In this bachelor's project the development and implementation of an automated system for building houses is considered, which combines modern automation and construction technologies to increase efficiency, accuracy, and speed of construction processes. The introduction of robotics for construction work and the use of innovative materials contribute to reducing costs and construction time. During the research, an analysis of existing technologies and methods of automation in construction was conducted, and a 3D model of the automated system was developed.
The first chapter of the diploma thesis is devoted to familiarizing with the use of 3D printers in construction and the history of the development of this technology. The relevance of the topic, as well as the advantages and disadvantages of using an automated system in construction, are considered.
The second chapter of the thesis is dedicated to the substantiation of the technological process and the analysis of the 3-D printer's operation. It includes a comparison of 3-D modeling environments in which the design for the "Automated House Creation System" will be developed.
The third chapter of the diploma thesis is devoted to the main steps and processes of creating the system, including the selection of technologies, architectural design, and software development. This chapter also analyzes possible difficulties and problem-solving strategies.
The fourth chapter of the diploma thesis includes testing, optimization, and evaluation of the efficiency of the house creation system. The results of testing, the correction of shortcomings, and measures to improve efficiency are discussed. An assessment of productivity and economic efficiency is conducted, and suggestions for further project development are provided.
Research advisor: I.Hryshanova