Accessory weights and kits for brass instruments are described herein and, in particular, accessory weights and kits for brass instruments configured for attachment to a brass instrument neck.
A musical instrument is a device created or adapted to make musical sounds. The principal types of such instruments are typically classified by the method of producing sound, and can include percussion, stringed, keyboard, wind, and electronic instruments. A saxophone, for example, is a wind instrument and is usually made of brass and played with a single-reed mouthpiece. Brass instruments produce sound by sympathetic vibration of air in a tubular resonator in sympathy with the vibration of the player's lips.
In the art, accessories have been developed to modify, enhance, change and/or dampen the sound of an instrument. Such accessories provide added expression, amplitude and/or quality of sound. For brass instruments, this may include various mouthpiece shapes, muting devices and the like.
Despite development of such accessories, further devices and assemblies are desired to add further tonal variation and even improvement of the sound of a brass woodwind instrument.
Accordingly, exemplary accessory weights and kits for brass instruments are provided herein and, in particular accessory weights and kits for brass instruments configured for attachment to a neck of a brass instrument.
In one embodiment, a weight assembly to reduce sympathetic vibration of a brass instrument is provided having an instrument neck directed towards the instrument at a first end and connected to a mouthpiece at a second end; wherein the connection of the mouthpiece to the neck second end can be by a friction fit of a cork sleeve having a collar fixed to an outer surface of the neck second end; and a weight connected to the neck second end also by a friction fit to cork sleeve, wherein sympathetic vibration of a brass instrument is reduced while in use by between 10 and 50 percent.
According to one approach, the weight assembly has a weight sufficient to reduce sympathetic vibration of the instrument during use. According to one approach, the weight assembly has a weight in the range of 30 grams to 100 grams. According to one approach, the weight assembly has a weight in the range of 50 grams to 70 grams. According to one approach, a body of the weight can be configured to extend from a mount on the cork sleeve towards the mouthpiece. According to one approach, a body of the weight can be configured to extend from a mount on the cork sleeve to be adjacent to the mouthpiece. According to one approach, a body of the weight can be configured to extend from a mount on the cork sleeve towards the mouthpiece, wherein in an installed position there is a gap between the mouthpiece and the weight. According to one approach, the gap can be configured to be between 2 mm and 10 mm. According to one approach, the gap can be configured to be between 3 mm to 7 mm. According to one approach, a body of the weight can be configured to extend from a mount on the cork sleeve towards the direction of the neck.
In another embodiment, a brass instrument is provided having an instrument neck directed towards the instrument at a first end and connected to a mouthpiece at a second end; wherein the connection of the mouthpiece to the neck second end is by a friction fit of a cork sleeve having a collar fixed to an outer surface of the neck second end; and a weight connected to the neck second end also by a friction fit to cork sleeve, wherein sympathetic vibration of a brass instrument is reduced while in use by between 10 and 50 percent.
According to one approach of this embodiment, the weight can have a weight sufficient to reduce sympathetic vibration of the instrument during use. According to one approach, the weight has a weight in the range of 30 grams to 100 grams. According to one approach, the weight has a weight in the range of 50 grams to 70 grams. According to one approach, a body of the weight can be configured to extend from a mount on the cork sleeve towards the mouthpiece. According to one approach, a body of the weight can be configured to extend from a mount on the cork sleeve to be adjacent to the mouthpiece. According to one approach, a body of the weight can be configured to extend from a mount on the cork sleeve towards the mouthpiece, wherein in an installed position there is a gap between the mouthpiece and the weight. According to one approach, a body of the weight can be configured to extend from a mount on the cork sleeve towards the direction of the neck.
In another embodiment, a mouthpiece for a brass instrument is provided having a shank having a bore for attachment to an instrument neck; wherein the attachment of the mouthpiece to the neck second end is by a friction fit from a cork sleeve having a collar fixed to an outer surface of the instrument neck; and the mouthpiece weighted to reduce sympathetic vibration of a brass instrument is reduced while in use by between 10 and 50 percent.
The weight assembly in one approach can have a removable cover layer over the weight. Indicia can be added on an outer surface of the weight.
20 exemplary instrument (horn)(brass)
22 neck of an exemplary saxophone
24 mouthpiece
26 octave key
28 neck cork
30 neck cork collar
32 exemplary weight
34 exemplary weight bore
36 shank
38 dimension of outer diameter of the shank (36)
40 dimension of bore to clear the shank (36 in Fig.) or alternately the neck
42 narrowed neck region for cork attachment
44 dimension of outer diameter of the neck cork (28)
46 dimension of bore to engage cork (28)
48 bore to engage cork (28)
50 beak
52 barrel
54 table (for reed placement)
56 tip
58 bore
60 length of bore 48 (gripped portion)
62 dimension of portion of length of weight 32 (non-gripped portion)
64 outer diameter of weight 32
66 overall length of weight 32
68 rings
70 outer surface of weight 32 (
72 bore 34 dimension distal to bore 48
74 bore 34 dimension proximal to bore 48
76 distal neck portion
78 step dimension
80 mouthpiece bore
82 dimension of outer diameter of the neck cork collar (30)
84 downwind direction
Brass woodwind instruments and accessory weights and kits for such instruments are described herein. In particular, instruments and accessory weights and kits for brass instruments are provided and configured for attachment to a neck and/or mouthpiece of a brass instrument. The added mass of the weight is preferably located on or attached to the neck of the instrument where a mouthpiece attaches to the neck. As shown according to one approach, this added mass can be a weight that pressure fitted to a cork sleeve on the instrument neck prior to mouthpiece pressure fitted to the cork sleeve, or built into the instrument or attached onto the mouth piece.
