The present invention relates generally to field of improved musical drumheads and more particularly to a drumhead that is produced from a composite open mesh fabric to enable the simulation of the playing, tuning, and single- and double-headed sound properties of a modern synthetic drumhead, including, for example, Mylar® (polyester), at substantially reduced volume levels.
Woven drumheads commercially available in the prior art include the single-ply Duraline™ head made from woven Kevlar® material, the Compo™ head, which was made from a woven impregnated cloth, and the Cana-Sonic™ head, also made from a plain woven synthetic material. In 1982, applicant was granted a patent for its FaLam® drumhead (U.S. Pat. No. 4,356,756), which was made from woven Kevlar® fabric. But, unlike Duraline™, the FaLam® drumhead incorporated a polyester sandwiched construction, which protected the woven fibers from separating and making the head airtight to the drum. The Duraline™ head allowed a large volume of air to pass through the membrane causing it to have a different sound than that of the preferred sound of the Mylar® head, which the improved drumhead of the present invention simulates in terms of its playing, tuning, and single- and double-headed sound properties, and which also precluded the passage of air given that its composition was that of a single piece of solid polyester. The Duraline™ head was used extensively on a single-headed electronic drum called Syndrum™. With Syndrum™, the main objective was to have a durable yet quiet drum surface where the vibration was detected and then translated to a sound module for amplification. Ultimately, the Duraline™ head was not very successful as the outer periphery weave separated. Comp™ and Cana-Sonic™ drumheads did not have a full range of sound compared to that of Mylar®. Thus, for these and other reasons, all three of these woven drumheads ceased production by the early 1980's.
Electronic drums of the mid-1970s and early 1980s included hard playing surfaces, which produced loud contact noises when struck with a drumstick and often caused discomfort to the drummer's hands because the surface had no rebound or shock absorption capability. Midi drum triggers became popular in the late 1980's as the drummer could play on a regular drumhead and then “trigger” electronic sounds using various piezo sensors attached to the drumhead. The drumhead feel was relatively unchanged, although the triggers were not very accurate in translating fast musical passages and dynamics. Unfortunately, this type of electronic drumset, as a total package, was not available. The drums, triggers, midi unit, and the sound module all had to be purchased separately from different sources and then synchronized.
In the mid-90s, the Roland Corporation introduced an all-encompassing electronic drumset. To reduce the contact noise of typical plastic or rubber pads, the drumset was fitted with monofilament mesh drumheads comprised of two separate layers of material, as disclosed in U.S. Pat. No. 5,920,026. The objective of the two-ply Roland® mesh drumhead was to deliver sufficient vibration to trigger a sound module, with minimal sound coming from the drumhead itself. However, the Roland® two-ply drumhead produced a rattling sound and had greater deflection causing it to become too bouncy or springy. Thus, the feel produced by the two-ply Roland® head was significantly inferior to that of a modern day drumhead made, for example, from a solid sheet of Mylar®.
In addition to the rattling noise and exaggerated bounce of the Roland® two-ply monofilament mesh head, a certain unwelcome noise was produced when a drumstick or any other similarly hard object struck the mesh, as both the stick and the monofilament strands have very hard surfaces that severely resonated when making contact.
A monofilament polyester mesh incorporates monofilament wires that consist of only one type of fiber, a single strand of continuous filament, which is a circular shaped wire with a smooth surface and a high degree of tenacity. These monofilament strands can be used to create a variety of weaves, including, for example, plain, twill, Dutch, and five-heddle weaves. The crossing points of these monofilament mesh fibers are typically melted together to secure the selected weave in place to prevent the strands from shifting. This consistently even and unwavering mesh structure is then able to regulate the amount of air that passes through it, which ultimately determines resonance and sound levels.
The tensioning of the monofilament woven polyester drumhead varies dramatically depending on the instrument. For example, a typical drumset has a snare drum, a bass drum, and assorted sizes of tom-toms, which, because of their sizes, are tensioned differently and, thus, differ in the degree of bounce produced when struck by a drumstick. However, because of the nature of the material, monofilament woven polyester drumheads are equally bouncy on small drums as they are on large drums. The result is an inauthentic synthetic drumhead experience for the drummer.
Most, if not all, mesh drumheads currently being manufactured are made from monofilament plain woven polyester, as previously described. These solid woven strands do not provide an authentic playing surface as they are extremely bouncy or springy in their composition. The monofilament fabric also has greater memory and is more stiff, the combination of which causes it to have that undesirable tennis racquet sound when under tension. This is extremely damaging to the integrity of an acoustical drum in which the tone of the drum is produced primarily by the bottom head of a double-headed drum. If the noise from the top head creates unwanted tone or noise of any kind, it will predominate even to the point of obscuring the tone of the bottom drumhead, thus making it impossible to record as a live instrument. This undesirable noise or tone also affects fellow ensemble players of, for example, electronic drums situated close by. If other acoustic instruments are being recorded next to or nearby electronic drums, the monofilament woven mesh drumhead noise will interfere with the recording of those instruments, as well.
