WO1985000916A1

WO1985000916A1 - Tuning key

Info

Publication number: WO1985000916A1
Application number: PCT/US1984/000921
Authority: WO
Inventors: John Caruth
Original assignee: John Caruth
Priority date: 1983-08-08
Filing date: 1984-06-08
Publication date: 1985-02-28
Also published as: KR850002134A; DE3490386C2; JPS61500082A; GB2154358B; DE3490386T; GB8508272D0; KR920003303B1; GB2154358A; JPH0644190B2

Abstract

A linear movement tuning key for the peg head of a stringed musical instrument. A key includes a generally cylindrical body portion (19) having a radially extending flange (22) at the upper end, upon which is mounted a guide roller (46) having its axis (47) generally co-planar with the body of an instrument string (13). The roller (46) is adapted for receiving the string (13) thereacross and rotating therewith for direct orthogonal transfer of string tensioning forces. A tuning piston (16) is mounted within a central axial opening (21) in the cylindrical body portion of the key with the lower inner portion of the axial opening (25) being threaded to receive a screw actuation ram (34). The lower, outer portion (23) of the key body (19) is also threaded to receive a cylindrical mounting sleeve (26), the upper edge (28) of which bears against the under surface of the peg head (11) to rigidly secure the key body portion within the peg head (11). The lower end of the screw actuation ram (34) is rigidly fixed to the central inside portion (33) of a knurled tuning knob (17) which closely overlies and seals against the outer surface of the cylindrical mounting sleeve (26) by means of an O-ring (32). An instrument string (13) is then passed across the guide roller (46) and clamped relative to the upper end of the tuning piston (16). In this manner, axial movement of the tuning piston (16) imparts a direct tensioning force to the orthogonally disposed body of the instrument string (13) by its frictional engagement with and movement around the guide roller (46).

Description

TUNING KEY

BACKGROUND OF THE INVENTION

Field of the Invention

The invention relates to a linear tuning key for a stringed instrument, and more particularly, to an improved linear tuning key wherein the instrument string is directly tensioned across a guide roller through longitudinal move¬ ment of a tuning plunger in a direction generally orthogonal to the body of the string. History of the Prior Art

Traditionally, stringed instruments such as guitars have been tuned by means of rotatable posts which extend through the peg head of an instrument and to which one end of a string is affixed and then wrapped about. In olden days a tuning post was friction fitted into a raw aperture in the peg head and the lower end of the post was provided with a grippable surface for tuning rotation of the post. More recently, tuning of the instrument is accomplished by rotating a knob which is mechanically connected to the tuning post by means of gear mechanisms so that the post is rotated to tension the string to the desired pitch. Such rotatable tuning posts have served well, however, they possess numerous inherent disadvantages. For example, there is a tendency for strings to slip or lose slight amounts of tension due to backlash in the gear mechanism. If the string is tuned. slightly above the desired pitch and then brought back down to pitch, it is almost impossible to lower it to exact pitch due to backlash in the gear mechanism. Also, musical strings frequently consist not of a single strand of wire, but rather, a central core about which a second fine wire is spirally wrapped. When wrapped strings are wound about a tuning peg the portions thereof engaging the outer surface of the peg tend to flatten out and hence tension in the string is lessened and the instrument goes out of tune. Improvements have been made in tuning pegs whereby the string is affixed to a post which is movable longitudinally and transversely to the plane of the instrument peg board. Tensioning an instrument string in this fashion eliminates deterioration due to repetitive relaxation and retuning to pitch. However, prior art tuning keys having posts of the axial movement type, such as shown in U. S. Patent No. 3,830,132 to Lowe and application Serial No. 231,818 entitled "Adjustable Tuning Peg and Device" have still possessed a number of distinct disadvantages. Prior art linear tuning keys require that an instrument string pass over a guide block in order to angularly displace the axis of the end of the string from the body of the string so that the string can be tensioned by axial movement in a direction at some angle to the axis of the main body of the string. For example, in Lowe the string is wrapped about the axially movable tuning post and then drawn downwardly at a right angle to the body of the string into a cylindrical recess in the key. The surface of the string then bears against and frictionally engages the rigid upper peripheral edge of the cylindrical recess as it passes across the edge and down into the recess. Such stationary bending contact maximizes the frictional forces which must be overcome to move and tension the string. Movement of a stationary string bent across the recess edge must first overcome the static coef¬ ficient of friction before the string can be tensioned. Because the static coefficient of friction is higher than the kinetic coefficient, the tensioning force is not uni- form.

It is well known in the art that engagement of a wound string with the tuning key edge produces abrasion during movement of the string and will eventually weaken it to the point that it will break. In addition, the transverse win¬ dings on a wound string produce incremental movements of the string as the windings pass over the edge of engagement. Linear movement tuning keys of the type exemplified by Lowe also possess an^"additional disadvantage, which is overcome by the structure of the present invention. These prior art structures expose the screw threads to dirt, dust and other foreign particles which seriously hampers the precise move¬ ment of the screw actuated plungers and accelerates the pro- cess of mechanical wear. Also, the tuning key of the present invention, by virtue of its linear tuning design and avoidance of the necessity of actuation by a side mounted, paddle-shaped tuning handle, can be mounted anywhere on the peghead which is desired for various structural and aesthe- tic considerations.

