Release bearing

The invention claimed is: 1. A release bearing for a friction clutch, comprising: an inner race; an outer race; spherical rolling bodies which roll on an inner race bearing track and an outer race bearing track and are guided in a cage; wherein the inner race interacts with a release element for operating the friction clutch and the outer race is brought into contact in a freely rotatable manner with spring tongues of a diaphragm spring of the friction clutch; and an engine-side sealing device and a transmission-side sealing device are arranged radially between the inner race and the outer race, the engine-side sealing device has at least one sealing element with a reinforcement that engages in an annular groove of the outer race, and has a contact-free gap seal radially on the inside, the gap seal formed by a radially inwardly directed annular projection of the inner race and a pretensioned spring; wherein the transmission-side sealing device has a sealing element with at least A one radially oriented sealing lip and an axial sealing lip that interacts in a contactless manner with a radially outwardly directed, transmission-side end flange of the inner race. 2. The release bearing of claim 1 , wherein the outer race has a radially inwardly directed, annular abutment flange, the radially inwardly directed projection of the inner race extends parallel and axially at a distance from the radially inwardly directed abutment flange of the outer race; and, the inwardly directed projection of the inner race has a cross-sectional geometry that corresponds to that of a right angled trapezoid. 3. The release bearing of claim 1 , wherein the reinforcement of the engine-side sealing device has a retaining rib that extends parallel to the bearing center axis of the release bearing, for the at least one engine-side sealing element; and the engine-side sealing element radially on the inside, has a first sealing lip and a second sealing lip which are arranged in a radially staggered manner in relation to each other. 4. The release bearing of claim 3 , wherein the first sealing section of the inner race has two circular steps formed on the bearing track side, and the first sealing lip of the engine-side sealing element extends at a distance from the first step creating a radial gap and the second sealing lip of the engine-side sealing element butts against the second step. 5. The release bearing of claim 3 , further comprising a center section which extends perpendicularly to the longitudinal center axis and is radially oriented, formed on the retaining rib of the reinforcement of the engine-side sealing device including a locking section that extends at tan oblique angle (α) to the longitudinal center axis, projects on the center section of the reinforcement, and the locking section is accommodated in the annular groove of the outer race locking into place there. 6. The release bearing of claim 1 , wherein a circular axial groove is formed in the transmission-side end flange of the inner race, in which the axial sealing lip of the transmission-side sealing device is accommodated over a part of the axial length the of the axial groove. 7. The release bearing of claim 1 , wherein a reinforcement of the transmission-side sealing device has an axially oriented first leg and a radially inwardly directed second leg and the first leg butts against a shoulder of an encompassing recess in the region of the free end of the outer race. 8. The release bearing of claim 7 , wherein the axial sealing lip of the transmission-side sealing device extends perpendicularly to the radially inwardly directed second leg of the reinforcement of the transmission-side sealing device. 9. The release bearing of claim 1 , wherein the sealing element of the transmission-side sealing device radially on the inside, has sealing lips that are radially staggered in relation to each other, and the first sealing lip butts against a sealing surface formed radially on the inside of a second sealing section of the inner race and the second sealing lip extends radially at a distance from an encompassing step of the inner race creating a radial gap in which a step is formed axially adjacent to the sealing surface, formed radially on the inside, of the inner race. 10. The release bearing of claim 1 , wherein the sealing element of the transmission-side sealing device in a beveled region between the first and the second leg has a third sealing lip that extends at an oblique angle (β) to a longitudinal center axis and that abuts against the recess of the free end of the outer race.