-scale buildings. Challenges in Cement Storage: Cement storage necessitates extensive storage capacity to meet industrial demands while also requiring protection from adverse weather conditions and environmental factors. Traditional building structures may struggle to meet these challenges, making the application of steel space frame technology an ideal choice. This technology can support long-span roofs while ensuring structural stability, enhancing the reliability of storage facilities. Versatility in Industrial Warehouses: Industrial warehouses must be multifunctional, capable of accommodating various types of cement and equipment. The application

Modern long-span space steel space frames are no longer limited to the traditional single structural form, and new structural forms and various combined structural forms are constantly emerging. Structural forms are becoming more and more complex. The "Bird's Nest" adopts a complex twisted space truss structure, the "Water Cube" adopts a polyhedral space rigid frame structure based on foam theory, the Olympic Badminton Stadium adopts the world's largest spanned string dome structure, and the Guangzhou International Convention and Exhibition Center adopts a stringed truss structure . Large-span space buildings such as "Bird's Nest" and "Water Cube" are very difficult to construct, because they are three-dimensional shapes and structural systems with spatial forces. The "Bird's Nest" is a hyperboloid saddle shape, with a high point of 68.5 meters and a low point of 40.1 meters. The plane is elliptical, with a long axis of

1. Simple operation and strong practicability The steel space  frame adopts the segment ed  high-altitude bulk construction, which is a steel space  frame construction method in which the outer expansion method is performed on the working platform from one side of the space  frame, and then the unit   grid  is lifted with a lifting tool for assembly until it is installed on the support.   Through the practical test of the project, it is proved that the steel space  frame adopts segment high-altitude bulk construction, which is conducive to meeting the requirements of engineering quality and construction period, simplifies the construction process, shortens the construction period, reduces the cost, and achieves better economy   benefits. Therefore, the technology has the significance of promotion. 2. Reduce construction accidents   probability Compared with the hoisting method and the high-altitude segmented splicing and sliding method, this method avoids safety accidents caused by he

 Steel frame is one of the forms of steel structure, most of which is made of steel pipe and spherical nodes. Steel space frame is generally divided into the following four categories of plane trussed lattice grids, tetrahedral, triangular, and hexagonal cones. The advantages and characteristics of steel space frame are the following: 1.  Simple and convenient way to transmit force, suitable for large span, column-free space frame roof structure. 2.  Light steel structure and cheap price. Compared with plane steel roof frame of equal span, when the span is less than 30m, it can save 5%-10% steel use; when the span is over 30m, it can save 10%-20%. 3.  Great spatial stiffness, low structural dead weight and good anti-seismic function. 4.  Simple construction and installation. There are few types of space frame poles and nodes. Transportation, storage, loading and unloading, assembly are all convenient. 5.  The plane arrangement of the space frame is flexible, and the roof system is fla