A stabilizer and electrical connector maintains a stable and secure electrical connection between an electric lighting module lamp support and a signage frame. The connector is an integral, unitary body having a plate shaped base section with dual lateral tension clips extending down from the base section and an adhesive member which is attached to the bottom surface of the base section. The connector uses a “stick and hold” method to lock itself to the face of a signage frame. The integral body also has a columnar support section having a through channel extending up from the base section to accept an electric lighting module lamp support. An electrical connector section having a front facing cavity containing front facing electrical plugs and at least one lateral cavity containing laterally facing electric plugs also forms a part of the connector's integral body.

An electrical fixture has a plug or socket of the type including concentric terminal rings, the plug having a spindle that is releasably receivable within a central channel of the socket to form a latch. Either the plug or the socket is attached to a hub having peripheral electrical connectors. Modules can be connected to the hub by the peripheral electrical connectors, the modules including electrical components each having one or more features. The modules are selectable for desired features, including transmitting and receiving, or sensing a condition in the environment, such as a security camera, glass breakage detector, motion/presence detector, and lighting. The hub can include a central circuit board which is electrically connected to the peripherally attached modules. The hub is further connected to electrical wiring of the edifice within which the fixture is installed.

A cabinet light includes a heat dissipation shell; a light emitting component disposed in the heat dissipation shell; a driving component disposed in the heat dissipation shell and electrically connected to the light emitting component; a sealing end cover disposed on an open at a side of the heat dissipation shell by insertion and comprising a cavity; a cover element detachably disposed on an open at a top of the heat dissipation shell and comprising a light transmission area for light to pass through; a fixing structure disposed between the sealing end cover and the cover element; a piercing conductor disposed in the cavity and configured to pierce insulation layers of wires wherein the wires are placed in the cavity; and a press element disposed on a mouth of the cavity and configured to press the piercing conductor.

A cabinet light includes a heat dissipation shell; a light emitting component disposed in the heat dissipation shell; a driving component disposed in the heat dissipation shell and electrically connected to the light emitting component; a sealing end cover disposed on an open at a side of the heat dissipation shell by insertion and comprising a cavity; a cover element detachably disposed on an open at a top of the heat dissipation shell and comprising a light transmission area for light to pass through; a fixing structure disposed between the sealing end cover and the cover element; a piercing conductor disposed in the cavity and configured to pierce insulation layers of wires wherein the wires are placed in the cavity; and a press element disposed on a mouth of the cavity and configured to press the piercing conductor.

An elongate tubular lighting assembly having a body with a length between spaced first and second ends. The tubular lighting assembly has a source of illumination and first and second connectors respectively at the first and second body ends. The first connector has cooperating first and second parts having first and second surfaces. The first and second connector parts are configured so that the first and second surfaces are placed in confronting relationship to prevent separation of the first and second connector parts with the body in an operative state as an incident of the first connector part moving relative to the second connector part from a position fully separated from the second connector part in a substantially straight path that is transverse to the length of the body into an engaged position.

A light radiation emitting device including at least one LED-type device capable of generating a light radiation in a predefined wavelength range and having two electrical contact pads, and a support delimited by first and second opposite sides defining together a thickness of the support, the support supporting at least one LED luminous device and at least one conductive electric track. The electric track is formed of conductive wires. All or part of the conductive wires are bonded to the support along all or part of their length. All or part of the conductive wires have at least one contact portion exposed towards at least one of the first and second sides of the support. Each of the contact pads of the LED-type device is positioned opposite a contact portion of one of the conductive wires and is electrically connected to the contact portion.

A light radiation emitting device including at least one LED-type device capable of generating a light radiation in a predefined wavelength range and having two electrical contact pads, and a support delimited by first and second opposite sides defining together a thickness of the support, the support supporting at least one LED luminous device and at least one conductive electric track. The electric track is formed of conductive wires. All or part of the conductive wires are bonded to the support along all or part of their length. All or part of the conductive wires have at least one contact portion exposed towards at least one of the first and second sides of the support. Each of the contact pads of the LED-type device is positioned opposite a contact portion of one of the conductive wires and is electrically connected to the contact portion.

Disclosed is a power supply base for a decorative lamp. A female plug is mounted, in a mounting chamber of a base, a terminal of the female plug is located in a cavity of the base and is connected to a power supply in the cavity, and exposed wires are all hidden in the cavity of the base, so that current is introduced to the decorative lamp mounted above the power supply base, thereby achieving, the free plugging and unplugging of the decorative lamp and the power supply base. The present invention has the advantages of simple structure, reasonable design, convenient use and the like, thereby improving the safety.

Disclosed is a power supply base for a decorative lamp. A female plug is mounted, in a mounting chamber of a base, a terminal of the female plug is located in a cavity of the base and is connected to a power supply in the cavity, and exposed wires are all hidden in the cavity of the base, so that current is introduced to the decorative lamp mounted above the power supply base, thereby achieving, the free plugging and unplugging of the decorative lamp and the power supply base. The present invention has the advantages of simple structure, reasonable design, convenient use and the like, thereby improving the safety.

In the present disclosure, ultrasonic welding is cleverly introduced to encapsulate the LED lamp, the rectifier, as well as other parts and components of a decorative light string, and the plastic outer shells with a specific structure cooperate with the ultrasonic welding lines, the glue overflow grooves, and the profiling raceway arranged on the plastic outer shells to enable a more reliable and efficient sealing of the LED lamp, the wire, the rectifier, as well as other parts and components encapsulated in the plastic outer shells. At the same time, ultrasonic welding will not cause the encapsulated objects to be in an overall high temperature environment nor impact the pins of components such as lamp holder or other parts connected to the wire during the welding process, avoiding the disconnection between the power cords and the components.