System and control method of all-DC power supply and storage for building

What is claimed is: 1. A system of direct current (DC) power supply and storage for a building, comprising: a renewable energy power generation apparatus, a main grid system, a first DC/DC conversion apparatus, an alternating current (AC)/DC conversion apparatus, a first voltage DC bus, and a first power adjustment apparatus; wherein an input end of the first DC/DC conversion apparatus is connected to an output end of the renewable energy power generation apparatus, and an output end of the first DC/DC conversion apparatus is connected to the first voltage DC bus; and the first DC/DC conversion apparatus is configured to convert DC voltage generated by the renewable energy power generation apparatus into voltage of the first voltage DC bus; an input end of the AC/DC conversion apparatus is connected to the main grid system, an output end of the AC/DC conversion apparatus is connected to the first voltage DC bus; and the AC/DC conversion apparatus is configured to convert AC power from the main grid system into DC power; the first voltage DC bus is connected to a first electrical device and configured to power the first electrical device; and the first power adjustment apparatus is connected to the first voltage DC bus; the first power adjustment apparatus is configured to balance between power generation of the renewable energy power generation apparatus, power supply of the main grid system, and power consumption of the first electrical device; the first power adjustment apparatus comprises a first energy storage apparatus and a first charge-discharge conversion apparatus; one end of the first charge-discharge conversion apparatus is connected to the first voltage DC bus, and the other end is connected to the first energy storage apparatus; and the first charge-discharge conversion apparatus is configured to control charge/discharge of the first energy storage apparatus and adjust the current direction and magnitude of the first energy storage apparatus based on the charge/discharge power of the first energy storage apparatus to achieve a preset control mode of a system of all-DC power supply and storage for a building, wherein the preset control mode of the system of all-DC power supply and storage for a building comprises: a constant-main-power supply mode, an electricity demand response mode, and a minimum electricity cost mode, the constant-main-power supply mode is a mode in which the main grid system supplies constant power, the electricity demand response mode is a mode in which electricity demand of the first electrical device and the second electrical device is changed to satisfy a power quota of the main grid system, and the minimum electricity cost mode is a mode in which a total electricity cost is minimized under the premise of satisfying load electricity demand. 2. The system of DC power supply and storage for a building according to claim 1 , further comprising: a second DC/DC conversion apparatus, a second voltage DC bus, and a plurality of second power adjustment apparatuses; an input end of the second DC/DC conversion apparatus is connected to the first voltage DC bus, an output end of the second DC/DC conversion apparatus is connected to the second voltage DC bus, and the second DC/DC conversion apparatus is configured to convert DC voltage; the second voltage DC bus is connected to a second electrical device and configured to power the second electrical device; and rated voltage of the second electrical device is lower than rated voltage of the first electrical device; and each second power adjustment apparatus of the plurality of second power adjustment apparatuses is connected to the second voltage DC bus; each second power adjustment apparatus is configured to adjust a balance between the power generation of the renewable energy power generation apparatus, the power supply of the main grid system, the power consumption of the first electrical device, and power consumption of the second electrical device; each second power adjustment apparatus comprises a second energy storage apparatus and a second charge-discharge conversion apparatus; an input end of the second charge-discharge conversion apparatus is connected to the second voltage DC bus, and an output end of the second charge-discharge conversion apparatus is connected to the second energy storage apparatus; and the second charge-discharge conversion apparatus is configured to control charge/discharge of the second energy storage apparatus. 3. The system of DC power supply and storage for a building according to claim 2 , wherein the first charge-discharge conversion apparatus comprises a first switch, a second switch, a first step-up circuit, and a first step-down circuit; one end of the first switch is connected to the first voltage DC bus, the other end of the first switch is connected to one end of the first step-up circuit, and the other end of the first step-up circuit is connected to the first energy storage apparatus; and one end of the second switch is connected to the first voltage DC bus, the other end of the second switch is connected to one end of the first step-down circuit, and the other end of the first step-down circuit is connected to the first energy storage apparatus; the second charge-discharge conversion apparatus comprises a third switch, a fourth switch, a second step-up circuit, and a second step-down circuit; one end of the third switch is connected to the second voltage DC bus, the other end of the third switch is connected to one end of the second step-up circuit, and the other end of the second step-up circuit is connected to the second energy storage apparatus; and one end of the fourth switch is connected to the second voltage DC bus, the other end of the fourth switch is connected to one end of the second step-down circuit, and the other end of the second step-down circuit is connected to the second energy storage apparatus; and both the first step-up circuit and the second step-up circuit are boost circuits; and both the first step-down circuit and the second step-down circuit are buck circuits. 4. The system of DC power supply and storage for a building according to claim 2 , wherein both the first charge-discharge conversion apparatus and the second charge-discharge conversion apparatus are charge-discharge controllers. 5. The system of DC power supply and storage system for a building according to claim 2 , wherein both the first energy storage apparatus and the second energy storage apparatus are batteries. 6. The system of DC power supply and storage system for a building according to claim 3 , wherein both the first energy storage apparatus and the second energy storage apparatus are batteries. 7. The system of DC power supply and storage system for a building according to claim 4 , wherein both the first energy storage apparatus and the second energy storage apparatus are batteries. 8. The system of DC power supply and storage for a building according to claim 2 , wherein there is one or more first power adjustment apparatuses; and when there are a plurality of first power adjustment apparatuses, the first power adjustment apparatuses are distributed inside the building based on building space and a position in which the first electrical device is arranged; and each of the second power adjustment apparatuses are distributed inside the building based on building space and positions in which the first electrical device and the second electrical device are arranged; and the renewable energy power generation apparatus is one or more of a photovoltaic power generation apparatus and a wind power generation apparatus. 9. A control method of all-DC power supply and storage for a building, comprising: obtaining power qu