Integrated Modular Building: The Next Trend of Space
The Core of Container Design—Integrated Modular Building
In modern society, container buildings should follow the integrated modular building concept during the design process, emphasizing the combination of building spaces to meet basic usage functions and allowing for diverse designs based on specific needs. Firstly, containers can be combined based on actual needs, adjusting the number of containers to form different space configurations. This design approach is as flexible as building blocks. Secondly, container buildings need to connect the container structures, using methods such as welding, corner fittings, and high-strength bolts. Then, functionalities are added as needed, and the surface is decorated and artistically designed to achieve a unity of functionality and aesthetics.
The integrated modular building of single containers has a short construction period, small volume, easy transport, and high mobility. It is suitable for small residences, personal studios, street facilities, convenience stores, bars, and other high-temporary locations. Multi-container buildings require integrated modular building design methods for splicing or stacking to form more functional spaces. Container buildings can be combined in various ways, such as repetition, dislocation, rotation, and oblique insertion. They can also form positive and negative spaces, with the positive space being the original shape of the container and the negative space being the "courtyard space" enclosed by the containers.
Core Features of Integrated Modular Building
Prefabrication
integrated modular building uses industrial production lines to manufacture independent building modules that include structure, decoration, plumbing and electrical installations, HVAC, and sanitary facilities according to design requirements in advance. This transfers the complex high-altitude work environment of the construction site to the factory, improving engineering quality and reducing safety risks.
Modular Combination
Each module is an independent and complete building unit, with most of the construction work completed before leaving the factory, then transported precisely to the construction site for quick assembly.
High Efficiency, Energy Saving, and Sustainability
Standardized production reduces material waste and environmental pollution, shortens the on-site construction period, lowers energy consumption, and improves resource utilization, aligning with green building and sustainable development goals.integrated modular building minimizes material waste through precise engineering and reduces noise and dust during assembly, thereby minimizing on-site disruption and contributing positively to environmental sustainability.
Controllable Engineering Quality
Detailed construction and quality control of modules in a strict environment significantly enhance the overall quality and durability of the building.
High Adaptability and Flexibility
integrated modular building is suitable for various building scenarios, including residential, commercial, educational, medical, and other building projects. It shows unique advantages in urban renewal and old building renovations that require quick implementation.
In addition to the advantages of modular characteristics, container buildings play an important role in environmental protection and energy saving. Their ability to be assembled and dismantled at any time reduces environmental damage to a minimum, with low dismantling costs, embodying the concepts of energy saving, green environmental protection, and sustainable development. As a new form of contemporary architecture, container integrated modular buildings have become a new trend and direction in the design field, especially in advocating for sustainable development architecture today.