RECYCLABLE CHENILLE YARN

Abstract

A recyclable chenille yarn comprising a core yarn and an effect yarn wherein at least one of the core yarn and effect yarn comprises a natural fiber selected from the group consisting of bamboo, kudzu, potato, tobacco, alpaca, banana, coconut, kenaf and soybean.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

By way of example, embodiments of the present invention will now be described with reference to the accompanying drawings, of which:

FIG. 1 is a side elevational view of a chenille yarn of the present invention;

FIG. 2 is an end view of the yarn of FIG. 1;

FIG. 3 is a schematic representation of the process steps for forming a chenille yarn of the present invention; and

FIG. 4 is a schematic representation of the process steps for forming the core yarn and/or the effect yarn as a component of the chenille yarn.

DETAILED DESCRIPTION OF THE INVENTION

FIGS. 1 and 2 illustrate a recyclable chenille yarn 10 of the present invention. The chenille yarn 10 illustrated comprises a pair of flat core yarns 12 which are twisted together as shown. Trapped between the core yarns 12 are short pieces of effect yarn 14 which form a pile on the chenille yarn 10. As can be seen in FIG. 2, the effect yarn extends all around the composite chenille yarn as the core yarns are twisted about a longitudinal access. The yarn illustrated can be produced in numerous ways, as will be discussed in more detail herein, by simultaneously twisting together the core yarns while trapping the effect yarns there between to form the chenille assembly. In one form of construction, the effect yarns are trapped between the core yarns solely by friction resulting from the twisting together of the core yarns. In an alternative type of construction, the effect yarns are bonded to the elongate core yarns by incorporating a bonding agent as a third component.

To be environmentally friendly and recyclable, the chenille yarn 10 of the present invention incorporates unique raw materials as the core yarn and the effect yarn. The preferred raw material for use as the core yarn and the effect yarn is selected from the group of bamboo, kudzu, potato, tobacco, alpaca, kenaf and soybean. Other natural fibers which can be used for the core yarn or the effect yarn include banana, coconut, silk, rayon, linen or cotton. By incorporating these natural raw materials for the individual core yarn and the effect yarn, they are environmentally friendly in that they will naturally breakdown in landfills or are easily recycled. The chenille yarn of the present invention is manufactured for an intended use in the weaving of residential and commercial upholstery, drapery, bedding and designer textiles. After the conclusion of its useful life after its intended use, the elements of the chenille yarn can be separated for recycling purposes in accordance with local recycling centers. A recommended method of separation is through a hot water bath, whereby the effect yarn breaks down into its natural cellulose state and the core yarn will melt or pull away from the effect yarn so that the individual elements can then be recycled.

Although less desirable, for specific applications, one of either the effect yarn or the core yarn can incorporate non-natural materials such as polypropylene, polyethylene, polyester, or other petrochemical products. Although these non-natural components are less desirable from an environmental and recyclability aspect, there is an improvement in environmental and recyclable aspects in that at least one of the components would include the natural raw materials such as bamboo, kudzu, potato, tobacco, alpaca, kenaf, soybean, cotton, coconut, banana and silk.

The chenille yarn of the present invention can be produced in its natural state without color, with its natural color or can be dyed to a specific application. The core yarn could also be dyed to match the natural color of the chenille yarn and vice-versa. To add color, dyeing of the composite chenille yarn is done by either package dyeing or piece dyeing when manufactured into a woven fabric. Package dyeing is commenced when the individual elements of the yarn are in their separate states as raw material or as flat yarn. The process for dyeing can be environmentally green or performed with standard commercial dyeing chemicals and processes. Piece dyeing can take place when the yarn is woven into textiles or other finished goods. This process also can be done environmentally or through standard commercial dyeing chemicals and processes.

Referring to FIG. 3, one method of producing the chenille yarns 10 of the present invention is schematically illustrated. As few as one and as many as six high strength flat feeder core yarns 12 are fed into an optional tacking machine 16. Tacking machine 16 mechanically attaches a binder material, if desired, by one or more methods including, but not limited to, air texturizing, taslan, air entanglement, hollow spindle twisting and novelty twisting. One or more core yarns 12 exit the tacking machines and are fed into a chenille machine 18. It is to be understood that the core yarns 12 can be fed to the chenille machine without going through a tacking machine. Effect yarns 14 are also fed to the chenille machine and the core yarns and effect yarns are combined to produce the composite chenille yarn 10. As the chenille yarn 10 exits the chenille machine, the chenille yarns are taken up on bobbins 20 and subsequently transferred onto cones 22. The cone is then transferred 24 into a packaging 26 for shipment 28 to a weaving process for textiles.

