Tension member tension monitoring arrangement, a tension member tension monitoring method and an elevator

1 . A tension member tension monitoring arrangement for measuring tension member tension of elevator tension members of a bundle of tension members, the elevator comprising an elevator car suspended by the tension members, such as ropes or belts, of the bundle of tension members, a termination at one end of a tension member and a mounting plate for attaching the termination relative to the hoistway, counterweight, and/or the elevator car, wherein the tension member tension monitoring arrangement comprises at least one capacitive pressure sensor arranged in connection with a tension member termination, wherein the arrangement further comprises a control unit connected to the at least one sensor, wherein the at least one sensor is configured to sense the tension member forces of the tension members of the bundle of tension members attached to the tension member termination and generate a signal relating to one or more tension members of the tension member bundle readable and/or measurable by the control unit and proportional to the sensed load or force. 2 . An arrangement according to claim 1 , wherein the at least one capacitive pressure sensor is arranged beneath or above of individual tension member terminations, e.g. to car side tension member termination, counterweight side tension member termination and/or hoistway tension member termination. 3 . An arrangement according to claim 1 , wherein the arrangement comprises at least one washer arranged between the individual sensor element and a termination spring of a tension member, wherein the reaction force to the sensor element is guided through a washer. 4 . An arrangement according to claim 1 , wherein the sensor comprises elastic material and capacitive sensing element arranged to the first side, e.g. on top, of the elastic material, and conductive plate arranged on the second side, e.g. under, of the elastic material, wherein distance between the conductive plate and the capacitive element is configured to vary as a function of the load, and/or wherein the elastic material comprises foam, solid plastic material, polyurethane, silicone, thermoplastic elastomer and/or BASF Cellasto, e.g. MH24-55. 5 . An arrangement according to claim 1 , wherein an individual sensor element and/or capacitive sensing element of the sensor has a round, a square or a honey-comb shape. 6 . An arrangement according to claim 1 , wherein the arrangement comprises one sensor structure comprising multiple capacitive pressure sensor elements in the sensor structure wherein each sensor element is arranged in connection with an individual tension member termination. 7 . An arrangement according to claim 6 , wherein the sensor structure comprises one conductive plate arranged on the second side, e.g. below, of the elastic material and multiple capacitive sensing elements arranged to the first side of the elastic material, e.g. on top of the elastic material, each capacitive sensing element arranged in connection with an individual tension member termination. 8 . An arrangement according to claim 1 , wherein the arrangement comprises conducting means and a connector for connecting the sensor to the control unit, wherein the conducting means are arranged between individual sensor elements and the connector. 9 . An arrangement according to claim 1 , wherein the arrangement is configured to measure relative force values between the different tension members and/or tension member terminations and/or compare reaction forces between each tension member and/or tension member termination. 10 . An arrangement according to claim 1 , wherein the arrangement is configured to measure reference level in the beginning of elevator operation life or force values without load, e.g. when tension members are loose, for example on car side. 11 . An arrangement according to claim 1 , wherein the at least one sensor is installed in connection with the elevator car side tension member termination and/or the arrangement is configured to operate as a weighting device by using sum of measured absolute loads for all tension members in determining weight of the elevator car and/or the load of the elevator car. 12 . A method for measuring tension member tension of elevator tension members of a bundle of tension members with an tension member tension monitoring arrangement for elevators, the elevator comprising an elevator car suspended by the tension members, such as ropes or belts, of the bundle of tension members, a termination at one end of a tension member and a mounting plate for attaching the termination relative to the hoistway, counterweight and/or the elevator car, wherein the tension member tension monitoring arrangement comprises at least one capacitive pressure sensor arranged in connection with a tension member termination, wherein the arrangement further comprises a control unit connected to the at least one sensor, wherein in the method the at least one sensor senses the tension member forces of the tension member attached to the tension member termination and generates a signal readable and/or measurable by the control unit and proportional to the sensed load or force. 13 . A method according to claim 12 , wherein the arrangement measures relative force values between the different terminations and/or compares reaction forces between each termination. 14 . A method according to claim 12 , wherein the arrangement measures reference level in the beginning of elevator operation life or force values without load, e.g. when tension members are loose, for example on car side. 15 . A method according to claim 12 , wherein the at least one sensor is installed in connection with the elevator car side tension member termination and/or the arrangement is configured to operate as a weighting device by using sum of measured absolute loads for all tension members in determining weight of the elevator car and/or the load of the elevator car. 16 . An elevator comprising an elevator car, an elevator motor configured to move the elevator car, and a tension member tension monitoring arrangement according to claim 1 . 17 . A computer program comprising instructions which, when executed by a computer, cause the computer to carry out the method according to claim 12 . 18 . A computer-readable medium comprising the computer program according to claim 17 .