A keycap support mechanism increases the stability of supporting a keycap through structure designs of supports. Two supports are pivotally connected around a pivot axis. One of the supports includes a support body and a reinforcement part embedded into the support body. The elastic modulus of the reinforcement part is greater than the elastic modulus of the support body. In an embodiment, the reinforced support includes Z-shaped bending structure extending parallel to the pivotal axis. In another embodiment, the reinforced support has a sliding shaft and a sliding hole formed beside the sliding shaft. The reinforced support is slidably and rotatably connected to the keycap through the sliding shaft. The reinforcement part surrounds the sliding hole and goes through the sliding shaft. A keyswitch structure includes a base plate, a keycap, and any of the above keycap support mechanisms. The keycap support mechanism supports the keycap above the base plate.

A keycap lifting mechanism increases the stability of supporting a keycap through structure designs of supports. For example, vertical projections of a sliding hole, a holder hole, and a base hole of supports overlap in a short side direction. For another example, vertical projections of a sliding hole, a holder hole, and a pivot hole of supports overlap in the short side direction. For another example, within the coverage range of a dome hole formed by supports in a long side direction, the supports do not have a structure connecting with other components. For another example, within the coverage range of two arms on opposite sides of the dome hole, there are more than 8 connection portions on the supports for connecting with a keycap and a base plate. For another example, the width of the arm is 0.8 to 2 times the length of the arm.

A cover type touch switch structure includes: a seat housing embedded in a seat of a vehicle so as to be fastened to a seat frame; a switch housing disposed in the seat housing and including an outer surface which is coupled to the seat housing via a hook; a light-emitting unit which is disposed in the switch housing and stacked on the seat frame; and a knob unit which has a portion disposed in the switch housing and is stacked on the light-emitting unit.

A cover type touch switch structure includes: a seat housing embedded in a seat of a vehicle so as to be fastened to a seat frame; a switch housing disposed in the seat housing and including an outer surface which is coupled to the seat housing via a hook; a light-emitting unit which is disposed in the switch housing and stacked on the seat frame; and a knob unit which has a portion disposed in the switch housing and is stacked on the light-emitting unit.

An electronic watch may include a tactile switch and/or one or more sensors for detecting rotational and translational inputs. The watch may include a display configured to produce graphical outputs that may change in response to rotational inputs, translational inputs, and/or touch inputs received at the display. The watch include a crown positioned along an exterior of the watch enclosure and a shaft coupled to the crown and extending into the enclosure. The tactile switch and/or the one or more sensors may be used to detect rotational and/or translational inputs provided at the crown.

A button assembly for an exterior of a vehicle is disclosed. The button assembly is designed with improved water drainage properties. The button assembly includes a button switch and a bezel housing surrounding the button switch that is spaced apart from the button switch. A channel extends between the two components. In one example, the channel has a width of approximately 0.5 mm at one end. In another example, the channel is formed between two surfaces, and the outer surface is sloped relative to the button switch by approximately 15 degrees. Furthermore, in some examples, the channel has a height of approximately 3 mm. Each of these structural characteristics serves to significantly improve the assembly's overall drainage performance, which may be especially essential in colder climates.

A keyswitch assembly is provided. The keyswitch assembly includes a base plate, at least one pressing mechanism disposed on the base plate, a plurality of elastic members disposed on the base plate, and a keycap covering the at least one pressing mechanism and the plurality of elastic members. In the embodiments, a plurality of elastic members is disposed at equal intervals to support the keycap. By way of such configuration, the user experiences the same or similar hand feeling when pressing any point of the keycap. There is no difference in the pressing feel due for pressing the middle or two ends of the keycap. Meanwhile, the problem of the poor electrical conduction resulted from the deformation of the keycap may be avoided.

A voltage converter for determining whether input power is DC power or AC power includes a power input terminal, an AC to DC converter, a switch and a DC detector. The AC to DC converter converts AC power into a DC output voltage when the input power is AC power. The AC to DC converter includes a brown-out detector, for disabling the AC to DC converter when a voltage of the input power is smaller than a predefined voltage. The switch passes DC power when the input power is DC power. The DC detector determines that the input power is DC power and turns on the switch when the voltage of the input power is within a predefined voltage range, and determines that the input power is AC power and turns off the switch when the voltage of the input power is not within the predefined voltage range.

An operating member includes: a body portion; an operating portion connected to the body portion; an engaging portion arranged in the body portion; an engaged portion arranged in the operating portion, and engaged with the engaging portion to connect the body portion and the operating portion; a piece portion arranged in a back surface portion of the operating portion and protruding toward the body portion; a piece-portion hole arranged in the body portion, into which the piece portion is inserted; and a protruding portion made of an elastic material, arranged in the piece portion, protruding from a side of the piece portion, and press-contacting an edge portion of the piece-portion hole when the piece portion is inserted into the piece-portion hole.

Provided are an operation panel capable of reliably pressing down a target operation key while saving arrangement space of operation keys, an image forming device provided with the same, and an image reading device. An operation panel (3) is provided with a main body unit (10) having a panel surface (10a) tilted with respect to a horizontal direction and operation keys (12 to 16) protruded from the panel surface. The operation keys have operation surfaces (12a to 16a) pressed down by a user and protrusion portions (12b to 16b) formed so as to be protruded from the operation surfaces along lower end portions of the operation surfaces.