A multi-sectional artificial tree with internal and external power wiring for distributing and controlling power to a network of lights. The tree includes multiple tree sections, each tree section with a set of power wires inside a tree trunk, and a network of lighting wires outside the trunk. The network of lighting wires includes a tree-section wire network with a large gauge wire supplying power to groups of lights strings on branches on the tree trunk. Each group of branches has a branch-level lighting network with multiple connectors in series, and that connects to one connector of the tree-section wire network. Each branch-level lighting network powers multiple light strings connected in series, one light string per branch. The wires of the light strings are small gauge, and are connected by the branch-level connectors by a small-wire-to-large-wire connector.

The present disclosure provides an LED light, smart light strings, smart curtain light strings, and smart net light strings. The LED light (1) includes the conductive structure (100) connected with the power supply, the plurality of the LED light beads (200), and the plurality of transparent light shells (300) having transparent features. The plurality of the LED light beads (200) are electrically connected with the conductive structure (100) and disposed at intervals along the length direction of the conductive structure (100), however, each of the transparent light shells (300) is corresponding to the respective LED light bead (200) and wraps the respective LED light bead (200). Each of the transparent light shells (300) includes the through holes (301) for the conductive structure (100) to penetrate through.

The present disclosure provides smart curtain light strings including a fixing unit, a mounting unit, a light-emitting unit, and a control unit. The fixing unit passes through and is engaged with the mounting unit. The fixing unit includes a first guiding rail and a second guiding rail. Fixing pieces are fixedly connected with a top portion of the second guiding rail by screws. A horizontal plate is fixedly connected to a side of each fixing piece. Fixing plates are mounted on two sides of the first guiding rail. Positioning pieces are threadedly connected to the top portion of the second guiding rail. The mounting unit includes clamping sleeves and clump weights. A stabilizing sleeve passes through an interior of each clamping sleeve. Each stabilizing sleeve is screwed with each clamping sleeve through threads. A package cap is connected to a bottom portion of each stabilizing sleeve through threads.

The present disclosure provides smart curtain light strings including a fixing unit, a mounting unit, a light-emitting unit, and a control unit. The fixing unit passes through and is engaged with the mounting unit. The fixing unit includes a first guiding rail and a second guiding rail. Fixing pieces are fixedly connected with a top portion of the second guiding rail by screws. A horizontal plate is fixedly connected to a side of each fixing piece. Fixing plates are mounted on two sides of the first guiding rail. Positioning pieces are threadedly connected to the top portion of the second guiding rail. The mounting unit includes clamping sleeves and clump weights. A stabilizing sleeve passes through an interior of each clamping sleeve. Each stabilizing sleeve is screwed with each clamping sleeve through threads. A package cap is connected to a bottom portion of each stabilizing sleeve through threads.

A system for simulating palm fronds strewn with lights. The system may include an arcuate frame having a gap for facilitating mounting the arcuate frame to a trunk of a tree. The opposing ends of the arcuate that define the gap may include attachment points that can be interconnected by an attachment tie for cinching the arcuate frame around the trunk. The system may include simulated branches, each branch with pre-installed lighting, where an end portion of each branch are removably mountable to branch mounts disposed along the arcuate frame.

A system for simulating palm fronds strewn with lights. The system may include an arcuate frame having a gap for facilitating mounting the arcuate frame to a trunk of a tree. The opposing ends of the arcuate that define the gap may include attachment points that can be interconnected by an attachment tie for cinching the arcuate frame around the trunk. The system may include simulated branches, each branch with pre-installed lighting, where an end portion of each branch are removably mountable to branch mounts disposed along the arcuate frame.

A light-emitting diode (LED) net light includes a plurality of electrical lines and a plurality of LEDs. Each of the plurality of LEDs is connected across two adjacent electrical lines without breaking the plurality of electrical lines. The plurality of LEDs connected to the same electrical line are mutually spaced, and the plurality of LEDs in the same row are respectively connected to two different electrical lines and are mutually spaced. In the LED net light, the plurality of LEDs are directly connected by plurality of the electrical lines, such that the plurality of LEDs serve as nodes to enable the plurality of electrical lines to stretch into a net structure. Accordingly, the invention does not use those supporting lines, but forms a net structure by having each of the plurality of LEDs be connected across two adjacent electrical lines.

A light-emitting diode (LED) net light includes a plurality of electrical lines and a plurality of LEDs. Each of the plurality of LEDs is connected across two adjacent electrical lines without breaking the plurality of electrical lines. The plurality of LEDs connected to the same electrical line are mutually spaced, and the plurality of LEDs in the same row are respectively connected to two different electrical lines and are mutually spaced. In the LED net light, the plurality of LEDs are directly connected by plurality of the electrical lines, such that the plurality of LEDs serve as nodes to enable the plurality of electrical lines to stretch into a net structure. Accordingly, the invention does not use those supporting lines, but forms a net structure by having each of the plurality of LEDs be connected across two adjacent electrical lines.

A tangle-resistant decorative lighting assembly, comprising: a main portion including a plurality of wires and connectors, including first and second connectors and first and second lighted-extension portions extending transversely from the main portion. The first lighted extension portion including: a first connector configured to detachably connect to the first connector of the main portion, a first plurality of wires connected to the first connector, and a first plurality of lamp assemblies connected to the first plurality of wires. The second lighted-extension portion including: a second connector configured to detachably connect to the second connector of the main portion, a second plurality of wires connected to the second connector, and a second plurality of lamp assemblies connected to the second plurality of wires. The first connector of the main portion comprises a lock portion configured to engage with a lock portion of the first connector of the first lighted-extension portion.

A tangle-resistant decorative lighting assembly, comprising: a main portion including a plurality of wires and connectors, including first and second connectors and first and second lighted-extension portions extending transversely from the main portion. The first lighted extension portion including: a first connector configured to detachably connect to the first connector of the main portion, a first plurality of wires connected to the first connector, and a first plurality of lamp assemblies connected to the first plurality of wires. The second lighted-extension portion including: a second connector configured to detachably connect to the second connector of the main portion, a second plurality of wires connected to the second connector, and a second plurality of lamp assemblies connected to the second plurality of wires. The first connector of the main portion comprises a lock portion configured to engage with a lock portion of the first connector of the first lighted-extension portion.