A door frame of a shaft door is provided for an elevator system having an elevator shaft accessed through the shaft door. The door frame forms a chamber accommodating a control unit for the elevator system. The door frame has a side surface facing the elevator shaft, a first door frame element delimiting the chamber and a second door frame element delimiting the chamber. The first door frame element can be detached from the second door frame element by a movement of the first door frame element, from its closed position, in parallel with the side surface, to open the chamber. The invention also relates to an elevator system (2) comprising such a door frame (22).

Disclosed is an elevator system for a multi-level architectural structure, the elevator system having an elevator controller for an elevator in a hoistway, wherein the elevator controller effects a first determination of whether passengers or goods are in the elevator and effects a power mode for the elevator based on the first determination.

Disclosed is an elevator system having a first sensor in communication with an elevator in a multi-level hoistway, wherein during an emergency the elevator instructs the first sensor to sense conditions and transmit sensor data representing the sensed conditions, and the transmitted sensor data is processed to obtain an image representing an intensity of hazard conditions on at least a subset of levels serviced by the multilevel hoistway.

A door frame of an elevator system forms a chamber for accommodating a control unit and includes a first door frame element delimiting the chamber and having a first side closure extending in a straight line and a second door frame element delimiting the chamber and having a second side closure parallel to the first side closure. A fastening element extending along the side closures releasably fixes the first and second door frame elements together. The fastening element is arranged on the first and second door frame elements so as to be movable along the side closures and has a tool element for moving the fastening element from a locked position into a release position, wherein the first door frame element is fixed in the locked position on the second door frame element and can be removed from the second door frame element in the release position.

A method of calibrating a beacon for an elevator call system including: determining when a calibrator mobile device is located at a desired distance away from the beacon on a specific landing, the beacon being associated with one or more specific elevator systems at a specific elevator bank on the specific landing; detecting a wireless signal emitted by the beacon using a communication device of the calibrator mobile device when the calibrator mobile device is located at the desired distance; and establishing the desired distance as a selected range of the beacon for locating a passenger device for an elevator call received from the passenger device. The elevator call system is configured to assign future elevator calls received from the passenger mobile device detected to be within the selected range of the beacon to the one or more specific elevator systems at the specific elevator bank on the specific landing.

An attic lift system is provided, comprising a loading platform attached to a lifting frame having a plurality of vertical frame members, wherein the lifting frame includes a closure member positioned below the loading platform. The closure member includes a plurality of telescopic guide members, wherein the support frame is positioned on an attic floor above an opening in the attic floor. A plurality of support rods extend from the closure member and are threadably engaged with the vertical frame members of the lifting frame. A drive assembly is positioned on the support frame and connected to the lifting frame for raising and lowering the loading platform relative to the opening. Limit switches are present to detect when the drive assembly should be stopped based on the position of the lift platform.

The present invention provides an elevator emergency operation device, comprising a box having an opening, an operation board, and a middle board. The operation board is provided with electronic devices thereon, and the face of the operation board provided with electronic devices is perpendicular to the plane on which the opening is located. Moreover, the operation board can be disposed inside the box in a manner that it can be pulled through the opening. The middle board is fixed, via a first side thereof, to the operation board, and the middle board is parallel to the plane on which the opening is located. An electric motor operation device, and an elevator apparatus comprising said electric motor emergency operation device or elevator operation device are further provided.

Disclosed is an elevator system for a multi-level architectural structure, the elevator system having an elevator controller for an elevator in a hoistway, wherein the elevator controller effects a first determination of whether passengers or goods are in the elevator and effects a power mode for the elevator based on the first determination.

Disclosed is an elevator system having a first sensor in communication with an elevator in a multi-level hoistway, wherein during an emergency the elevator instructs the first sensor to sense conditions and transmit sensor data representing the sensed conditions, and the transmitted sensor data is processed to obtain an image representing an intensity of hazard conditions on at least a subset of levels serviced by the multilevel hoistway.

A method for installing at least one junction box in an elevator hoistway of an elevator includes providing at least one junction box, the junction box including a plurality of knock-out portions, knocking out at least one of the plurality of knock-out portions of the at least one junction box to form a respective aperture, and affixing at least one PCB board to the respective aperture. An elevator includes at least one junction box, including at least one PCB board affixed to an aperture of at least one junction box via holders and an integrated multi-conductor coil wired to each PCB board; a duct connector connected to the at least one junction box; and a plurality of wiring ducts connected to the duct connector.