The described instruments with added mass reduce sympathetic vibration while in use by between 10 and 50 percent. This provides more tonal flexibility to a user of a brass woodwind instruments. Additionally, the presented embodiments can also adjust the quality of the musical sound from the instrument. A tangible difference in low register response, and a generally darker timbre from the horn as well may be expected. Instrument articulation can be easier instantly, as well as slurring to low register notes over large intervals.
In the present embodiments, the illustrated weight, or ones with a different shapes and/or size can be utilized on any modern saxophone, preferably one having a cork sleeve on the neck piece to hold the mouth piece. Optionally, a magnetized “doughnut” weight can be split into halves and wrapped around the neckpiece and held onto the instrument by the magnetic force of the two halves to each other. Optionally, the weigh can have a snap on bracket to hold it to the neckpiece without vibration.
In a magnetized split doughnut embodiment, one or both of the weight halves can be a permanent magnet, which means it is made from a material that is magnetized and creates its own persistent magnetic field. The opposing half can also be magnetized or at least made from a material that strongly attract a magnet. Materials that can be magnetized, which are also the ones that are strongly attracted to a magnet, are called ferromagnetic (or ferromagnetic). These include iron, nickel, cobalt, some alloys of rare earth metals, and some naturally occurring minerals such as lodestone.
As shown in the figures, neck 22 has a conventional octave key 26, and a neck cork sleeve 28 around its outer surface on its end 42 nearest the mouthpiece. Neck cork sleeve 28 has an outer dimension 44. Neck cork sleeve 28 can have a continuous outer dimension or alternately as shown with neck cork collar portion 30 having an outer dimension 82 that is, for example 0.5 mm to 4 mm, greater than outer diameter 44 to serve as a stop to the installation of mouthpiece 24 and/or weight 32. In other configurations, cork sleeve 28 can be of a continuous or even a decreasing diameter towards the direction of mouthpiece 24 so that the mouthpiece can be pushed onto the cork sleeve up to a point where desired, such as where a snug or airtight fit is accomplished. Weight 32 as shown in this configuration, is configured to be installed on the exposed cork of cork sleeve 28 that would still be exposed after mouthpiece 24 is fitted onto neck 22. Alternately, mouthpiece 24 could be press fitted onto weight 32 rather than press fitted onto sleeve 28. Alternatively, mouthpiece 24 could have and integral weight 32, wherein only the mouthpiece is fitted onto cork sleeve 28.
As shown in the figures, weight 32 can be inserted onto neck cork sleeve 38 before mouthpiece 24 is fitted onto it. The added mass from weight 32 can be accomplished by extending a portion of weight 32 towards mouthpiece 24, such as shown in
To accommodate as many types mouthpieces as possible, weight dimension 60 (
It is noted that specific weights and ranges are provided for illustrative purposes only. Actual weights of individual pieces can vary widely so long as the combined weight of the assembly weigh in use is between 30 grams to 100 grams (and preferably about 50 grams to 70 grams).
Accordingly, weight 32 is sized and proportioned to accommodate a desired weight. First, a desired width 60 (
For exemplary purposes only, in one approach, a 50 gm weight 32 can be made of brass, have a dimension 48 of about 3 mm, a dimension 66 of about 23 mm, a dimension 64 of about 29 mm, a dimension 46 of about 16 mm, a dimension 40 of about 27 mm at its end 72 (
In another approach, a 70 gm weight 32 can be made of brass, have a dimension 48 of about 4 mm, a dimension 66 of about 29 mm, a dimension 64 of about 30 mm, a dimension 46 of about 16 mm (same as above), a dimension 40 of about 28 mm at its end 72 (
Rings 68 can be added to weight 32 to provide a gripping surface to aid in the installation and removal of weight 32 from cork sleeve 28 more, or for aesthetics. Consideration can also be made to produce the weight of the material and/or color of the instrument neck 22. Indicia can also be added to a surface 70 of weight 32.
While the invention herein disclosed has been described by means of specific embodiments, examples and applications thereof, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope of the invention set forth in the claims.
This application is a Continuation-in-Part Application based on, and claims priority from, U.S. patent application Ser. No. 15/446,205, filed on Mar. 1, 2017, which claims priority from U.S. Provisional Patent Application No. 62/302,915, filed Mar. 3, 2016, the contents of which are hereby incorporated by reference in their entirety.
Number | Name | Date | Kind |
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5847300 | Hackl | Dec 1998 | A |
9418634 | Brebner | Aug 2016 | B1 |
20120152086 | Slater | Jun 2012 | A1 |
Number | Date | Country | |
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20170256243 A1 | Sep 2017 | US |
Number | Date | Country | |
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62302915 | Mar 0216 | US |
Number | Date | Country | |
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Parent | 15446205 | Mar 2017 | US |
Child | 15482623 | US |