Bearing assembly for a blender jar

What is claimed is: 1. A bearing assembly for a blender jar assembly, comprising: a blender jar having an interior cavity and a bottom wall, wherein the bottom wall includes an opening disposed therethrough; a retainer positioned within the interior cavity of the blender jar and extending from an upper edge that defines an upper aperture in communication with the interior cavity to a lower edge that defines a lower aperture and including an inner wall between the upper edge and the lower edge defining a receiving space in communication with the opening; a jar collar positioned exterior of the blender jar and operably coupled with the retainer; a bearing housing includes a body portion and an upper rim having a smaller diameter than the body portion positioned within the upper aperture of the retainer, the bearing housing positioned within the receiving space and spaced apart from the retainer by a first spacing; a nut operably coupled with the bearing housing and at least partially received by the receiving space within the lower aperture of the retainer, wherein the nut is spaced apart from the retainer by a second spacing; and a gasket positioned to maintain at least one of the first and second spacings of the bearing housing and the nut relative to the retainer, respectively. 2. The bearing assembly of claim 1 , wherein the gasket defines a first gasket that is positioned between the upper rim and the upper edge of the retainer. 3. The bearing assembly of claim 1 , wherein the gasket further defines a second gasket positioned between and in contact with a top surface of the nut, an inner wall of the retainer, and the bearing housing. 4. A bearing assembly for a blender jar assembly, comprising: a blender jar defining an interior cavity and a bottom opening; a retainer positioned within the interior cavity and at least partially extending through the bottom opening, wherein the retainer defines an upper aperture with a first diameter and a lower aperture with a second diameter that is greater than the first diameter, a receiving space is located between the upper aperture and the lower aperture; a bearing housing includes a body portion and an upper rim having a smaller diameter than the body portion at least partially positioned within the upper aperture of the receiving space, wherein the bearing housing extends at least partially into the upper aperture of the retainer, and wherein the bearing housing is spaced apart from an inner wall of the retainer to define a first spacing therebetween; a nut positioned within the lower aperture of the retainer and operably coupled with the bearing housing, wherein the nut is spaced apart from the inner wall of the retainer to define a second spacing therebetween; a first gasket positioned to maintain the first spacing of the bearing housing relative to the retainer; and a second gasket positioned to maintain the second spacing of the nut relative to the retainer and the bearing housing. 5. The bearing assembly of claim 4 , further comprising: a jar collar operably coupled with the retainer and positioned exterior of the blender jar. 6. The bearing assembly of claim 4 , wherein the retainer includes an outer rim defining a sealing channel. 7. The bearing assembly of claim 6 , wherein a sealing ring is positioned within the sealing channel and at least partially contacts a bottom wall of the blender jar and the retainer. 8. The bearing assembly of claim 4 , wherein the nut includes an inner portion and an outer portion extending radially outwardly from the inner portion, and wherein the outer portion contacts the inner wall of the retainer and the inner portion contacts a lower rim of the bearing housing. 9. The bearing assembly of claim 8 , wherein a blade shaft extends through the nut, the bearing housing, and the retainer and is coupled with a plurality of blades positioned within the interior cavity of the blender jar. 10. A bearing assembly for a blender jar assembly, comprising: a blender jar having an interior cavity, wherein the blender jar further includes a bottom wall and a bottom opening extending through the bottom wall; a retainer positioned within the interior cavity and supported by the bottom wall, wherein the retainer includes an inner wall defining a receiving space, wherein the retainer further includes an upper edge that defines an upper aperture and a lower edge that defines a lower aperture, and further wherein the upper and lower apertures are in communication with the receiving space; a bearing housing positioned within the receiving space, the bearing housing including a body portion and an upper rim having a smaller diameter than the body portion, wherein the upper rim is at least partially received by the upper aperture of the retainer, and wherein the bearing housing is spaced apart from the upper edge and the inner wall of the retainer; a nut positioned within the lower aperture of the retainer and contacting the bearing housing, wherein the nut is spaced apart from the inner wall of the retainer; a first gasket positioned between the bearing housing and the retainer; and a second gasket positioned between the nut, the retainer, and the bearing housing. 11. The bearing assembly of claim 10 , wherein the first gasket includes a first leg positioned between the upper edge and the upper rim and a second leg positioned between the body portion and the inner wall. 12. The bearing assembly of claim 11 , wherein the first gasket includes a central portion and the first leg extends from a first end of the central portion and the second leg extends from a second end of the central portion. 13. The bearing assembly of claim 10 , wherein the second gasket includes a first leg positioned between a lower rim of the bearing housing and the body portion and a second leg positioned between the lower edge and a top surface of the nut. 14. The bearing assembly of claim 10 , wherein one of the first gasket and the second gasket has an L-shaped cross-section. 15. The bearing assembly of claim 10 , wherein the nut includes an inner portion and an outer portion extending radially outwardly from the inner portion, and further wherein the outer portion of the nut contacts the inner wall of the retainer and the inner portion of the nut contacts a lower rim of the bearing housing. 16. The bearing assembly of claim 10 , further comprising: a jar collar positioned exterior of the bottom wall of the blender jar, wherein the jar collar is operably coupled with the retainer by one or more fasteners. 17. The bearing assembly of claim 16 , wherein the nut is at least partially retained by the jar collar.