There is provided a diagnostic device for vertical transportation devices, which can obtain information for appropriately diagnosing a vertical transportation device. The diagnostic device for vertical transportation devices includes a housing-unit that defines an outer profile, a storage-unit that is housed in the housing-unit and stores information, an acceleration-detection-unit that is housed in the housing-unit and detects, with the housing-unit attached to a moving object in the vertical transportation device, acceleration in a vertical direction and acceleration in a horizontal direction of the moving object as diagnostic information of the moving object in the vertical transportation device when the moving object has moved, and a control-unit that is housed in the housing-unit and causes the storage-unit to store information about the acceleration in the vertical direction and information about the acceleration in the horizontal direction, which have been detected by the acceleration-detection-unit, in association with information about a detection timing.

Elevator systems and methods are provided. The systems include an elevator car movable within an elevator shaft, the elevator car includes an elevator car door interlock device operable to open and close elevator car doors, a plurality of landing doors located at respective landings along the elevator shaft, wherein each landing door includes a landing door interlock device operable to open and close a respective landing door, wherein each landing door interlock device is engageable by the elevator car door interlock device to enable operation of the elevator car doors and the respective landing door simultaneously. An elevator component inspection system is configured with a detector located on the top of the elevator car and arranged to monitor the interlock devices, wherein the detector obtains inspection data associated with the elevator car door interlock device and the plurality of landing door interlock devices.

An elevator operating device for inputting a travel request in an elevator system has a first call input device that is communicatively connected to a central control device of the elevator operating device. The first call input device comprises buttons that are each assigned to a floor of a building and are disposed so as to be accessible to a first passenger for inputting a destination floor. A second call input device of the elevator operating device is communicatively connected to the central control device and disposed so as to be accessible to a second passenger for inputting a destination floor. The first call input device and the second call input device are disposed at a distance from each other on the passenger side.

A communication system for an elevator system, a communication method for an elevator calling system, and a computer-readable storage medium for implementing the method. A communication system includes at least two communication node groups, each of the communication node groups comprising wireless modules deployed at a plurality of locations of the elevator system, one of the wireless modules in each of the communication node groups is set as the first node and the other wireless modules are set as the second node; a master node, which can be configured to establish a communication connection with one of the first nodes as designed, the first node in each of the communication node groups can be configured to establish a wireless communication connection with the second node belonging to the same communication node group and establish a wireless communication connection with the first node in the adjacent communication node group.

Disclosed is an elevator system having an elevator, the elevator having an elevator landing and an elevator controller, the controller capable of communicating over a network with a device, and the device may be located within an area positionally associated with the landing, the controller: receives from the device, a request for elevator service at the landing, effects monitoring the device relative to the area, effects a first response upon determining that the device is inside the area, otherwise effects a second response.

Disclosed is an elevator system having an elevator entryway, the elevator entryway including: a first door, which is an elevator door, a first controller operationally connected to the first door for opening and closing the first door to provide access to an elevator, wherein when the first door is closing: the first controller monitors for first instructions over a frequency applicable to light detection and ranging (LIDAR) and/or a radio detection and ranging (RADAR), and upon receiving the first instructions, the first controller executes the first instructions.

An elevator car position determining system includes a tag mounted to an elevator car, the elevator car configured to travel in a hoistway; at least one anchor mounted in the hoistway; a gateway in communication with the tag; wherein the tag is configured to send a poll signal; wherein the at least one anchor is configured to generate a reply signal in response to the poll signal; wherein the tag is configured to determine a position of the elevator car in the hoistway in response to a time of flight of the poll signal to the at least one anchor and a time of flight of the reply signal to the tag.

A method of providing elevator data to a passenger including: receiving elevator data, the elevator data relating to an elevator car in an elevator system; wirelessly transmitting the elevator data to a mobile computing device; and conveying the elevator data to the passenger via a software application of the mobile computer device.

Embodiments of the present disclosure are directed to a system for a touchless request for an elevator cab. The system for a touchless request for an elevator cab includes an elevator controller, a processor communicatively coupled to the elevator controller, and a storage medium in communication with the processor comprising programming instructions cause the processor to: receive a unique identification from a user, determine a current floor that the unique identification was provided, access a data storage device to determine a destination floor access permission based on the unique identification, determine a landing to travel based on the destination floor access permission, send an elevator cab request command to the elevator controller to request the elevator cab to the current floor and to travel to the landing, and generate a notification for the elevator cab that is assigned to travel between the current floor and the landing.

An elevator communication system includes an elevator communication network configured to carry elevator system associated data; a plurality of elevator system nodes communicatively connected to the elevator communication network, wherein at least some of the plurality of elevator system nodes each includes a camera associated with an elevator and/or a landing floor served by the elevator and configured to provide image data about the elevator and/or the landing floor, wherein at least some of the plurality of elevator system nodes each includes a sensor associated with an elevator and a landing floor served by the elevator and configured to provide sensor data for at least one parameter associated with the elevator and/or the landing floor, and wherein at least one of the plurality of elevator system nodes includes a display node, and a controller communicatively connected to the elevator communication network. The controller is configured to obtain image data from a plurality of cameras and sensor data from a plurality of sensors during a fire emergency situation; and cause display, during the fire emergency situation, with the at least one display node a graphical user interface comprising image data and sensor data associated with a selected set of the plurality of cameras and sensors.