The present invention discloses a connector for flat conducting wires that is directed into the insertion opening, the front end comes in contact with the first locking protrusion and the second locking protrusion of the connector, respectively causing the first elastic arm and the second elastic arm to deform, thereby causing the first operating part and the second operating part to move towards the third surface until the indented notches correspond to the first locking protrusion and the second locking protrusion, which subsequently causes the first elastic arm and the second elastic arm to return to their former position by means of elastic force, latch-locking the front end of the flat conducting wire in the accommodating space, and through exerting an external force on the upper portion of the first operating part and the upper portion of the second operating part to unlatch and separate from the accommodating space.

A terminal block structure and an unbuckling unit thereof are disclosed. The unbuckling unit has a base member and a rotary member, the rotary member is connected to the base member to be operated. The rotary member includes a first arm part, a second arm part extended from the first arm part and a rotary part disposed between the first arm part and the second arm part. The second arm part has a buckling unit, and the rotary part is connected to the base member. When the first arm part is applied with an external force, the rotary member rotates about the rotary part as a rotation center to drive the second arm part to ascend. Accordingly, advantages of easily to be pressed and operated, simple in structure and convenient to be assembled are provided.

An electrical connector configured to be inserted into a mating connector in an insertion direction includes a housing having a receiving passage, a locking mechanism, and a releasing mechanism. The locking mechanism is rotatably mounted on a top wall of the housing by a pivot and has a locking portion. The locking portion is inserted into a mating housing of the mating connector to lock the electrical connector and the mating connector. The releasing mechanism provides a releasing force to drive the locking mechanism to move from a locked state to a released state to allow the electrical connector to be disengaged from the mating connector.

In one embodiment, an apparatus includes a connector plug for attachment to a single pair Ethernet cable comprising a pair of conductors, and configured for being received in a connector receptacle. The connector plug includes a first end for receiving the single pair Ethernet cable and a second end having a pair of contacts, each of the contacts comprising a receptacle contact interface, a conductor interface, and an extension to provide an increased width between conductor gripping prongs at the conductor interface while maintaining a consistent spacing between the pair of contacts at the receptacle contact interface with connector plugs configured to mate with different gauge cables.

A lever-type connector includes a housing, a lever and a cover. The housing is to be fitted with a mating housing. The lever is pivotably mounted to the housing and fits the housing with the mating housing by pivoting. The cover is mounted to the housing to cover an outer periphery of an electric cable drawn out from the housing. The housing is provide with a deflectable lock arm. The lock arm has as a base end, a root part integrally mounted to the housing at a side where the housing faces the cover and holds the lever at a pivoting completion position of the lever. The cover is provided with a protective wall arranged opposite to the root part of the lock arm.

It is aimed to mount a sealing member into a receptacle after arranging a moving plate in the receptacle. In a fitting space (28) of a receptacle (25), plate lock portions (44) are provided to project, a moving plate (14) to be locked by the plate locks (44) at a protecting position is arranged, and a sealing member (16) is arranged closer to an opening than the plate locks (44). The receptacle (25) is composed of a body-side receptacle (30) including the plate locks (44) and a tip-side receptacle (31) arranged closer to the opening of the fitting space (28) than the body-side receptacle (30) and to be coupled to the body-side receptacle (30). The sealing member (16) is fixed by being sandwiched between the body-side receptacle (30) and the tip-side receptacle (31).

A locking electrical adaptor. The adaptor includes a housing with a pair of conductive prongs for carrying an electrical current, and a grounding prong for grounding an electrical connection of the pair of conductive prongs. The grounding prong is comprised of a flexible conductive material, and includes a lip on a portion thereof, such that upon insertion of the adaptor into an electrical outlet, the lip snaps into place behind a ridge of the electrical outlet to secure the adaptor thereto and lock it in place. The adaptor may be unlocked by depressing a button disposed on the housing, which bends the grounding prong and displaces the lip. After the adaptor is unlocked, the adaptor may be removed from the electrical outlet.

Embodiments of a framing assembly including modular connectors for interconnecting components of the framing assembly are disclosed.

A connector includes: a first connector including a fitting portion and a first terminal provided in the fitting portion; and a second connector including a fitted portion configured to be fitted into the fitting portion of the first connector and a second terminal that is provided on the fitted portion, extends along a fitting direction, and comes into electrical contact with the first terminal in a case where the fitted portion is fitted into the fitting portion of the first connector, in which in the second terminal, a wide-width portion is formed in the second terminal, and the first terminal comes into contact with the wide-width portion of the second terminal from a state in which the fitted portion of the second connector is started to be fitted into the fitting portion of the first connector to a state in which the fitted portion cannot be fitted any further.

A connector includes: a first connector including a fitting portion and a first terminal provided in the fitting portion; and a second connector including a fitted portion configured to be fitted into the fitting portion of the first connector and a second terminal that is provided on the fitted portion, extends along a fitting direction, and comes into electrical contact with the first terminal in a case where the fitted portion is fitted into the fitting portion of the first connector, in which in the second terminal, a wide-width portion is formed in the second terminal, and the first terminal comes into contact with the wide-width portion of the second terminal from a state in which the fitted portion of the second connector is started to be fitted into the fitting portion of the first connector to a state in which the fitted portion cannot be fitted any further.