This thesis presents the process of designing and implementing a prefabricated house based on modern principles of prefabricated construction. The central problem addressed in the work is how to design and integrate electrical installations as efficiently as possible already in the production phase, thereby reducing the need for additional on-site electrical work. The goal of the thesis was to develop a system that ensures simple, transparent, and safe implementation of electrical installations in a prefabricated house while enabling fast assembly on the construction site.
The thesis provides a detailed presentation of the course of electrical installations within individual modules, the method of connecting the modules, and the wiring of junction boxes, which ensures a clear and logical power distribution structure. This approach enables a clear division of circuits and simplifies work during installation and maintenance.
The methods used include technical design, analysis of existing approaches, and comparison of different implementation options. The results show that proper prefabrication of electrical installations in production significantly reduces on-site work, increases execution accuracy, and allows for greater process repeatability.
The main conclusion of the thesis is that modular prefabrication of electrical installations in production represents an effective solution that contributes to faster house assembly, cost reduction, and higher quality of execution.
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