Elevator systems and operating methods including an elevator operating panel having at least one button and an audio orientation system. The audio orientation system includes at least one speaker positioned proximate the elevator operating panel and a proximity sensor associated with an associated button and positioned proximate thereto, the proximity sensor arranged to generate a button detection zone around the associated button and detect a presence within the button detection zone. When a detection is made by the proximity sensor regarding a presence with the button detection zone, the audio system controls the at least one speaker to generate an audio orientation signal comprising button information that is related to the associated button within the button detection zone.

In the present invention, an anti-pinch device which uses a simple optical mechanism to prevent the user being hurt by the moving part before the moving part touches the user is disclosed. Also, a space computing device which uses a simple optical mechanism to compute acquired space of a target object is disclosed. Additionally, a hovering control device which uses a simple optical mechanism thereby the user can control the hovering control device without touching the hovering control device is disclosed. The optical mechanism comprises at least one light source and at least one optical sensor, which can arrange in various ways.

The present disclosure refers to a touchless and motion-sensing hand sanitizing dispenser that also engages a switch. In some embodiments the hand-sanitizing dispenser functions as a door-opening pushbutton for an automatic door system. The embodiment may be used with existing systems or configured for new installations.

A slider has a drum with alternating alpha and beta grooves, first stacked pulleys, and second stacked pulleys. First and second end pulleys are at opposite ends of the slider. A line wraps as a loop from the last beta groove, around the first end pulley, to the last alpha groove, back and forth around the first stacked pulleys, off the first alpha groove, around the second end pulley, to the first beta groove, back and forth around the second stacked pulleys, and back to the last beta groove. When the drum or the end pulleys are driven, the difference in circumferences of the grooves causes the slider to move toward one of the first or second end pulleys.

A slider has a drum with alternating alpha and beta grooves, first stacked pulleys, and second stacked pulleys. First and second end pulleys are at opposite ends of the slider. A line wraps as a loop from the last beta groove, around the first end pulley, to the last alpha groove, back and forth around the first stacked pulleys, off the first alpha groove, around the second end pulley, to the first beta groove, back and forth around the second stacked pulleys, and back to the last beta groove. When the drum or the end pulleys are driven, the difference in circumferences of the grooves causes the slider to move toward one of the first or second end pulleys.

A stackable, non-contact device for operating elevator buttons is described. The non-contact device includes a servo mechanism with a dual-arm configured to press either of two elevator buttons. Two proximity sensors are configured to register the approach of a finger touch of either proximity sensor, which commands the servo mechanism to press the corresponding elevator button. The stackable, non-contact device includes a microcontroller configured to receive near field communications from a mobile application, which includes commands for pressing a specific elevator button.

A stackable, non-contact device for operating elevator buttons is described. The non-contact device includes a servo mechanism with a dual-arm configured to press either of two elevator buttons. Two proximity sensors are configured to register the approach of a finger touch of either proximity sensor, which commands the servo mechanism to press the corresponding elevator button. The stackable, non-contact device includes a microcontroller configured to receive near field communications from a mobile application, which includes commands for pressing a specific elevator button.

Disclosed is a method for connecting a first device that is configured for moving to a non-moving network, having: transmitting data over a wired data line from the first device to a second device, wherein the second device is stationary; transmitting the data from the second device over a wireless network; receiving further data by the second device from the wireless network; and transmitting the further data from the second device to the first device.

Disclosed is a method for connecting a first device that is configured for moving to a non-moving network, having: transmitting data over a wired data line from the first device to a second device, wherein the second device is stationary; transmitting the data from the second device over a wireless network; receiving further data by the second device from the wireless network; and transmitting the further data from the second device to the first device.

Elevator cars having a plurality of elevator car panels defining a passenger compartment of the elevator car and an interactive touch-based car operating panel system. The interactive touch-based car operating panel system includes an interactive element extending around at least a portion of a periphery of the passenger compartment and located on at least one of the plurality of elevator car panels, the interactive element having an interactive surface facing the passenger compartment and a controller arranged to receive passenger input at the interactive surface and control an elevator car in response to the passenger input.