Spacer device, toroidal roller bearing and method

What is claimed is: 1. A spacer device for roller elements of a toroidal roller bearing having an inner ring with an inner ring raceway and an outer ring with an outer ring raceway, wherein the toroidal roller bearing allows for axial and angular displacement between the inner ring and the outer ring, the spacer device comprising: at least one centering element arranged to extend in between adjacent roller elements in a longitudinal direction of the roller elements when the spacer device is in use, the at least one centering element having a first longitudinal end and a second longitudinal end, a middle point of the at least one centering element being at a longitudinal location that is halfway between the first longitudinal end and the second longitudinal end, wherein a portion of the at least one centering element is arranged to make contact with at least one of a point or a region of one of the inner ring raceway or the outer ring raceway when the spacer device is in use, the portion of the at least one centering element having a longitudinal location between the first and second longitudinal ends of the at least one centering element and which generally overlaps the middle point, the portion of the at least one centering element being the only surface of the at least one centering element that contacts the inner ring or the outer ring, a first part and a second part connected by a connecting element that extends in between the adjacent roller elements in the longitudinal direction of the roller elements when the spacer device is in use, and the at least one centering element is attached to the connecting element, wherein the spacer device is centered on the one of the inner ring raceway or the outer ring raceway, the at least one centering element is independently axially moveable over the connecting element in the longitudinal direction of the roller elements relative to the first part and the second part of the spacer device. 2. The spacer device according to claim 1 , wherein the at least one of the point or the region that the at least one centering element contacts is located at a center of the one of the inner ring raceway or the outer ring raceway when the spacer device is in use. 3. The spacer device according to claim 1 , the portion of the at least one centering element further comprising a surface having a shape that is adapted to conform to a surface of the one of the inner ring raceway or the outer ring raceway with which it is to make contact when the spacer device is in use. 4. A spacer device for roller elements of a toroidal roller bearing having an inner ring with an inner ring raceway and an outer ring with an outer ring raceway, wherein the toroidal roller bearing allows for axial and angular displacement between the inner ring and the outer ring, the spacer device comprising: a first part and a second part connected by a connecting element that extends in between adjacent roller elements in a longitudinal direction of the roller elements when the spacer device is in use, at least one centering element attached to the connecting element and arranged to extend in between adjacent roller elements in the longitudinal direction of the roller elements when the spacer device is in use, wherein the at least one centering element is arranged to make contact with at least one of a point or a region of one of the inner ring raceway or the outer ring raceway when the spacer device is in use, wherein the spacer device is centered on the one of the inner ring raceway or the outer ring raceway, and wherein longitudinally outermost surfaces of the at least one centering element are arranged at a distance in the longitudinal direction from longitudinally innermost surfaces of the first part and the second part, respectively, when the spacer device is mounted in the toroidal roller bearing, wherein the distance corresponds to half a maximum axial displacement of the toroidal roller bearing. 5. The spacer device according to claim 4 , wherein the at least one centering element is arranged to make contact with two points or regions of the one of the inner ring raceway or the outer ring raceway when the spacer device is in use, wherein the two points or regions are located a circumferential distance apart when the spacer device is in use. 6. A toroidal roller bearing, having: an inner ring with an inner ring raceway; an outer ring with an outer ring raceway; and the spacer device of claim 4 . 7. A method for manufacturing a spacer device for roller elements of a toroidal roller bearing, the toroidal roller bearing having: an inner ring with an inner ring raceway; and an outer ring with an outer ring raceway, wherein the toroidal roller bearing allows for axial and angular displacement between the inner ring and the outer ring, the method comprising steps of: providing the spacer device with a first part and a second part connected by a connecting element that extends in between adjacent roller elements in a longitudinal direction of the roller elements when the spacer device is in use, the spacer device further comprising at least one centering element attached to the connecting element and that is arranged to extend in between the adjacent roller elements in the longitudinal direction of the roller elements when the spacer device is in use, wherein longitudinally outermost surfaces of the at least one centering element are arranged at a distance in the longitudinal direction from longitudinally innermost surfaces of the first part and the second part, respectively, when the spacer device is mounted in the toroidal roller bearing, wherein the distance corresponds to half the maximum axial displacement of the toroidal roller bearing; and providing the at least one centering element with a surface arranged to make contact with at least one of a first point or a region of one of an inner ring raceway or an outer ring raceway of the toroidal roller bearing when the spacer device is in use, whereby the spacer device will be centered on the one of the inner ring raceway or the outer ring raceway when the spacer device is in use. 8. The method according to claim 7 , wherein the at least one of the first point or the region that the surface is arranged to make contact with is located at a center of the one of the inner ring raceway or the outer ring raceway when the spacer device is in use. 9. The method according to claim 7 , further comprising a step of providing the at least one centering element with a second surface that is arranged to make contact with one of a second point or region on the one of the inner ring raceway or the outer ring raceway when the spacer device is in use. 10. The method according to claim 9 , wherein the first point or the region and the second point or region are located a circumferential distance apart when the spacer device is in use. 11. The method according to claim 7 , wherein the surface having a shape that is adapted to conform to a surface of the one of the inner ring raceway or the outer ring raceway with which it is to make contact when the spacer device is in use. 12. The method according to claim 7 , further comprising a step of arranging the at least one centering element to be axially moveable in the longitudinal direction of the roller elements.