Applicant was the first to introduce a single-ply monofilament mesh drumhead for semi-quiet practice on acoustic drums, which allowed for a sufficient amount of air to pass through the fabric to cause the bottom resonant head to vibrate and produce a tone with melodic patterns. Because of the single-ply head, no rattling noises were produced unlike, for example, the Roland® two-ply mesh head. However, the single-ply head continued to have an exaggerated springy and unnatural feel when played. Among other negatives, this caused some degree of shock to the drummer's foot, as the now weighted beater attempted to prevent the vibrations of a material that had considerably more deflection than that of a drumhead made from a solid sheet of Mylar™.
Thus, in contrast to the drawbacks associated with prior art mesh heads experienced specifically by single- and double-ply monofilament mesh drumheads, as described heretofore, multifilament yarns utilized with the improved drumhead of the present invention typically yield less stretch while having greater tensile strength, pliability, and flexibility, which results in a durable drumhead that feels and torques similarly to that of a solid polyester sheet, such as Mylar®. Since the individual strands are not bonded, but rather twisted or braided, or combined in some other suitable fashion, they tend to have a more uneven or undulating surface compared to the typical smooth consistent surface of monofilament strands. The uneven or undulating surface acts to enhance the adhesion potential of vinyl and other coatings, and also inhibits vibration. This coating bonds the vinyl to the uneven or undulating surface of the individual yarns much more effectively than the lamination process can achieve, thus creating a superior bond and a one-piece composite. It also eliminates the off-bias stretch tendency normally associated with an unlaminated plain woven material.
Vinyl coatings also provide additional tensile and tear strength, reduction in elongation, and overall dimensional stability, and add dampening capability to the already reduced vibrations of the multifilament yarns. Vinyl coatings absorb vibrations and add a soft exterior to whichever substrate they adhere to. Thus, when a vinyl coated open mesh fabric drumhead is struck with a wood drumstick, the contact noise is significantly reduced. The player also experiences a softer playing “feel” and less bounce.
Vinyl coatings further provide the means for enabling open mesh fabric to remain stable, thus precluding a shift in any direction (i.e., the off-bias effect). Encapsulation specifically inhibits, if not totally precludes, the stretching of the fabric material (drumhead) in any direction, thus ensuring that equal and reliable tensioning throughout is maintained.
Dampening the actual noise produced by a drumstick striking a vinyl-coated open mesh fabric drumhead is enhanced further by integrating soft “fuzzy” olefin or other types of synthetic fiber tufts into both sides of the mesh fabric. Aside from providing a soft landing or contact surface for the drumstick, these tufts also absorb vibrations and virtually eliminate the undesirable tennis racket sound normally associated with certain drumheads in the prior art, as described. This combination of the elements described heretofore creates a unique low volume drumhead for both acoustic and electronic instruments with realistic bounce and torque characteristics almost identical to that of a preferred modern day synthetic drumhead.
Thus, the improved drumhead of the present invention comprises an open mesh fabric material produced from encapsulated-coated multifilament yarns, and, in an alternative embodiment, integrated fiber tufts used in combination to substantially reduce the sound levels and provide a similar playing “feel” to that of a modern day synthetic drumhead. When used as the batter head of a double-headed drum, the bottom resonant head, typically a solid sheet of polyester, for example, Mylar®, becomes the sympathetic vibratory membrane, which produces a low volume non-contact sound or tone for quiet practice or for recording with other soft acoustic instruments. When used on a single- or double-headed drum in an electronic application there is no rattling sound, which is normally associated with a monofilament two- or more-ply mesh drumhead, nor is there the high bounce characteristic of a single- or multi-ply monofilament drumhead. Little or no tone can be heard when the open mesh fabric drumhead of the present invention is used as a single-headed drum, with no resonant drumhead, and even more so when combined with the integrated soft fiber tufts, which substantially aid in dampening any stick contact noise and resulting reverberation.
Accordingly, the improvement of the present invention resolves the problems described above and associated with the prior art drumheads by providing a multifilament open mesh fabric for producing a drumhead which accurately simulates the sound properties of a modern day synthetic drumhead at substantially reduced volume levels.
In its preferred embodiment, the present invention constitutes an improved musical drumhead having a plurality of multifilament yarns joined to form an open mesh fabric. The multifilament yarns, which may be twisted, braided, or joined in any other suitable manner, have uneven or undulating surfaces for enabling a strong bond with an applied coating, which encapsulates the mesh fabric and then hardens. When struck by a hard object, the open mesh fabric, particularly when used in combination with a resonant head in a double-headed drum, absorbs vibrations resulting in a sound that simulates the sound properties of a modern day synthetic drumhead at substantially reduced sound levels. Integrating a plurality of soft fiber tufts into the surface (top and bottom) of the mesh fabric reduces the sound levels produced by the drumhead of the present invention even further.
