A switch device includes an operation knob on which a sliding operation can be performed in a horizontal direction, a holder member that holds the operation knob and moves in the horizontal direction, a drive member that tilts as the holder member moves in the horizontal direction, a switch that is pressed down by the drive member as the drive member tilts, and a support member that supports the holder member such that the holder member can move in the horizontal direction. The holder member has a base at a center in the horizontal direction and a flange extending outward from the base in the horizontal direction. The support member has an upper wall that restricts a movement of the holder member in a vertical direction by contacting an upper surface of the flange, and a slit between the upper wall and a middle wall lower than the upper wall.

This disclosure relates to ingress-tolerant input devices comprising sliders. Aspects of the disclosure relate to an ingress-tolerant switch assembly for operating an electronic device in an ingress-protected manner. The switch assembly is at least partially disposed on an outer surface of an enclosure of the electronic device and generally includes a spring, a magnet coupled to the spring, and a slider coupled to the magnet. A spring force of the spring is overcome by a user moving the slider relative to the enclosure such that the slider moves the magnet into proximity of the magnetic sensor to cause the magnetic sensor to generate a sensor signal for performing a function of the electronic device.

This disclosure relates to ingress-tolerant input devices comprising sliders. Aspects of the disclosure relate to an ingress-tolerant switch assembly for operating an electronic device in an ingress-protected manner. The switch assembly is at least partially disposed on an outer surface of an enclosure of the electronic device and generally includes a spring, a magnet coupled to the spring, and a slider coupled to the magnet. A spring force of the spring is overcome by a user moving the slider relative to the enclosure such that the slider moves the magnet into proximity of the magnetic sensor to cause the magnetic sensor to generate a sensor signal for performing a function of the electronic device.

A multi-directional operation switch structure seeks to improve the reliability of a product by minimizing tolerances that need to be managed by making two regions guiding the sliding movement of a slider to be formed by one holder in a switch structure in which a knob is configured on the outside of a casing, and the slider and a holder connected to the knob are inside the casing. Especially, the present disclosure can improve structural stability due to a double support structure and ensure reliability of slider movement by allowing the holder as well as the casing to withstand pressure resulting from external forces. In addition, the present disclosure can simplify a coupling structure and a support structure by configuring the slider to be coupled to the holder in a rotational manner, and the coupled slider to be limited in rotation by the casing.

A multi-directional operation switch structure seeks to improve the reliability of a product by minimizing tolerances that need to be managed by making two regions guiding the sliding movement of a slider to be formed by one holder in a switch structure in which a knob is configured on the outside of a casing, and the slider and a holder connected to the knob are inside the casing. Especially, the present disclosure can improve structural stability due to a double support structure and ensure reliability of slider movement by allowing the holder as well as the casing to withstand pressure resulting from external forces. In addition, the present disclosure can simplify a coupling structure and a support structure by configuring the slider to be coupled to the holder in a rotational manner, and the coupled slider to be limited in rotation by the casing.

A slider assembly is for an electrical switch having an upper housing. The slider assembly includes a slider mechanism structured to be disposed on an exterior surface of the upper housing and a shutter structured to be disposed in an interior of said upper housing and to be coupled to said slider mechanism. The shutter includes a number of biasing members structured to engage and apply a bias force against interior sidewalls of said upper housing, thereby creating a friction force associated with movement of said slider mechanism.

A slider assembly is for an electrical switch having an upper housing. The slider assembly includes a slider mechanism structured to be disposed on an exterior surface of the upper housing and a shutter structured to be disposed in an interior of said upper housing and to be coupled to said slider mechanism. The shutter includes a number of biasing members structured to engage and apply a bias force against interior sidewalls of said upper housing, thereby creating a friction force associated with movement of said slider mechanism.

A multi-directional operation switch structure seeks to improve the reliability of a product by minimizing tolerances that need to be managed by making two regions guiding the sliding movement of a slider to be formed by one holder in a switch structure in which a knob is configured on the outside of a casing, and the slider and a holder connected to the knob are inside the casing. Especially, the present disclosure can improve structural stability due to a double support structure and ensure reliability of slider movement by allowing the holder as well as the casing to withstand pressure resulting from external forces. In addition, the present disclosure can simplify a coupling structure and a support structure by configuring the slider to be coupled to the holder in a rotational manner, and the coupled slider to be limited in rotation by the casing.

A multi-directional operation switch structure seeks to improve the reliability of a product by minimizing tolerances that need to be managed by making two regions guiding the sliding movement of a slider to be formed by one holder in a switch structure in which a knob is configured on the outside of a casing, and the slider and a holder connected to the knob are inside the casing. Especially, the present disclosure can improve structural stability due to a double support structure and ensure reliability of slider movement by allowing the holder as well as the casing to withstand pressure resulting from external forces. In addition, the present disclosure can simplify a coupling structure and a support structure by configuring the slider to be coupled to the holder in a rotational manner, and the coupled slider to be limited in rotation by the casing.

This disclosure relates to ingress-tolerant input devices comprising sliders. Aspects of the disclosure relate to an ingress-tolerant switch assembly for operating an electronic device in an ingress-protected manner. The switch assembly is at least partially disposed on an outer surface of an enclosure of the electronic device and generally includes a spring, a magnet coupled to the spring, and a slider coupled to the magnet. A spring force of the spring is overcome by a user moving the slider relative to the enclosure such that the slider moves the magnet into proximity of the magnetic sensor to cause the magnetic sensor to generate a sensor signal for performing a function of the electronic device.