A breaker 1 includes a fixed piece 2 having a fixed contact 21, a movable piece 4 including a movable contact 41 and having the movable contact 41 so as to be pressed against and in contact with the fixed contact 21, a thermally actuated element 5 shifting the movable piece 4 from a conductive state to a cut-off state in accordance with a temperature change, and a case 7 accommodating the fixed piece 2, the movable piece 4, and the thermally actuated element 5. The case 7 includes a case main body 71 accommodating the movable piece 4 and the thermally actuated element 5, a lid member 81 covering a housing concave portion 73 of the case main body 71, and a metal plate 9 embedded in the lid member 81. Heat capacity of the metal plate 9 is larger than heat capacity of the fixed piece 2.

A low profile spring bracket for a heating element of a cooktop appliance includes features that allow the bracket to move along the axial direction in a smooth fashion with minimal force. In this way, a temperature sensor attached thereto can maintain contact with a cooking utensil placed on the heating element.

Provided are a battery pack, and a transportation apparatus including the battery pack. The battery pack includes a battery module, a battery management system configured to control charging and discharging operations of the battery module, a power supply terminal arranged to supply operation power, and a switch connected between the power supply terminal and the battery management system, and configured to be turned on in response to an abnormal situation of the battery module. Accordingly, it is possible to provide a battery pack, and a transportation apparatus including the battery pack, which may start a suitable protection operation by waking up a battery management system for monitoring a state of the battery pack, and by controlling a charge/discharge operation thereof, by detecting an abnormal situation of a battery module even when the battery management system is in a sleep mode.

A push switch, having a conductive member which includes three integrally formed components: a conductive element, a U-shaped clip, and a conductive cantilever element. An overheating destructive element is provided on the conductive cantilever element, and the overheating destructive element can be destroyed at a destructive temperature, in which the destructive temperature is between 100 C. to 250 C. The push switch has a contact element in contact with the overheating destructive element so as to control the conductive cantilever element to be electrically connected or disconnected. When the conductive cantilever element is electrically connected, and if the overheating destructive element is overheated and destroyed, the conductive cantilever element is driven to become electrically disconnected, thereby achieving protection against overheating. The integral formation and manufacturing of the conductive member has the advantages of being structurally simple and easy to assemble.

An overheating destructive switch, comprising: a first conductive element, a second conductive element, a movable conductive element, an overheating destructive element, an operating component, and a second elastic element. The movable conductive element connects the first conductive element and the second conductive element. A first elastic element and the second elastic element act on an operating element. The first elastic element is compressed and has a first elastic force, and the second elastic element has a second elastic force. The first elastic force is greater than the second elastic force under in a normal state. When the overheating destructive element is destroyed due to overheating, the first elastic force is reduced or lost, such that the second elastic force becomes greater than the first elastic force. The movable conductive element is consequently disconnected from the first conductive element and the second conductive element, thus achieving protection against overheating.

A method for increasing the protection range of a thermal fuse, which includes the following steps: disposing the thermal fuse on a circuit board including a circuit loop, a first heat generating element and a second heat generating element; the second heat generating element is electrically connected to the circuit loop; electrically connecting the first heat generating element to the circuit loop; and disposing the heat conducting material on the circuit loop and making the heat conducting material cover the thermal fuse, the first heat generating element and the second heat generating element.

A temperature-dependent switch, comprising a temperature-dependent switching mechanism having a switching mechanism unit and a switching mechanism housing, in which the switching mechanism unit is arranged and held captively therein. Furthermore, the switch comprises a switch housing, in which the switching mechanism housing is arranged and held captively therein. The switching mechanism housing surrounds the switching mechanism unit from a first housing side, a second housing side opposite the first housing side, and a housing circumferential side extending between and transversely to the first and the second housing sides, and on the first housing side comprises an opening through which a movable contact part of the switching mechanism interacts with a stationary contact part arranged on the switch housing. The switching mechanism housing comprises an electrically conductive base body, which forms at least part of the second housing side, said part of the second housing side forming a freely accessible outside of the switch. The switch further comprises an insulator, which electrically insulates the base body of the switching mechanism housing from the switch housing and is arranged inside the switch housing.

A temperature-dependent switch, comprising a temperature-dependent switching mechanism having a switching mechanism unit, and having a switching mechanism housing, in which the switching mechanism unit is arranged and held captively therein, wherein the switching mechanism housing comprises a first base body composed of electrically conductive material. The temperature-dependent switch furthermore comprises a switch housing having a second base body composed of electrically insulating material, in which the switching mechanism housing is arranged and held captively therein, wherein the switch housing comprises a stationary contact part. The first base body of the switching mechanism housing surrounds the switching mechanism unit from a first housing side, a second housing side opposite the first housing side, and a housing circumferential side extending between and transversely to the first and the second housing sides, and on the first housing side comprises an opening through which a movable contact part of the switching mechanism unit interacts with the stationary contact part. The second base body of the switch housing surrounds the first housing side and the circumferential housing side of the switching mechanism housing.

An electrical mains plug having a body formed of an electrically insulating material is described. Two contact pins are arranged parallel to one another and which project out of the body at a first side thereof, and inside the body are connected or can be connected in each case to an electrical conductor which leads out or can be led out of the body at a second side thereof. The thermal bimetallic element is provided as a temperature sensor, said thermal bimetallic element being a constituent part of the thermal bimetallic switch which is associated with at least one of two contact pins. An electrical connection cable suitable therefor and an electrical device connected thereto are also described.

A thermal limiter system for an electric motor includes a thermal limiter fuse having a hollow contact element anchored by solder to at least one of first and second terminals of the fuse. A coaxial spring element causes the hollow contact element to slidably release and separate from one of the first and second terminals due to overheating of the solder that is not caused by a flow of electrical current. The system also includes stator mounting blocks and a stator cooling jacket for a motor to be thermally protected.