The aim of the article is to elaborate and to investigate the automatic control system of pressure in front of evaporators of the multifunctional heat pump, which has several condensers and several evaporators. The control system must reduce the value of pressure perturbations acting on evaporators and decrease the value of pressure pulsations before them. To solve this problem, a hydraulic scheme has been developed in which this parameter is stabilized by using fine and coarse adjustment valves in hydraulic circuits of condensers and compressors using a pressure control system for a static flow mixer. The system for control of the flow of the refrigerant consists of two groups of compressors with automatic control drives installed in the lines of each of the condensers. The pressure control system uses a model of control valve with proportional-integral – derivative (PID) controller in the direct line of the controller loop. This solution allowed simplifying the heat pump control system by eliminating the necessity of matching the pressure and flow control valves in each line and controlling the flow in the line over a wider range as well. A mathematical model of the static mixer of flows installed after the pressure control valves is obtained. The proposed pressure control system gives a possibility to reduce the amplitude of pulsations of pressure before the evaporators up to 14-16 times.