The present invention relates generally to musical instruments and more specifically to monolithic composite drum shells and methods of making drum shells.
Drums are percussion instruments that are composed of a shell and a taut membrane that covers one or both ends of the shell. Drums are available in a variety of shapes and sizes including bowl-shaped (i.e., kettledrums) and tube/conical-shaped (i.e., conga drums). They can also be short (i.e., tubular drums) or shallow (i.e., snare, tenor and bass drums). Ultra-short drums are referred to frame drums (i.e., tambourine). A variety of different materials are used to make drums.
Materials used to form drum shells include wood, metal, and sometimes plastic. Wood drum shells are made from two-ply and/or three-ply plywood, while metal drum shells are made from steel (carbon), brass, aluminum, copper, bronze, titanium, and various metal alloys. Referring to wood drum shells,
In fabricating drum shells, several processing steps occur, beginning with selecting the desired type of plywood. One or more plywood sheets are adhered together to make the drum shell. For instance, drum shells are often made as six-ply to ten-ply plywood layers joined together. In a six-ply plywood, three (3) sheets of two-ply plywood are joined together whereby the middle plywood sheet is cut smaller than the two outer layers. The plywood layers are adhered together using an adhesive and a mold.
Referring to
It has been found that drum shells formed using these known techniques often have inconsistencies from one shell to the next. This is undesirable as these inconsistencies generate variable sound, or in some instances, the sound is completely compromised. Known approaches of forming drum shells are also time consuming requiring many fabrication steps and numerous layers of plywood, deplete natural resources, are expensive, and require intensive manual labor. Accordingly, there is a need in the art for new approaches of fabricating drum shells that are sustainable, quick to make, are reliable, generate consistent sound from resultant drum to drum, and are cost effective.
Bearing in mind the problems and deficiencies of the prior art, it is therefore an object of the present invention to provide monolithic composite drum shells that are sustainable, quick to make, are reliable, generate consistent sound from resultant drum to drum, and are cost effective.
It is another object of the present invention to provide methods of making monolithic composite drum shells that are sustainable, quick to make, are reliable, generate consistent sound from resultant drum to drum, and are cost effective.
Still other objects and advantages of the invention will in part be obvious and will in part be apparent from the specification.
The above and other objects, which will be apparent to those skilled in the art, are achieved in the present invention which is directed to a method of making a drum shell for a musical instrument. The method includes selecting one or more desired wood fibers, providing a resinous binder solution, and immersing the wood fibers within the resinous binder solution for a duration that saturates and covers the wood fibers with the resinous binder solution to form a drum shell liquid composition. The drum shell liquid composition is deposited into a mold, and then cured to form a monolithic composite drum shell. The monolithic composite drum shell is removed from the mold to provide a ready-to-use drum shell for assembling into a musical instrument.
In various embodiments the wood fibers may be recycled wood, recycled wood waste, wood chips, wood shavings, or sawdust, whereby each may be oak, birch, beech, maple, mahogany, walnut, cherry, bubinga, luana, poplar, ash, alder, pine, or spruce. The method may further include cleaning and drying the wood fibers prior to immersing within the resinous binder solution, and/or further include screening the wood fibers for desired particle sizes. The method may further include pretreating the wood fibers with an additive prior to immersing within the resinous binder solution. The additive may be a colorant, dye or coating.
The wood fibers may range in sizes from wood flour to wood chips. The resinous binder solution may be a polyester resin liquid, an epoxy resin liquid, or a polyurethane resin liquid in combination with a catalyzing agent. The polyester resin liquid may be mixed with a methyl ethyl ketone peroxide (MEKP) catalyst, such as, 0.5% to 2.0% MEKP with the remainder comprising the polyester resin liquid. The epoxy resin liquid may be mixed with an amine catalyst in a 1:1 ratio.
