Tubular core with polymer plies

A tubular core and associated method of manufacture are provided. The tubular core includes at least one inner ply and at least two plastic plies disposed thereon. The inner ply, which can be paper or plastic, has an inner surface upon which identifying indicia are printed, for example, before the tube is formed and while the inner ply is in a flat configuration. The first and second plastic plies are disposed on the inner ply and adhered so that the second plastic ply substantially covers the inner ply and the first plastic ply.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to a tubular core that can be used for winding tape, yarn, and the like and, more particularly, to a spirally-wound tubular core that includes at least one polymer ply.

2. Description of Related Art

Tubular cores are typically used for supporting wound lengths of tape, yarn, paper, and the like. Such cores are found in products intended for consumer use, medical applications, manufacturing, and the like. For example, tubular cores are often used to wind adhesive tape and support the resulting roll of tape in a dispenser. One conventional tubular core for adhesive tape is formed by spirally winding a paper ply on a mandrel to form a paper tube. Multiple paper plies can be layered on the mandrel with an adhesive disposed therebetween so that the resulting tube is stiff. The tube is then cut to form a number of tubular cores, each having a desired length. Additionally, the innermost paper ply can be printed before winding, for example, with text, other indicia, or colors to indicate the tape manufacturer, the type of tape, and the like.

Although widely used, such paper cores are inappropriate or unacceptable for certain applications. For example, tape for medical and clean manufacturing applications is used in controlled environments where the production of dust associated with the paper cores is undesirable. The paper cores are also generally not clean enough for use in controlled medical environments. In addition, the paper cores tend to lack dimensional stability, especially when stressed or subjected to moisture and temperature variations. Changes in the size of the cores can complicate the winding process, for example, where multiple paper cores are adjacently positioned on a shaft and rotated in unison to wind a ribbon of tape on each core. Changes and dissimilarities in the length of the cores can result in some of the ribbons of tape being wound partially onto more than one core, i.e., two adjacent cores, such that the adjacent cores cannot be separated after winding. The paper cores can also weaken if subjected to moisture after winding. Thus, yarn or other products wound on the cores can result in a radially compressive load that exceeds the strength of the weakened cores, thereby causing the cores to collapse. Further, many adhesives used for tapes adhere to the paper cores. When the innermost end of the tape is removed from the core, paper fibers are lifted from the core by the tape. Thus, the end of the tape is generally unusable, and the removal of the tape from the core can make dust that is unacceptable in some environments.

Extruded or injection-molded plastic cores are sometimes used instead of paper rolls, for example, for adhesive tapes. Plastic cores can be clean and are typically dust free, even when the tape is completely removed from the core. In addition, plastic cores are generally dimensionally stable throughout a range of temperatures and moistures. However, some cores can be difficult to form to precise dimensions by extrusion and injection molding, especially larger cores such as those with an inner diameter of about 3 inches or more. Moreover, printing on the inside of the plastic cores can be difficult.

Thus, there exists a need for a tubular core that can be used to support wound products such as tape, yarn, paper, and the like. The core should be compatible with conventional printing methods so that indicia or colors can be provided thereon. Preferably, the core should be dimensionally stable when subjected to moisture or other environmental changes. Further, the core should allow the removal of the wound product without generating unacceptable dust or other debris.

SUMMARY OF THE INVENTION

The present invention provides a tubular core and associated method of manufacture. The tubular core includes at least one inner ply and at least two plastic plies disposed thereon. The inner ply, which can be formed of paper or plastic, has an inner surface upon which identifying indicia are printed, for example, while the inner ply is in a flat configuration. The first plastic ply is disposed on the inner ply and adhered thereto, and the second plastic ply is disposed on the first plastic ply so that the second plastic ply substantially covers the inner ply and the first plastic ply. The plastic plies can reduce or eliminate the creation of dust during use of the product and can provide a release surface from which the product can be removed.

