A wooden wick for use in a wax candle comprising a strip of a predetermined wood having each of a first predetermined length, a first predetermined width and a first predetermined thickness. Such wick further includes a booster member having each of a second predetermined length, a second predetermined width and a second predetermined thickness adhered to the strip of wood.

A wooden wick for use in a wax candle comprising a strip of a predetermined wood having each of a first predetermined length, a first predetermined width and a first predetermined thickness. Such wick further includes a booster member having each of a second predetermined length, a second predetermined width and a second predetermined thickness adhered to the strip of wood.

Wicks include a sheet, including wood, a wood-like substance, and/or a cellulose fiber, and an engraved booster region that is a region at a surface of the sheet where material of the sheet has been removed. Material may be removed by laser engraving. A ratio of the width of the engraved booster region to the width of the sheet may be 1:3 to 1:8. A width of the engraved booster region may be 0.075 to 0.175 inches. Methods for manufacturing wicks include laser engraving a planar workpiece to remove material from a surface of the workpiece forming engraved booster regions, and laser cutting the workpiece to form sheets including an engraved booster region.

Wicks include a sheet, including wood, a wood-like substance, and/or a cellulose fiber, and an engraved booster region that is a region at a surface of the sheet where material of the sheet has been removed. Material may be removed by laser engraving. A ratio of the width of the engraved booster region to the width of the sheet may be 1:3 to 1:8. A width of the engraved booster region may be 0.075 to 0.175 inches. Methods for manufacturing wicks include laser engraving a planar workpiece to remove material from a surface of the workpiece forming engraved booster regions, and laser cutting the workpiece to form sheets including an engraved booster region.

A candle creating kit includes a vase, a first container containing a liquid resin, a second container containing a gel wax, a third container containing a powder is comprised of a light reflecting material and a fourth container containing a liquid pigment. The liquid resin and the gel wax are poured into the vase in alternating layers and a desired amount of the power and pigment are mixable into the resin. A block of candle wax is heatable into a fluid wax which can be poured into the vase. A wick is insertable into the fluid wax before the fluid wax hardens thereby facilitating the fluid wax to be burned in the wick when the wick is ignited to illuminate the immediate area around the vase.

A candle creating kit includes a vase, a first container containing a liquid resin, a second container containing a gel wax, a third container containing a powder is comprised of a light reflecting material and a fourth container containing a liquid pigment. The liquid resin and the gel wax are poured into the vase in alternating layers and a desired amount of the power and pigment are mixable into the resin. A block of candle wax is heatable into a fluid wax which can be poured into the vase. A wick is insertable into the fluid wax before the fluid wax hardens thereby facilitating the fluid wax to be burned in the wick when the wick is ignited to illuminate the immediate area around the vase.

Method and system for dispensing molten wax into molds by means of a desktop apparatus is disclosed. The invention being comprised of a heating chamber, temperature controller, metering dispenser, adjustable base, lighting strip and protective viewing cabinet. Said invention allowing wax to be melted and maintained at a temperature below the melting point of mold materials such as; but not limited to, filaments commonly used in 3D printing and the like. An object of the invention is to allow users to quickly position and fill custom molds for fabrication processes such as candle and jewelry making.

Provided is a device for manufacturing a scented candle, the device including: a main body; a wax and oil supply portion provided at an upper portion of the main body and including a wax supplier melting and supplying wax and an oil supplier supplying fragrance oil; a base provided at a lower portion of the main body; and a container provided on the base and receiving the liquid wax and the fragrance oil.

The invention is directed to a method of forming a molded item said method comprising the steps of (a) providing a mold former comprising an indentation having an inner surface and a bottom face and made of plastics and manufactured by a 3-dimensional printing process, said mold former being shaped to form a mold having (i) an indentation corresponding to the desired shape of said molded item; and (ii) a series of holes extending between the inner surface and the bottom face of the mold former, (b) forming a mold in said mold former from a plastics material; (c) positioning an elongate member in said mold; (d) introducing a volume of liquid into said indentation; (e) positioning a cover over said mold and sealing it thereto; (f) causing said liquid to solidify.

A wickless candle is provided, the candle comprising one or more sheets, the sheet including a first outer layer, a second outer layer and an inner layer therebetween to provide a thickness, the first outer layer and the second outer layer including a beeswax-based formulation, the inner layer including the beeswax-based formulation and a combustible substrate, the substrate including a plurality of fibers and a plurality of interstitial spaces between the fibers, the interstitial spaces retaining the beeswax-based formulation, wherein the beeswax-formulation in the interstitial spaces is continuous with the beeswax-based formulation of the first outer layer and the second outer layer.