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.

A holiday tree light source assembly for inserting a plurality of universal serial bus inputs includes a tree being displayed as a holiday decoration. The tree has a trunk with a plurality of branches protruding off from the trunk. Each of the branches is an electric wire having a plurality of plastic pine leaves. The tree has a bottom base where a power source is positioned proximate to. Furthermore, a plurality of universal serial buses is coupled to the electric wire of each of the branches of the tree. Each of the universal serial buses has a port being a female insert to a universal serial bus input. Each ornament of a plurality of ornaments has a universal serial bus input. The universal serial bus input of each of the ornaments is a male insert to the port of the universal serial bus of the tree.

Disclosed is a combination plug that provides both AC and DC power to an artificial pre-lit tree. Connector assemblies between trunk sections of the artificial tree connect both AC and DC power between the trunk sections. DC power sockets are provided on the trunk sections so that light strings can be plugged into the trunk sections and receive DC power.

The present disclosure provides an artificial tree. The artificial tree includes a trunk including one or more trunk sections. The one or more trunk sections include a first trunk section including a first transmitter connected to a power source and configured to convert an input power received from the power source into an electromagnetic field, and a first receiver arranged proximate the first transmitter and configured to receive the electromagnetic field generated by the first transmitter and generate a first output current.

Apparatus and associated methods relate to a water-resistant capture device for enclosing wired electro-magnetic components, the capture device having a base module and a connecting cap module, wherein when the base module and cap module enclose an electro-magnetic component and the base module is connected to the cap module, one or more electric wires are passed through wire apertures formed by a combined base module and cap module. In some embodiments, the base module may be deformable and deform when affixed to the cap module. In some embodiments a sealing agent may be disposed in an interior of the capture device. The sealing agent may, for example, be assembled in solid form and be at least partially liquified for distribution. In an exemplary embodiment, an LED may be captured within the capture device. The sealing agent may provide a water resistant seal between a base and a housing element.

The present disclosure provides an artificial tree. The artificial tree includes a trunk including one or more trunk sections. The one or more trunk sections include a first trunk section including a first transmitter connected to a power source and configured to convert an input power received from the power source into an electromagnetic field, and a first receiver arranged proximate the first transmitter and configured to receive the electromagnetic field generated by the first transmitter and generate a first output current.

A Christmas tree stand connecting structure and an LED decorative lamp are disclosed. The Christmas tree stand connecting structure includes a fixed disc and an LED decorative lamp, wherein a side wall of the fixed disc is movably connected with a supporting frame. A top of the fixed disc is equipped with a connecting mechanism, wherein an angle adjusting assembly is arranged in the connecting mechanism. The connecting mechanism includes a connecting part, a positioning part, a connecting end, a connecting line, and a connecting port. The connecting part is assembled through the positioning part on a bottom of the connecting part and the positioning slot in a top. In a mounting process, a blocking part inside a matching slot is jacked to two sides through a semicircular structure on the top for a clamping part to clamp and fix a side wall of the blocking part.

A decorative light strand having a power distribution modality in which a high voltage wire feeds a power wire which provides a supply voltage to light engines in an effective operational voltage range. The high voltage wire interfaces with the power wire through longitudinally distributed DC voltage regulators that step down a higher voltage to the operational voltage of a number of light engines. An equilibrium voltage is thus achieved such that all light engines are similarly powered. The decorative light elements may be light-emitting diode (LED) light engines with a chip-controlled red-green-blue (RGB) interface, which controls user perceived effects, such as on/off frequency, color, intensity, and color temperature of each light engine at any given time, thus achieving a wide variety of decorative effects. The decorative light strand includes a distribution wire and DC voltage regulator which enables long-strand lights of indiscriminate lengths for custom installations.

Multichambered illuminated decorative displays are presented that can be fabricated in various forms, including annular shapes suitable for holiday exhibition as wreaths and trees. The decorative displays, which may be packaged as kits, include an at least one frame (20); a plurality of translucent chambers (44) mounted to the at least one frame (20); a plurality of addressable LEDs (30) positioned so that at least one LED resides within each chamber; and a plurality of translucent to opaque partitions (46) located between adjacent chambers. As the LEDs (30) light up, the chambers (44) appear to emit a diffuse glow. Simultaneously, the partitions (46) at least reduce or completely block the light transmitted between adjacent chambers (44). Due in part to this combination of light transmission, light diffusion, and at least partial light confinement, the decorative displays can present a wide variety of precisely rendered animations in vivid colors.

A decorative lighting system including a sensor device; a wiring harness comprising an insulated conductor and a plurality of lighting elements; a controller in communication with the wiring harness and the sensor device, the controller comprising a processor, a memory, and a wireless communication module; and wherein the controller is configured to control the plurality of lighting elements based at least in part on information received from the sensor device.