Inductive sensor device, a method, and a system for monitoring a gap clearance of an elevator door

1 . An inductive sensor device for monitoring gap clearance of an elevator door, the inductive sensor device is arranged in association with the elevator door, wherein the inductive sensor device is configured to obtain sensor data representing the gap clearance of the elevator door being in a closed state, wherein the inductive sensor device is further configured to: monitor the gap clearance of the elevator door based on the obtained sensor data; and/or provide the obtained sensor data to a remote monitoring entity for monitoring the gap clearance of the elevator door. 2 . The inductive sensor device according to claim 1 , further configured to: detect that the gap clearance of the elevator door meets a predefined limit based on the obtained sensor data; and generate to the remote monitoring entity an indication of meeting the predefined limit in response to the detection of meeting the predefined limit. 3 . The inductive sensor device according to claim 1 , further configured to: detect a long-term trend in the gap clearance of the elevator door based on the obtained sensor data; and generate to the remote monitoring entity an indication of detection of the long-term trend in response to the detection of the long-term trend. 4 . The inductive sensor device according to claim 1 , wherein the inductive sensor device is arranged into a sill profile of the elevator door. 5 . The inductive sensor device according to claim 4 , wherein the inductive sensor device is arranged to a side of a groove of the sill profile of the elevator door or to a bottom of a groove of the sill profile of the elevator door. 6 . The inductive sensor device according to claim 1 , wherein the gap clearance is a center gap clearance between elevator door panels of a center opening elevator door or a side gap clearance between an elevator door panel and an upright door frame structure of a side opening elevator door. 7 . The inductive sensor device according to claim 1 , further comprising an inductive coil configured to generate an alternating magnetic field that induces eddy currents in a conductive surface of the elevator door to obtain the sensor data. 8 . The inductive sensor device according to claim 7 , wherein the obtained sensor data comprises a signal value representing a surface area on the conductive surface of the elevator door affected by the magnetic field generated by the inductive coil, the gap clearance of the elevator door, proximity data representing proximity between the inductive sensor device and the conductive surface of the elevator door, distance data representing distance between the inductive sensor device and the conductive surface of the elevator door, and/or position data representing a position of the conductive surface of the elevator door in relation to the inductive sensor device. 9 . The inductive sensor device according to claim 7 , wherein the conductive surface of the elevator door comprises at least one elevator door panel or at least one sliding profile arranged to the at least one elevator door panel. 10 . A method for monitoring gap clearance of an elevator door, wherein the method comprises: obtaining, by an inductive sensor device arranged in association with the elevator door, sensor data representing the gap clearance of the elevator door being in a closed state; and monitoring, by the inductive sensor device and/or a remote monitoring entity, the gap clearance of the elevator door based on the obtained sensor data. 11 . The method according to claim 10 , further comprising: detecting, by the inductive sensor device, that the gap clearance of the elevator door meets a predefined limit based on the obtained sensor data; and generating, by the inductive sensor device, to the remote monitoring entity an indication of meeting the predefined limit in response to the detection of meeting the predefined limit. 12 . The method according to claim 10 , further comprising: detecting, by the inductive sensor device, a long-term trend in the gap clearance of the elevator door based on the obtained sensor data; and generating, by the inductive sensor device, to the remote monitoring entity an indication of detection of the long-term trend in response to the detection of the long-term trend. 13 . The method according to claim 10 , further comprising detecting, by the remote monitoring entity, that the gap clearance of the elevator door meets a predefined limit based on the obtained sensor data; and/or detecting, by the remote monitoring entity, a long-term trend in the gap clearance of the elevator door based on the obtained sensor data. 14 . The method according to according to claim 10 , wherein the inductive sensor device is arranged into a sill profile of the elevator door. 15 . The method according to claim 14 , wherein the inductive sensor device is arranged to a side of a groove of the sill profile of the elevator door or to a bottom of a groove of the sill profile of the elevator door. 16 . The method according to claim 10 , wherein the gap clearance is a center gap clearance between elevator door panels of a center opening elevator door or a side gap clearance between an elevator door panel and an upright door frame structure of a side opening elevator door. 17 . The method according to claim 10 , wherein the sensor data is obtained by generating, by an inductive coil of the inductive sensor device, an alternating magnetic field that induces eddy currents in a conductive surface of the elevator door. 18 . The method according to claim 17 , wherein the obtained sensor data comprises a signal value representing a surface area of the conductive surface of the elevator door affected by the generated magnetic field generated by the inductive coil, the gap clearance of the elevator door, proximity data representing proximity between the inductive sensor device and the conductive surface of the elevator door, distance data representing distance between the inductive sensor device and the conductive surface of the elevator door, and/or position data representing a position of the conductive surface of the elevator door in relation to the inductive sensor device. 19 . The method according to claim 17 , wherein the conductive surface of the elevator door comprises at least one elevator door panel or at least one sliding profile arranged to the at least one elevator door panel. 20 . A monitoring system for monitoring a gap clearance of one or more elevator doors, the monitoring system comprising: a remote monitoring entity; and one or more inductive sensor devices according to claim 1 . 21 . The monitoring system according to claim 20 , wherein the remote monitoring entity is configured to: detect based on obtained sensor data that the gap clearance of the elevator door meets a predefined limit; and/or detect long-term trend in the gap clearance of the elevator door based on the obtained sensor data.