Sichuan Gezhen Technology Applies for Blockchain-Based Seismic Isolation Bearing Traceability Patent to Enhance Building Safety and Management Efficiency

Sichuan Gezhen Technology Applies for Blockchain-Based Seismic Isolation Bearing Traceability Patent to Enhance Building Safety and Management EfficiencyOn December 18, 2024, the State Intellectual Property Office of China revealed that Sichuan Gezhen Technology Co., Ltd

Sichuan Gezhen Technology Applies for Blockchain-Based Seismic Isolation Bearing Traceability Patent to Enhance Building Safety and Management Efficiency

On December 18, 2024, the State Intellectual Property Office of China revealed that Sichuan Gezhen Technology Co., Ltd. submitted a patent application titled "A Blockchain-Based Seismic Isolation Bearing Traceability Method, System, and Device," with publication number CN119130498A and an application date of November 2024. This patent application aims to address the shortcomings of existing seismic isolation bearing traceability systems by leveraging blockchain technology to improve the transparency and reliability of the entire lifecycle management of seismic isolation bearings, thereby better ensuring building safety.

The core of this patent application lies in utilizing blockchain technology to build a secure, transparent, and traceable information management system for seismic isolation bearings. Existing systems typically only record data from production and testing phases, lacking crucial installation information. This limits their ability to collaborate with other systems (such as vibration monitoring and analysis systems), reducing the overall system value. Sichuan Gezhen Technology's patent application seeks to remedy this deficiency by constructing a more complete and comprehensive traceability system.

The patent abstract details a technical solution for the blockchain-based traceability method, system, and device. The system first receives target installation information for a specific bearing from a designated entity and generates a primary traceability code and primary installation information based on this data. The system then uses the primary traceability code to search for the corresponding primary object within the traceability blockchain. Using the primary object and primary installation information, the system obtains the target object associated with the primary object. Next, the system generates a target traceability code for the seismic isolation bearing based on the target installation information and publishes the binding relationship between the target traceability code and the target object to the traceability blockchain.

This blockchain-based traceability mechanism offers significant advantages. First, blockchain's immutability ensures data authenticity and integrity. All information regarding seismic isolation bearings, from production to installation, is permanently recorded on the blockchain, and any attempt to tamper with the data will be immediately detected. Second, the distributed storage mechanism of blockchain enhances system security. Data is not stored on a single server but distributed across multiple nodes, ensuring data integrity and availability even if some nodes fail. Third, blockchain's transparency and traceability allow all stakeholders to access and verify data, improving trust and efficiency.

This technology not only solves the problem of missing installation data in existing traceability systems but also enables seamless integration with other systems. By recording installation information on the blockchain, data can be easily shared and collaboratively analyzed with vibration monitoring and analysis systems, allowing for a more comprehensive assessment of the performance and lifespan of seismic isolation bearings and providing more reliable assurance of building safety.

Specifically, the system integrates production, testing, and installation information onto a unified platform, enabling full lifecycle tracking of data. This allows building owners, designers, contractors, and regulatory authorities to clearly understand the origin, quality, installation status, and subsequent maintenance of seismic isolation bearings. This transparency not only improves building safety but also promotes standardized management in the construction industry. Importantly, it provides more accurate data support for building insurance companies, enabling more effective risk assessment and more reasonable insurance plans.

Furthermore, this technology can improve the efficiency of the construction industry. Automated data recording and information sharing reduce human error, simplify management processes, and lower management costs. Real-time monitoring and analysis of data allow for the timely detection and mitigation of potential risks, preventing accidents.

In conclusion, Sichuan Gezhen Technology's patent application for a blockchain-based seismic isolation bearing traceability system represents a positive attempt at technological innovation in the field of building safety. By combining blockchain technology with the practical needs of seismic isolation bearing management, this patent effectively addresses the shortcomings of existing traceability systems, offering a new solution for improving building safety and management efficiency. The successful application of this technology will have a positive and far-reaching impact on the development of the construction industry, driving it towards a safer, more efficient, and more intelligent future, contributing to the creation of a safer and more reliable built environment. This will not only improve building quality and safeguard people's lives and property but also provide important technological support for the sustainable development of the construction industry. The application prospects of this technology are broad, with future potential for wider adoption and application in various fields, bringing greater value to related industries. Its positive role in enhancing the overall technical level and management efficiency of the construction industry cannot be ignored, laying a solid foundation for future smart building construction. Ultimately, the successful application of this technology will help drive the digital transformation and upgrading of the entire construction industry.