Bearing unit and strain wave gearing

The invention claimed is: 1. A bearing unit comprising: a bearing provided with an outer race, an inner race, a raceway formed between the outer race and the inner race, and a plurality of rolling elements rollably inserted in the raceway; and a strain element provided with a first annular part, a second annular part disposed coaxially with the first annular part, and strained parts that are continuous between the first annular part and the second annular part, one of the inner race and the outer race being integrally formed on the first annular part of the strain element or coaxially secured to the first annular part, wherein the outer race is integrally formed on or coaxially secured to the first annular part, the second annular part is coaxially disposed on an outer side in a radial direction of the first annular part, the strained parts are a plurality of ribs that join the first annular part and the second annular part together along the radial direction, and the ribs are disposed at equal angular intervals along a circumferential direction. 2. A strain wave gearing according to claim comprising: a rigid internally toothed gear; a flexible externally toothed gear; a wave generator that causes the externally toothed gear to flex into a non-circular shape and partially mesh with the internally toothed gear; and a bearing unit which supports the internally toothed gear and the externally toothed gear such that the gears are able to rotate relative to each other, said bearing unit comprising: a bearing provided with an outer race, an inner race, a raceway formed between the outer race and the inner race, and a plurality of rolling elements rollably inserted in the raceway; and a strain element provided with a first annular part, a second annular part disposed coaxially with the first annular part, and strained parts that are continuous between the first annular part and the second annular part, one of the inner race and the outer race being integrally formed on the first annular part of the strain element or coaxially secured to the first annular part, wherein: the inner race of the bearing unit is integrally formed on the first annular part of the strain element; the second annular part is coaxially disposed on an inner side in a radial direction of the first annular part; the strained parts are a plurality of ribs that join the first annular part and the second annular part together along the radial direction; the ribs are disposed at equal angular intervals along a circumferential direction; and the first annular part is provided with an inner-race-side raceway groove formed in a circular outer peripheral surface thereof and internal teeth formed in a circular inner peripheral surface thereof, and the first annular part functions as the inner race and the internally toothed gear.