The tuning key of the present invention overcomes many of the disadvantages inherent in prior art linear movement tuning keys by providing a tuning key with a sealed actuation system operable about a guide pulley for limited string abrasion and finer incremental variations for more exact tuning. SUMMARY OF THE INVENTION

The invention relates to a tuning key for a stringed musical instrument incorporating longitudinal movement of a tuning plunger. More particularly, one embodiment includes a tuning key for a stringed musical instrument having a peg head with apertures therein.

One embodiment of improved linearly actuated tuning key for a stringed musical instrument is of the type having a reciprocating piston mounted for axial movement within an inner cavity of a cylindrical piston housing having a radially extending flange and being secured within the instrument peg head. The piston has an upper end protruding from an open end of the cavity with means to secure an end of an instrument string relative thereto and a lower end disposed within the cavity, wherein the improvement compri¬ ses a first guide roller rotatably mounted adjacent the open end of the piston housing and which is adapted for receiving the instrument string thereacross for the rolling transfer of tensioning forces to the instrument string relative to the upper end of the tuning piston to transform axial move¬ ment of said piston directly into axial tensioning of the instrument string.

OΛP A further embodiment of the tuning key comprises a generally cylindrical piston housing including an elongate inner cavity having a first open end with a radially extending flange and a second end having an opening and an exterior surface of which is threaded. A tuning piston is positioned for axial movement within the inner cavity of the piston housing and the piston has an upper end protruding from the flanged open end of the cavity, a lower end within the cavity and a threaded axial opening. An actuation ram has first and second ends, the first end being threaded and in engagement with the axial opening in the piston and the second end extends through the second end of said housing. A cylindrical mounting sleeve has internal threads in enga¬ gement with the threaded exterior of the second end of the housing to clamp the housing into an aperture in the instru¬ ment peg head between the radial flange of the piston housing and the upper edge of the mounting sleeve. A string guide pulley is journaled upon an axle mounted parallel to the radially extending flange of the piston housing to receive and rotationally guide an instrument string into engagement with the upper end of the tuning piston for direct transfer of tensioning forces therealong. Means are included for securing an end of the instrument string rela- tive to the tuning piston wherein axial movement of the piston imparts movement of the string across the guide roller. A cap-like cylindrical tuning knob has an open end and a closed end with inner walls which overlap and closely receive the outer walls of the mounting sleeve, the central inner portion of the tuning knob is rigidly fixed to the second end of the actuation ram to rotate the ram and effect axial movement of the tuning piston for tensioning an instrument string coupled thereto without axial movement of the tuning knob.

One embodiment of the tuning key comprises a generally cylindrical piston housing including a cylindrical inner cavity having an open end with a radially extending flange and a closed end having a reduced axial threaded opening. The exterior surface of the closed end of the housing is also threaded. A cylindrical tuning piston is positioned for axial movement within the inner cavity of a cylindrical piston housing. The piston has an upper end protruding from the open end of the cavity with means to clamp an instrument string thereto and a lower end within the cavity. The piston also includes a longitudinally extending groove in an exterior surface. A drive screw actuation ram is provided having an enlarged end positioned adjacent to the closed end of the inner cavity of the piston housing and a shaft por¬ tion in threaded engagement with the threaded walls of the reduced axial opening in the closed end of the cavity. A cylindrical mounting sleeve is provided having threads in engagement with the exterior of the closed end of the housing to clamp the housing into an aperture in the instru¬ ment peg head between the radial flange of the piston housing and the upper edge of the mounting sleeve. The outer surface of the sleeve includes a rectangular groove formed circumferentially thereabout. A string guide pulley is rotatably mounted on an axle parallel to the radially extending flange of the piston housing and mounted thereto to receive and guide an instrument string into clamped enga¬ gement with the upper end of the tuning piston without abrading the string. A cap-like cylindrical tuning knob incorporates an open end and a closed end with inner walls which overlap and closely receive the outer walls of the mounting sleeve. The central inner portion of the tuning knob is rigidly fixed to the end of the drive screw tuning ram to rotate the shaft and move the enlarged end of the screw. Movement of the drive screw tuning ram effects axial movement of the tuning piston for tensioning an instrument string affixed thereto. An O-ring is positioned within the rectangular circumferential groove in the mounting sleeve to seal against the inner walls of the tuning knob to seal the interior thereof and frictionally prevent accidental rota¬ tion of the knob.