The monolithic composite drum shells may comprise contiguous solid structures devoid of openings. The step of immersing the wood fibers within the resinous binder solution fills openings and porous cavities within the wood fibers to avoid openings in the monolithic composite drum shell. The drum shell liquid composition may be, by volume, 30% to 80% of the wood fibers and the remainder being the resinous binder solution. The method may further include curing the drum shell liquid composition at a temperature ranging from ambient temperature up to 220° F., at pressures ranging from atmospheric pressure to 80 PSI, and durations ranging from approximately 1 hour to 24 hours.
Another aspect of the invention is directed to monolithic drum shells for a musical instrument made in accordance with the method of selecting one or more desired wood fibers, providing a resinous binder solution, and immersing the wood fibers within the resinous binder solution for a duration that saturates and covers the wood fibers with the resinous binder solution to form a drum shell liquid composition. The drum shell liquid composition is deposited into a mold, and then cured to form a monolithic composite drum shell. The resultant monolithic composite drum shell is removed from the mold to provide a ready-to-use drum shell for assembling into a musical instrument.
The features of the invention believed to be novel and the elements characteristic of the invention are set forth with particularity in the appended claims. The figures are for illustration purposes only and are not drawn to scale. The invention itself, however, both as to organization and method of operation, may best be understood by reference to the detailed description which follows taken in conjunction with the accompanying drawings in which:
In describing the preferred embodiments of the present invention, reference will be made herein to
A drum is a musical instrument that is composed of at least a drum shell having open opposing ends and a hollow body, whereby one or both open ends are covered with a membrane. The drum makes a sound by striking the membrane with a stick, mallet, hand, etc. so that the membrane vibrates up and down moving air within the drum shell, and off interior sidewalls thereof, to generate sound waves. While known drum shells are made of plywood, metal, and plastic, those composed of a wood material (e.g. plywood) are preferred by musicians. However, plywood drum shells are difficult and time consuming to make, and often generate inconsistent drum shells. Also, referring to
The present invention provides an improved alternative to traditional wood drum shells for a musical instrument. In one or more embodiments, referring to
Referring to embodiments of the invention, the present monolithic composite drum shells may be made using any type of wood fibers 40 including, but not limited to, recycled wood, recycled wood waste, wood chips, wood shavings, sawdust, and the like. The types of wood used in the invention may also vary. Suitable wood for fabricating the various monolithic composite drum shells of the invention include, but are not limited to, oak, birch, beech, maple, mahogany, walnut, cherry, bubinga, luana, poplar, ash, alder, pine, spruce, and various other types of wood and wood materials.
In the invention, wood fibers are immersed in a resinous binder solution so that the entire surface area of the wood fibers are coated with the resinous binder. In one or more preferred embodiments the wood fibers are from recycled waste wood such as, for example, waste wood from shop-generated wood dust and particles. Suitable wood fiber sizes for use in the invention range from wood flour up to wood chips or wood fragments. As used herein, the term wood flour refers to finely pulverized wood that has a consistency equivalent to sand or sawdust, and may vary considerably, with particles ranging in dimensions from a fine powder to roughly that of a grain of rice. The wood chips or wood fragments may have dimensions up to ¼ of an inch, or more. In one or more embodiments, the wood fibers implemented in making the monolithic composite drum shells of the invention range from fine wood flour up to wood chips/fragments having coarse dimensions of approximately ¼ of an inch.
In one or more embodiments, prior to forming the monolithic composite drum shells of the invention the wood fibers may be cleaned, dried, screened and/or sorted for desired wood fiber sizes. For instance, the wood fibers may be washed in a bath, dried, and then processed through a screening machine to separate out wood fibers of desired size(s) in the final drum shells of the invention. Also, the present wood fibers may be pretreated with a material that provides desired attribute(s) or feature(s) to the resultant monolithic composite drum shells of the invention. For instance, the wood fibers may be pretreated with a colorant or dye, or covered with an aesthetic coating, to provide the resultant monolithic drum shell with a desired appearance.
