The present invention provides an escalator braking system and an escalator braking control method, belonging to the field of escalator braking control technology. In the escalator braking system and the escalator braking control method according to the present invention, a braking mode is determined based on the classification of failure information in combination with the corresponding image information, and a braking device is controlled based on the braking mode, so that the braking is more intelligent, scientific and accurate, the occurrence of security problems caused by the failure can be effectively prevented, and the probability of accident is reduced.

The present invention relates to the field of passenger conveyor technologies, and provides a monitoring system of a passenger conveyor and a monitoring method thereof. In the monitoring system and detection method of the present invention, a monitored object of the passenger conveyor is sensed by using an imaging sensor and/or a depth sensing sensor to acquire a data frame, and the data frame is analyzed by a processing apparatus to monitor whether the monitored object is in a normal state. The monitored object may include a landing plate, a step, a barrier used in a maintenance and repair working condition and/or a step speed, and the like.

A human transport device such as an escalator or a moving walkway may include tread elements connected into an endless transport belt, a drive unit for driving the transport belt, and a monitoring apparatus for detecting a faulty arrangement of at least one of the tread elements in the transport belt. The tread elements of the driven transport belt may pass through a transport region and a return region between a first return station and a second return station. The monitoring apparatus may have a detection means and a triggering unit. The detection means may be arranged in a direction of a longitudinal extension of the human transport device below the tread elements of the transport region between the first and second return stations. The detection means may be connected to the triggering unit, and the triggering unit may actuate upon mechanical influence on the detection means.

A conveyor device (2) comprises: a conveyance element (8) extending in a longitudinal direction between two spaced apart landing portions (4, 6) and configured to move for conveying people and/or goods between the two landing portions (4, 6); at least one balustrade (10, 12) located laterally at one side of the conveyance element (8) and extending along the longitudinal direction of the conveyance element (8); and at least one sensor (22, 23), which is configured for detecting the presence of a person in a detection zone (28) which is defined by a main detection direction (D), at least one detection angle (, ) and at least one detection range (R). The at least one sensor (22, 23) is located at or next to the at least one balustrade (10, 12), and the main detection direction (D) extends from the at least one sensor (22, 23) in a direction away from the balustrade (10, 12).

A monitoring system for a personnel delivery device and the personnel delivery device are disclosed. The monitoring system includes a support member provided on the personnel delivery device and having an overhanging portion located above a personnel delivery unit; and a detection apparatus provided in the overhanging portion of the support member. The detection apparatus includes a first camera mounted in the overhanging portion; and a second camera mounted in the overhanging portion. The centerline of a lens of the first camera and the centerline of a lens of the second camera are symmetric with respect to the centerline of the personnel delivery unit of the personnel delivery device in the running direction.

A method may be employed to control a transport device such as a moving walkway or an escalator with a control unit. The transport device may include a transport area for accommodating a person to be transported, transport means such as movable pallets or movable steps adapted for conveying the person located in the transport area in a standing manner, drive means adapted for driving the transport means, and an image recording device for creating visual images of a sector of the transport area. Based on the recorded images a movement of the person within the transport area is analysed. Based upon a result of the analysis the control unit is transferred into a safety modus.

The present invention relates to step roller monitoring and maintenance personnel monitoring of a passenger conveyor, and belongs to the field of passenger conveyor technologies. In the monitoring system and monitoring method of the present invention, an imaging sensor and/or a depth sensing sensor is used to sense the step roller/maintenance personnel of the passenger conveyor to acquire data frames, and the data frames are analyzed and processed to monitor whether the movement or position of the step roller/activity or position of the maintenance personnel is in a normal state.

The present invention constantly observes the balancing condition of users; at the first few signs of an occurrence of an accident such as falling, slipping, sitting on the escalator the system immediately initiates an emergency stop command.

A computer-implemented method according to one embodiment includes monitoring and collecting data associated with one or more users of a moving platform, analyzing the data, identifying a predetermined event, based on the analyzing, and adjusting one or more aspects of the moving platform, based on the predetermined event.

The remote inspection device for a passenger conveyor includes at least one camera mounted directly above the passenger conveyor for monitoring external conditions of the passenger conveyor, a remote controller for performing a remote visual inspection using the camera, a passenger conveyor controller for operating the passenger conveyor at a normal speed during a normal operation and for operating the passenger conveyor at a slower speed or bringing it to a complete stop during a remote visual inspection, and a sensor connected to the passenger conveyor controller and arranged in the vicinity of the entrance of the passenger conveyor for detecting the presence of a passenger approaching the entrance of the passenger conveyor.