Disc brake assembly

What is claimed is: 1 . A brake assembly comprising: an operating shaft configured to rotate about a first axis to actuate a brake pad, the first axis being defined by a body of the brake assembly, the operating shaft including a convex bearing surface being arcuate and defining a second axis disposed parallel to the first axis and offset from the first axis; a yoke having an arcuate concave bearing surface, the yoke being configured to move linearly relative to the body as the operating shaft rotates about the first axis; and a rotating element bearing having a plurality of rotating elements retained by a cage, the cage having a first arcuate portion having a first array of apertures for receiving some of the plurality of rotating elements, and a second arcuate portion having a second array of apertures for receiving some of the plurality of rotating elements, the first arcuate portion being connected to the second arcuate portion by a single elongate connecting portion, wherein the rotating element bearing is positioned between the convex bearing surface and the concave bearing surface such that the rotating element bearing is configured to move relative to the operating shaft and relative to the yoke during actuation of the brake pad. 2 . The brake assembly of claim 1 wherein the first arcuate portion has a first circumferential edge and a second circumferential edge, and the second arcuate portion has a third circumferential edge and a fourth circumferential edge, wherein the elongate connecting portion connects the first circumferential edge to the third circumferential edge, thereby defining a space between the first arcuate portion and the second arcuate portion. 3 . The brake assembly of claim 2 wherein the first circumferential edge and the third circumferential edge define a line, wherein the second circumferential edge and the fourth circumferential edge are located on a first side of the line and an elongate section of the elongate connecting portion is located on a second side of the line opposite the first side. 4 . The brake assembly of claim 2 further comprising a rest position in which the operating shaft, rotating element bearing, and yoke are in a first position relative to each other, and an actuated position in which the operating shaft, rotating element bearing, and yoke are in a second position relative to each other. 5 . The brake assembly of claim 4 wherein with the brake assembly in the rest position a first abutment of the operating shaft engages the first circumferential edge and a second abutment of the operating shaft engages the third circumferential edge to prevent movement of the rotating element bearing in a first circumferential direction. 6 . The brake assembly of claim 5 wherein with the brake assembly in the rest position an edge of the elongate connecting portion engages a component of the brake assembly to prevent movement of the rotating element bearing in a second circumferential direction opposite to the first circumferential direction. 7 . The brake assembly of claim 4 wherein the second circumferential edge is connected to the fourth circumferential edge by a fifth edge of the cage, wherein with the brake assembly in the rest position a first part of the fifth edge engages a component of the brake assembly to prevent movement of the rotating element bearing in a first axial direction and a second part of the fifth edge engages the component of the brake assembly to prevent movement of the rotating element bearing in a second axial direction opposite the first axial direction. 8 . The brake assembly of claim 7 wherein with the brake assembly in the actuated position, the fifth edge is spaced from the component, the fifth edge thereby not preventing movement of the rotating element bearing in the first or second axial direction. 9 . The brake assembly of claim 7 wherein the component is configured to move in a linear direction relative to a housing of the brake assembly. 10 . The brake assembly of claim 9 wherein the component is a part of an adjuster mechanism. 11 . The brake assembly of claim 4 wherein the first circumferential edge is connected to the second circumferential edge by a sixth edge having a first formation and the third circumferential edge is connected to the fourth circumferential edge by a seventh edge having a second formation and the yoke also comprises first and second formations, wherein, with the brake assembly in the rest position, the first formation on the yoke engages the first formation on the sixth edge of the cage to help prevent movement of the rotating element bearing in a second axial direction and the second formation on the yoke engages the second formation on the seventh edge of the cage, to help prevent movement in a first axial direction opposite the second axial direction. 12 . The brake assembly of claim 11 wherein the first formation on the yoke is a first groove and the first formation on the sixth edge is a first flange projecting axially from the cage and the second formation on the yoke is a second groove and the second formation on the seventh edge is a second flange projecting axially from the cage. 13 . The brake assembly of claim 1 wherein the first arcuate portion has a further first array of apertures for receiving some of the rotating elements and the second arcuate portion has a further second array of apertures for receiving some of the rotating elements. 14 . A brake assembly comprising: an operating shaft configured to rotate about a first axis to actuate a brake pad, the first axis being defined by a body of the brake assembly, the operating shaft including a convex bearing surface being arcuate and defining a second axis disposed parallel to the first axis and offset from the first axis; a yoke having an arcuate concave bearing surface, the yoke being configured to move linearly relative to the body as the operating shaft rotates about the first axis; and a rotating element bearing having a plurality of rotating elements retained by a cage, the cage having a first arcuate portion having a first array of apertures for receiving some of the plurality of rotating elements and a second arcuate portion having a second array of apertures for receiving some of the plurality of rotating elements, the first arcuate portion being connected to the second arcuate portion by an elongate connecting portion, wherein the rotating element bearing is positioned between the convex bearing surface and the concave bearing surface such that the rotating element bearing is configured to move relative to the operating shaft and relative to the yoke during actuation of the brake pad, wherein the brake assembly is configured to have a rest position in which the operating shaft, rotating element bearing, and yoke are in a first position relative to each other and an actuated position in which the operating shaft, rotating element bearing, and yoke are in a second position relative to each other; and wherein a primary circumferential edge of the cage is connected to a secondary circumferential edge of the cage by a tertiary edge of the cage, wherein with the brake assembly in the rest position a first part of the tertiary edge engages a component of the brake assembly to prevent movement of the rotating element bearing in a first axial direction and a second part of the tertiary edge engages the component of the brake assembly to prevent movement of the rotating element bearing in a second axial direction opposite the first axial direction. 15 . The brake assembly of claim 14 wherein the component is configured to