Once the wood fibers have been selected, and optionally pretreated, the selected wood fibers are immersed in a bath of a resinous binder solution and mixed therein so that all surface areas of the wood fibers are thoroughly coated with the resin binder. In one or more embodiments, the wood fibers may even soak in the resin binder solution for a duration of about 30 minutes up to 1 or more hours to ensure all surface areas of the wood fibers are thoroughly wetted and coated. Depending upon the type of wood material used and amount of wood material, these soak times may vary in accordance with the invention. Soaking the wood fiber/material helps to avoid any openings 23 residing in the final resultant monolithic drum shell. Also, soaking and thoroughly wetting the surface areas of the wood fibers helps to ensure openings and porous cavities within the wood fibers are entirely filled with the resinous binder to avoid any openings 23 in the final drum shell 30.
In accordance with the invention, wood fibers are dispersed in a resinous binder solution that includes a polyester resin liquid, an epoxy resin liquid, a polyurethane resin liquid, and the like. Each of the polyester resin, epoxy resin and polyurethane resin liquids may be mixed with a suitable catalyzing agent (i.e. hardener) to initiate the chemical reaction of hardening the resinous binder solution and entrapping the wood fibers in a solid, continuous drum shell. In certain embodiments, the resinous binder solution may further include additives including, but not limited to, fillers, recycled plastic, glitter, colorants, dyes, and the like.
For instance, in one or more embodiments a polyester resin liquid may be mixed with a methyl ethyl ketone peroxide (MEKP) catalyst. In these embodiments the resinous binder solution may comprise a composition of 0.5% to 2.0% MEKP catalyst with the remainder being the polyester resin liquid. In other embodiments an epoxy resin liquid may be mixed with an amine catalyst (e.g., a primary amine, secondary amine, aliphatic amines, cyclo-aliphatic amines, etc.) in a 1:1 ratio (i.e., a two-part epoxy) for hardening the resinous binder solution. In embodiments implementing a polyurethane resin liquid and catalyst, it is preferred that the wood fibers are dried prior to mixing with the polyurethane resin mixture. The wood fibers may or may not be dried prior to mixing with the polyester resin and epoxy resin mixtures.
In forming the instant drum shells, the wood fibers are submerged or immersed in a predetermined amount of resinous binder solution as described below. In one or more embodiments the one-piece drum shells may be made using a drum shell liquid composition comprising, by volume, from 30% to 80% wood fiber with the remainder being the resinous binder solution. Depending upon the end use and desired sound generated from the resultant drum shell for a musical instrument, the amount by volume of wood fiber to resinous binder solution may vary. In various embodiments, the drum shell liquid compositions may have formulations by volume including, but not limited to, 30% wood fiber (e.g., wood dust or wood flour) to 70% resinous binder solution, 40% wood fiber to 60% resinous binder solution, 50% wood fiber to 50% resinous binder solution, 60% wood fiber to 40% resinous binder solution, 70% wood fiber to 30% resinous binder solution, 80% wood fiber to 20% resinous binder solution, and the like. In one or more preferred embodiments for sound quality, the monolithic drum shells of the invention contain, by volume, 30% to 80% recycled wood with the remainder being a polyester resin liquid, such as, a composition of 0.5% to 2.0% MEKP catalyst with the remainder being the polyester resin liquid.
In the various embodiments of the invention, the wood fibers used in the drum shell liquid compositions may be the same type of wood fiber, different types of wood fibers, wood fibers having the same dimensions (i.e., particle sizes), wood fibers having different dimensions, or any combination(s) of the foregoing. Once the drum shell liquid composition is formulated, and any soaking time has been completed, the liquid drum shell composition is deposited into a precast mold of a desired shape and size.
The mold is preferably a seamless mold (i.e., has no seams or gaps) such that the drum shell is formed as a one-piece (i.e., monolithic) structure. The liquid state drum shell composition may be poured (i.e., cast) into the mold, or it may be deposited into the mold by injection molding (i.e., shooting pressurized liquid state drum shell composition into the pre-made molds). As the liquid drum shell composition is deposited into the mold, it fills such mold and takes the shape thereof to generate the one-piece cast drum shells of the invention. The drum shell composition within the mold is then cured at a temperature ranging from ambient temperature up to 220° F., at pressures ranging from atmospheric pressure to 80 PSI, and durations ranging from approximately 1 hour to 24 hours.
