What are the principles of house reinforcement and renovation for a reinforcement and renovation company? According to the characteristics of the reinforcement project, the reinforcement requirements must be technically safe and reliable, economically reasonable, and easy to construct. In addition to meeting the usage requirements, the following principles should be followed:

Prior to structural reinforcement, a reliability assessment should be conducted in accordance with the "Industrial Factory Reliability Firmness Standards" and the "Civil Building Reliability Standards"; the content and scope of the reinforcement design should be determined based on the firmness results. At the same time, the safety grade of the post-reinforcement building structure should be determined based on the severity of structural damage and the specific requirements of the user.

Retain and utilize existing structures and components as much as possible to avoid unnecessary dismantling and replacement. The retained parts must ensure safety and durability; when dismantling parts, consider recycling and sustainability.

Considering comprehensive technical and economic indicators, take effective measures in design and construction organization to minimize the construction period and reduce downtime and production halts, aiming to minimize or have minimal impact on the normal use of the building.

In addition to the analysis of structure and the calculation of bearing capacity, the reinforcement design of house reinforcement and transformation principles also requires a reasonable structure and reliable connections. Under possible conditions, the reinforcement design should consider the architectural aesthetics, integrate with facade modeling and interior decoration, and perform necessary architectural art treatments to minimize the visibility of reinforcement traces.

In addition to meeting load-bearing requirements, structural reinforcement or component strengthening should also possess adequate seismic resistance. Due to localized reinforcement or stiffness abrupt changes, new weak layers or areas should not be formed. At the same time, attention should be given to the impact of increased structural stiffness on the increase in seismic forces. Structural reinforcement should meet the relevant seismic requirements, enhancing the ductility and integrity of the structure.

Due to high temperatures, corrosion, freeze-thaw cycles, vibration, and structural damage caused by uneven settlement of the foundation, it is imperative to simultaneously reduce, minimize, or take effective measures to counteract these adverse factors to prevent further damage to the structure after reinforcement and to avoid secondary reinforcement. Reinforcement construction according to the principles of house reinforcement and renovation is often carried out under the presence of loads. Effective measures such as setting up temporary supports and unloading treatments must be taken during reinforcement construction to prevent and avoid safety accidents.

If it is indeed difficult or unreasonable to reinforce or if the existing structure is not severely damaged, the use of the structure can be altered or the loads can be reduced and restricted. The load reduction method can be changed to lightweight partition walls, thermal insulation, or insulating materials, and the upper structure can be converted to a steel structure. If the process allows, equipment on the floor should be reasonably relocated; the use of the floor should be reduced or restricted. Gradually tightening the sides helps with the tilt.