Accordingly, it is an object of the present invention to provide a musical drumhead comprised of twisted or braided multifilament yarns to form a woven, knitted or knotted open mesh fabric, which, when struck by a hard object like a drumstick, absorbs vibrations and simulates the sound properties of modern day synthetic drums at substantially reduced sound levels.
Another object of the present invention is to provide a musical drumhead wherein the multifilament yarns join to form an open mesh fabric and are individually coated with a coating material that forms a strong bond with the fabric to prevent movement of the yarns in any direction when the fabric is tensioned or struck by a hard object.
Another object of the present invention is to provide a musical drumhead wherein the multifilament yarns of the open mesh fabric are individually coated by a molten polyvinyl chloride material and then allowed to cure to ensure the strong bond.
Still another object of the present invention is to provide a musical drumhead wherein the multifilament yarns form a woven mesh fabric with a weave pattern that enables the intersecting individual multifilament yarns to define adjacent openings of various sizes to allow the passage of air to flow to the resonant head and the resonant head to vibrate.
Still another object of the present invention is to provide a musical drumhead produced from an open mesh fabric made from multifilament polyester yarns.
Yet another object of the present invention is to provide a musical drumhead produced from an open mesh fabric made from multifilament nylon yarns.
Still another object of the present invention is to provide a musical drumhead produced from an open mesh fabric, which is then combined with tufted soft fibers to reduce the initial contact noise and the accompanying drumhead reverberations otherwise produced when the drumstick strikes the head.
Yet another object of the present invention is to provide a musical drumhead, which integrates multifilament yarns joined to form an open mesh fabric and a plurality of fiber tufts which, when struck by a hard object, like a drumstick, will better absorb vibrations to result in a sound that both simulates the sound properties of a modern day synthetic drumhead and substantially reduces sound levels.
Still another object of the present invention is to provide a musical drumhead integral to an electric percussion instrumental system.
Still another object of the present invention is to provide a musical drumhead integral to an acoustic percussion instrument.
Yet another object of the present invention is to provide a musical drumhead comprising two or more layers of open mesh fabric.
Still another object of the present invention is to provide a musical drumhead wherein one layer of an open mesh fabric is placed in an off-biased orientation relative to one or more other layers of an open mesh fabric.
Other objects and advantages of the present invention in all of its embodiments will become apparent in the following specifications when considered in light of the attached drawings wherein the preferred and alternative embodiments of the present invention are further illustrated.
The present invention, which will be described in more detail with reference to the preferred embodiment in
Multifilament yarns 30 utilized to produce open weave mesh fabric material 10 of the present invention may be twisted (
Cured polyvinylchloride, as with any other suitable synthetic cured molten material, acts to ensure that the weave pattern of the open weave mesh fabric material 10, knitted mesh fabric material 11 and 13, and knotted mesh fabric material (not shown) remains secured in place to prevent any off-bias pull or stretching of the material upon the tensioning of drumhead 12 in any direction of a polar array (
Any of the weave, knitted or knotted patterns utilized, no matter the composition of the multifilament yarns used to produce them, comprise a series of connecting and intersecting individual multifilament yarns 30, which join to define adjacent various sized openings 36 to produce an open mesh pattern sufficient to enable the passage of air upon the striking of drumhead 12. The size of openings 36 determines the amount of air that passes through resonant head 22 below, for example, and thus, the amount of resonance, the tone and the sound levels produced by the struck drumhead 12.
An alternative embodiment of the drumhead in accordance with the present invention comprises open weave mesh fabric material 10 produced from vinyl coated multifilament yarns integrated with a plurality of individual soft tufts of fiber material 34, such as olefin, as shown in varied arrangements in
Drumhead 12 in accordance with the present invention may be utilized as an integral component of an acoustic percussion instrument, such as double-headed drum 20 and single-headed drum 24 shown in
In addition to a single layer of open weave mesh fabric material 10, knitted mesh fabric material 11 and 13, or knotted mesh fabric material (not shown) used in accordance with the present invention, two or more layers of, for example, open weave mesh fabric material 38,40, as shown in
While the invention will be described in connection with a certain preferred embodiment, it is understood that it is not intended to limit the invention to that embodiment. Rather, it is intended to cover all alternatives, modifications and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
729936 | Heybeck | Jun 1903 | A |
4282011 | Terpay | Aug 1981 | A |
4770918 | Hayashi | Sep 1988 | A |
4828907 | Hayashi | May 1989 | A |
5920026 | Yoshino | Jul 1999 | A |
6921857 | Yoshino | Jul 2005 | B2 |
7795519 | Hsien | Sep 2010 | B2 |
8933310 | Rogers | Jan 2015 | B2 |
20130312585 | Yunbin | Nov 2013 | A1 |