With the increasing application of large-scale energy storage, its flexible output adjustment capability provides a solution for the optimal operation of the grid with large-scale wind power access. Aiming at the coexistence of energy storage in the power system in the form of power supply side, grid side and user side, a multi-objective optimization model of energy storage coordinated scheduling is proposed. The model considers the wind-storage integrated power station, the grid side battery energy storage power station and the electric vehicle to participate in the system dispatching operation, and deeply excavates the complementary regulating capacity of various forms of energy storage to promote wind power consumption; the battery energy storage power station faces the power grid dispatches operation, provides reserve while participating in system peak shaving, and makes full use of the adjustable space of energy storage to optimize system operation. Considering the different interests of different forms of energy storage, a multi-objective optimal scheduling model with the largest revenue from the wind-storage integrated power station, the lowest total operating cost, and the lowest payment cost for electric vehicle owners is constructed. Finally, based on the simulation experiment of the ten-machine example system, the proposed model can consider the interests of all forms of energy storage investment entities and improve the capacity of wind power.