The present invention relates to a connecting apparatus including a fixed terminal part having a hollow portion and fixed in a predetermined space between a first substrate, on which electrical components are mounted, and a second substrate disposed in parallel with the first substrate, one terminal part fixed to one end of the fixed terminal part and configured to be elastically supported on the first substrate, one terminal part being configured to slip and come into contact with an inner surface of the first substrate, and the other terminal part fixed to the other end of the fixed terminal part and configured to be elastically supported on the second substrate, the other terminal part being configured to slip and come into contact with an inner surface of the second substrate, in which one terminal part and the other terminal part are elastically supported by an elastic member installed in the hollow portion of the fixed terminal part and configured to be extended or contracted, thereby providing an advantage of easily absorbing assembling tolerance existing between two substrates and provides a very simple assembling process.

The present invention relates to a connecting apparatus including a fixed terminal part having a hollow portion and fixed in a predetermined space between a first substrate, on which electrical components are mounted, and a second substrate disposed in parallel with the first substrate, one terminal part fixed to one end of the fixed terminal part and configured to be elastically supported on the first substrate, one terminal part being configured to slip and come into contact with an inner surface of the first substrate, and the other terminal part fixed to the other end of the fixed terminal part and configured to be elastically supported on the second substrate, the other terminal part being configured to slip and come into contact with an inner surface of the second substrate, in which one terminal part and the other terminal part are elastically supported by an elastic member installed in the hollow portion of the fixed terminal part and configured to be extended or contracted, thereby providing an advantage of easily absorbing assembling tolerance existing between two substrates and provides a very simple assembling process.

An electrical connector includes a contact button having a first layer formed of a first electrically conductive material that is attached to a first electrical bus bar and having a second layer formed of a second electrically conductive material clad to the first layer. The electrical connector includes a clamp assembly including a retaining band surrounding the contact button and the first electrical bus bar and having a spring configured to provide a contact force between the contact button and a second electrical bus bar when the second electrical bus bar is disposed between the contact button and the spring.

An electrical connector includes a contact button having a first layer formed of a first electrically conductive material that is attached to a first electrical bus bar and having a second layer formed of a second electrically conductive material clad to the first layer. The electrical connector includes a clamp assembly including a retaining band surrounding the contact button and the first electrical bus bar and having a spring configured to provide a contact force between the contact button and a second electrical bus bar when the second electrical bus bar is disposed between the contact button and the spring.

The connection device (100) is used for an electrified guide (200) lighting system; the electrified guide (200) is provided with a longitudinal groove (210) and the connection device (100) is adapted to be completely inserted into the electrified guide (200); the connection device (100) comprises at least one mechanical contact device (110, 120) adapted to abut against a bottom surface (212) of said longitudinal groove (210) when the connection device (100) is inserted into the electrified guide (200); the mechanical contact device (110, 120) can be removed or moved so that the connection device (100) can be adapted to electrified guides having longitudinal grooves of different depth; the mechanical contact device (110, 21) is shaped and/or located so that it abuts differently depending on the sense of insertion of the connection device into the electrified guide (10-1, 10-3) so that to avoid insertions in the wrong sense.

The connection device (100) is used for an electrified guide (200) lighting system; the electrified guide (200) is provided with a longitudinal groove (210) and the connection device (100) is adapted to be completely inserted into the electrified guide (200); the connection device (100) comprises at least one mechanical contact device (110, 120) adapted to abut against a bottom surface (212) of said longitudinal groove (210) when the connection device (100) is inserted into the electrified guide (200); the mechanical contact device (110, 120) can be removed or moved so that the connection device (100) can be adapted to electrified guides having longitudinal grooves of different depth; the mechanical contact device (110, 21) is shaped and/or located so that it abuts differently depending on the sense of insertion of the connection device into the electrified guide (10-1, 10-3) so that to avoid insertions in the wrong sense.

A connector includes: a spring structure having a spring property as a result of being constituted by a conducting wire wound spirally, and functioning as a coil having an inductance component; a support member to support one end of the spring structure, and to connect the one end of the spring structure to a wiring pattern provided on a board; and a support member to support the other end of the spring structure, and to electrically connect the other end of the spring structure to an electric wire.

A connector includes: a spring structure having a spring property as a result of being constituted by a conducting wire wound spirally, and functioning as a coil having an inductance component; a support member to support one end of the spring structure, and to connect the one end of the spring structure to a wiring pattern provided on a board; and a support member to support the other end of the spring structure, and to electrically connect the other end of the spring structure to an electric wire.

A magnetic connector includes a first insulating housing, a printed circuit board, a plurality of magnetic bodies, a plurality of terminals and a second insulating housing. The first insulating housing has a bottom wall, a side wall, a recess being defined between the bottom wall and the side wall. The printed circuit board is received in the recess. The magnetic bodies are mounted to the printed circuit board. The terminals are mounted to the printed circuit board. The second insulating housing is mounted to the top of the first insulating housing and is covered the recess. The magnetic bodies and the terminals are exposed from a top surface of the second insulating housing. As described above, the magnetic bodies are mounted to the printed circuit board, and then the magnetic bodies are magnetized. Hence, manufacture cost of the magnetic connector is saved.

A spring clip includes a first beam and a second beam connected to the first beam and resiliently deflectable toward the first beam from a relaxed position distal from the first beam to a compressed position proximal to the first beam. The second beam has a spring latch extending toward the first beam. The spring latch engages the first beam to secure the second beam in the compressed position. The clip may be positioned in a housing having a rotatable cover formed to compress the clip against a conductor when moved to a closed position.