An electric switch of the normally open type includes a body made of insulating material, an actuator that is moveable between a high rest position and a low active contact position, a first elastically deformable contact blade supported by the body, and a second elastically deformable contact blade supported by the body. A first contact section of the first contact blade extends above a second contact section of the second contact blade. The first and second contact sections are superposed and are vertically distanced from each other when the actuator is in high rest position, and are in mutual electrical contact when the actuator is in low position so as to establish an electrical switching path.

An electric switch of the normally open type includes a body made of insulating material, an actuator that is moveable between a high rest position and a low active contact position, a first elastically deformable contact blade supported by the body, and a second elastically deformable contact blade supported by the body. A first contact section of the first contact blade extends above a second contact section of the second contact blade. The first and second contact sections are superposed and are vertically distanced from each other when the actuator is in high rest position, and are in mutual electrical contact when the actuator is in low position so as to establish an electrical switching path.

An electric switch of the normally open type includes a body made of insulating material, an actuator that is moveable between a high rest position and a low active contact position, a first elastically deformable contact blade supported by the body, and a second elastically deformable contact blade supported by the body. A first contact section of the first contact blade extends above a second contact section of the second contact blade. The first and second contact sections are superposed and are vertically distanced from each other when the actuator is in high rest position, and are in mutual electrical contact when the actuator is in low position so as to establish an electrical switching path.

An operation panel includes a push key and a switch. The push key is depressed through an opening formed in a panel body. The switch is pushed by depressing of the push key. The push key includes a tapered part tapered toward the switch. The panel body includes an elastic piece inclined toward the tapered part from a circumference of the opening and elastically deformable to an opposite side to the tapered part. When the push key is depressed, the elastic piece is elastically deformed to the opposite side by the tapered part. When the depressing of the push key is released, the push key is pushed up by an elastic restoring force of the elastic piece.

An operation panel includes a push key and a switch. The push key is depressed through an opening formed in a panel body. The switch is pushed by depressing of the push key. The push key includes a tapered part tapered toward the switch. The panel body includes an elastic piece inclined toward the tapered part from a circumference of the opening and elastically deformable to an opposite side to the tapered part. When the push key is depressed, the elastic piece is elastically deformed to the opposite side by the tapered part. When the depressing of the push key is released, the push key is pushed up by an elastic restoring force of the elastic piece.

Examples relate to a compressible housing. An electronic switch may include a circuit board. A first conductive surface may be coupled to the circuit board and a second conductive surface may be located proximate to the first conductive surface. A compressible spacer may be located between the first conductive surface and the second conductive surface to space the first conductive surface away from the second conductive surface. Further, a compressible housing may deform when under compression and may cause, via deformation of the compressible spacer, the first conductive surface to contact the second conductive surface.

Examples relate to a compressible housing. An electronic switch may include a circuit board. A first conductive surface may be coupled to the circuit board and a second conductive surface may be located proximate to the first conductive surface. A compressible spacer may be located between the first conductive surface and the second conductive surface to space the first conductive surface away from the second conductive surface. Further, a compressible housing may deform when under compression and may cause, via deformation of the compressible spacer, the first conductive surface to contact the second conductive surface.

An input device is characterized in that in a first stroke region in which an operation panel is pushed during a touch operation, a first reaction force that occurs by pushing the operation panel is generated by the first elastic portion. In a second stroke region including a stroke longer than in the first stroke region and a stroke for performing a push operation, a second reaction force that occurs by pushing the operation panel is a resultant force generated by a first elastic portion and the push switch. In the vicinity of a boundary between the first stroke region and the second stroke region, the amount of change in the first reaction force with respect to a stroke length is less than the amount of change in the second reaction force with respect to a stroke length.

An embodiment is directed to a sealed tailgate handle assembly having a housing and a circuit board positioned in the housing. A switch is positioned in the housing and is configured to complete an electrical circuit path on the circuit board. Resin material encompasses the circuit board, with the resin material configured to seal the connection between the circuit board and the switch. An inner cover is movable between an initial position and a second position. A resilient member extends between the inner cover and the resin material. An outer cover has a deformable upper wall. Upon an application of a force to the upper wall, the inner cover is moved from an initial position to the second position, causing the inner cover to engage the switch, causing the switch to complete an electrical circuit path on the circuit board to release a tailgate

An apparatus for controlling a device in connection with a sensed temperature in a space includes an actuator for regulating the operation of the device, a temperature sensor for providing the sensed temperature, and a thermal antenna connected to the temperature sensor. The thermal antenna may form part of the exposed face of the apparatus. A housing may include partitions, such as a plurality of circuit boards, for communicating with the actuator to provide control for the device. The partitions or circuit boards are spaced apart to form ventilation channels for ventilating heat from the housing, including by way of an encouraging convective flow. A further aspect of the disclosure relates to an apparatus for forming a connection between first and second components, which includes first and second cantilevered springs interacting to form a secure, yet releasable snap fit engagement for the components.