According to one embodiment of the present invention, one or both of the plastic plies are formed of polystyrene. The plastic plies can be a deformable foam, and each can have a thickness of about 0.02 inches, for example, with the plastic plies making up about 75–85% of the thickness of the core. The first ply can cover the outer surface of the inner ply, and each of the inner and first plastic plies can define helical seams that are covered by the first and second plastic plies, respectively. Further, the plies can be adhered by adhesives or by welding.

The present invention also provides a method for manufacturing a tubular core for receiving a product wound thereon. A first side of at least one inner ply is printed with identifying indicia, and the inner ply is then spirally wound onto a mandrel that extends in a longitudinal direction so that the inner ply forms a tubular body. A first plastic ply is spirally wound onto an outer surface of the inner ply and adhered thereto. A second plastic ply is spirally wound onto an outer surface of the first plastic ply so that the second plastic ply substantially covers the inner ply and the first plastic ply, and the second plastic ply is adhered to the first plastic ply. The outer surface of the inner ply can be covered with the first plastic ply, and the second plastic ply can at least partially overlap a helical seam of the first plastic ply. The plastic plies can be adhered with an adhesive or by welding.

DETAILED DESCRIPTION OF THE INVENTION

Referring now to the figures, and in particular toFIG. 1, there is shown a tubular core10according to one embodiment. The tubular core10can be used for a variety of applications, including supporting a product that is wound thereon. For example, adhesive tape50(FIG. 2), paper, other laminar webs, yarn, thread, other textiles, and the like can be wound upon the core10. The core10can be provided in a variety of lengths according to the application. Thus, as shown inFIG. 2, the core10can be cut to shorter portions, for example, of between about 0.125 and 4 inches in length, to correspond to the width of the adhesive tape50or other product that is wound on the core10. An inner ply20of the core10is printed with identification indicia22such as words, symbols, portions of one or more colors, and the like. The identification indicia22can identify the manufacture of the core10or the product provided thereon, the type or characteristics of the product, and the like.

The inner ply20can be formed of a variety of materials including paper, such as paperboard or a laminate of multiple paper layers. Alternatively, the inner ply20can be formed of plastics including, but not limited to, polystyrene, such as polystyrene foam. Each core10also has at least two plastic plies30,40disposed on the inner ply20. The plastic plies30,40can be formed of numerous plastics such as polystyrene. The thicknesses of the plies20,30,40can vary. In one embodiment, the combined thickness of the plastic plies30,40is between about 75% and 85% of the total thickness of the plies20,30,40. For example, as illustrated inFIG. 2, the inner ply20is paper having a thickness between about 0.009 and 0.012 inches, and each of the plastic plies30,40is formed of polystyrene foam having a thickness of about 0.02 inches.

The plastic plies30,40can be dimensionally stable, i.e., the plastic does not substantially expand, contract, or otherwise deform as a result of moisture, temperature variations, and other environmental conditions. However, where foam polystyrene or other expanded polymers are used, the plies30,40can be slightly deformable. Thus, the cores10can be compressed or expanded slightly during manufacture and during subsequent winding of the product thereon. In addition, if the core10is subjected to moisture or temperature variations after the tape50or another product material is wound thereon, and the inner ply20or the wound product expands or contracts, the deformable plastic plies30,40can be compressed or expanded accordingly. Alternatively, the plies30,40can be formed of plastic that is sufficiently nondeformable to resist such dimensional changes.

The plastic plies30,40can be substantially free of dust and debris. The cores10can also be sufficiently clean for use in medical or clean manufacturing environments. Further, the second plastic ply40can be formed of a plastic from which the product is easily removed so that an outer surface of the ply40provides a release layer for removal of the product. Depending on the requirements of the particular application for the core10, the inner ply20can also be formed of paper or plastic that is substantially dust free.

FIG. 3illustrates a core10during formation according to one embodiment of the present invention. The inner and plastic plies20,30,40can be provided on rolls (not shown) and are disposed at successive positions onto a mandrel60having an axis extending in a longitudinal direction. A spiral winding belt70can be used rotate the core10about the mandrel, thereby winding the plies20,30,40on the mandrel60and driving the core10in the longitudinal direction along the mandrel60, i.e., toward the right as shown inFIG. 3. The formed core10is continuously driven off of an end (not shown) of the mandrel60during forming.

