Method for adjusting the clearance of an electromechanical brake, brake, and control device

The invention claimed is: 1. A method ( 200 ) for adjusting a clearance (L) of an electromechanical brake ( 100 ) of a vehicle, comprising the steps of: activating ( 202 ) a clearance test cycle for the brake ( 100 ); applying ( 204 ) a brake pad ( 103 ) of the brake ( 100 ) toward a brake disc ( 105 ) and determining ( 204 a ) a contact position (K ist ), at which the brake pad ( 103 ) comes into contact with the brake disc ( 105 ) during application ( 204 ); determining ( 206 ) the clearance (L ist ) and a degree of pad wear (V B ) based on the determined contact position (K ist ); calculating ( 208 ) a required clearance (L soll ) for the brake ( 100 ) and a required contact position (K soll ) of the brake pad ( 103 ) and brake disc ( 105 ) as a function of the degree of pad wear (V B ) using predefined parameters (P). 2. The method ( 200 ) as claimed in claim 1 , further comprising the step of: comparing ( 210 ) the determined contact position (K ist ) with the required contact position (K soll ) or comparing the determined clearance (L ist ) with the required clearance (L Soll ), and upon determining that the determined contact position (K ist ) deviates from the required contact position (K soll ) or that the determined clearance (L ist ) deviates from the required clearance (L soll ) by less than a tolerance value (T), generating a braking readiness signal ( 212 ). 3. The method ( 200 ) as claimed in claim 2 , wherein, upon determining that the determined contact position (K ist ) deviates from the required contact position (K soll ) or that the determined clearance (L ist ) deviates from the required clearance (L soll ) by more than the tolerance value (T), a required clearance adjustment distance ( 216 ) is calculated. 4. The method ( 200 ) as claimed in claim 3 , comprising the further steps of: adjusting ( 218 ) the clearance (L ist ) according to the calculated required clearance adjustment distance ( 216 ); reactivating the clearance test cycle ( 202 ) for the brake ( 100 ). 5. The method ( 200 ) as claimed in claim 4 , wherein, upon determining that no contact position (K ist ) or no clearance (L ist ) can be found for which the determined contact position (K ist ) deviates from the required contact position (K soll ) or for which the determined clearance (L ist ) deviates from the required clearance (L soll ) by less than a tolerance value (T), an error signal ( 220 ) is generated. 6. The method ( 200 ) as claimed in claim 4 , wherein the adjustment ( 218 ) of the clearance (L) is carried out by an electric clearance adjustment device ( 20 ). 7. The method ( 200 ) as claimed in claim 6 , wherein the calculation ( 216 ) of the required clearance adjustment distance ( 218 ) comprises determining operating parameters for the electric clearance adjustment device ( 20 ). 8. The method ( 200 ) as claimed in claim 1 , wherein the predefined parameters (P) comprise at least one of the following: a brake characteristic curve; and a stiffness characteristic map, in which state-dependent stiffness values are stored. 9. The method ( 200 ) as claimed in claim 1 , wherein the activation ( 202 ) of the clearance test cycle takes place each time when the vehicle is put into operation. 10. The method as claimed in claim 1 , wherein the method ( 200 ) is carried out for each of a plurality of brakes ( 1102 , 1202 , 1302 , 1402 ) present on the vehicle. 11. The method ( 1000 ) as claimed in claim 1 , wherein the clearance test cycle is performed only for fewer than all electromechanical brakes ( 1102 , 1202 , 1302 , 1402 ) present on the vehicle. 12. A non-volatile computer memory storing instructions causing a control device to perform the method ( 200 , 1000 ) as claimed in claim 1 . 13. The method as claimed in claim 1 , wherein the calculation of the required clearance is based on a brake characteristic curve and/or a stiffness characteristic map and depending on the determined degree of pad wear, and wherein the required clearance according to the brake characteristic curve and/or the stiffness characteristic map is different at different wear levels and changes as wear levels increase, such that the required clearance for new brake pads is different than the required clearance for worn brake pads. 14. A control device ( 8 ) for determining a clearance (L) of an electromechanical brake ( 100 ), comprising: a first interface ( 10 ) for a signal-conducting connection ( 6 ) of the control device ( 8 ) to a brake actuator ( 2 ); a second interface ( 12 ) for a signal-conducting connection ( 18 ) of the control device ( 8 ) to an electric clearance adjustment device ( 20 ); a data memory ( 14 ) and a processor ( 16 ), wherein the control device ( 8 ) is configured to activate a clearance test cycle for the brake ( 100 ); to cause an application ( 204 ) of at least one brake pad ( 103 ) of the brake ( 100 ) toward a brake disc ( 105 ) via the brake actuator ( 2 ) and to determine a contact position (K ist ), at which the brake pad ( 103 ) comes into contact with the brake disc ( 105 ) during application ( 204 ); to determine the clearance (L ist ) and a degree of pad wear (V B ) based on the determined contact position (K ist ), and to calculate a required clearance (L soll ) for the brake ( 100 ) and a required contact position (K soll ) of the brake pad ( 103 ) and brake disc ( 105 ) as a function of the degree of pad wear (V B ) using predefined parameters (P). 15. The control device ( 8 ) as claimed in claim 14 , wherein the control device ( 8 ) is configured to compare the determined contact position (K ist ) with the required contact position (K soll ) or the determined clearance (L ist ) with the required clearance (L soll ), upon determining that the determined contact position (K ist ) deviates from the required contact position (K soll ) or that the determined clearance (L ist ) deviates from the required clearance (L soll ) by less than a tolerance value (T), to generate a braking readiness signal ( 212 ), and upon determining that the determined contact position (K ist ) deviates from the required contact position (K soll ) or that the determined clearance (L ist ) deviates from the required clearance (L soll ) by more than a tolerance value (T), to calculate a required clearance adjustment distance ( 216 ). 16. The control device ( 8 ) as claimed in claim 15 , wherein the control device ( 8 ) is configured to adjust the clearance (L) according to the calculated required clearance adjustment distance ( 216 ), and to reactivate the clearance test cycle ( 202 ) for the brake ( 100 ). 17. The control device ( 8 ) as claimed in claim 15 , wherein the control device ( 8 ) is configured, upon determining that no contact position (K ist ) or no clearance (L ist ) can be found for which the determined contact position (K ist ) deviates from the required contact position (K soll ) or for which the determined clearance (L ist ) deviates from the required clearance (L soll ) by less than a tolerance value (T), to generate an error signal ( 220 ). 18. An electromechanical brake ( 100 ), having a brake disc ( 105 ), at least one brake pad ( 103 ) accommodated in a brake caliper ( 107 ), an electromechanical brake actuator ( 2 ) for applying the at least one brake pad ( 103 ) toward the brake disc ( 105 ), an electric clearance adjustment device ( 20 ) for adjusting a clearance (L) between the brake disc ( 105 ) and the brake pad ( 103 ), and a control device ( 8 ) as claimed in claim 12 .