1. Field of the Invention
This invention relates to musical instrument repair tools, and in particular to tools for setting a stringed instrument sound post.
2. Description of Related Art
Violins and other stringed instruments containing sound posts have a long history dating back hundreds of years. Throughout this time, numerous tools and devices have been developed to aid the maker, as well as the repair person, to set sound posts within assembled instruments. The majority of sound post setting tools belong to one of two categories. The first category includes tools with a pointed end, where the point is stabbed into the sound post. These tools are typically referred to as S-shaped or S-type sound post setting tools. The second category includes tools with a cradle or other supporting member that stabilizes the sound post as it is inserted into the instrument.
Several patents have been issued for sound post setting tools. U.S. Pat. No. 152,934 (White) discloses a relatively straight sound post setting tool with a pointed end, as well as a combination jointed sound post setter and string gage. U.S. Pat. No. 455,822 (Weber) discloses a tong-type tool for setting an instrument sound post.
Closely related to the widely available S-shaped sound post setters, U.S. Pat. No. 6,482,239 (Jones et al.) discloses a sound post installer including a handle, a prong, and a positioning hook.
Although not as widely used commercially, various designs have been patented that include a cradle or saddle for positioning the sound post. U.S. Pat. No. 1,466,681 (Todd) discloses a violin sound post setter that includes a handle, a bent tube, a saddle, and an externally connected string. In this design, the string loops around the sound post, loops again around the bent tube, and then has a ring attached to the free end for gripping with the thumb.
U.S. Pat. No. 1,556,340 (Myers) and U.S. Pat. No. 1,559,657 (Todd) disclose sound post setting devices with cradles that wrap partially around the sound post. Although not specifically for setting an instrument sound post, U.S. Pat. No. 2,522,190 (Mouser) discloses a flexible-strap wrench for gripping round objects. A threaded rod is turned to increase the tension on the strap, thus holding the object against a front edge of the tool.
U.S. Pat. No. 2,145,237 (Eberhart) discloses a sound post with a corresponding setting tool. In this design, the sound post height is adjustable. An internal spring provides the necessary pressure force to maintain the sound post position once installed in the instrument. The setting tool is made to fit the adjustable sound post, and has a bent rod, handle, and end effector for holding the sound post.
U.S. Pat. No. 5,804,748 (Clayton) discloses a sound post installer including a wire, a frame, a cradle, a threaded rod, a nut around the threaded rod for tightening and loosening the wire around the cradle, a keyway hole, and a tab.
A tool for setting an instrument sound post preferably includes a bent tube, one or more string or polymer lines, a cradle end that grasps the sound post, and an internal locking mechanism to hold the sound post against the tool. In one embodiment, a single line is used and a closed loop at the cradle end of the sound post setting tool holds the sound post in place. In this embodiment, a double-chamfer threaded tube construction is preferably used to facilitate line threading. In another embodiment, the cradle end includes a loop and a ball to grasp the sound post. In yet another embodiment, the cradle end includes two balls to grasp the sound post. The tool provides an improved way to install a sound post inside a stringed instrument.
a shows the sound post setting tool of
b shows another view of the sound post setting tool of
a shows a section view of the main body of the sound post setting tool of
b shows a close-up view of the line gripping mechanism seated in the throat of the bottom of the main body of the sound post setting tool of
a shows a ring attached to the handle end of the sound post setting tool of
b shows the line free with the threaded tube unscrewed.
c shows the line secured with the threaded tube tightened.
a shows another cradle end embodiment with dual ball line ends.
b shows the dual ball ends secured around a sound post.
A sound post is a piece of wood inside the body of a stringed musical instrument that connects the front and back of the instrument and is held in place by friction. The sound post provides structural support and distributes vibrations throughout the instrument.
The sound post is one of the critical components in the field of stringed musical instrument construction and repair. This is particularly true for violins, violas, cellos, and double basses. One of the primary challenges for the instrument maker or during repairs is placing the sound post, since typically it is held in place within the instrument body only by friction. To set the sound post, luthiers commonly use a sharp tool that is stabbed into the side of the wooden sound post. Once the sound post is set in place, small adjustments are made by tapping it lightly. Several other tools have been invented to replace this tool; however, each has its own drawbacks, and coupled with the long history of the luthier trade, none has found widespread acceptance.
The present invention provides a solution to many of these shortcomings by providing an improved tool for setting a sound post that allows for greater control over the placement, as well as significant reduction in the necessary skill level of the practitioner. In particular, this tool allows casual players, students, and teachers to quickly reset sound posts without the cost of hiring a master craftsman or repair shop. Some advantages of this design include ease of securing the sound post to the tool, elimination of damage to the sound post during setting, and ease of removal of the tool from the instrument once the sound post is in place.
