Electric wear-adjusting device of a disc brake, a corresponding disc brake, and method for measuring and setting the air play and for measuring wear

What is claimed is: 1. An electric wear-compensating readjustment apparatus for readjustment for compensation of friction surface wear on brake pads and brake disk of a motor vehicle disk brake having an application apparatus, the electric wear-compensating readjustment apparatus comprising: an electric motor; gearing; an output element; and a clamping sleeve having inwardly projecting longitudinal ribs on an inner side, wherein the output element is connected rotationally conjointly to the clamping sleeve. 2. The electric wear-compensating readjustment apparatus as claimed in claim 1 , wherein a free end of the clamping sleeve has an engagement section configured for rotationally conjoint coupling of the clamping sleeve to a first synchronizing wheel of a synchronizing unit of the disk brake. 3. The electric wear-compensating readjustment apparatus as claimed in claim 1 , wherein the electric motor is an electronically commutated electric motor. 4. The electric wear-compensating readjustment apparatus as claimed in claim 3 , wherein the electric motor is controlled by a control unit configured to evaluate motor signals and to output at least one of a signal representing the present air gap and an air gap control signal. 5. The electric wear-compensating readjustment apparatus as claimed in claim 1 , wherein a motor shaft and drive pinion of the electric motor and the output element are arranged coaxially. 6. The electric wear-compensating readjustment apparatus as claimed in claim 5 , wherein the gearing is a two-stage planetary gearing or a three-stage planetary gearing. 7. The electric wear-compensating readjustment apparatus as claimed in claim 6 , wherein a housing of the gearing has a fastening section configured to be positionally fixed in a brake caliper of the disk brake, and has a gearing section in which the two-stage or three-stage planetary gearing is arranged. 8. The electric wear-compensating readjustment apparatus as claimed in claim 7 , wherein the fastening section and the gearing section of the gearing housing are formed in one piece, and the gearing section is formed with internal teeth as an internal gear of the two-stage planetary gearing or three-stage planetary gearing. 9. The electric wear-compensating readjustment apparatus as claimed in claim 8 , wherein a first gearing stage of the gearing is in engagement with the drive pinion of the electric motor as sun gear, a second planet carrier of the second gearing stage of the gearing is a constituent part of the output element or a third planet carrier of the third gearing stage is a constituent part of the output element. 10. The electric wear-compensating readjustment apparatus as claimed in claim 1 , wherein the electric motor has a high cogging torque. 11. An electric wear-compensating readjustment apparatus for readjustment for compensation of friction surface wear on brake pads and brake disk of a disk brake an application apparatus, the electric wear-compensating readjustment apparatus comprising: an electric motor; gearing configured to be rotated by the electrical motor; an output element configured to be rotated by the gearing; and a synchronizing wheel, wherein the output element is arranged co-axially with a rotation axis of the electric motor, rotationally conjointly connected directly to the synchronizing wheel and arranged to be rotated by the gearing when the electric motor rotates. 12. The electric wear-compensating readjustment apparatus as claimed in claim 11 , wherein the output element is formed in one piece with the synchronizing wheel. 13. A motor vehicle disk brake, comprising: an application apparatus having a brake rotary lever and at least one spindle unit with a threaded plunger, and at least one electric wear-compensating readjustment apparatus having an electric motor; gearing; an output element; and a clamping sleeve having inwardly projecting longitudinal ribs on an inner side, wherein the output element is connected rotationally conjointly to the clamping sleeve. 14. The disk brake as claimed in claim 13 , wherein the wear-compensating readjustment apparatus is arranged above the threaded plunger at a side of the threaded plunger away from a brake pad end of the threaded plunger, and a clamping sleeve is mounted onto and at least partially encloses the threaded plunger. 15. A method for measuring friction-induced wear of brake pads and of a brake disk of a disk brake as claimed in claim 13 , comprising the acts of: defining an initial position (x initial ) of the brake pad; storing the initial position (x initial ) in the control unit; measuring a present air gap; calculating the friction-induced wear on the basis of the initial air gap, an overall wear adjustment rotational angle α overall , a gearing transmission ratio i, the present air gap LS and spindle pitch p in accordance with the following calculation rule: X wear =x initial −α overall *i*p+LS determining whether a brake pad change is necessary by comparing the calculated friction-induced wear with a predefined value; and if a pad change is determined to be necessary, generating and at least one of displaying and communicating an item of information indicating a need to change the brake pads. 16. The method as claimed in claim 15 , wherein the act of measuring the present air gap includes the sub-acts of: applying the brake pad by activation of the electric motor in a first direction of rotation until the brake pad makes contact with the brake disk at a contact point; detecting said contact with the contact point by detecting at least one of an increase in current of the electric motor, a force sensor, a spacing sensor, and a temperature sensor configured to detect a change in temperature on at least one of a surface of the brake disk and of a surface of the brake pad; stopping the rotational movement of the electric motor after detection of contact with the contact point; calculating the air gap using a control unit using at least one of rotational steps, rotational angle, rotational angle position, axial position, and gearing transmission ratio; activating the electric motor in a second direction of rotation opposite to the first direction of rotation to adjust the brake pad away from the brake disk into a position corresponding to the calculated air gap. 17. A motor vehicle disk brake, comprising: an application apparatus having a brake rotary lever and two spindle units each having a threaded plunger, at least one electric wear-compensating readjustment apparatus having an electric motor; gearing; an output element; a clamping sleeve having inwardly projecting longitudinal ribs on an inner side; a synchronizing unit; and a crossmember, wherein the output element at least partially encloses a first threaded plunger of a first one of the two spindle units, and a coupling section of the output element is rotationally conjointly connected to a first synchronizing wheel of the synchronizing unit or is formed in one piece with the first synchronizing wheel. 18. A method for air gap measurement and air gap setting of a disk brake that includes an application apparatus having a brake rotary lever and at least one spindle unit with a threaded plunger, and at least one electric wear-compensating readjustment apparatus having an electric motor, gearing configured to be rotated by the electrical motor, an output element configured to be rotated by the gearing, and a clamping sleeve having inwardly projecting long