In Ukraine, pressing issues are the reduction of the use of energy resources, which have to be supplied and procured from other countries, increased energy-efficient construction, reduction of carbon dioxide emissions and efficient use of heat in existing buildings, especially old-fashioned buildings. The last question is devoted to this article. One of the ways of its solution is the introduction of automated individual heat points for efficient regulation of heat consumption of the building. The article studies the heat consumption of one of the buildings of the Institute of Engineering Thermophysics of the National Academy of Sciences of Ukraine with the use of an individual heat point, the features of which are the availability of electric boilers of different capacities, which allows not only to regulate, but also regardless of heat distribution networks generate of heat energy. One of the biggest advantages of this design is the possibility of using defective night electricity at reduced tariffs, which today is extremely important for the sustainable and high-quality functioning of the Unified Energy System of Ukraine. For experimental research the mode of operation of an individual heat point without the use of electric boilers was chosen. The regulation of the temperature of the supply coolant to the heating system was carried out automatically with the help of an electronic regulator in accordance with the given control algorithm, namely: the temperature of the outside air and air in the control room, as well as the daily weekly schedule, during which the automatic transition from day to night adjustment schedule and on the contrary in the given moments of time of day. As a result of the research, a series of experimental data was obtained, on the basis of which the dependencies of the main parameters were constructed and the specific features of heat consumption in the real climatic conditions were determined. In the future, it is planned to carry out a series of experimental studies of the work of an individual heat point under various options of the given algorithms for controlling the heat consumption of the building, as well with using electric boilers of different capacities.