The chenille machine 18 is designed to bring the effect yarn and the core yarns together. During manufacture, the effect yarns are wrapped around a caliper through which a blade passes to cut the effect yarns into short lengths as is known in the industry. The core yarns are pressed into the short lengths with a rotating metal wheel and the resulting yarn is fed onto a traditional ring twisting take-up mechanism. In the twisting process, as few as one and as many as six ends of the core yarn twist and trap the short ends of the pile between the core yarns. The size of the caliper determines the diameter of the resulting yarn and the size and number of the pile of yarns and how much of them are fed into the core determines the count of the yarn. For example, the denier of the feeder stock yarn ranges from 150 to 3000 in size.

Referring to FIG. 4, production of the flat core yarn is illustrated. As previously mentioned, the flat core yarn can also be made from a single raw material including bamboo, kudzu, potato, tobacco, alpaca, kenaf, soybean, coconut, banana, cotton and silk. This raw material is harvested in a typical method for the specific material and placed into a raw staple fiber bale 30. The raw material bale is blended and carded into silver in a silver machine 32. The carded silver 34 goes through a drawing preparation, is twisted and then made into roving 38 in a roving machine 36. The roving 38 enters a spinning frame 40 where it is spun into thread 42 and collected on bobbin 44. The threads then are made into yarn. Alternatively, the raw material, such as soybean, is reduced to a liquid state and extruded into a filament ranging from 20,000 denier or 223.2 yards per pound (ypp) to 1.000 denier or 4,465,000 ypp. The threads are then twisted together into yarn in a number that corresponds with the desired diameter.

EXAMPLE

The method of making a bamboo chenille yarn includes processing raw bamboo material into an effect yarn as per the method discussed with respect to FIG. 4. The bamboo effect yarn is placed on a chenille machine creel. The core yarn, such as cotton, is also placed into the chenille machine creel. The effect yarn is 100% bamboo and the core yarn is 20/2, 100% cotton. The cotton core yarn includes as few as one and as many as six ends which comprises 25% of the overall bamboo chenille yarn. The effect yarn is 100% 8/1 bamboo which comprises 75% of the finished bamboo chenille yarn. The bamboo chenille yarn is a 100% recyclable product and the yarn can range between 500 and 3000 ypp. As few as one and as many as six ends of the core yarn and as few as one and as many as seven ends of the bamboo effect yarn are processed in the chenille machine, as discussed regarding FIG. 3, to produce the bamboo chenille yarn. The finished bamboo chenille yarn is then packaged and sent for the next process of weaving into textiles.

Although the present invention has been described and illustrated with respect to preferred embodiment herein, it is to be understood that changes and modifications can be made herein which are within the intended scope of the invention as hereinafter claimed.

Claims

1. A chenille yarn comprising: a core yarn; andan effect yarn wherein at least one of the core yarn and the effect yarn comprises a natural fiber selected from the group consisting of bamboo, kudzu, potato, tobacco, alpaca, kenaf and soybean.

2. The yarn of claim 1 wherein the group further consists of banana, coconut, rayon, linen, silk and cotton.

3. The yarn of claim 1 wherein the core yarn is selected from the group consisting of polyester, cotton, rayon, linen, nylon, polypropylene, silk or olefin.

4. The yarn of claim 1 wherein there are at least two core yarns twisted together and portions of the effect yarn extend radially from the twisted core yarns.

5. The yarn of claim 1 further comprising a binding material.

6. The yarn of claim 1 wherein the yarn is made from a method comprising: feeding a plurality of yarns into a chenille machine, wherein the plurality of yarns comprises at least one core yarn and an effect yarn;entangling at least one core yarn and the effect yarn in the chenille machine; andcutting the effect yarn to form a chenille yarn having portions of the effect yarn extending radially from the core yarns of the chenille yarn.

7. The yarn of claim 6 further comprising the step of binding the core yarns.

8. A method of making a chenille yarn comprising the steps of: feeding a plurality of yarns into a chenille machine, wherein the plurality of yarns comprises at least one core yarn and an effect yarn, and wherein at least one of the core yarns and the effect yarn comprises a natural fiber selected from the group consisting of bamboo, kudzu, potato, tobacco, alpaca, kenaf and soybean;entangling the at least one core yarn and the effect yarn in the chenille machine; andcutting the effect yarn to form a chenille yarn having portions of the effect yarn extending radially from the core yarns of the chenille yarn.

9. The method of claim 8 wherein the natural fiber group further consists of banana, coconut, rayon, linen, silk and cotton.

10. The method of claim 8 wherein the core yarn is selected from the group consisting of polyester, cotton, rayon, linen, nylon, polypropylene, silk or olefin.

11. The method of claim 8 further comprising the step of binding the core yarn and the effect yarn together.

12. A flat yarn comprising a plurality of threads of a natural fiber selected from the group consisting of bamboo, kudzu, potato, tobacco, alpaca, kenaf and soybean.

13. The flat yarn of claim 12 wherein the group further consists of banana and coconut.

14. The flat yarn of claim 12, wherein the yarn is made by a method comprising: harvesting the natural fiber;blending and carding the natural fiber into silver;processing the silver into roving by drawing and twisting; andspinning the roving into threads.