The disclosure relates to a cooking appliance capable of reducing noise generated when a door is closed using a buffer member that is easily fixed to a hinge unit. The cooking appliance includes a main body, a cooking chamber provided to have a front surface opened inside the main body, a door to open and close the cooking chamber, a hinge unit coupled to the main body to rotatably support the door, and a buffer member fixed to the door to buffer an impact generated when the door is closed by contacting the hinge unit when the door is closed.

A drive device for adjusting a vehicle assembly including an electromotive adjustment drive to adjust the vehicle assembly and a control device for controlling the adjustment drive, the control device configured to actuate the adjustment drive in an automatic mode, for adjusting the vehicle assembly with a predetermined rotational speed, and in a servo mode for providing a supporting force during a manual adjustment of the vehicle assembly by a user. The control device includes a speed regulation module for determining a first setpoint current value in dependence on a rotational speed of the adjustment drive, a servo regulation module for determining a second setpoint current value in dependence on a load acting on the vehicle assembly and a current regulation module for regulating a current of the adjustment drive.

An actuator is provided and includes first and second shafts, a friction plate affixed to the second shaft, a one-way clutch that includes an inner diameter portion affixed to the first shaft, an outer diameter portion and a one-way clutch portion interposed between the inner and output diameter portions and a bearing. The bearing is disposed such that a compressive load path is formed from the first shaft, through the bearing and the outer diameter portion and to the friction plate and the second shaft. The one-way clutch portion is configured for free-wheeling during forward rotation of the first shaft that permits forward rotation transmission to the second shaft and for jamming during reverse rotation of the first shaft to create a drag event on the friction plate that inhibits reverse rotation transmission to the second shaft.

A control unit for establishing a functional connection between two gearing components comprises at least one control element, which can be moved in order to switch the control unit between different switching states, wherein the at least one control element is configured to provide a retaining force between the gearing components in a first switching state, and to allow movement of the gearing components in relation to one another in a second switching state. An actuator is used to move the at least one control element. A control mechanism controls the actuator. It is provided thereby that the control mechanism is configured to activate the actuator to switch the control unit from the first switching state to the second switching state, in order to move the at least one control element to reduce the retaining force (FH) based on a predetermined delay function (VF).

A power strut includes anisotropic damping device that provides different frictional torque on a rotatable member in response to rotation in opposite rotational directions. The anisotropic damping device includes a shell, the rotatable member, and a torsion spring. The shell includes a through hole, and the rotatable member extends through the through hole and is rotatably connected to the shell. The torsion spring is sleeved on the rotatable member and is in interference fit with the rotatable member, and the torsion spring is provided with a first leg fixedly connected to the shell. The rotatable member may include a shaft sleeve fixed to a rotating shaft, with the torsion spring in interference fit with the shaft sleeve.

A portable information handling system housing rotationally couples housing portions with a dual axis synchronized gear to rotate about parallel spaced axes that define a radius to support folding of a flexible display. Each axis of the synchronized gear couples to a housing portion with a sliding bracket that adjusts length during rotation. Plural pivot arms couple to a main body of the hinge at the first and second axes and to the housing portions to manage spacing of the housing portions during rotation. A sliding member coupled to the main body engages with the plural pivot arms to synchronize rotation of the plural pivot arms and regulate torsional forces related to rotation of the housing portions that can damage a display film folding at the hinge.

A casement window operator, including: a first arm; a second arm, the first arm and the second arm each being rotatably mounted to the casement window operator and the first arm and the second arm each having a toothed peripheral portion for meshingly engaging a worm rotatably received in the casement window operator, such that rotation of the worm about its axis of rotation will cause the first arm and the second arm to rotate with respect to the casement window operator; and a damper located between the worm and a housing of the casement window operator, wherein the damper has a pair of anti-rotation features each being located about an exterior peripheral portion of the damper, the pair of anti-rotation features extending outwardly from the exterior peripheral portion of the damper and wherein the pair of anti-rotation features are configured to be received within a corresponding pair of openings of the housing of the casement window operator.

A brake device for a drivable part, in particular for use for a vehicle flap, in particular in an automobile, includes a drivable load device (11) which can be radially brought into contact with a disc (90) of the drivable part, with a first holding position and a second release position. At least one brake element rests against the periphery (92) of the disc (90) in a frictional manner in the holding position and secures the disc (90) from rotating using a specifiable force. In the release position, the at least one brake element is arranged at a distance from the periphery of the disc (90) and allows a free run of the disc (90), and the load device (11) can be adjusted between the holding position and the release position, preferably by a motor (12). A brake device or a rotating drive with which a drivable part of the drive is secured against a displacement on the basis of the mass of the component to be displaced even when the motor is not being provided with power or is deactivated is achieved in that the first holding position and the second release position are each designed as a metastable holding position.

A vehicle interior component comprising a cover rotatably coupled to a base at a pivot joint is disclosed. The component may comprise a mechanism comprising a projection engaging a first surface when the cover is closed and engaging a ramp as the cover is rotated between closed and open positions. The pivot joint may comprise an axle to provide an axis of rotation. The pivot joint may comprise the projection on the axle. One of the projection and the ramp may slide along the other as the cover opens and/or closes. The mechanism may comprise a cam surface and a follower. The base and/or cover may flex at the pivot joint. The cover may comprise a door, bin or sunglass bin. The component may comprise a console, center stack/console, floor console, overhead console, instrument panel, door panel, etc.

A friction based counterbalance mechanism for coupling with a closure panel of a vehicle to assist in opening and closing of the closure panel, the counterbalance mechanism including: a first housing having a first pivot connection mount for connecting to one of a body of the vehicle and the closure panel; an extension member coupled to the first housing at one end and being extendable and retractable with respect to a second housing coupled adjacent to the first housing along an axis, the second housing for connecting by a second pivot connection mount to the other of the body and the closure panel; a sliding friction mechanism having: a shaped sleeve mounted on an exterior surface of the extension member, the shaped sleeve providing an exterior friction surface; and a resilient friction element mounted to the second housing in a fixed location on the axis, the resilient friction element positioned between second housing and the shaped sleeve and biased into contact with the exterior friction surface; wherein relative movement between the shaped sleeve and the resilient friction element as the extension member is displaced generates sliding friction between the resilient friction element and the shaped sleeve.