Patent Grant
7872186
This invention relates to double reeds for musical instruments and more specifically to a bassoon reed with a tubular undersleeve.
The bassoon is a double reed instrument within the woodwind family of instruments. The bassoon relies on a double reed as its vibrational source for musical sounds. Traditionally, the musician blows through the double reed and vibrations are created as the reed opens and closes rapidly. These vibrations travel through the instrument and the musician is able to make musical sounds.
A bassoon reed is traditionally much larger in size than other reeds used in different double reed musical instruments of the woodwind family. For example, an oboe reed is smaller than a bassoon reed and therefore, will not create the same musical sounds as a bassoon. Oboe reeds and bassoon reeds are not compatible as they are two different types of double reeds.
Double reeds have traditionally been constructed from two pieces of cane. The two pieces are dimensionally the same and are bound together by some sort of ligature such as wire or thread. A sealant such as glue is typically applied to make the seal between the two pieces of cane airtight.
Bassoon reeds in the prior art are either constructed entirely of reed cane or are synthetically made of plastic or some other suitable material. Bassoon reeds made of cane are subject to problems. One such problem is that no two pieces of reed cane are alike. Reed cane is not consistent in quality, density, grain configuration or curvature.
These inconsistencies can result in a double reed which does not work properly or which emits a low quality sound which is inconsistent and undesirable.
Synthetic bassoon reeds of the prior art also suffer from certain shortcomings. Examples of these prior art devices are disclosed in the following United States patents: U.S. Pat. No. 6,087,571 (Legere) and U.S. Pat. No. 4,014,241 (Gamble). Most musicians prefer to use natural reed instead of a reed which has been synthetically manufactured. The synthetic reed manufacturers of the prior art have not been successful in creating a synthetic reed which delivers a high quality and consistent sound, similar to what is experienced with a reed made from reed cane.
It would be desirable to have a bassoon reed which overcomes these problems by being made of reed cane but which has a tubular sleeve inserted into the end of the reed, thereby reducing some of the usual inconsistencies associated with reed cane material while also providing a sound superior to the synthetic and traditional cane reeds in the prior art.
This device meets these needs and overcomes other problems and shortcomings in the prior art with a bassoon reed having a tubular sleeve inserted therein that delivers a highly quality and consistent sound.
It is an object of this invention, to provide a bassoon reed which overcomes certain problems and shortcoming of the prior art including those referred to above.
Another object of this invention is to provide a bassoon reed which provides superior sound quality over the prior art.
Yet another object of the invention is to provide a bassoon reed which reduces the inconsistencies associated with reed cane.
These and other objects of the invention will be apparent from the following descriptions and the drawings.
The invention is a bassoon reed for use in playing a bassoon. In its most preferred form, the device includes first and second reed cane members each having inside and outside surfaces, proximal and distal end portions and two opposite longitudinal edges. It is most preferred that the reed cane members are secured together in edge-to-edge fashion along overlying distal end portions. It is highly preferred that a tubular undersleeve is inserted within the distal end portions and supports the distal end portions therearound.
Preferably the tubular undersleeve is metal. It is highly preferred that the tubular undersleeve is made of brass and that the tubular undersleeve extends from a distalmost end of the overlying distal end portions along a majority of the length of the overlying distal end portions.
It is also preferred that the reed cane members are secured together at the distal end portions by thread-windings and by at least one wire-winding. It is most preferred that at least three wire-windings be used to secure the reed cane members together. It is highly desirable that an adhesive layer is placed around the distal end portions and at least on the thread-windings. It is highly preferred that the proximal end portions of the first and second reed cane members are spaced apart to facilitate air flow between the reed cane members.
It is highly preferred that the method of making a bassoon reed, includes providing first and second reed cane members each having inside and outside surfaces, proximal and distal end portions and two opposite longitudinal edges; securing the first and second reed cane members together in overlying edge-to-edge fashion by wrapping windings around the overlying distal end portions and inserting a tubular undersleeve into the distal end portions of the reed cane members.
Preferably the securing step further includes applying an adhesive around the distal end portions and at least on the thread-windings. It is highly preferred that the inserting step includes removing a portion of the inside surfaces of the first and second reed cane members to facilitate insertion of the tubular undersleeve.
