Abstract:
An elevator user creates on a user terminal an individual user program, that is adapted to his needs, for operating the elevator. The user terminal can include a keypad for selecting commands and entering values, and a screen for displaying the command sequence. Depending upon authorization, the user can access the entire command set or only certain commands. The user program is transmitted to a terminal of an elevator control by wireless communication and proceeds to a program control which adds to the user program data required for execution and stores it in a memory. A task manager of the control program initiates the execution of the user program by an interpreter that interprets the program step by step. In the case of elevator-specific instructions such as, for example, travel commands or door opening commands, the interpreter calls up an interface that initiates the further execution by an elevator control.
Abstract:
A remote controller linkage is established to an elevator system having one or more elevators and using a data transmission network (21) comprising at least one serial communication bus for the transmission of control signals between the operating and/or other devices belonging to the system, car calls, landing calls and other information obtained from and/or generated by the devices included in the elevator system. At least one of the serial communication buses belonging to the data transmission network (21) of the elevator system is connected to a functional unit (3,7,10,13) fitted to receive messages sent to it by a remote controller (1,22). On the basis of the message received, the functional unit (3,7,10,13) transmits into the serial communication bus a message containing at least one control, call or other datum and the bus address of the transmitting functional unit (3,7,10,13).
Abstract:
When a plurality of preset buttons among a plurality of buttons provided on a destination call registration panel have been successively depressed in a predetermined sequence and within predetermined time intervals, the presence of a request for a special operation is determined so as to register a call to a specified floor not indicated on the panel. When the request for special operation is not determined, a call to a floor corresponding to a depressed button is registeed as usual. In this manner, the destination floor call registration panel can be used for registering cage calls under normal operation and for instructing special operation without any change.
Abstract:
An elevator car having a cab which includes front, side, and rear walls assembled to define an enclosure on a platform. The front wall defines an entranceway having first and second door jambs. The front wall further defines at least one inner surface. A main car call panel is mounted on the at least one inner surface of the front wall, and a second or auxiliary car call panel is mounted on a selected one of the door jambs. The car call panel inside the car may be arranged for use by the average passenger, while the door jamb mounted car call panel is arranged for use by the handicapped.
Abstract:
An elevator system has an elevator operating device and an activation device. The operating device is connected to the elevator controller and is arranged on a floor. The operating device has a first radio device, an audio device and a touchscreen for inputting a destination floor desired by a passenger and for outputting travel information. The activation device has an actuation device accessible to the passenger, has a second radio device for radio communication with the first radio device, and is arranged within radio range of the operating device. When the actuation device is actuated by the passenger, the second radio device transmits an activation radio signal. The operating device then switches from a normal operating mode to a special operating mode, in which an operating instruction for a call input by the passenger is generated, and when the call input is complete, switches back to the normal operating mode.
Abstract:
An elevator control system including an elevator management system obtaining meeting information from at least one of a calendar system and a user interface; the elevator management system generating a control command in response to the meeting information; and an elevator controller controlling destinations of one or more elevator cars in response to the control command.
Abstract:
A method for controlling a lift installation having a plurality of cabins that can each stop at a number of floors may involve assigning calls placed outside the cabins to the cabins by way of a lift controller based on at least one assignment criterion. The method may involve considering a current traffic situation of the lift installation during the assignment. The method may further involve generating and considering a forecast of a future traffic situation of the lift installation during the assignment. The forecast may account for personal information of at least one of a person who is in a predetermined environment of the lift installation, a person who is in a section of the lift installation, a person who enters a predetermined environment of the lift installation, or a person who leaves a predetermined environment of the lift installation.”
Abstract:
Embodiments are directed to receiving, by a computing device comprising a processor, a request for at least one service associated with an elevator system from a mobile device over a cellular network, validating the request based on a determined location of the mobile device, and causing at least one resource associated with the at least one service to be scheduled based on the validating indicating that the request is approved.
Abstract:
A conveyance system comprises at least one user interface having at least one service request pushbutton for providing service requests to the conveyance system. An identifier device is provided to a passenger. The identifier device stores identifier device data for determining a service profile of the identifier device. The identifier device data in the identifier device is read when a passenger presses or touches a service request pushbutton of the user interface. Based on the data read from the identifier device, the service profile of the identifier device is determined. A service request connected to the service request pushbutton is activated based on the service profile.
Abstract:
Provided is an elevator group control system which is excellent in convenience and can prevent a decrease in operation efficiency even when an elevator is used by a group of a plurality of persons. For this purpose, there are installed in an elevator hall a destination operating panel by use of which users register their destination floors before boarding and a group boarding registering device for registering that users use an elevator as a group. The number of users expected when users use an elevator as a group is stored beforehand in a user head-count storage section. When registration of a destination floor by use of the destination operating panel has been performed at the same time with registration of a group use by use of the group boarding registering device, a car to be assigned to a hall car call is determined on the basis of the number of users stored in the user head-count storage section.