Transformer apparatus for a charging station for electrically charging vehicles and having at least two charging points

What is claimed is: 1. A transformer apparatus comprising: an input connection for electrical connection to an electrical power source; at least one primary winding; and at least three secondary windings that are DC-isolated from one another, each of the at least three secondary windings having an identical or similar individual output electric power, wherein: the secondary windings are configured to be connected to at least two output connections of at least two charging points by switching logic, and the switching logic connects at least two of the secondary windings electrically in parallel with a respective output connection of a respective charging point to vary a respective electrical power on the respective output connection of the respective charging point by combining the at least two of the secondary windings in parallel. 2. The transformer apparatus of claim 1 , wherein the switching logic has at least one combination circuit, which combines the at least two of the secondary windings with one another onto the respective output connection. 3. The transformer apparatus of claim 2 , wherein the combination circuit is configured as a reversible combination circuit. 4. The transformer apparatus of claim 1 , wherein the switching logic has a switching matrix for flexible combination of the secondary windings onto the output connections. 5. The transformer apparatus of claim 4 , wherein the switching matrix has a monitoring unit for monitoring the power consumption at the output connections and adapting the combination of the secondary windings based on the monitoring. 6. The transformer apparatus of claim 1 , wherein the secondary windings are dimensioned for an identical or substantially identical power stage. 7. A charging station for electrically charging vehicles, comprising the at least two charging points and the transformer apparatus of claim 1 . 8. The transformer apparatus of claim 1 , wherein: the switching logic connects the least two of the secondary windings electrically in parallel with the respective output connection of the respective charging point to vary the respective electrical power on the respective output connection of the respective charging point from the individual output electric power to at least double the individual output electric power. 9. The transformer apparatus of claim 1 , wherein: the switching logic connects at least three of the secondary windings electrically in parallel with the respective output connection of the respective charging point to increase the respective electrical power to a high charging power that is at least three times the individual output electric power. 10. A method comprising: providing a transformer apparatus for electrically charging vehicles, the transformer apparatus including: an input connection for electrical connection to an electrical power source, at least one primary winding, and at least three secondary windings that are DC-isolated from one another, each of the at least three secondary windings having an identical or similar individual output electric power, wherein: the secondary windings are configured to be connected to at least two output connections of at least two charging points by switching logic, and the switching logic connects at least two of the secondary windings electrically in parallel with a respective output connection of a respective charging point to vary a respective electrical power on the respective output connection of the respective charging point by combining the at least two of the secondary windings in parallel; and adapting the transformer apparatus to a charging station for electrically charging vehicles by connecting the at least two output connections of the at least two charging points electrically in parallel with at least two of the secondary windings by the switching logic. 11. The method of claim 10 , further comprising: monitoring power consumption at the at least two output connections by a monitoring unit; and adapting a combination of the secondary windings based on the monitored power consumption. 12. The method of claim 10 , wherein: the switching logic connects the least two of the secondary windings electrically in parallel with the respective output connection of the respective charging point to vary the respective electrical power on the respective output connection of the respective charging point from the individual output electric power to at least double the individual output electric power. 13. The method of claim 10 , wherein: the switching logic connects at least three of the secondary windings electrically in parallel with the respective output connection of the respective charging point to increase the respective electrical power to a high charging power that is at least three times the individual output electric power.