A device connects an electrical conductor to an area for electrical connection of an electrical switching device, the switching device having an electrical switching module connected to the area for electrical connection. The connecting device has at least one primary unit for electrically connecting a primary conductor to the area for connection, and an insulating shell receiving each primary connecting unit. The connecting device additionally has at least one secondary unit for connecting a secondary electrical conductor, and, for each secondary unit, an electrically conductive link piece connected between the secondary unit and a respective primary unit.

A connector includes a fixed contact, a movable contact provided on one end of a movable plate, a connection terminal to be connected to another connection terminal of another connector, the connection terminal being connected to the fixed contact or the movable contact, a card provided in contact with the movable plate, a button provided in contact with the card, and a slide provided in contact with the button. With the connection terminal being in contact with the other connection terminal, the slide is contacted and pressed by a part of the other connector to slide to move the button, and the movable plate is moved by the movement of the button via the card so that the movable contact moves into contact with the fixed contact.

The present disclosure relates to a touch technology, and more particularly, to a touch panel and a manufacturing method the same. A touch panel is provided, comprising an inductive electrode layer and a patterned protective layer covering the inductive electrode layer; wherein formative pattern of the patterned protective layer is identical to that of the inductive electrode layer. The present disclosure also provides a manufacturing method for touch panels. A touch panel and a manufacturing method the same are provided in the present disclosure, in which the patterned protective layer is used for covering the inductive electrode layer to isolate the inductive electrode layer from oxygen and overcome the influence of oxygen on the diamond resistance changes of conductive materials under the condition of high-temperature baking, thereby enhancing the accuracy of touch positions recognized by touch panel.

An energized parts guard is disclosed comprising a panel of substantially rigid, electrically insulative material wherein the substantially rigid panel further comprises a first one or more apertures and a second one or more apertures. The first one or more apertures are so dimensioned to accept one or more circuit breakers inserted into the first one or more apertures such that there is less than a 12.5 mm gap between the panel and the circuit breaker on at least two sides of the one or more circuit breakers. The second one or more apertures are positioned to facilitate access to at least one terminal of each of the one or more circuit breakers when the one or more circuit breakers are inserted into the first one or more apertures.

A terminal cover to cover a terminal to which an electric wire is to be connected, the terminal cover includes: an outer frame having an outer frame notch; and an inner frame provided within the outer frame notch in the outer frame, the inner frame having an inner frame notch smaller than the outer frame notch. Further, the outer frame and the inner frame are formed thinner than a peripheral portion and are connected to each other with cutoff portions that are bendable, twistable, or cuttable with a cutting tool, and the terminal is viewed through the inner frame notch.

A circuit breaker includes a housing having a bottom containing a first cavity, a second cavity and a trip mechanism disposed in the housing. A first terminal is electrically connected to the trip mechanism and located in the first cavity and a second terminal is electrically connected to the trip mechanism and located in the second cavity. A first terminal barrier is connected to the housing and is movable from a first position covering the first cavity to a second position at least partially exposing the first cavity and a second terminal barrier is connected to the housing and is movable from a first position covering the second cavity to a second position at least partially exposing the second cavity.

An exemplary circuit breaker terminal cover includes a cover and at least one attachment portion. The cover has first and second side walls and a vented surface extending between the first and second side walls, the first and second side walls extending to form a wire opening. The at least one attachment portion is configured to hold the terminal cover in place and to removably engage at least one of an opening, a side, an edge, a protrusion, a fastener, a wire, and a handle.

An exemplary strip of circuit breaker terminal covers includes a plurality of terminal covers and at least one frangible connection joining two adjacent terminal covers of the plurality of terminal covers.

A connector includes a fixed contact, a movable contact provided on one end of a movable plate, a connection terminal to be connected to another connection terminal of another connector, the connection terminal being connected to the fixed contact or the movable contact, a card provided in contact with the movable plate, a button provided in contact with the card, and a slide provided in contact with the button. With the connection terminal being in contact with the other connection terminal, the slide is contacted and pressed by a part of the other connector to slide to move the button, and the movable plate is moved by the movement of the button via the card so that the movable contact moves into contact with the fixed contact.

A guard assembly is for an electrical switching apparatus of an electrical system. The electrical system includes a number of conductors each having an insulated portion and an exposed portion that meet at a junction. The electrical switching apparatus includes a housing and a number of terminals connected to the exposed portion of a conductor. The guard assembly comprises: an interconnect member coupled to the housing; and a number of guard members each comprising: a first portion coupled to the interconnect member, and a second portion extending from the first portion away from the housing, the second portion comprising: a first distal end located at the first portion, and a second distal end opposite and distal from the first distal end. Each of the guard members has an opening. The opening receives a conductor. Each junction is located between a second distal end and a terminal.

Switch assemblies, each equipped with a sliding cover for onboard pressure-activated switches, are disclosed.