A connection terminal for connecting a conductor is formed as a direct plug-in terminal and includes a clamping spring arranged in a housing. The clamping spring includes a resilient clamping leg which can move into an open and locking position by pressing down an actuating device. The housing contains a conductor insertion channel for insertion of the conductor into a clamping point between the free end of the clamping leg and a busbar. The actuating device includes a pressing element and a pivoting element which interacts with the pressing element at least when the clamping point is being opened. At least one release device is provided for releasing the locking state of the clamping leg of the clamping spring. The release device is designed in such a way that the locking position can be released again by the action of the conductor on the release device when it is inserted, wherein the pivoting element acts on the pressing element and the pressing element acts on the clamping leg.

A terminal block includes an insulative case, a supply-side conductive plate and a wire connecting module. The insulative case has two wire holes. The supply-side conductive plate is disposed in the insulative case. The wire connecting module is mounted on the supply-side conductive plate and includes a feed-side conductive plate, two insulative supports and two flexible clamping sheets. The feed-side conductive plate is electrically connected to the supply-side conductive plate and includes a first side wall and a second side wall opposite to each other. Each insulative support is arranged on the feed-side conductive plate. Each insulative support and the second side wall jointly form a clamping space. Each flexible clamping sheet is separately disposed on each insulative support. One end of each flexible clamping sheet is flexibly connected with the first side wall, and another end of each flexible clamping sheet is located in the clamping space.

An amplifier connector including a housing having a first end with an aperture for receiving a bare cable end into a rib-receiving space between a pair of inner jaw members. The jaw members can be clamped on the cable end by moving a sliding sleeve with a wedge from an unlocked configuration to a locked configuration. A second end of the connector includes electrical contacts coupled with the pair of jaw members.

A light cap electrical connection structure includes a driving board, a light cap body and a first electrode pin. The light cap body is a shell structure. One end of the first electrode pin is fixed on the light cap body and further including a socket. The socket is set on the driving board and includes a connection base and a first electrode. The first electrode is set on the connecting base and has a fixed end and a connecting end. The connecting end of the first electrode is an elastic structure. The other end of the first electrode pin is inserted into the light cap body and becomes an electrical connection in elastic contact with the connecting end of the first electrode. The light cap electrical connection structure has advantages of a simple structure and being easy to automate.

A connection unit for connecting at least one connection element includes: a housing; a first contact element; a second contact element arranged on an opposite side to the first contact element, at least one receiving space being formed between the first contact element and the second contact element for clamping the at least one connection element between the first contact element and the second contact element; and at least one finger guard element which covers at least some regions of the first contact element and the second contact element in a region of the at least one receiving space. The first contact element, the second contact element, and the finger guard element are borne in the housing in a floating manner.

A connection unit for connecting at least one connection element includes: a housing; a first contact element; a second contact element arranged on an opposite side to the first contact element, at least one receiving space being formed between the first contact element and the second contact element for clamping the at least one connection element between the first contact element and the second contact element; and at least one finger guard element which covers at least some regions of the first contact element and the second contact element in a region of the at least one receiving space. The first contact element, the second contact element, and the finger guard element are borne in the housing in a floating manner.

A socket has a housing, which is composed of an electrically insulating material and an elongate plug-receiving region. A contact spring is arranged in the plug-receiving region. A lever loads the contact spring in the open position of the lever such that a dimension of the contact spring transverse to the longitudinal direction of the plug-receiving region is reduced and relaxes the contact spring in the closed position of the lever. A plug is provided for such a socket.

A shielded in-line connector includes conductive first and second body portions, each with a securement feature, as well as conductive first and second clips. The first and second body portions are secured to one another to define an unshielded connector-receiving cavity as well as first and second shielded cable openings; each of the first and second shielded cable openings being proximate the respective clip securement feature. Each of the clip securement features includes a channel supportive of a respective shielded cable extending from each of the first and second shielded cable openings; each of the shielded cables having an exposed shield. The first and second clips are adjustably secured to a respective one of the first and second securement features to position the respective clip in direct contact with the exposed shield of the respective shielded cable.

A contact insert of a spring force connection clamp having at least one retaining frame and at least one clamp spring that is mounted in the retaining frame, wherein a spring insert that functions so as to increase the clamping force of the clamp spring is arranged at least within a region that is encompassed by a spring bow of the clamp spring, wherein the spring insert is configured as one piece with the retaining frame. A spring force connection clamp having at least one contact insert of this type is also provided.

In resin molding, potting to be conducted with a male terminal bonded to a female terminal increases costs and processes. A resin-molded stator includes a coil, a female terminal, a male terminal, and an insulator. The female terminal includes a female terminal connection portion and a spring portion. The male terminal includes a male terminal connection portion, a wire connection portion, and a second surface contact portion. The insulator accommodates the female terminal connection portion, the spring portion, and the male terminal connection portion, and electrically connects the male terminal to the female terminal. The second surface contact portion faces a second surface of the insulator wall.