Drum cymbal washer

Abstract

A resilient washer design having an annulus body and a concentric sleeve extending from the annulus with a plurality of ribs extending from the sleeve. The washer may have an opposing sleeve extending from the opposite side of the annulus with a second plurality of ribs in staggered location to the first set of ribs. This staggered position allows the annulus to flex between the ribs on opposing sides and resist compression of the washer when pressure is applied axially.

Description

FIELD OF THE INVENTION

The present invention relates to a novel cymbal washer design that replaces the traditional felt washer providing more stability and control while providing less dampening of the sound.

BACKGROUND OF THE INVENTION

Conventionally a metal washer is fitted over the threaded end of the shaft resting on the upper shoulder of the unthreaded portion of the shaft and then a cylindrical plastic sleeve is fitted over the lower end of the threaded portion of the shaft. A felt washer is then slipped over the plastic sleeve, followed by the cymbal which has a circular hole in its center. A second felt washer is then usually placed over the cymbal and a wing nut screwed down upon the upper felt washer to hold the cymbal onto the cymbal stand. Usually the shaft is positioned vertically, but may be tilted or even horizontal.

The purpose of the felt washers is first to protect and cushion the cymbal as it moves on the shaft of the holder preventing damaging contact with the support stand or retaining wing nut. Additionally the felt acoustically insulates the cymbal from the mounting hardware. Felt varies in flexibility depending on the size of the spaces between the fibers and layers of the felt washer. The weight of the cymbal will over time crush the felt material thus limiting the movement and function of the felt washer. The flexibility of the felt governs the cymbal movement, when struck, and the sound of the cymbal

This conventional means of mounting the cymbal on the cymbal stand has proven generally unsatisfactory. While providing some protection of the cymbal, the felt washers tend to dampen the vibration of the cymbal, and provide unsatisfactory sound from the cymbal.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention is illustrated by way of example, and not by way of limitation, in the figures of the accompanying drawings and in which like reference numerals refer to similar elements and in which:

FIG. 1 illustrates an angled perspective view of a first embodiment of the cymbal washer;

FIG. 2 illustrates a side perspective view of an instance of the first embodiment shown with the described concave rib feature;

FIG. 3 illustrates a side perspective view of an instance of the first embodiment shown without the described concave rib feature;

FIG. 4 illustrates an angled perspective view of a second embodiment of the cymbal washer showing an outer ring connecting the ribs;

FIG. 5 illustrates a side perspective view of an instance of the second embodiment;

FIG. 5 illustrates a side perspective, cutaway view showing the positioning of the cymbal washers relative to the cymbal and cymbal stand hardware;

Unless otherwise indicated illustrations in the figures are not necessarily drawn to scale.

SUMMARY OF THE INVENTION

The present invention, generally speaking, provides for a resilient washer structure including an annulus having a top side and a bottom side; a concentric sleeve extending from the annulus; and multiple ribs extending from the sleeve on one side of the annulus and defining an upper surface of the resilient washer structure. Similar features may be formed on an opposite side of the annulus, with the ribs on opposite sides being formed in staggered alignment relative to one another. This positioning of the ribs allows the washer to compress by flexing the annulus in the space between the ribs when force is applied to the top surfaces of the ribs. A rim may be provided adjoining the terminal ends of the ribs further adding rigidity and compression resistance to the washer.

One or both of the upper surface and the lower surface may be concave.

In other aspects of the invention, a cymbal washer is provided having a resilient body with a center hole and one or more touch areas for contacting the cymbal surrounding the center hole, the touch areas being raised above surrounding areas of the resilient body. One or more voids may adjoin the touch areas, whereby muting of a sound produced by the cymbal may be reduced. Similar features may be formed on an opposite side of a plane of symmetry, with the touch areas and the voids on opposite sides being formed in staggered alignment relative to one another.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The present invention is best understood by reference to the detailed figures and description set forth herein.

A washer for use in the mounting of cymbals that consists of a flat washer body FIG. 1a with sleeve 1b extending from the center of the washer and a plurality of ribs 1c that are raised perpendicularly from the washer surface 1a and extend from the sleeve 1b outward to the end of the washer. On the other side of the washer 1d the same amount of ribs 1e are equally formed and positioned to be centrally offset from the first set of ribs.

In its preferred embodiment this washer is molded out of a thermoplastic elastomer or TPE (i.e. plastic moldable rubber like Santoprene). Also the movement control and sound dampening can be varied with the use of different durometers of elastomer materials.

