A door driving system and a refrigerator having the door driving system according to the present invention are provided with a motor, a power transmitting device for transmitting the power generated by the motor to the hinge, and an auxiliary device for receiving the power generated by the motor and generating an auxiliary force to move a door positioned in a closing position in an opening direction, so that the torque to be applied to the hinge of the door for opening and closing the door may be reduced.

In accordance with one aspect of the disclosure, an apparatus is provided that includes a database configured to store one or more vehicle status parameters of a vehicle and one or more secured space status parameters of a secured space. The apparatus further includes a server-based processor operatively coupled or connected to the database and configured to receive one or more of the one or more vehicle status parameters and one or more of the one or more secured space status parameters. The server-based processor is further configured to determine, based on at least one of the one or more vehicle status parameters and at least one of the one or more secured space status parameters whether to change a state of the vehicle.

A latch module for controlling an opening and a closing of a door of an appliance includes a latch, a spring that applies an elastic force to the latch, a motor; and a cam that contacts a contact surface of the latch and is coupled to the motor to drive the cam to pivot the latch. The cam includes a first radius, a second radius, and a third radius in a circumferential direction at an outer circumference of the cam. The latch is positioned at a first basic position when the first radius of the cam contacts the contact surface of the latch, positioned at a second basic position when the second radius of the cam contacts the contact surface of the latch, and positioned at a third basic position when the third radius of the cam contacts the contact surface of the latch.

A latch module for controlling an opening and a closing of a door of an appliance includes a latch, a spring that applies an elastic force to the latch, a motor; and a cam that contacts a contact surface of the latch and is coupled to the motor to drive the cam to pivot the latch. The cam includes a first radius, a second radius, and a third radius in a circumferential direction at an outer circumference of the cam. The latch is positioned at a first basic position when the first radius of the cam contacts the contact surface of the latch, positioned at a second basic position when the second radius of the cam contacts the contact surface of the latch, and positioned at a third basic position when the third radius of the cam contacts the contact surface of the latch.

A method for operating a tailgate of a motor vehicle, in particular a pickup, which is driven by means of an electric motor and delimits a cargo area. A disassembled state is detected, and energization of the electric motor is inhibited. Furthermore, the invention relates to a motor vehicle.

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 disclosure improves the flexibility of arrangement of a separator provided at an end of a touch sensor unit to ensure electrical insulation. A sensor body included in a touch sensor unit includes a tubular insulator that is elastically deformed when an external force is applied; linear electrodes that are provided inside the tubular insulator and come into contact with each other as the tubular insulator is elastically deformed; a resistor disposed on an outer side of an end of the tubular insulator; connection wires connecting the linear electrodes and the resistor; a separator interposed between the connection wires and preventing contact between the connection wires; a mold part including at least the connection wires, the resistor, and the separator; and a cover member covering at least a part of the connection wires, the resistor, and the separator via the mold part.

A method detects the wear state of a component of a door drive system of a rail vehicle. The method includes reading a sequence of first motor parameters and second motor parameters, wherein the first motor parameters represent a different physical variable of a motor of the door drive system than the second motor parameters. The method additionally includes checking whether a value which represents the sequence of the first motor parameters satisfies a specified criterion in order to detect the wear state of the component of the door drive system.

A door driving system and a refrigerator having the door driving system according to the present invention are provided with a motor, a power transmitting device for transmitting the power generated by the motor to the hinge, and an auxiliary device for receiving the power generated by the motor and generating an auxiliary force to move a door positioned in a closing position in an opening direction, so that the torque to be applied to the hinge of the door for opening and closing the door may be reduced.

An electric lock includes a motor, a power input port, a first control system and a second control system. The first control system includes an input unit configured to receive input data, an internal power source, and a first processing unit configured to use electricity of the internal power source to control the motor to rotate according to the input data. The second control system includes a wireless unit configured to receive a wireless signal, and a second processing unit different from the first processing unit and configured to use electricity of an external power source to control the motor to rotate when data transmitted in the wireless signal matches predetermined data and when the power input port is electrically connected to the external power source.