A centrifugal switch for a motor of a clothes dryer is provided. The end of a bracket and the end of a fixed contact piece are arranged in alignment and each has a raised contact. An upper limit piece slot is provided above the contact of the bracket inside the housing. The aligned ends of the bracket and the fixed contact piece are located above the aligned ends of a starting spring piece, a starting lower piece and a starting upper piece. A pressing head at one end of the rocking lever is located above one side of the fixed contact piece aligned with the bracket. The other end of the rocking lever extends outside the housing. When the centrifuge is not rotating, a movable sleeve of the centrifuge slides into the rocking lever to trigger the centrifugal switch.

A coaxial switch includes a conductive housing defining a central bore and a front plane that is oriented transverse to the central bore, a switch assembly including a stationary contact including a stationary engagement end, a stationary coupling end opposite the stationary engagement end, a movable contact including a movable engagement end, a movable coupling end opposite the movable engagement end, and a planar conductor engagement region positioned adjacent to the movable engagement end, where the movable engagement end is positionable in an engaged position and a disengaged position, and a dielectric front pad positioned between the conductive housing and the movable contact, where the dielectric front pad defines a central aperture through which the planar conductor engagement region has an unobstructed line of sight with the front plane of the conductive housing.

A coaxial switch includes a conductive housing defining a central bore and a front plane that is oriented transverse to the central bore, a switch assembly including a stationary contact including a stationary engagement end, a stationary coupling end opposite the stationary engagement end, a movable contact including a movable engagement end, a movable coupling end opposite the movable engagement end, and a planar conductor engagement region positioned adjacent to the movable engagement end, where the movable engagement end is positionable in an engaged position and a disengaged position, and a dielectric front pad positioned between the conductive housing and the movable contact, where the dielectric front pad defines a central aperture through which the planar conductor engagement region has an unobstructed line of sight with the front plane of the conductive housing.

A switching device in accordance with the present invention includes a first electrode and a second electrode, and the second electrode includes a body part and a cantilever connected to the body part. In addition, one end of a the cantilever comes into contact with the first electrode by an electrostatic force generated by a voltage applied to the first electrode and the second electrode, and the one end of the cantilever is separated from the first electrode due to heat generated by a voltage applied to both ends of the body part. In addition, the second electrode may include a 2-1 electrode, a 2-2 electrode, and an engineered beam connected in between. The engineered beam comes into contact with the first electrode on the basis of thermal expansion due to heat generated by a current flowing between the body part of the 2-1 electrode and the body part of the 2-2 electrode, or is separated from the first electrode on the basis of thermal expansion due to heat generated by a current flowing through both ends of the body parts of the 2-1 electrode and the 2-2 electrode. According to the present invention, it is possible to achieve high-speed operation while having ultralow power, high reliability through exploiting nano thermal actuation method capable of high-speed thermal expansion and actuation at low operation voltage.

A residual load disconnector switch (1) includes a rotary switch body (23), which includes a contact blade (24, 25, 26, 27), that is rotatable about an axis (A) and is arranged between a feed line connection (20) and a discharge line connection (21), and includes end-side contact surfaces (28, 29, 30, 31) protruding in a radial direction. The contact surfaces, in a closed rotary position (S1) of the rotary switch body (23), are in touching contact with the feed line connection (20) and with the discharge line connection (21). In an open rotary position (S2) of the rotary switch body (23), the contact surfaces are each spaced with respect to the feed line connection (20) and with the discharge line connection (21). The residual load disconnector switch (1) is rotationally limited in one rotational direction for performing switching movements and can be actuated unidirectionally and cyclically.

A residual load disconnector switch (1) includes a rotary switch body (23), which includes a contact blade (24, 25, 26, 27), that is rotatable about an axis (A) and is arranged between a feed line connection (20) and a discharge line connection (21), and includes end-side contact surfaces (28, 29, 30, 31) protruding in a radial direction. The contact surfaces, in a closed rotary position (S1) of the rotary switch body (23), are in touching contact with the feed line connection (20) and with the discharge line connection (21). In an open rotary position (S2) of the rotary switch body (23), the contact surfaces are each spaced with respect to the feed line connection (20) and with the discharge line connection (21). The residual load disconnector switch (1) is rotationally limited in one rotational direction for performing switching movements and can be actuated unidirectionally and cyclically.

A trigger switch includes a housing including a casing; a trigger coupled to the housing to be capable of approaching and separating from the housing; a contact mechanism including a fixed contact and a movable contact making contact with and separating from the fixed contact in conjunction with approaching and separating operation of the trigger with respect to the housing; a first terminal electrically connected to the contact mechanism; and a second terminal electrically connected to the contact mechanism. The first terminal includes a first fixing portion that connects and fixes the first lead, and a fall-off prevention portion that locks the first lead at a position different from the first fixing portion in an axial direction of the first lead to prevent the axial component from falling off. The second terminal includes a second fixing portion that connects and fixes the second lead.

A trigger switch includes a housing including a casing; a trigger coupled to the housing to be capable of approaching and separating from the housing; a contact mechanism including a fixed contact and a movable contact making contact with and separating from the fixed contact in conjunction with approaching and separating operation of the trigger with respect to the housing; a first terminal electrically connected to the contact mechanism; and a second terminal electrically connected to the contact mechanism. The first terminal includes a first fixing portion that connects and fixes the first lead, and a fall-off prevention portion that locks the first lead at a position different from the first fixing portion in an axial direction of the first lead to prevent the axial component from falling off. The second terminal includes a second fixing portion that connects and fixes the second lead.

An animal trap sensor includes a base having a distal end and a proximal end, a switch having a first metallic element and a second metallic element, and a signal unit, in which, when the first metallic element contacting the second metallic element, thereby forming a closed circuit, such that the signal unit transmits a signal to an off-site receiver. Or, an animal trap sensor includes a first portion and a second portion electrically connected with a signal unit including a power supply, in which, when the first and the second portions are disposed at a first distance between each other, thereby generating an output property, in which, when the first and the second portions are disposed at a second distance between each other, which is different from the first distance, thereby changing the output property and causing the signal unit to transmit a signal to an off-site receiver.

An animal trap sensor includes a base having a distal end and a proximal end, a switch having a first metallic element and a second metallic element, and a signal unit, in which, when the first metallic element contacting the second metallic element, thereby forming a closed circuit, such that the signal unit transmits a signal to an off-site receiver. Or, an animal trap sensor includes a first portion and a second portion electrically connected with a signal unit including a power supply, in which, when the first and the second portions are disposed at a first distance between each other, thereby generating an output property, in which, when the first and the second portions are disposed at a second distance between each other, which is different from the first distance, thereby changing the output property and causing the signal unit to transmit a signal to an off-site receiver.