Fastening for a support assembly for food applications

We claim: 1. A support assembly for movable, rotating or sliding shafts, comprising: a bearing unit adapted to receive a movable shaft, a casing defining an opening of an internal seat and a front edge delimiting the opening; a cover for fluid sealing the opening, the cover defining a bottom wall and an annular coupling portion axially distal to the bottom wall, the annular coupling portion being provided radially on an inside with at least one pair of teeth projecting radially towards the inside of the cover and spaced circumferentially from each other; an annular seat for receiving the teeth of the cover defined by a radially external lateral surface of the casing, the annular seat including an annular groove arranged axially spaced with respect to the front edge, and connected to a number of axial grooves equal to the number of teeth present on the cover and which interrupt radially at least part of the front edge; the annular groove defining a bottom wall which is circumferentially provided with an plurality of spaced apart projections defining a plurality of depressions, the spaced apart projections being arranged circumferentially offset with respect to the axial grooves; and at least one pair of mechanical stops within the annular groove. 2. The support assembly of claim 1 in which the projections of the annular groove each comprise a first circumferential portion of flat surface raised with respect to the bottom wall of the annular groove and second and third circumferential sections of flat surface which flank the first section and which form two inclined planes that connect the first section of the surface with the bottom wall of the groove annular and in which the slope of the second section is less than the slope of the third section, thus assuming the projections an asymmetrical shape. 3. The support assembly of claim 2 , wherein the number of asymmetrical projections is equal to double the number of mechanical stops. 4. The support assembly of claim 3 , in which two asymmetrical projections are arranged circumferentially from the opposite band with respect to each mechanical stop and the third circumferential portion of flat surface circumferentially faces the mechanical stop. 5. The support assembly of claim 3 , wherein the number of mechanical stops is equal to four and the number of asymmetrical projections is equal to eight. 6. The support assembly of claim 2 , wherein being (W) the circumferential length of the asymmetrical projection, the circumferential length (Wm) of the second portion of the projection is equal to 0.6×W. 7. The support assembly of claim 6 , wherein the circumferential length (Wd) of the third portion of the projection is equal to 0.4×W. 8. The support assembly of claim 1 , wherein the number of mechanical stops is equal to the number of teeth of the cover. 9. The support assembly of claim 1 , wherein a thickness (S) in the circumferential direction of the mechanical stops is equal to: S=A− 2× B−G. where: A is the circumferential distance on the annular groove between two consecutive projections, B is the circumferential width of the tooth of the cover, G is a circumferential clearance between mechanical stops, teeth and projections. 10. The support assembly of claim 1 , in which the height (H) is equal to: H =( D le —D h )/2 where: D le is the diameter of the lateral surface of the casing, D b is the diameter of the bottom wall of the annular groove.