This washer is installed on a cymbal stand FIG. 6b just like traditional felt based washers. The stand will usually have a platform or washer 6c at the base of the threaded rod 6d to support the bottom washer 6f. The cymbal 6e is then placed over the first washer 6f followed by another washer 6a to be placed on top of the cymbal. A wing nut 6g or other clamping device is then placed on the shaft 6d above the washers to keep the assembly in place.

The washer has a number of ribs on each side of the washer Fig 1c and 1e which are off-set from one side to the other to help the washer flex and respond while still supporting the weight of the cymbal in play. The offset ribs give the washer a spring like feature to allow and then counter the compression of the ribs when axially compressed. Additionally a rim band of material FIG. 2a connecting the outer ends of the ribs can be used to increase the resistance

The ribs of the washer create contact points that minimize cymbal contact. This provides cleaner longer last tone. The ribs of the washer can be concave FIG. 3a leaving the outer points of the washer higher than the center. This further minimizes contact with the cymbal creating better sound. The washer can also be made with no concave feature FIG. 4a.

This washer can be made in various sizes to accommodate the various setups of a drum set. The standard size would have and outer annulus diameter of 1.5 inches and an inner diameter of 0.45 inches. The annulus would have a thickness of 0.1 inch with the center sleeve 1b extending 0.175 inches from either side. The ribs 1c, 1e would extend 0.25 inches from the annulus with a concave towards the center meeting the extent of the sleeve. An outer band of material 2a would connect the outer ends of the ribs not to exceed the height of the ribs.

Although the examples given include many specifications, they are intended as illustrative of only a few possible embodiments of the invention. Other embodiments and modifications will, no doubt, occur to those skilled in the art. Thus, the examples given should only be interpreted as illustrations of some of the preferred embodiments of the invention, and the full scope of the invention should not be limited to this description

Claims

1. A cymbal washer comprising: a resilient body having an center hole and one or more touch areas for contacting the cymbal surrounding the center hole; wherein the touch areas are raised above surrounding areas of the resilient body.

2. The cymbal washer of claim 1, wherein the resilient body has a top surface and a bottom surface, the touch areas occupying the top surface.

3. The cymbal washer of claim 2, wherein the top surface is of a generally concave configuration.

4. The cymbal washer of claim 3, wherein the bottom surface is of a generally concave configuration.

5. The cymbal washer of claim 1, comprising one or more voids adjoining the touch areas, whereby muting of a sound produced by the cymbal is reduced.

6. The cymbal washer of claim 1, further comprising a further plurality of touch areas surrounding the center hole for contacting a flange support, the further touch areas occupying the bottom surface and also being raised above surrounding areas of the resilient body.

7. The cymbal washer of claim 6, wherein the touch areas and the further touch areas are in staggered alignment relative to one another.

8. The cymbal washer of claim 6, comprising one or more further voids adjoining the further touch areas, whereby muting of a sound produced by the cymbal is reduced.

9. The cymbal washer of claim 1, wherein the resilient body is formed of rubber.

10. A resilient washer structure comprising: an annulus having a top side and a bottom side; a concentric sleeve extending from the annulus; and a first plurality of ribs extending from the sleeve on one side of the annulus and defining an upper surface of the resilient washer structure.

11. The resilient washer structure of claim 10, wherein the sleeve extends above and below the annulus.

12. The resilient washer structure of claim 11, comprising a second plurality of ribs extending from the sleeve on an opposite side of the annulus and defining an lower surface of the resilient washer structure.

13. The resilient washer structure of claim 12, wherein the first plurality of ribs and the second plurality of ribs are in staggered alignment relative to one another.

14. The resilient washer of claim 13, further comprising a rim adjoining terminal ends of at least one of the first plurality of ribs and the second plurality of ribs.

15. The resilient washer of claim 14, wherein the rim adjoins terminal ends of both the first plurality of ribs and the second plurality of ribs.

16. The resilient washer structure of claim 10, wherein the upper surface is concave.

17. The resilient washer structure of claim 12, wherein the lower surface is concave.

18. The resilient washer structure of claim 12, wherein the upper surface and the lower surface are both concave.

19. The resilient washer structure of claim 10, the resilient body is formed of rubber or elastomer.

20. The resilient washer structure of claim 12, the resilient body is formed of rubber or elastomer.