An embodiment of the present invention is shown in
To facilitate use of the sound post setting tool, the line 5 is first fed into the sound post setting tool starting from either the threaded tube end or the cradle end of the tool. In one example, one end of the line 5 is placed into a side slot 31 located on one side of the bent tube 3 just behind the cradle and is threaded through the bent tube 3, the main body 1, and the threaded tube 2, until it emerges from the hole 11 on the threaded tube 2.
In order to secure the sound post, the line 5 forms a loop 7 near the cradle 4, as shown in
As shown in
In order to facilitate easy threading of the line through the body, a double-chamfer construction is preferably used for the threaded tube 2, as shown in
While the figures show two divided strands of line 5 at the threaded tube end of the sound post setting tool, in alternative embodiments, a single continuous strand of line 5 at the threaded tube end could be used. These embodiments could be used with the loops described below with reference to
The sound post setter tools of the present invention include a loop to grasp the sound post. The loop may be a continuous loop 7, but alternative loops are also possible.
The sound post setting tool shown in
An example of a method of replacing or resetting a sound post in a stringed musical instrument using a sound post setting tool of the present invention is shown in
In a first step 10, the sound post setter tool 100 is prepared. During this step, a user checks to see that both ends of the line 5 are threaded through the setter tool. As one example using the sound post setter tool 100, the user could thread the line 5 by forming a loop 7 around the cradle 4 and then threading the ends of the line through the slots 31 on the sides of the bent tube 3, through a channel formed in the bent tube 3, main body 1 and threaded tube 2, and out through the hole 11, as shown in
During the second step 20, the sound post 6 is positioned in the sound post setter tool 100. The threaded tube 2 is loosened to allow the line to move freely. The sound post 6 is then positioned in the cradle 4. The line 5 is then tightened around the sound post 6 to secure the sound post 6 in step 30. When the threaded tube 2 is tightened by screwing it into the main body 1, the line gripping mechanism 51 is pressed against the line 5 by an axial force provided by the threaded tube 2. Once the line 5 is secured by the line gripping mechanism 51, the user can then release the hand tension on the line 5 without the sound post 6 falling off the cradle 4.
The location of the sound post 6 is then set in step 40. To set the location, the user should hold the sound post setter tool 100 vertically over the instrument with the sound post 6 over the setting location and the main body 1 of the sound post setter tool 100 over the f-hole of the instrument. The user loosens the sound post 6 slightly and rotates the sound post 6 in the setter tool so the angles on the top and bottom match the curvature of the top and back. The sound post 6 is then retightened. The user needs to note the position of the setter tool 100 as this will be the position he will match when setting the post.
The sound post 6 is inserted into the instrument in step 50. With the sound post 6 now securely in the setter tool 100, the sound post 6 and setter tool 100 are carefully inserted through the f-hole in the instrument. The sound post 6 is worked into position holding it vertical and gently pulling the sound post 6 towards the user until the user feels it wedge into position.
The sound post 6 is released in step 60. When the sound post is securely in position between the top and back, the threaded tube 2 is loosened and a free end of the line is captured. The sound post setter tool 100 is gently removed from the instrument. One line will pull free from the setter tool and release the sound post 6 during this step.
The tool is re-threaded in step 70. In the example using the sound post setter tool 100 of
When the tool is not in use, it is preferable to release the tension on the threaded body 2. When necessary, line 5 can be replaced with any monofilament line that threads through the sound post setter tool. One preferred example is approximately 10 lb. test monofilament line.
The sound post setting tool is preferably made from materials including, but not limited to, metal and/or plastic. It is preferably made from a non-abrasive or cushioned material to prevent damage to the instrument. Additionally, a cushioned sleeve may be used to cover the metal portions of the tool, further reducing the risk of damage to the instrument. The lines, which are preferably composed of either two separate lines or a single line passing through the channel twice, are preferably polymeric lines, such as fishing lines, polymeric strings, wires, or an equivalent material.
Accordingly, it is to be understood that the embodiments of the invention herein described are merely illustrative of the application of the principles of the invention. Reference herein to details of the illustrated embodiments is not intended to limit the scope of the claims, which themselves recite those features regarded as essential to the invention.
This application claims one or more inventions which were disclosed in Provisional Application No. 61/155,712, filed Feb. 26, 2009, entitled “TOOL FOR SETTING AN INSTRUMENT SOUND POST” and Provisional Application No. 61/224,987, filed Jul. 13, 2009, entitled “TOOL FOR SETTING AN INSTRUMENT SOUND POST”. The benefit under 35 USC §119(e) of the U.S. provisional applications is hereby claimed, and the aforementioned applications are hereby incorporated herein by reference.
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Number | Date | Country | |
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20100212476 A1 | Aug 2010 | US |
Number | Date | Country | |
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61155712 | Feb 2009 | US | |
61224987 | Jul 2009 | US |