A powered wall plate has a wall plate, an electrical circuit, at least two electrical plug prongs, and at least one mounting screw aperture. The wall plate has a front surface opposite a rear surface, as well as at least one opening extending through the front surface and the rear surface and sized to expose a first electrical receptacle of an electrical device therethrough. The electrical circuit is located between the front surface and the rear surface. The at least two electrical plug prongs are coupled to the electrical circuit within the wall plate and extend away from the rear surface of the wall plate. In addition, the at least two electrical plug prongs are configured to removably mate with a second electrical receptacle of the electrical device. A distance between the at least one mounting screw aperture and the at least two electrical plug prongs is adjustable.

A system for sealing a terminated solar cable, the system including: a solar cable; a connector terminating the solar cable, the connector including a locking feature; and a plug including a locking feature. When the locking feature of the plug engages the locking feature of the connector to lock the plug and the connector in a locked state, the solar cable is sealed to provide safety from voltage and protection from dust and liquid.

A system for sealing a terminated solar cable, the system including: a solar cable; a connector terminating the solar cable, the connector including a locking feature; and a plug including a locking feature. When the locking feature of the plug engages the locking feature of the connector to lock the plug and the connector in a locked state, the solar cable is sealed to provide safety from voltage and protection from dust and liquid.

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 port protector is provided for locking insert into a communication port of electronic equipment. The port protector comprises a base member defining a support surface extending longitudinally between outer and inner ends. The locking member is deflectively coupled to the base member by a spine member extending transversely therebetween. The locking member includes an anchored portion attached to the spine member and a plank portion projecting longitudinally inward therefrom to terminate at a free end, such that the plank portion extends over the support surface of the base member. An engagement member extends from the plank portion of the locking member and is configured for retentively engaging the communication port when disposed at a locking position therein. The engagement member is releasable from the locking position responsive to the spine member being severed to decouple the locking and base members from one another.

A port protector is provided for locking insert into a communication port of electronic equipment. The port protector comprises a base member defining a support surface extending longitudinally between outer and inner ends. The locking member is deflectively coupled to the base member by a spine member extending transversely therebetween. The locking member includes an anchored portion attached to the spine member and a plank portion projecting longitudinally inward therefrom to terminate at a free end, such that the plank portion extends over the support surface of the base member. An engagement member extends from the plank portion of the locking member and is configured for retentively engaging the communication port when disposed at a locking position therein. The engagement member is releasable from the locking position responsive to the spine member being severed to decouple the locking and base members from one another.

The present invention discloses an anti-electric shock mechanism for a power converter comprising a protective tube provided in the power converter and further comprising a locking guide block provided in the power converter, and a protective holder for mounting the protective tube, wherein a locking groove is formed on the protective holder, and a locking part inserted into the locking groove is provided on the locking guide block. The anti-electric shock mechanism for the power converter provided by the present invention can prevent the risk of electric leakage and electric shock when the power converter is used, whether the protective tube has not been pulled out, is partially pulled out or has been completely pulled out, so as to improve the safety of the power converter.

The present invention discloses an anti-electric shock mechanism for a power converter comprising a protective tube provided in the power converter and further comprising a locking guide block provided in the power converter, and a protective holder for mounting the protective tube, wherein a locking groove is formed on the protective holder, and a locking part inserted into the locking groove is provided on the locking guide block. The anti-electric shock mechanism for the power converter provided by the present invention can prevent the risk of electric leakage and electric shock when the power converter is used, whether the protective tube has not been pulled out, is partially pulled out or has been completely pulled out, so as to improve the safety of the power converter.

Examples provide an electrical safety plug including a nonconductive plug body. A set of pins conform to a set of pin connector slots in an electrical outlet. A tether is threaded through a tether connection aperture in an anchor couple. A first inter-locking device on the anchor couple removably attaches to a second inter-locking device on a return couple having an attachment member. The first interlocking device disengages from the second interlocking device to separate the anchor couple from the return couple during use. The anchor couple attaches to a part of a case during use create tension in the tether. The tension pulls an electrical harness in a direction of an attachment point of the tether. The nonconductive plug body covers the set of pin connection slots and the tether pulls the electrical harness away from a base member.