Support assembly for food applications having an improved seal

We claim: 1. A support assembly for a movable shaft, comprising: a bearing unit adapted to receive the movable shaft; a casing; and a cover comprising an annular coupling portion that extends toward a radially external lateral surface of the casing, the annular coupling portion being provided radially on a radially inside surface with at least one pair of teeth projecting radially inward and spaced circumferentially from each other; wherein the radially external lateral surface of the casing comprises: an annular seat configured to receive the teeth of the cover, the annular seat comprising an annular groove axially spaced with respect to a front edge of the casing delimiting an opening of the casing and connected to a number of axial grooves equal to a number of teeth on the cover and which interrupt radially at least part of the front edge of the casing, and wherein a bottom wall of the annular groove comprises a plurality of depressions alternating with a plurality of projections, the plurality of projections being arranged circumferentially offset with respect to the axial grooves; wherein the annular coupling portion of the cover comprises plurality of radially internal projections which engage with the radially external lateral surface of the casing along a circumferential portion free of axial grooves, and the plurality of radial internal projections engage with corresponding depressions in the annular groove of the casing when the teeth engage with the annular groove. 2. The support assembly of claim 1 , wherein each projection of the plurality of the radial internal projections comprises a convex end surface. 3. The support assembly of claim 2 , wherein a radius of curvature (R) of the convex end surface of each radial internal projection is less than or equal to 0.4 mm. 4. The support assembly of claim 1 , wherein the annular groove comprises at least one pair of mechanical stops for the at least one pair of teeth of the cover, each mechanical stop extending in a radial direction, with respect to corresponding depressions, to be flush with the radially external lateral surface of the casing. 5. The support assembly of claim 1 , wherein each projection of the plurality of projections of the annular groove comprises: a first circumferential section comprising a flat surface, raised with respect to the bottom wall of the annular groove, and a second and a third circumferential section, each having a flat surface, which flank the first circumferential section and which form two inclined planes that connect the first circumferential section with the bottom wall of the annular groove, wherein a slope of the second section is less than a slope of the third section so that the projections have an asymmetrical shape. 6. The support assembly of claim 1 , wherein the number of radially internal projections is equal to the number of teeth. 7. The support assembly of claim 6 , wherein, there are four radial internal projections that are angularly spaced from each other by 90°, and the radial internal projections alternate with the teeth in the circumferential direction so that an angle between a radial internal projection and a subsequent tooth is 45°. 8. The support assembly of claim 1 , wherein an axial width (W) of the radial internal projections is related to a radial width (H) of the annular groove by: W≤H− 2 mm. 9. The support assembly of claim 1 , wherein a radial thickness (D) of each radial internal projection comprises between 0.6 mm and 0.8 mm, inclusive.