A protection member and conductive plate assembling structure of rail terminal includes a conductive plate having two assembling ends and a protection member connected with each assembling end. Two lateral sides of the assembling end are respectively formed with a locating section and a connected section. The protection member has an assembling passage for the assembling end to extend therein. A located section and an elastic connection section are respectively disposed on two sides of the assembling passage corresponding to the locating section and the connected section. The locating section and the located section are engaged with each other. Then the conductive plate is turned to make the connected section push and elastically deform the elastic connection section. Then the elastic connection section elastically restores to its home position to engage with the connected section, whereby the protection member and the conductive plate are securely connected.

A connector module for connecting the bare end of an insulated electrical conductor with an electrical device, including a hollow generally-rectangular terminal cage body formed from a bent conductive first metal sheet to form at least one vertical generally rectangular side wall and a pair of end walls, one of the cage walls having a horizontal lower surface defining a first cage sealing surface, and a vertical interior wall surface defining a second cage sealing surface; a horizontal bus bar formed from a conductive second metal sheet and having a relatively broad horizontal top surface defining a horizontal first bus bar sealing surface, and a relatively narrow side surface defining a vertical second bus bar sealing surface; and a securing seam for securing one of the bus bar first and second sealing surfaces with the corresponding one of the cage first and second sealing surfaces.

An electrical connector limiter structure of wire connection terminal is easily operable to enhance the stability of the operation and motion of metal leaf springs. The wire connection terminal includes conductive components mounted in the insulation case and electrical connector assembled with the conductive components. The electrical connector has a limiter for receiving the metal leaf springs and restricting moving path thereof. The limiter is partitioned to define a first space and a second space with fully closed peripheries, in which the metal leaf springs are mounted. The wiring circuits or conductive wires coming from an apparatus can be easily directly plugged into the first and second spaces of the limiter to insert with the metal leaf springs. The limiter serves to prevent the metal leaf springs from deflecting in operation.

Configurations for push wire connectors and for electrical wiring devices that mate with or connect to the push wire connectors are disclosed. The push wire connectors have a housing and one or more contact assembly positioned within the housing. Each contact assembly has one or more contact openings to allow wires to pass through, and the housing has one or more wire entry openings that are angled so that wires that pass through the wire openings and the contact openings before engaging the contact assembly are angled.

Disclosed herein is a conductor connection clamp that includes a bus bar and a clamping spring, the clamping spring including a main portion for clamping an electrical conductor to the bus bar, the main portion and bus bar defining a clamping spring connection, and a spring member adjacent to the main portion and rigidly coupled to the main portion. The clamp further includes a housing defining a conductor insertion opening that leads to the clamping spring connection, and an operating lever configured to apply force to the spring member in order to deflect the main portion to open the clamping spring connection.

A lever connector for contacting electrical conductors may include features and improvements over other lever connectors. The lever connector includes a housing, a busbar located within the housing, one or more lever mechanisms, and one or more resilient members that connect the lever mechanisms to the busbar. The lever mechanism includes a lever located on a near side of the busbar bridge and a lifting mechanism located on a far side of the busbar bridge opposite the near side of the busbar bridge. The resilient member includes a fixed section connected to the busbar bridge and a clamping section connected to the lifting mechanism. When the lever is actuated and lifted upwards and away from the housing, the lifting mechanism moves the clamping section of the resilient member to release away from the busbar base surface. When the lever is closed and pushed downward toward the housing, the lifting mechanism moves the clamping section of the resilient member downward to push the electrical conductor against the busbar base surface, thereby making electrical contact between the electrical conductor and the busbar.

A conductor connection terminal having a first insulating material housing and a second insulating material housing. The first and the second insulating material housings each have a plurality of conductor insertion openings arranged side by side for inserting an electrical conductor in a conductor insertion direction into the insulating material housing. The first insulating material housing has a first busbar and the second insulating material housing has a second busbar, and at least two conductor insertion openings of the first insulating material housing and the second insulating material housing are each associated with a clamping spring having a clamping leg. The clamping leg and the respective busbar form a clamping point for an electrical conductor to be clamped.

An electrical contact limiter structure of wire connection terminal has a simplified structure and is easy to operate to enhance the stability of the operation and motion of a metal leaf spring. The wire connection terminal includes conductive components mounted in the insulation case and electrical contact assembled with the conductive components. The electrical contact has a limiter for receiving the metal leaf spring and restricting moving path thereof. The limiter is partitioned into at least one space. A limitation mechanism is assembled with the limiter. The metal leaf spring is mounted in the space. The wiring circuits or conductive wires coming from an apparatus can be easily directly plugged into the space of the limiter to insert with the metal leaf spring. The limiter and the limitation mechanism cooperatively prevent the metal leaf spring from being deflected and over-bent and damaged in operation.

A conductor terminal having an insulating material housing and having at least one spring-loaded clamping connection in the insulating material housing and also having at least one actuation element, which is pivotably accommodated in the insulating material housing and is designed to open in each case at least one associated spring-loaded clamping connection, is described. The actuation element has two side wall portions which are spaced from one another and at least partially enter the insulating material housing with a pivot bearing region and, opposite said pivot bearing region, are connected to each other by a transverse web to form a lever arm. The pivot bearing regions of the mutually distanced side wall portions of an actuation element form an axis of rotation, about which the actuation element is pivotably mounted in the insulating material housing. An associated spring-loaded clamping connection is at least partially accommodated in the space between the pivot bearing regions of an actuation element. The pivot bearing regions have actuation portions, which in each case are designed in order to act on an associated clamping spring of a spring-loaded clamping connection as the actuation element is pivoted from a closed position into an open position. The adjacent side wall portions of two actuation elements arranged adjacently in the insulating material housing border one another directly.

An electrical connector includes a housing and a conductive contact assembly disposed in the housing. A first contact member of the contact assembly receives a blade contact of an electrical device. A second contact member receives an electrical wire through a push-in connection. The electrical connector is receivable by an aperture in a rear surface of the electrical device.