An automated window mechanism is disclosed, including a motor secured to a window, the window being in a frame and wherein the motor causes the window to move relative to the frame in two directions: an open direction being defined as a direction toward which movement of the window relative to the frame causes the window to be more closed, and a closed direction defined as a direction opposite the open direction. The mechanism also includes a transmission component that transfers power from the motor to movement of the window relative to the frame, the transmission component having a backup defined as a distance the transmission component can move from a first point at which further movement in the open direction will cause the window to begin moving in the open direction, and a second point at which further movement in the closed direction will cause the window to begin moving in the closed direction. The mechanism also includes a processor and memory storing one or more computer-readable instructions executable by the processor to perform acts. The acts include instructing the motor to move the window relative to the frame, and upon the window reaching a desired position relative to the frame, reversing the transmission component into a neutral range within the backup to release energy stored in the transmission component.

An automated window mechanism is disclosed, including a motor secured to a window, the window being in a frame and wherein the motor causes the window to move relative to the frame in two directions: an open direction being defined as a direction toward which movement of the window relative to the frame causes the window to be more closed, and a closed direction defined as a direction opposite the open direction. The mechanism also includes a transmission component that transfers power from the motor to movement of the window relative to the frame, the transmission component having a backup defined as a distance the transmission component can move from a first point at which further movement in the open direction will cause the window to begin moving in the open direction, and a second point at which further movement in the closed direction will cause the window to begin moving in the closed direction. The mechanism also includes a processor and memory storing one or more computer-readable instructions executable by the processor to perform acts. The acts include instructing the motor to move the window relative to the frame, and upon the window reaching a desired position relative to the frame, reversing the transmission component into a neutral range within the backup to release energy stored in the transmission component.

The invention is systems and methods of operating a window with an automated window mechanism. The systems and methods include moving with the automated window mechanism a sliding panel of a window relative to a window frame to open or close the window. The sliding panel moves through a proximate closing zone. The method also includes in the proximate closing zone, operating the automated window mechanism in a limited state comprising at least one of reduced velocity, reduced current to the automated window mechanism, or reduced voltage to the automated window mechanism.

The invention is systems and methods of operating a window with an automated window mechanism. The systems and methods include moving with the automated window mechanism a sliding panel of a window relative to a window frame to open or close the window. The sliding panel moves through a proximate closing zone. The method also includes in the proximate closing zone, operating the automated window mechanism in a limited state comprising at least one of reduced velocity, reduced current to the automated window mechanism, or reduced voltage to the automated window mechanism.

An operation device according to the present invention has a touch-screen-type operation surface installed in a vehicle. A plurality of operation units having a convex shape or a concave shape associated with a plurality of components mounted in the vehicle, respectively, are formed at different positions on the touch-screen-type operation surface, respectively. The plurality of operation units are configured to accept an input touch operation as an operation instruction for the component associated with each of the plurality of operation units.

An oven comprising a multi-door operating apparatus is provided. In one example, the multi-door operating apparatus comprises a first panel comprising a first plurality of grooves that traverse a first inside surface of the first panel and a second panel comprising a second plurality of grooves that traverse a second inside surface of the second panel, wherein first inside surface faces the second inside surface, and wherein the first plurality of grooves and the second plurality of grooves extend in a first direction and then turn to extend in a second direction. The multi-door operating apparatus further comprises two or more oven doors configured to move in the first direction and turn to the second direction via projections that extend from the respective oven doors into the first plurality of groves and the second plurality of grooves.

An oven comprising a multi-door operating apparatus is provided. In one example, the multi-door operating apparatus comprises a first panel comprising a first plurality of grooves that traverse a first inside surface of the first panel and a second panel comprising a second plurality of grooves that traverse a second inside surface of the second panel, wherein first inside surface faces the second inside surface, and wherein the first plurality of grooves and the second plurality of grooves extend in a first direction and then turn to extend in a second direction. The multi-door operating apparatus further comprises two or more oven doors configured to move in the first direction and turn to the second direction via projections that extend from the respective oven doors into the first plurality of groves and the second plurality of grooves.

A method for operating a multi-door oven apparatus is provided. In one example, the method comprises moving, by a mechanical device, a first oven door along a first path in a first direction orthogonal to a side surface of an oven, the side surface comprising an entrance to the oven. The method further comprises moving, by the mechanical device, the first oven door along a second path in a second direction parallel to the side surface, wherein moving the first oven door along the second path comprises moving the first oven door past a second oven door.

A method for operating a multi-door oven apparatus is provided. In one example, the method comprises moving, by a mechanical device, a first oven door along a first path in a first direction orthogonal to a side surface of an oven, the side surface comprising an entrance to the oven. The method further comprises moving, by the mechanical device, the first oven door along a second path in a second direction parallel to the side surface, wherein moving the first oven door along the second path comprises moving the first oven door past a second oven door.

An oven door operating apparatus is provided. In one example, the oven door operating apparatus can comprise a first panel having a first plurality of grooves that traverse a side surface of the first panel. The oven door operating apparatus can also comprise a second panel having a second plurality of grooves that traverse a side surface of the second panel, wherein the side surface of the first panel faces the side surface of the second panel. Further, the oven door operating apparatus can include an oven door positioned between the side surface of the first panel and the side surface of the second panel. In one or more embodiments, the oven door can have a plurality of projections that extend from the oven door into the first plurality of grooves and the second plurality of grooves. Also, in various embodiments the first plurality of grooves and the second plurality of grooves can extend in a first direction and then turn to extend in a second direction.