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 herein are methods and items for flocking festive goods or holiday decorations, such as trees and wreaths, that reduce the loss of flocking material. The method can include applying a first glue emulsion onto an item, applying one or more layers of flocking material onto the glue emulsion, and applying one of: a second glue emulsion, an acrylic, or acrylic-like substance, over the one or more layers of flocking material. A decorative item can include one or more layers of flocking material, and a layer of: a glue emulsion, an acrylic, and/or acrylic-like substance applied on the one or more layers of flocking material.

A decorative tree comprises a base, a pole inserted in the base, and plural hoops that are pivotably connected in series prior to complete assembly of the tree. The lowest hoop is attached to the outer rim of the base, an uppermost hoop is provided to connect toward the top of the pole, and one or more intermediate hoops are interposed between the lowest and uppermost hoops. Each hoop has a pivotable connection to an adjacent hoop. The connection of a particular hoop to a lower adjacent hoop is formed on one side of the hoop and a connection of that particular hoop to an upper adjacent hoop is formed on a substantially opposite side of the hoop. Upon complete assembly of the tree, the uppermost hoop is extended toward the top of the tree and the hoops are expanded upward so as to form a decorative pattern of hoops with alternating angular orientations. The hoops may be of one or more shapes and sizes and may be wrapped with light strips to illuminate the tree.

Translucent artificial foliage and methods of manufacturing the same. Exemplary translucent artificial foliage includes an artificial foliage material. An exemplary translucent artificial foliage material includes a polymer, an anti-UV additive component, and a phosphorus fire-retardant additive component. Exemplary translucent artificial foliage includes lighting elements internal to the artificial foliage material. An exemplary method of manufacturing the artificial foliage material includes mixing a translucent artificial foliage material by combining a polymer with an anti-UV additive component and a phosphorus fire-retardant additive. The exemplary method includes inserting a wire into a mold, heating the translucent artificial foliage material, adding the translucent artificial foliage material to the mold, and cooling the mold.

Disclosed herein are methods and items for flocking festive goods or holiday decorations, such as trees and wreaths, that reduce the loss of flocking material. The method can include applying a first glue emulsion onto an item, applying one or more layers of flocking material onto the glue emulsion, and applying one of: a second glue emulsion, an acrylic, or acrylic-like substance, over the one or more layers of flocking material. A decorative item can include one or more layers of flocking material, and a layer of: a glue emulsion, an acrylic, and/or acrylic-like substance applied on the one or more layers of flocking material.

In a trickling apparatus (1) for producing thin vertical surfaces of a pressure-sensitive trickling material that floats downwards, the trickling material is received in a supply container (2) having an electrically driven roller (5) located underneath or in the supply container. The roller (5) has a smooth surface (8) and cams (9) on said surface that pick up and release the trickling material. When the roller or the tube (5) rotates, the material trickles into the open through the opening (4) in the base of the supply container (2).

Translucent artificial foliage and methods of manufacturing the same. Exemplary translucent artificial foliage includes an artificial foliage material. An exemplary translucent artificial foliage material includes a polymer, an anti-UV additive component, and a phosphorus fire-retardant additive component. Exemplary translucent artificial foliage includes lighting elements internal to the artificial foliage material. An exemplary method of manufacturing the artificial foliage material includes mixing a translucent artificial foliage material by combining a polymer with an anti-UV additive component and a phosphorus fire-retardant additive. The exemplary method includes inserting a wire into a mold, heating the translucent artificial foliage material, adding the translucent artificial foliage material to the mold, and cooling the mold.

Translucent artificial foliage and methods of manufacturing the same. Exemplary translucent artificial foliage includes an artificial foliage material. An exemplary translucent artificial foliage material includes a polymer, an anti-UV additive component, and a phosphorus fire-retardant additive component. Exemplary translucent artificial foliage includes lighting elements internal to the artificial foliage material. An exemplary method of manufacturing the artificial foliage material includes mixing a translucent artificial foliage material by combining a polymer with an anti-UV additive component and a phosphorus fire-retardant additive. The exemplary method includes inserting a wire into a mold, heating the translucent artificial foliage material, adding the translucent artificial foliage material to the mold, and cooling the mold.