A user interface device includes: an output device having an output region predefined around an output unit; an acquisition unit acquiring information about a user's gesture performed around the output region; and a controller determining an area of a shielded region which is shielded by the user's gesture in the output region based on the acquired information and controlling output of the output device.

A user interface device includes: an output device having an output region predefined around an output unit; an acquisition unit acquiring information about a user's gesture performed around the output region; and a controller determining an area of a shielded region which is shielded by the user's gesture in the output region based on the acquired information and controlling output of the output device.

The invention relates to a surface temperature-controlling device, in particular for use in vehicles, comprising a first air-distributing layer which has multiple air inlets extending through the first air-distributing layer and multiple air outlets extending through the first air-distributing layer, and a second air-distributing layer which fluidically connects air inlets and air outlets of the first air-distributing layer, wherein the air inlets are designed to introduce pre-heated or pre-cooled air into the second air-distributing layer, and the air outlets are designed to discharge air out of the second air-distributing layer.

An air vent for a motor vehicle includes a housing with an air channel for feeding air and a partial hemisphere shell. The partial hemisphere shell is mounted in a rotatable manner within the housing such that air fed through the air channel is deflected on the housing before it exits from the air vent.

A rotary apparatus includes a motor, a plurality of gears including an output gear, and a housing accommodating the plurality of gears and the motor. The housing includes a first surface portion, a second surface portion facing the first surface portion and spaced apart from the first surface portion, and a sidewall portion provided at an outer peripheral portion of the first surface portion and the second surface portion and supporting the first surface portion and the second surface portion. One of the first surface portion and the second surface portion includes a vibration damping part opposing the output gear.

A rotary apparatus includes a motor, a plurality of gears including an output gear, and a housing accommodating the plurality of gears and the motor. The housing includes a first surface portion, a second surface portion facing the first surface portion and spaced apart from the first surface portion, and a sidewall portion provided at an outer peripheral portion of the first surface portion and the second surface portion and supporting the first surface portion and the second surface portion. One of the first surface portion and the second surface portion includes a vibration damping part opposing the output gear.

An air flap device having: an air flap carrier with an air passage opening through which air can flow, a plurality of air flaps, wherein each of these air flaps protrudes at least into the air passage opening and is received on the air flap carrier for operative movement, wherein each of these air flaps is movable between a first and a second operating position assigned thereto, wherein, for each of these air flaps a covering of the air passage opening by this air flap is greater in the second operating position assigned thereto than in the first operating position assigned thereto, wherein the plurality of air flaps includes at least one sensing air flap, a coupling device, wherein the coupling device couples the at least one sensing air flap to at least one other air flap of the plurality of air flaps for joint movement, and a blocking component assigned to the at least one sensing air flap,
wherein the blocking component is displaceable between a release position in which it permits movement of the coupling device and a blocking position in which it blocks movement of the coupling device, wherein the coupling device can be moved independently of the blocking component when the blocking member is in its release position.

Provided is a register that can more surely suppress abnormal noise caused by air passing through a space between a damper and a retainer. An inner wall of an upper side wall of the retainer is formed with a plurality of rib parts provided on a downstream side relative to an outer periphery on the downstream side of a plate member in a closed state of a damper. The plurality of rib parts is arranged in a direction parallel to a turning axis of the damper, and adjacent rib parts are formed into different shapes. A soft seal member is provided with a plurality of protrusion parts on an upper surface of the outer periphery on the downstream side of the plate member.

Provided is a register that can more surely suppress abnormal noise caused by air passing through a space between a damper and a retainer. An inner wall of an upper side wall of the retainer is formed with a plurality of rib parts provided on a downstream side relative to an outer periphery on the downstream side of a plate member in a closed state of a damper. The plurality of rib parts is arranged in a direction parallel to a turning axis of the damper, and adjacent rib parts are formed into different shapes. A soft seal member is provided with a plurality of protrusion parts on an upper surface of the outer periphery on the downstream side of the plate member.

A wind direction adjusting apparatus of the present invention includes: a case body; at least one guide louver; and an operation knob slidably attached to the guide louver, in which the operation knob includes a knob body portion provided with an insertion portion through which the guide louver is inserted, and a friction member that is held in the knob body portion in a state of being in contact with an outer peripheral surface of the guide louver, the friction member has elasticity and has at least one compression portion including a portion that is compressed by being pressed against the guide louver, and the compression portion has a shape in which a dimension of the compression portion along a sliding direction of the operation knob gradually decreases in a pressing direction against the guide louver.