Combined elevator vibration isolation and load measurement element

The invention claimed is: 1. A combined elevator vibration isolation and load measurement element comprising: a vibration isolation pad with two opposite substantially planar surfaces in a first direction; an elastic material layer having a first side permanently attached to a first of the two substantially planar surfaces of the vibration isolation pad; and a load sensor arrangement attached to a second side of the elastic material layer in the first direction and integrated into the combined elevator vibration isolation and load measurement element, whereby the load sensor arrangement is configured to measure a load acting on the combined elevator vibration isolation and load measurement element as a function of compression of the elastic material layer. 2. The combined elevator vibration isolation and load measurement element according to claim 1 , wherein the elastic material layer is formed of a pressure mat comprising pressure cells within the pressure mat, whereby the load sensor arrangement measures the pressure in the pressure cells, said pressure being a function of the load acting on the vibration isolation pad. 3. The combined elevator vibration isolation and load measurement element according to claim 2 , wherein the elastic material layer has a first Young's modulus and a first yield strain, the first yield strain being at least 10 percent, wherein the first yield strain is an elongation limit of the elastic material before plastic deformation occurs. 4. The combined elevator vibration isolation and load measurement element according to claim 1 , wherein the load sensor arrangement comprises electrical antennas arranged at a distance apart from each other and integrated into a first surface of the vibration isolation pad, the electrical antennas being directed to send through the elastic material layer towards a metal object on the opposite surface of the elastic material layer, whereby the distance between the electrical antennas and the metal object can be measure inductively, said distance corresponding to the compression of the elastic material layer and thereby to the load acting on the vibration isolation pad may be measured. 5. The combined elevator vibration isolation and load measurement element according to claim 4 , wherein the elastic material layer has a first Young's modulus and a first yield strain, the first yield strain being at least 10 percent, wherein the first yield strain is an elongation limit of the elastic material before plastic deformation occurs. 6. The combined elevator vibration isolation and load measurement element according to claim 1 , wherein the load sensor arrangement comprises electrodes arranged at a distance apart from each other and attached to a first surface of the elastic material layer, a first electrical layer attached to a second opposite surface of the elastic material layer, whereby the distance between each electrode and the first electrical layer can be measured capacitively, said distance corresponding to the compression of the elastic material layer and thereby to the load acting on the vibration isolation pad. 7. The combined elevator vibration isolation and load measurement element according to claim 6 , wherein the elastic material layer has a first Young's modulus and a first yield strain, the first yield strain being at least 10 percent, wherein the first yield strain is an elongation limit of the elastic material before plastic deformation occurs. 8. The combined elevator vibration isolation and load measurement element according to claim 1 , wherein the elastic material layer has a first Young's modulus and a first yield strain, the first yield strain being at least 10 percent, and wherein the first yield strain is an elongation limit of the elastic material before plastic deformation occurs. 9. The combined elevator vibration isolation and load measurement element according to claim 1 , wherein the thickness of the vibration isolation pad is in the range of 10 to 80 mm. 10. The combined elevator vibration isolation and load measurement element according to claim 1 , wherein the thickness of the elastic material layer is in the range of 1 to 8 mm. 11. An elevator comprising: a car; a shaft; a hoisting machinery with a traction sheave; hoisting ropes; a counterweight; and a controller, wherein the hoisting ropes pass over the traction sheave so that the car is suspended with the hoisting ropes on a first side of the traction sheave and the counterweight is suspended with the hoisting ropes on a second opposite side of the traction sheave, the car moving upwards and downwards between landings in the elevator shaft, the elevator being provided with the combined elevator vibration isolation and load measurement element according to claim 1 . 12. The elevator according to claim 11 , wherein the hoisting machinery is supported with at least one combined elevator vibration isolation and load measurement element on a machinery bed plate. 13. The elevator according to claim 11 , wherein the hoisting ropes are attached to a support bar, said support bar being attached via at least one combined elevator vibration isolation and load measurement element to a frame of the car or to a support surface in the shaft or in a machine room. 14. The elevator according to claim 11 , wherein the car is supported via at least one combined elevator vibration isolation and load measurement element on the car frame. 15. The combined elevator vibration isolation and load measurement element according to claim 1 , wherein the thickness of the vibration isolation pad is in the range of 20 to 70 mm. 16. The combined elevator vibration isolation and load measurement element according to claim 1 , wherein the thickness of the elastic material layer is in the range of 2 to 6 mm. 17. A combined elevator vibration isolation and load measurement element comprising: a vibration isolation pad with two opposite substantially planar surfaces; an elastic material layer permanently attached to a first of the two substantially planar surfaces of the vibration isolation pad; and a load sensor arrangement integrated into the combined elevator vibration isolation and load measurement element, whereby a load acting on the combined elevator vibration isolation and load measurement element can be measured with the load sensor arrangement as a function of the compression of the elastic material layer, wherein the load sensor arrangement comprises electrodes arranged at a distance apart from each other and attached to a first surface of the elastic material layer, a first electrical layer attached to a second opposite surface of the elastic material layer, whereby the distance between each electrode and the first electrical layer can be measured capacitively, said distance corresponding to the compression of the elastic material layer and thereby to the load acting on the vibration isolation pad, and wherein each of the electrodes is electrically connected to a specific part of an electrically conductive wiring, said specific part of the electrically conductive wiring forming an electrical output of said electrode, the electrically conductive wiring being further attached to an electrically insulating flexible foil. 18. The combined elevator vibration isolation and load measurement element according to claim 17 , wherein the flexible foil has a second Young's modulus, the first Young's modulus being less than the second Young's modulus. 19. The combined elevator vibration isolation and load measur