چكيده به لاتين
fter the Industrial Revolution and cultural and social changes in people's lifestyles and the emergence of new needs, other previous methods of construction did not meet human needs. On the other hand, in architecture, there are different sets consisting of single-celled spaces, which often have a series of features due to their temporary nature, such as: possibility of erection and dismantling in a short time, easy and cheap transportation and installation, etc. So in order to meet the changing needs of people and the existence of such applications in architecture, although many solutions have been widely proposed in other countries, but in our country are significantly unfamiliar and some shortcomings in this regard. There are solutions. For example, they often feel temporary, they are not adaptable to different uses, they are not malleable, a lot of time is spent assembling or deconstructing them, they can be carried and set up in different situations by unskilled people. They do not, they harm the environment, or even with the previous conditions they may have spent a lot of money. One of these well-known strategies is modulation. Modular structures have the ability to enable users to produce more diverse structures, with the possibility of erection and dismantling in a short time, easier and cheaper to transport and install, and with greater scalability. In most modular structures, parts are pre-designed and manufactured, but this prefabrication does not lead to limitations in creating various structures. The purpose of this study is to find the features and gaps in the field of existing modular structures and eliminate it in the current design. For this purpose, we will first analyze some examples of these existing structures and then, using the extracted features and existing vacuums, we will design some examples of these single-celled spaces.