The term “undersleeve” as used herein refers to a tubular member on the inside of the distal end portions of the reed cane members.
The drawings illustrate a preferred embodiment including the above-noted characteristics and features of the device. The device will be readily understood from the descriptions and drawings. In the drawings:
The figures and the description below serve to describe the details of the device.
Bassoon reed 10, like traditional bassoon reeds (also referred to as a “double reed”), is the vibrational source which creates musical sounds when the musician blows into the reed. Bassoon reed 10 fits onto the small end of the bocal pipe of the bassoon, which is inserted into the body of the bassoon.
The use of the tubular undersleeve 26 which is inserted in the distal end portions 22 of reed cane members 12, 14 provides a superior quality and consistent sound over a synthetic reed or traditional all-cane reed. Tubular undersleeve 26 is not highly effected by weather. altitude or humidity fluctuations as are other reeds in the art. It is also not highly effected by saliva or moisture which can accumulate in the reed through the normal use of playing a woodwind instrument (the musicians breath which blows through the reed cane tube contains moisture).
The tubular undersleeve 26, which is shaped into a tube formation before insertion into the reed cane members 12, 14, is not limited to being manufactured from a certain type of metal or plastic. Many metal or plastic compositions would be adequate. However, it is highly preferred that tubular undersleeve 26 be made of metal, specifically brass.
Tubular undersleeve 26 extends from a distalmost end 36 of the overlying distal end portions 22 along a majority of the length of the overlying distal end portions 22. In some embodiments, tubular undersleeve 26 is approximately 14 mm in length, however, tubular undersleeve 26 can be made in a variety of lengths and widths.
Reed cane members 12, 14 are secured together at distal end portions 22 by thread-windings 28 and by at least one wire-winding 30 as illustrated in
Proximal end portions 20 of first and second reed cane members 12, 14 are spaced apart to facilitate air flow between reed cane members 12, 14 as shown in
Traditional tools are used to construct bassoon reed 10. These tools include but are not limited to, a mandrel, pliers, knives, files and sand paper. The method as claimed in the claims includes inserting a tubular undersleeve 26 into distal end portions 22 of first and second reed cane members 12, 14 (which are sealed together by an adhesive layer 32 prior to insertion).
The claimed method consists of providing first and second reed cane members 12, 14 each having inside and outside surfaces 16, 18, proximal and distal end portions 20, 22 and two opposite longitudinal edges 24 as seen in
During the securing step adhesive layer 32 is applied around distal end portions 22 and at least on thread-windings 28. The inserting step of the claimed method further includes removing a portion of the inside surfaces 16 of first and second reed cane members 12, 14 prior to insertion of tubular undersleeve 26. Removing a portion of inside surfaces 16 facilitates easy insertion of tubular undersleeve 26.
Tubular undersleeve 26 is inserted into first and second reed cane members 12, 14 approximately 14 mm as shown in
Bassoon reed 10 provides the bassoon player with a consistent pitch, improved projection control and acoustic consistency. Additionally, bassoon reed 10 is easy to play and retains the traditional sound of the bassoon. Bassoon reed 10 has a highly consistent interior wall structure as it limits any shrinking or swelling due to changes in humidity, weather, altitude, saliva contact or moisture from the musicians breath.
A wide variety of materials are available for the various parts discussed and illustrated herein. Although the device has been shown and described in conjunction with specific embodiments thereof, it is to be understood that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, it is intended to embrace all such alternatives, modifications and variations that fall within the spirit and broad scope of the appended claims.
| Number | Name | Date | Kind |
|---|---|---|---|
| 4014241 | Gamble | Mar 1977 | A |
| 4355560 | Shaffer | Oct 1982 | A |
| 4596175 | Dossekker | Jun 1986 | A |
| 5192821 | Goldstein et al. | Mar 1993 | A |
| 6087571 | Legere | Jul 2000 | A |
| 6150593 | Holden | Nov 2000 | A |
| 6706958 | Mitacek | Mar 2004 | B1 |
| 7098391 | Wilson | Aug 2006 | B2 |
| Number | Date | Country |
|---|---|---|
| 2837608 | Sep 2003 | FR |