A print device64is provided for printing the identification indicia22on an inner surface24of the inner ply20before the ply20is spirally wound. The inner ply20can be printed in conjunction with the winding, as shown inFIG. 3, or the ply20can be printed at a remote location separate from the winding operation. In either case, the inner ply20is printed before the ply20is wound, for example, while the inner ply20is in a flat configuration. Thus, the indicia22can be printed on the inner ply20using conventional printing devices and methods. The indicia22can be a repetitive pattern that is printed at successive locations on the ply20so that if the core10is cut to form a number or shorter cores10, the information provided by the indicia22will be on each core10.

The inner ply20is spirally wound onto the mandrel60so that the inner surface24is directed toward the mandrel60and an outer surface26of the inner ply20is directed away from the mandrel60. The first plastic ply30is spirally wound on the mandrel60and thereby disposed on the inner ply20so that an outer surface32of the first plastic ply30is opposite the inner ply20. The second plastic ply40is also spirally wound on the mandrel60and thereby disposed on the outer surface32of the first plastic ply30.

The plastic plies30,40are disposed onto the mandrel60in a staggered configuration. For example, a helical interface or seam28formed between successive winds of the inner ply20can be covered by the first plastic ply30. Similarly, a helical seam34formed between successive winds of the first plastic ply30can be covered by the second plastic ply40. The first plastic ply30can be disposed to substantially completely cover the inner ply20, and the second plastic ply40can be disposed to substantially completely cover the inner ply20and the first plastic ply30. The plies20,30,40shown inFIG. 3are equal in width, and each is wound onto the mandrel60without substantial space between successive winds; however, in other embodiments, the plies20,30,40can have different widths and/or can be wound with space or overlaps at the seams of the successive winds.

The plies20,30,40are adhered to one another, for example, by an adhesive or by welding. As shown inFIG. 3, an applicator66is provided for applying a glue or other adhesive to the first plastic ply30. The applicator66can be configured to spray, roll, or otherwise apply the adhesive to an inner surface36of the first plastic ply30. A second applicator (not shown) can be provided for applying adhesive to the outer surface32of the first plastic ply30or an inner surface of the second plastic ply40. Alternatively, the plies20,30,40can be adhered by welding. For example, a heater68, such as a gas-fired or electric heating device, is provided for heating the second plastic ply40as the ply40passes therethrough. Thus, the second plastic ply40is softened or partially melted and disposed onto the first plastic ply30. In other embodiments of the present invention, the plies20,30,40can be adhered using other configurations of adhesives and welds. Additionally, it is understood that the adhesive can be applied in other manners, for example, to either or both of the adhered surfaces of the plies20,30,40, or as a film disposed between the plies20,30,40.

The spiral winding belt70can be used compress the plies20,30,40on the mandrel60and to drive the core10along the mandrel60. As illustrated inFIG. 3, each of the plies20,30,40can be wound onto the mandrel upstream of the winding belt70, i.e., to the left of the belt70as shown inFIG. 3, so that the belt70pulls the plies20,30,40along the mandrel60. Alternatively, one or more of the plastic plies30,40can be wound onto the mandrel60downstream of the belt70. Before or after the formed core10is driven off of an end (not shown) of the mandrel60, the tube10can be cut into desired lengths. Each resulting core10can then be wound with tape, yarn, or other products, or otherwise used.

Many modifications and other embodiments of the invention will come to mind to one skilled in the art to which this invention pertains having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. For example, it is understood that additional plies of paper, plastic, or other materials can be disposed on the mandrel60during the forming process shown inFIG. 3such that the core10includes more than three plies. Further, each of the plies20,30,40can be formed of a variety of thermoset and thermoplastic materials including polystyrene, polyethylene, polypropylene, and the like. Therefore, it is to be understood that the invention is not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.