A method and a correspondingly configured device detect damage or defects in a support, including at least one tension member, for an elevator system. A pulse generator generates at least one electrical digital input signal that represents at least one first binary number and is fed to the tension member. After the digital input signal has passed through the tension member, it is detected as a digital output signal that likewise represents at least one second binary number. The second binary number is then compared, in particular compared digit by digit or bit by bit, with a setpoint binary number and/or directly with the first binary number. Damage in the tension member is determined on the basis of an issued comparison result. If the second binary number deviates from the setpoint binary number and/or from the first binary number, a fault message is generated.

A three-dimensional measurement method of geometric parameters of a rope or a cable provides for obtaining a three-dimensional representation of a plurality of 3D contour points of the rope or cable and calculating the geometric parameters thereof, such as diameter, roundness and axis. A calibrated three-dimensional optical measurement system for measuring geometric parameters includes a plurality of digital image acquisition devices and a digital image processing device configured to perform the steps of the three-dimensional measurement method.

An illustrative example embodiment of a method provides control over a temperature of a jacket on an elevator tension member that includes at least one electrically conductive cord that is at least partially covered by the jacket. The method includes determining an amount of electrical energy needed to achieve a desired temperature of the jacket and supplying the determined amount of electrical energy to the electrically conductive cord.

An illustrative example embodiment of a method provides control over a temperature of a jacket on an elevator tension member that includes at least one electrically conductive cord that is at least partially covered by the jacket. The method includes determining an amount of electrical energy needed to achieve a desired temperature of the jacket and supplying the determined amount of electrical energy to the electrically conductive cord.

A connection element for electrically contacting tension members embedded into a matrix material of a load-bearing belt for an elevator system has a frame with an upper part, a lower part and multiple electrically conductive contact elements. The frame is shaped to receive the belt in an interior space delimited at at least two opposite sides. The contact elements are formed as stamped and bent metal parts, and some regions of the contact elements are arranged in the upper part of the frame with other regions protruding from the upper part of the frame into the interior space, for example in the form of piercing tips, in order to contact the tension members embedded in the portion of the belt received in the interior space.

An illustrative example embodiment of an elevator rope sway damping assembly includes a plurality of sway dampers having a width and a length. An actuator device selectively causes movement of the sway dampers in a direction transverse to the length between a first position where the sway dampers are spaced apart by a first distance and a second, sway-damping position where the sway dampers are spaced apart by a second, shorter distance. The actuator device provides an indication when the sway dampers are in the first position.

A method may be used to monitor the health of a belt in an elevator system. The belt may include first and second terminal ends, a plurality of conductive load carrier strands that extend between the first and second terminal ends, and a polymer material surrounding the strands. A measuring connection point may be located between a pair of adjacent carrier strands at each terminal end of the belt. The method may involve electrically connecting a measuring apparatus between the pair of strands at the measuring connection point at each terminal end and measuring an electrical characteristic at each connection point between at least one pair of strands. The electrical characteristic measured over the complete width of the belt gives a complete overview of the health of the belt, as a change in the measured electrical characteristic over time will be indicative of damage within one or more strands.

A safety chain device includes a safety chain including a plurality of protective switches connected in series, each of the protective switches is configured to switch from a first state to a second state in the event of abnormal operation of a respective corresponding drive chain; a resistive network encoder having a plurality of encoder output values, each of the encoder output values corresponds to one of combinations of states of the plurality of protective switches; a processor coupled with the resistive network encoder and configured to output a level signal corresponding to the encoder output values; a first controlled current source coupled with the safety chain and configured to output a first current corresponding to a current flowing through the safety chain; and a second controlled current source coupled with the processor and configured to output a second current corresponding to the level signal.

This wire rope inspection system (100) is provided with a control unit (21) for performing control to inspect a status of a wire rope (101) based on first measurement data (201a) and second measurement data (201b) that differ in the measurement date and time. The control unit is configured to align a waveform of first measurement data and a waveform of second measurement data such that an inspection operation start point of the elevator of the first measurement data and an inspection operation start point of the elevator of the second measurement data coincide with each other.

An elevator system includes a travelling cable connected to an elevator car and to a hoistway wall. The travelling cable includes an electric conductor and/or a data carrier operatively connected at a first end to a feed source and at a second end to service appliances of the elevator car. A protective layer includes an outer diameter and surrounds the electric conductor and/or data carrier. A duct is connected at a first open end to a fluid source and at a second openable end to the elevator car. A sensor system is configured for detecting swaying amplitude of the travelling cable. A microprocessor is associated to the sensor system and to the fluid source. The microprocessor is configured for receiving swaying amplitude data from the sensor system and for operating the fluid source when the swaying amplitude exceeds a predetermined threshold.