Roller with integrated load cell

The invention claimed is: 1. A roller for a roller bearing, comprising: a hollow bore in which a load cell is arranged, wherein the load cell is mounted to the roller bore and provides one or more cantilever beams that extend in an axial direction (z) of the roller, a contact element is provided on each cantilever beam, the contact element bears against a surface of the roller bore; and at least one sensor is provided on each cantilever beam for measuring bending thereof, due to deflection of the beam in a radial direction (r) perpendicular to the axial direction (z). 2. The roller according to claim 1 , wherein the contact element has a contact surface that is curved in axial direction (z) and in circumferential direction (θ) of the roller. 3. The roller according to claim 2 , wherein the roller has a cylindrical bore with a bore radius r b ; the contact surface has a radius of curvature r c and wherein r c =(0.8−1.0)r c . 4. The roller according to claim 1 , wherein each cantilever beam comprises a first section that extends in axial direction (z) away from a fixed end of the beam and further comprises a second section that extends in axial direction back towards the fixed end. 5. The roller according to claim 4 , wherein the contact element is provided on the second section. 6. The roller according to claim 1 , wherein the load cell comprises first and second cantilever beams and wherein the first cantilever beam has a first contact element that bears against the roller bore surface at a first location and the second cantilever beam has a second contact element that bears against the roller bore surface at a second location, diametrically opposite from the first location. 7. The roller according to claim 1 , wherein the load cell forms part of a sensor unit that is inserted into the roller bore, the sensor unit having a housing to which the load cell is attached, the housing having a smaller diameter than the roller bore diameter and is configured such that only the contact element of each cantilever beam is in contact with the bore surface. 8. The roller according to claim 7 , wherein the sensor unit is resiliently mounted to the roller bore by means of first and second elastomeric sealing elements arranged at either axial end of the roller bore. 9. The roller according to claim 1 , wherein each cantilever beam is provided with a first strain gauge on a portion of the beam that experiences tension under the bending and is further provided with a second strain gauge on a portion of the beam that experiences compression. 10. The roller according to claim 9 , wherein the first and second strain gauges are radially spaced and are provided on opposite sides of the cantilever beam. 11. The roller according to claim 9 , wherein the first and second strain gauges are axially spaced and are provided on one side of the cantilever beam. 12. The roller according to claim 1 , wherein the load cell comprises four strain gauges connected in a Wheatstone bridge. 13. A bearing comprising: a roller having a hollow bore into which a load cell is arranged, wherein the load cell is mounted to the roller bore and provides one or more cantilever beams that extend in an axial direction (z) of the roller, a contact element is provided on each cantilever beam, the contact element bears against a surface of the roller bore; and at least one sensor is provided on each cantilever beam for measuring bending thereof, due to deflection of the beam in a radial direction (r) perpendicular to the axial direction (z).