After the drum shell composition is completely cured, the mold and cured monolithic drum shell are cooled, followed by removing the monolithic drum shell from the mold. In accordance with the invention, the various resultant monolithic drum shells comprise one-piece structures that require little to no post molding processing. For instance, since each drum shell is formed as a single complete drum shell unit, tasks including cutting, attaching layers together (e.g., plywood), finishing or fixing rough or incomplete edges, sanding to remove imperfections, etc. may be completely eliminated, or greatly minimized as compared to prior art drum shell 20 building techniques that require such post drum shell formation processing steps. The present monolithic drum shells are formed as uniform solid contiguous structures having no gaps or openings of wood fiber and resinous binder, whereby the cured resin binder fills any gaps and/or openings that otherwise would reside within such a structure.
Again, in the invention the wood fibers are soaked in the resinous binder solution(s) for a time that allows all surface areas of the wood fibers, including openings/voids/pores in the wood fibers, to be covered by, or filled with, the resinous binder solution. That is, unlike prior art techniques that merely spray a resinous solution onto a wood material, which results in openings 23 (e.g., holes, gaps, porous cavities, etc.) in the resultant end product (see,
It has been found that merely spraying the resin onto wood particles, followed by immediately forming such treated wood particles into a flat sheet, provides openings 23 within the drum shell 20. These openings 23 deleteriously affect performance and provide a product that is susceptible to damage (e.g., cracking, breaking, chipping, etc.). The openings 23 also decrease the strength of the prior art drum shells 20 that are composed of wood fibers 28 and an adhesive material that was sprayed onto such wood fibers 28. There is no guarantee that all surface areas of the wood fibers are coated by spraying or spray deposition, however, the instant invention ensures complete surface area coverage since the wood fibers are immerse, and optionally soaked, in a resinous binder solution.
The various monolithic drum shells of the invention may then be finished by attaching a membrane (surface area hit for drumming) to one or both open ends of the present monolithic drum shells, as well as attaching any necessary accessories (e.g., straps, feet, legs, handles, screws, metal rods, etc.) to provide a musical drum instrument of the invention. Since the molds used to form the present drum shells vary in diameter, length, shapes, and thickness, the resultant monolithic drum shells of the invention may likewise vary in diameter, length, shapes, and thickness.
In accordance with the various embodiments, the present drum shells are fabricated as ready-to-use drum shells (i.e., they are fabricated in the end use desired shape and size) for assembling into a musical instrument, as compared to prior art plywood sheets that are formed into sheets of material that must go through extensive processing to form a drum shell. In preferred embodiments the present drum shells do not require any cutting or trimming processing steps like that of prior art drum shells. They are also void of any openings 23 that would affect performance or weaken drum shell 30 strength. The present drum shells are also preferably formed without seams, as they are a one-piece structure, thereby avoiding any seam-related processing steps (e.g., gluing seams together, sanding, trimming, etc.). The monolithic drum shells of the invention are sustainable and consistent with regards to construction and sound quality.
While the present invention has been particularly described, in conjunction with a specific preferred embodiment, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. It is therefore contemplated that the appended claims will embrace any such alternatives, modifications and variations as falling within the true scope and spirit of the present invention.
Thus, having described the invention, what is claimed is:
This application is a Continuation of U.S. patent application Ser. No. 16/792,181 filed Feb. 14, 2020, which claims the benefit of U.S. Provisional Application Ser. No. 62/805,485, filed Feb. 14, 2019.
Number | Date | Country | |
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62805485 | Feb 2019 | US |
Number | Date | Country | |
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Parent | 16792181 | Feb 2020 | US |
Child | 17084964 | US |