Method for electrically charging an energy store by switching between two configurations

What is claimed is: 1. A method for electrically charging an energy storage element, wherein the method comprises the steps of: starting an electrical charging process for the energy storage element, which is maintained in a first configuration (S 1 ), by charging the energy storage element with electrical energy from an energy source; activating an electrical consumer (S 3 ) prior to interrupting the charging process (S 4 ) to the energy storage element; interrupting the charging process (S 4 ) to the energy storage element; supplying the electrical consumer with electrical energy using the energy source during the interrupting step; changing the configuration of the energy storage element from the first configuration to a second configuration (S 5 ), wherein the energy storage element in the first configuration is configured to be charged with a higher electrical voltage than in the second configuration; and resuming the charging process to the energy storage element in the second configuration (S 6 ). 2. The method as claimed in claim 1 , wherein the energy storage element in the second configuration has two energy storage element modules electrically connected in parallel with one another. 3. The method as claimed in claim 1 , wherein the electrical consumer is switched off (S 7 ) after resuming the charging process. 4. The method as claimed in claim 1 , wherein interrupting the charging process is carried out if a voltage present between two electrical poles of the energy storage element reaches or exceeds a first voltage threshold value. 5. The method as claimed in claim 4 , wherein the charging process is carried out with electric current, wherein a current intensity of the current (S 2 ) is reduced if the voltage present between two electrical poles of the energy storage element is greater than a second voltage threshold value. 6. The method as claimed in claim 5 , wherein the current intensity is increased (S 8 ) after resuming the charging process. 7. The method as claimed in claim 5 , wherein the current intensity is reduced to a value that is adapted to an electrical consumer. 8. A device for electrically charging an energy storage element, said device comprising: a control unit configured to (i) start an electrical charging process for the energy storage element, which is maintained in a first configuration (S 1 ), by charging the energy storage element with electrical energy from an energy source (ii) activate an electrical consumer (S 3 ) prior to interrupting the charging process (S 4 ) to the energy storage element; (iii) interrupt the charging process (S 4 ) to the energy storage element, (iv) supply the electrical consumer with electrical energy using the energy source during the interrupt, (v) change the configuration of the energy storage element from the first configuration to a second configuration (S 5 ), wherein the energy storage element in the first configuration is configured to be charged with a higher electrical voltage than in the second configuration, and (vi) resume the charging process to the energy storage element in the second configuration (S 6 ). 9. A motor vehicle, comprising the device as claimed in claim 8 . 10. The device of claim 8 , wherein the control unit is further configured to (vii) deactivate the electrical consumer (S 7 ) after resuming the charging process.