A system and method directed for one or more safety plugs whereby safety plugs may either be individual plates that will insert into unused Telephone, Ethernet, and USB outlets, the safety plug may also be an individual coaxial plate that will cover a coaxial stud thus preventing any damage.

A system and method directed for one or more safety plugs whereby safety plugs may either be individual plates that will insert into unused Telephone, Ethernet, and USB outlets, the safety plug may also be an individual coaxial plate that will cover a coaxial stud thus preventing any damage.

A dummy insert (20) for a plug (12) of a connector assembly (11), the dummy insert (20) comprises a forward end (45) and a rearward end (46), an insert body (22), an array of shuttle pin assemblies (24), a retention plate (26). The insert body (22) has an internal wall (42) and a plurality of guide tubes (36). The plurality of guide tubes (36) extends generally forwardly from the internal wall (42). The retention plate (26) is located rearwardly of the internal wall (42). Each shuttle pin assembly (24) is located at least partly in one guide tube (36) and is retained by the retention plate (26). The insert body (22), the internal wall (42) and the plurality of guide tubes (36) is a monolithic structure. [FIG. 2]

A dummy insert (20) for a plug (12) of a connector assembly (11), the dummy insert (20) comprises a forward end (45) and a rearward end (46), an insert body (22), an array of shuttle pin assemblies (24), a retention plate (26). The insert body (22) has an internal wall (42) and a plurality of guide tubes (36). The plurality of guide tubes (36) extends generally forwardly from the internal wall (42). The retention plate (26) is located rearwardly of the internal wall (42). Each shuttle pin assembly (24) is located at least partly in one guide tube (36) and is retained by the retention plate (26). The insert body (22), the internal wall (42) and the plurality of guide tubes (36) is a monolithic structure. [FIG. 2]

A method includes plugging a plug into a socket, wherein the plugging includes pushing the plug into the socket at least up to a point that a latch clicks into the plug and locks the plug in place. Pressing down on a lever that rotates around an axis causes the lever to be pushed down. This results in the latch moving away from the plug and unlocking the plug from the socket, to thereby allow the plug to be separated from the socket.

A portable charging adapter system for charging a vaporizer device is described. In some embodiments, the system includes a charging adapter including a charging adapter housing. The charging adapter can include a charging dock positioned along a first surface of the charging adapter housing and a power coupling feature positioned along a second surface of the charging adapter housing. The portable charging adapter system can include a cap that includes a cap housing having an inner chamber. The cap can include a securing element coupled to the inner chamber having at least one cantilevered spring configured to engage the power adapter for securing a coupling of the cap to the charging adapter. Related device, systems, and methods are also described.

An assembly includes a plug at least partially disposed in a cavity of a connector at a front end of the connector. The plug ultrasonically welded to the connector in a configuration. The plug includes an inset portion and a recess formed within the inset portion. The inset portion extends axially into a body of the plug. The recess has a first closed surface forming an outer surface and configured to engage with a tool for aligning the plug with the cavity. The plug encloses the cavity with a second closed surface, such that the cavity is free from receiving a terminal or an electrical wire in the configuration.

An assembly includes a plug at least partially disposed in a cavity of a connector at a front end of the connector. The plug ultrasonically welded to the connector in a configuration. The plug includes an inset portion and a recess formed within the inset portion. The inset portion extends axially into a body of the plug. The recess has a first closed surface forming an outer surface and configured to engage with a tool for aligning the plug with the cavity. The plug encloses the cavity with a second closed surface, such that the cavity is free from receiving a terminal or an electrical wire in the configuration.

A protecting cover includes a latching component and a releasing component. The latching component includes an engaging portion. The engaging portion engages with a cooperating portion of a connecting port when the latching component is at least partially accommodated inside the connecting port. The releasing component is detachably installed on the latching component and includes a resilient arm. The resilient arm abuts against the engaging portion to drive the engaging portion to disengage from the cooperating portion by operation of the resilient arm when the releasing component is installed on the latching component. The latching component at least partially accommodated inside the connecting port covers a front opening of the connecting port, and removal of the latching component requires the releasing component. It not only prevents outside dust particles or substances from entering into the connecting port but also prevents an unauthorized connection of the connecting port.

A power connector spacer system includes a non-conducting body for insertion into a receptacle of a male power connector in place of a corresponding female power connector. The body may include a latch dimensioned and configured to detachable couple with an interior surface of the receptacle of the male power connector. The body may also include a flange dimensioned to abut a rim of the receptacle, and non-conducting passageways extending through the body from the proximate end to a distal end. Each of the passageways may be dimensioned to receive and isolate one of a plurality of power pins included in the receptacle of the male power connector, and a respective end of each of the power pins may be disposed in respective passageways away from the distal end of the body for isolated detection of high voltage electric power by contact with a meter probe in respective the passageways.