Double-ended flexure bearing

The invention claimed is: 1. A double-ended flexure bearing, comprising: a first outer sleeve including an inside wall having a cylindrical inner surface and a first pillar having a first end attached to the inside wall of the first outer sleeve and a second end which projects outwardly from the first outer sleeve in a first direction parallel to an axis of the sleeve; a second outer sleeve including an inside wall having a cylindrical inner surface and a second pillar having a first end attached to the inside wall of the second outer sleeve and a second end which projects outwardly from the second outer sleeve in a second direction parallel to and diametrically opposed to the first pillar; a central rotor ring having an inside wall having a cylindrical inner surface and an axis concentric with the first outer sleeve and the second outer sleeve, the central rotor ring configured to engage with and connect to the first outer sleeve and the second outer sleeve along the axis, the central rotor ring including: a third pillar having a center attached to a first sector of the inside wall of the ring and opposing first and second ends which project outwardly from the central rotor ring in the first direction and in the second direction parallel to the axis of the ring; a fourth pillar having a center attached to a second sector of the inside wall of the ring and opposing first and second ends which project outwardly from the central rotor ring in the first direction and in the second direction parallel to and diametrically opposed to the third pillar; a plurality of blind holes in each pillar; wherein each pillar comprises a first side shaped to conform to a sector of the inside wall of each of the first outer sleeve, the second outer sleeve and the central rotor ring, a second side having a first flat surface, and a third side having a second flat surface perpendicular to an edge of the first flat surface; wherein each pillar has a first blind hole near a first end of the second side, a second blind hole near a first end of the third side, a third blind hole near a second end of the second side, a fourth blind hole near a second end of the third side, a fifth blind hole at a center of the second side and a sixth blind hole at a center of the third side; wherein the first and second pillars of the first and second outer sleeves are received by the inner surface between the third and fourth pillars of the central rotor ring such that the sleeves are rotatably interconnected about the ring axis; and a plurality of compression springs, each compression spring having a first spring end configured to fit into one of the blind holes of one of the pillars of the central rotor ring, and a second spring end configured to fit into a corresponding blind hole of an adjacent pillar of the first or second outer sleeve when the first and second outer sleeves are interconnected to the central rotor ring, such that the first outer sleeve abuts a first edge of the central rotor ring and the second outer sleeve abuts a second edge of the central rotor ring. 2. A double-ended flexure bearing, comprising: a first outer sleeve including an inside wall having a cylindrical inner surface and a first pillar having a first end attached to the inside wall of the first outer sleeve and a second end which projects outwardly from the first outer sleeve in a first direction parallel to an axis of the sleeve; a second outer sleeve including an inside wall having a cylindrical inner surface and a second pillar having a first end attached to the inside wall of the second outer sleeve and a second end which projects outwardly from the second outer sleeve in a second direction parallel to and diametrically opposed to the first pillar; a central rotor ring having an inside wall having a cylindrical inner surface and an axis concentric with the first outer sleeve and the second outer sleeve, the central rotor ring configured to engage with and connect to the first outer sleeve and the second outer sleeve along the axis, the central rotor ring including: a third pillar having a center attached to a first sector of the inside wall of the ring and opposing first and second ends which project outwardly from the central rotor ring in the first direction and in the second direction parallel to the axis of the ring; a fourth pillar having a center attached to a second sector of the inside wall of the ring and opposing first and second ends which project outwardly from the central rotor ring in the first direction and in the second direction parallel to and diametrically opposed to the third pillar; a plurality of blind holes in each pillar; wherein the first pillar comprises a first side shaped to conform to a first sector of the inner surface of each of the first outer sleeve, the second outer sleeve and the central rotor ring, a second side having a first flat surface, and a third side having a second flat surface perpendicular to an edge of the first flat surface; wherein the second pillar comprises a first side shaped to conform to a second sector of the inner surface of each of the first outer sleeve, the second outer sleeve and the central rotor ring, a second side having a third flat surface, and a third side having a fourth flat surface perpendicular to an edge of the third flat surface; wherein the third pillar comprises a first side shaped to conform to a third sector of the inner surface of each of the first outer sleeve, the second outer sleeve and the central rotor ring, a second side having a fifth flat surface, and a third side having a sixth flat surface perpendicular o an edge of the fifth flat surface; wherein the fourth pillar comprises a first side shaped to conform to a fourth sector of the inner surface of each of the first outer sleeve, the second outer sleeve and the central rotor ring, a second side having a seventh flat surface, and a third side having an eighth flat surface perpendicular to an edge of the seventh flat surface; and wherein each pillar has a first blind hole near a first end of the second side, a second blind hole near a first end of the third side, a third blind hole near a second end of the second side, a fourth blind hole near a second end of the third side, a fifth blind hole at a center of the second side and a sixth blind hole at a center of the third side; wherein the first and second pillars of the first and second outer sleeves are received by the inner surface between the third and fourth pillars of the central rotor ring such that the sleeves are rotatably interconnected about the ring axis; and a plurality of compression springs, each compression spring having a first spring end configured to fit into one of the blind holes of one of the pillars of the central rotor ring, and a second spring end configured to fit into a corresponding blind hole of an adjacent pillar of the first or second outer sleeve when the first and second outer sleeves are interconnected to the central rotor ring, such that the first outer sleeve abuts a first edge of the central rotor ring and the second outer sleeve abuts a second edge of the central rotor ring.