The present invention provides a combined power socket for artificial trees. The combined power socket includes a first socket and a second socket which are capable of supplying control signals to light strings on the artificial trees in addition to power supply, thus can realize the intelligent control of light strings. Furthermore, the first socket and a second socket can be connected in two directions without considering the positive and negative poles of the power supply. The product assembly is simpler and more convenient.

An illuminable decoration comprises at least two trunk sections, each trunk section includes a hollow tube and a cable assembly coupled to each trunk section. Each cable assembly comprises a first modular electrical connector end that has an inner socket and an outer plug that circumscribes the inner socket. Further, each cable assembly comprises a second modular electrical connector end that has an inner plug and an outer socket that circumscribes the inner plug. A first electrical wire electrically couples between the inner socket of the first modular electrical connector and the inner plug of the second modular electrical connector. Also, a second electrical wire electrically couples between the outer plug of the first modular electrical connector and the outer socket of the second modular electrical connector. When two trunk sections are assembled together end-to-end, the trunk sections are mechanically and electrically coupled to form a modular electrical distribution system.

An illuminable decoration comprises at least two trunk sections, each trunk section includes a hollow tube and a cable assembly coupled to each trunk section. Each cable assembly comprises a first modular electrical connector end that has an inner socket and an outer plug that circumscribes the inner socket. Further, each cable assembly comprises a second modular electrical connector end that has an inner plug and an outer socket that circumscribes the inner plug. A first electrical wire electrically couples between the inner socket of the first modular electrical connector and the inner plug of the second modular electrical connector. Also, a second electrical wire electrically couples between the outer plug of the first modular electrical connector and the outer socket of the second modular electrical connector. When two trunk sections are assembled together end-to-end, the trunk sections are mechanically and electrically coupled to form a modular electrical distribution system.

An RF connector is provided. The connector includes a first socket member. The first socket member includes a conductive sleeve comprising a top portion, a bottom portion, and a plurality of springs connecting the top portion and the bottom portion. The first socket member also includes a base inside the conductive sleeve comprising a first matching hole configured to match to a first conductive pin of a first plug member. The connector also includes a second socket member. The second socket member includes a second matching hole configured to match to a second conductive pin of a second plug member, and a conductive body having outer threads configured to match to inner threads of the second plug member. The connector further includes a middle portion connected between the first socket member and the second socket member, the middle portion extending radically outwardly from a periphery of the middle portion.

An RF connector is provided. The connector includes a first socket member. The first socket member includes a conductive sleeve comprising a top portion, a bottom portion, and a plurality of springs connecting the top portion and the bottom portion. The first socket member also includes a base inside the conductive sleeve comprising a first matching hole configured to match to a first conductive pin of a first plug member. The connector also includes a second socket member. The second socket member includes a second matching hole configured to match to a second conductive pin of a second plug member, and a conductive body having outer threads configured to match to inner threads of the second plug member. The connector further includes a middle portion connected between the first socket member and the second socket member, the middle portion extending radically outwardly from a periphery of the middle portion.

The invention relates to a method for producing a socket contact consisting of a sleeve and a contact cage which are formed from a first and a second metal strip. In said method, at least one step for forming the sleeve and a step for forming the contact cage are carried out in a parallel shaping process.

An electrical connector system includes a connector and a header. The header includes a substantially T-shaped member having a proximal portion substantially rectangular in shape having a first width and a distal portion substantially rectangular in shape having a second width greater than the first width. A first and a second end portion of the distal portions are substantially T-shaped viewed end on. The first and the second end portions include a plurality of guides and shoulders. The connector includes a substantially rectangular member having a proximal portion having a first thickness and a distal portion having a second thickness less than the first thickness on a bottom side of the substantially rectangular member. The proximal portion includes first and second proximal feet and first and second distal feet. Each foot includes a foot retention shoulder and one or more guides.

An electrical connector system includes a connector and a header. The header includes a substantially T-shaped member having a proximal portion substantially rectangular in shape having a first width and a distal portion substantially rectangular in shape having a second width greater than the first width. A first and a second end portion of the distal portions are substantially T-shaped viewed end on. The first and the second end portions include a plurality of guides and shoulders. The connector includes a substantially rectangular member having a proximal portion having a first thickness and a distal portion having a second thickness less than the first thickness on a bottom side of the substantially rectangular member. The proximal portion includes first and second proximal feet and first and second distal feet. Each foot includes a foot retention shoulder and one or more guides.

An arrangement for connecting electrical connections, in particular through a housing, for a device for driving a compressor with a connection arrangement with at least one electrically conductive connecting element and at least one contact device, fixed in a PCB, for mounting the connecting element in an axial direction. The contact device exhibits at least one spring contact element with elastically de-formable lamellar contact springs that are in electrically conductive contact with the connecting element. Furthermore, the invention relates to a method for mounting the arrangement for connecting electrical connections, a device for driving a compressor of a vaporous fluid, in particular an electric motor, with the arrangement and a use of the device according to the invention.

A hair cutting appliance includes a receiving receptacle for receiving a connector plug to detachably connect a cutting unit to a housing of the hair cutting appliance. The receiving receptacle includes a receiving socket having a receiving recess adapted to receive an engagement element of the connector plug, and a biasing unit arranged in the receiving socket underneath the receiving recess. The biasing unit includes first and second biasing elements laterally spaced with respect to each other and arranged to receive the engagement element of the connector plug. The first biasing element includes a retaining contact portion configured to define the receiving position of the engagement element in an insertion direction (Z). The second biasing element includes an alignment contact portion configured to define the receiving position of the engagement element in a longitudinal direction (X) and in a lateral direction (Y).