An emergency button for an escalator or a moving sidewalk, wherein the emergency button comprises a button main body and a stripe plate; the button main body is mounted in a stripe plate hole of the stripe plate; the stripe plate is embedded between two adjacent supporting side plates of the escalator or the moving sidewalk; the stripe plate and the button main body have a color different from that of the supporting side plates.

An emergency button for an escalator or a moving sidewalk, wherein the emergency button comprises a button main body and a stripe plate; the button main body is mounted in a stripe plate hole of the stripe plate; the stripe plate is embedded between two adjacent supporting side plates of the escalator or the moving sidewalk; the stripe plate and the button main body have a color different from that of the supporting side plates.

A press-type input device includes a first pressing member, a second pressing member, a base, and a holding member. The first pressing member has a pressure receiving surface and a first axis and is tiltable around the first axis. The second pressing member has a second axis and is tiltable around the second axis. The base includes a detection unit configured to detect a tilt of the second pressing member. The holding member is configured to hold, together with the base, the first pressing member and the second pressing member. A location of at least one of the first axis or the second axis is variable in accordance with a pushed location on the pressure receiving surface. When viewed in a direction vertical to the pressure receiving surface, the second axis and the detection unit do not overlap each other.

A press-type input device includes a first pressing member, a second pressing member, a base, and a holding member. The first pressing member has a pressure receiving surface and a first axis and is tiltable around the first axis. The second pressing member has a second axis and is tiltable around the second axis. The base includes a detection unit configured to detect a tilt of the second pressing member. The holding member is configured to hold, together with the base, the first pressing member and the second pressing member. A location of at least one of the first axis or the second axis is variable in accordance with a pushed location on the pressure receiving surface. When viewed in a direction vertical to the pressure receiving surface, the second axis and the detection unit do not overlap each other.

The invention relates to a switching-operation arrangement for a motor vehicle, having a movable actuating surface. The actuating surface has an extent along a first axis and a second axis, which are located perpendicularly to one another. The actuating surface interacts with a displacement means such that the actuating surface can be moved linearly, in the direction of a third axis (z), by at least one distance from a starting position into an actuating position, the third axis (z) being located perpendicularly to the first and second axes. The actuating position is in the form of a switching position and acts with switching action on a switching element or a sensor. The displacement means includes a guide means for guiding the actuating surface along the first axis and at least one braced-in elastic element for guiding the actuating surface along the second axis.

An armrest has a base, a support arm pivotal on the base between a first end position and a second end position, and a latch including a first latch formation on the support arm and a second latch formation on the base for securing the support arm relative to the base in at least one of the end positions. A spring biases the support arm into the first end position and carries one of the first and second latch formations.

Button assemblies for controlling a seat position and for mounting on a seat panel are provided. The button assemblies may have a button housing having a portion that is configured to position over edges of an opening in the seat panel. One or more flexible retaining members integral to or attached to the button housing are configured to compress through the opening in the seat panel and expand therein positioned opposite an inner surface thereof upon insertion, securing the assembly within the opening.

Button assemblies for controlling a seat position and for mounting on a seat panel are provided. The button assemblies may have a button housing having a portion that is configured to position over edges of an opening in the seat panel. One or more flexible retaining members integral to or attached to the button housing are configured to compress through the opening in the seat panel and expand therein positioned opposite an inner surface thereof upon insertion, securing the assembly within the opening.

A remote control device may control electrical loads and/or load control devices of a load control system without accessing electrical wiring. The remote control device may include a control unit and a base for the control unit. The base may include a frame and a mounting tab that attaches to the paddle actuator of a mechanical switch. The mounting tab may be monolithic with the frame. Alternatively, the base may include a resilient attachment member that extends from the frame and is captively retained by the mounting tab. The frame and the attachment member may be configured such that the attachment member is held in a fixed in position by the frame, or such that the attachment member is translatable relative to the frame. The base may include one or more alignment members. The base may cause a rear surface of the frame to be biased against the mechanical switch.

A device menu controls connector for a process automation field device include a field device part and a removable knob assembly. The field device part includes one or more Hall effect sensors, and the knob assembly includes one or more magnets. When the knob assembly is attached to the field device part, the knob may be rotated clockwise or counter-clockwise, or may be pushed or pulled. The interaction of the magnets and Hall effect sensors allow the field device to sense the rotation and the pushing and pulling of the knob. The programming of the field device allows the device menu controls connector to simulate <Up>, <Down>, <Right>, <Left>, <Enter>, and <Esc> key presses of a user interface. A field device having such a device menu controls connector is also disclosed.