The application relates to a method for detecting and monitoring the mechanical condition of an escalator or a moving walkway with at least one revolving band and at least one detecting device. The method includes (i) preparing at least one spatial image of at least one section of the revolving band, (ii) selecting at least one region of the spatial image, (iii) comparing the selected region with at least one comparison region, wherein the comparison region is defined by three-dimensional coordinates and represents a virtual space which can be clearly assigned to the selected region, and (iv) generating an alarm signal if the selected region differs from the comparison region by surpassing predetermined limits.

A monitoring system for a passenger conveyor including: at least one acceleration sensor provided on a movable component of the passenger conveyor, wherein the moveable component moves in a closed loop path (P) when the passenger conveyor is in use; a fault detection sensor associated with the or each acceleration sensor and configured to provide data indicative of a fault in the moveable. The monitoring system includes a controller configured to: receive data from the or each acceleration sensor; monitor a gravity vector (V) of the or each acceleration sensor; determine a direction of travel of the or each acceleration sensor; determine a current location of the or each acceleration sensor based on the monitored gravity vector (V) and the determined direction of travel; detect a fault from the data received from the or each fault detection sensor; identify a location of the detected fault.

A handrail safety control device, a transportation system and a handrail safety control method. The handrail safety control device is provided for a transportation system having a handrail, the handrail including a body and a handrail belt, the handrail belt being driven under power to move relative to the body and forming an engaged state or a disengaged state with the body. The handrail safety control device includes: a contact portion disposed in a preset section of the handrail, the contact portion being in a first state or a second state respectively when the handrail belt in the preset section is in the engaged state or the disengaged state, wherein in the first state, the contact portion is in contact with the handrail belt, and in the second state, the contact portion is at least partially out of contact with the handrail belt; and a signal generation portion.

Disclosed are a safety apparatus for an escalator and an escalator. The safety apparatus is disposed on the skirt of the escalator, the safety apparatus includes a one-piece profile which comprises a rear wall, an upper portion at an upper end of the rear wall, and a lower portion at a lower end of the rear wall, wherein a plurality of sensor holes are provided on the rear wall, and the safety apparatus further comprises an illumination device, a skirt brush, and a plurality of photoelectric sensors, wherein the illumination device is disposed on the profile and emits illumination light toward the step side, wherein the skirt brush is disposed on the lower portion, and wherein the plurality of photoelectric sensors are mounted to be respectively aligned with the plurality of sensor holes so as to emit and/or receive optical signals through the plurality of sensor holes.

An escalator-monitoring device/method deliver quick/easy installation without affecting the escalator's safety/warranty, minimizing operation costs/risks/liabilities/downtimes, and maximizing capitalization by reliable detecting being normal, abnormal/unsafe, usage and users' heights, alerting the unsafe users, notifying maintenance/traffic-control personnel with pinpointed occurrence(s), receiving/replying requests for state in real time, and uploading the detected big data to computing/IoT cloud(s) at a system preset interval.

A method for detecting changes in an area to be monitored of a conveying system utilizes a sound sensor and an evaluation unit connected to the sound sensor. The method includes emitting an acoustic pulse into the area to be monitored, recording an acoustic response signal of the pulse as an actual signal, determining an envelope of the actual signal, and detecting changes on the basis of the envelope.

Disclosed is an escalator system including handrail, the system having: a handrail including a handrail base and a handrail cover operationally connected to the handrail base, a first sensor disposed between the handrail base and the handrail cover and a first controller for controlling the first sensor, and wherein the first sensor processes data representing a sensed parameter, whereby the system identifies the occurrence of a trigger event and executes a first responsive measure.

The present invention discloses an escalator monitoring system, which includes a data collection device disposed near the parts of the escalator that require monitoring in order to collect data the parts relevant to the operation of the escalator, a data transmittal device used to send the collected data, a cloud processor used to receive the data, to compare the data against threshold data of the parts obtained under normal operating conditions stored in the database of the cloud processor, and to respond based on the comparison result. The present invention can collect the data and analyze it in any environment independent of subjective human judgment, predict possible failure without the need to stop the operation of the escalator, save maintenance time, reduce associated cost, and thus improve its safety and ride comfort.

Disclosed are a safety apparatus for an escalator and an escalator. The safety apparatus is disposed on the skirt of the escalator, the safety apparatus includes a one-piece profile which comprises a rear wall, an upper portion at an upper end of the rear wall, and a lower portion at a lower end of the rear wall, wherein a plurality of sensor holes are provided on the rear wall, and the safety apparatus further comprises an illumination device, a skirt brush, and a plurality of photoelectric sensors, wherein the illumination device is disposed on the profile and emits illumination light toward the step side, wherein the skirt brush is disposed on the lower portion, and wherein the plurality of photoelectric sensors are mounted to be respectively aligned with the plurality of sensor holes so as to emit and/or receive optical signals through the plurality of sensor holes.

A security detection device for escalator, comprising a detecting circuit disposed on the inner side of the guardrails and for judging passengers, and the detecting circuit comprises a plurality of transmitting tubes disposed on the inner side of the guardrail, and a plurality of receiving tubes disposed on the inner side of the other guardrail, and the positions of the receiving tubes are one-to-one corresponding to the positions of the transmitting tubes; when light of the transmitting tubes is blocked by the passengers, and the receiving tubes generate an electrical signal, and after being recognized by the matrix recognition circuit, the signal is combined to form an image signal; after the detection interval time, receive a new image signal and compare it with the previous image signal, and when the difference exceeds the setting value, output a control signal to stop the motor, thereby stopping the moving of steps.