A contactor includes a housing defining a cavity. The contactor includes a switch assembly received in the cavity. The switch assembly includes first and second fixed contacts received in the cavity and a movable contact movable within the cavity between a mated position and an unmated position. The movable contact engages the first and second fixed contacts to electrically connect the first and second fixed contacts in the mated position. The switch assembly includes a coil assembly in the cavity operated to move the movable contact between the unmated position and the mating position. The contactor includes a heat transfer device coupled to the housing. The heat transfer device is thermally coupled to the first fixed contact and the second fixed contact to dissipate heat from the first fixed contact and the second fixed contact.

Methods, apparatuses and systems for providing a switching component are disclosed herein. An example switching component may include: a housing, a moveable carrier disposed within the housing, a set of moveable contacts, wherein a central body of the set of moveable contacts is disposed flush between a first surface of the moveable carrier and a second surface of the moveable carrier, and a set of stationary contacts adjacent the set of moveable contacts, wherein the set of moveable contacts is configured to move with a degree of freedom to make contact with the set of stationary contacts in order to actuate an electrical bridge in response to movement of the moveable carrier.

Methods, apparatuses and systems for providing a switching component are disclosed herein. An example switching component may include: a housing, a moveable carrier disposed within the housing, a set of moveable contacts, wherein a central body of the set of moveable contacts is disposed flush between a first surface of the moveable carrier and a second surface of the moveable carrier, and a set of stationary contacts adjacent the set of moveable contacts, wherein the set of moveable contacts is configured to move with a degree of freedom to make contact with the set of stationary contacts in order to actuate an electrical bridge in response to movement of the moveable carrier.

A current switch arranged between a first power line segment and a second power line segment, including: a first switch element, including a main contact and a secondary contact rigidly connected to the main contact, mounted so as to be mobile on the first power line segment so as to follow a separating travel between a closed position and an open position and a second switch element mounted so as to be freely mobile on the second power line segment and forced towards a rest position by elastic loading.

A current switch arranged between a first power line segment and a second power line segment, including: a first switch element, including a main contact and a secondary contact rigidly connected to the main contact, mounted so as to be mobile on the first power line segment so as to follow a separating travel between a closed position and an open position and a second switch element mounted so as to be freely mobile on the second power line segment and forced towards a rest position by elastic loading.

The invention relates to the technical field of shoe lights, in particular to a shoe light device capable of flashing in different modes and a driving method thereof. A motion sensor, an integrated chip and a light-emitting device are integrated on a shoe, and the motion sensor and the light-emitting device are electrically connected to the integrated chip; and the integrated chip is configured to control the light-emitting device to emit light in a preset constant-sequence output mode when the duration of reception of pulse signals generated by the motion sensor reaches a preset threshold, so that trigger control over the light-emitting device is realized. The shoe light device capable of flashing in different modes has the advantages of high integrity of elements, simple structure, simple production process, and various integrated cyclic output modes for flashing of the light-emitting device.

The invention relates to the technical field of shoe lights, in particular to a shoe light device capable of flashing in different modes and a driving method thereof. A motion sensor, an integrated chip and a light-emitting device are integrated on a shoe, and the motion sensor and the light-emitting device are electrically connected to the integrated chip; and the integrated chip is configured to control the light-emitting device to emit light in a preset constant-sequence output mode when the duration of reception of pulse signals generated by the motion sensor reaches a preset threshold, so that trigger control over the light-emitting device is realized. The shoe light device capable of flashing in different modes has the advantages of high integrity of elements, simple structure, simple production process, and various integrated cyclic output modes for flashing of the light-emitting device.

The invention relates to the technical field of shoe lights; in particular, to a shoe light device capable of flashing in different modes and a driving method thereof. A motion sensor, an integrated chip and a light-emitting device are integrated on a shoe, and the motion sensor and the light-emitting device are electrically connected to the integrated chip. The integrated chip is configured to control the light-emitting device to emit light in a preset constant-sequence output mode when the duration of reception of pulse signals generated by the motion sensor reaches a preset threshold, so that trigger control over the light-emitting device is realized. The shoe light device capable of flashing in different modes has the advantages of high integrity of elements, simple structure, simple production process, and various integrated cyclic output modes for flashing of the light-emitting device.

The invention relates to the technical field of shoe lights; in particular, to a shoe light device capable of flashing in different modes and a driving method thereof. A motion sensor, an integrated chip and a light-emitting device are integrated on a shoe, and the motion sensor and the light-emitting device are electrically connected to the integrated chip. The integrated chip is configured to control the light-emitting device to emit light in a preset constant-sequence output mode when the duration of reception of pulse signals generated by the motion sensor reaches a preset threshold, so that trigger control over the light-emitting device is realized. The shoe light device capable of flashing in different modes has the advantages of high integrity of elements, simple structure, simple production process, and various integrated cyclic output modes for flashing of the light-emitting device.

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.