1. Combined hydropower system with bidirectional output soderzhaschayarezervuar fluid which contains and stores hydraulic fluid, at least one electric hydraulic pump that is connected to a reservoir for the fluid for suction, discharge and release of said hydraulic fluid, at least a mechanical hydraulic pump, which is connected to a reservoir for fluid suction, discharge and release of said hydraulic fluid, at least two inverse GOVERNMENTAL sequence valve, each of which is connected with an electric hydraulic pump, and a mechanical hydraulic pump, wherein each sequence of non-return valves adapted to be mounted in a normally open state in the first direction and in the latched state in the second direction idvoynoy discharge valve connected to the reservoir for fluid and each of the check valves sequences for switching output destinations of the hydraulic fluid sredy.2. Combined hydropower system with bidirectional yield according to Claim. 1, wherein the electric hydraulic pump connected to the engine, and the engine is configured to actuate the electric pump in a direction either clockwise or counterclockwise strelki.3. Combined hydropower system with bidirectional yield according to Claim. 1 in kotoroyelektrichesky hydraulic pump comprises at least two outlets for a fluid electric pump in different directions, the mechanical hydraulic pump comprises at least Mechanical job output1. Комбинированная гидроэнергетическая система с двунаправленным выходом, содержащаярезервуар для текучей среды, который содержит и хранит гидравлическую текучую средупо меньшей мере один электрический гидронасос, который соединен с резервуаром для текучей среды для засасывания, нагнетания и выпуска указанной гидравлической текучей средыпо меньшей мере один механический гидронасос, который соединен с резервуаром для текучей среды для всасывания, нагнетания и выпуска указанной гидравлической текучей средыпо меньшей мере два обратных клапана последовательности, каждый из которых соединен с