BRIEF DESCRIPTION OF THE DRAWING

For a more complete understanding of the present inven¬ tion and for further objects and advantages thereof, reference may now be had to the following description taken in conjunction with the accompanying drawing, in which: FIG. 1 is a perspective view of a stringed instrument peg head having a plurality of tuning keys constructed in accordance with the invention mounted thereon;

FIG. 2 is a cross-sectional view about a longitudinal axis of one of the tuning keys of the invention shown in FIG. 1;

FIG. 3 is a fragmentary longitudinal cross-sectional view of one embodiment of the invention which relates to the manner of affixing a string to the tuning key;

FIG. 4 is a fragmentary longitudinal cross-sectional view of another embodiment of the invention relating to the means for affixing the string to the tuning key;

FIG. 5 is a fragmentary longitudinal cross-sectional view of an alternate embodiment of the tuning key of the present invention;

FIG. 6 is a longitudinal cross-sectional view of a further embodiment of the tuning key of the present inven- tion;

FIG. 7 is a longitudinal cross-sectional view of an additional embodiment of the tuning key of the present invention;

FIG. 8 is a longitudinal cross-section of an alternate embodiment of the construction of the tuning key of the pre¬ sent invention;

FIG. 9 is a longitudinal cross-section of another embo¬ diment of the present invention;

FIG. 10 is a fragmentary longitudinal embodiment of an alternative means for affixing a string to the tuning key; and

FIG. 11 is a fragmentary longitudinal embodiment of an additional alternative means for affixing a string to the tuning key.

DETAILED DESCRIPTION

Referring to Figure 1, there is shown a perspective view of the peg head 11 and a portion of the fret of a string instrument such as a guitar. The peg head 11 mounts six tuning keys, each of which are constructed in accordance with the teachings of the present invention. The three linearly arranged lower keys are particularly adapted for use with single -filament strings whereas the three upper keys are especially adapted for use with strings of the wound type. The peg head 11 includes a flat wedge-shaped portion, the smaller end of which is connected to the neck piece 12. Along the neckpiece and over the frets 9 are disposed a plurality of strings 13 which pass across a notched string guide 14 and are attached to respective ones of the tuning keys 15. Each key 15 includes a tuning piston 16 which is axially movable in the direction of arrow 10 and to which the strings are affixed. A tuning knob 17 is rota- table in the direction of arrow 20 to operate the piston 16 as will be presently discussed. Referring now to Figure 2, the peg board 11 includes a circular aperture 18 extending therethrough and within which is positioned a cylindrical piston housing 19. The housing has a cylindrical inner chamber 21 with a radially extending flange 22 surrounding the open first end. The flange 22 extends radially out¬ wardly and its lower surface is positioned flush against the upper surface of the peg board 11. The second end of the piston housing 19 includes threaded cylindrical outer walls 23 and an inner conical transition region 24 which narrows and closes the lower end of the inner chamber to a smaller threaded cylindrical opening 25. A mounting sleeve 26 has a threaded cylindrical interior 27 which engages the external threads 23 on the piston sleeve 19. The piston sleeve 19 is rigidly held within the peg board by tightening the sleeve 26 upon the threads 23 to grip the upper and lower surfaces of the peg board 11 between the lower surface of the radial flange 22 and the upper edges 28 of the sleeve 26. The cap¬ like tuning knob 17 includes a smooth cylindrical inner wall 29 which closely receives the smooth cylindrical outer wall of the mounting sleeve 26. The outer surface of the mounting sleeve 26 includes a circular groove 31 having a rectangular cross-section within which an O-ring 32 is received. The O-ring 32 is formed of resilient material and seals against the inside surface of the tuning knob 17 to prevent entry of dirt and other particles into the threaded working mechanisms of the tuning key. Friction between the O-ring and the interior of the tuning knob also prevents accidental tuning changes induced by vibration. The inside end surface of the tuning knob 17 includes a threaded cylindrical socket 33 which is fixed to one end of a screw

O FI threaded actuation ram 34. The ram 34 may also be per¬ manently and rigidly affixed to the aperture 33 by means of epoxy or some other permanent attachment. The ram 34 may include either right or left handed thread as preferred by the individual musician.

The threaded portion of the actuation ram 34 is cylindrical with an enlarged head 35 at one end having a rounded upper surface 36 which engages a rounded lower sur¬ face of the base of the tuning piston 16. The pitch of the threads formed along the cylindrical outer surface of the actuation ram 34 determine the tuning ratio of the tuning key, that is, the number of revolutions of the tuning knob 17 required in order to effect a given quantum of tensioning in a string. The threaded outer surface of the actuation ram 34 engages mating internal threads 25 at the closed end of the piston chamber 21.

The tuning piston 16 is cylindrical with a generally smooth outer surface terminated at the lower end by a rounded portion 36 and a threaded axial opening 41 at the upper end. A diametrically transverse string aperture 42 intersects the bottom of the axial opening 41 for receiving a string 13. A set screw 43 engages the threaded opening 41 to clamp the string rigidly to the piston 16. An axially

CMPI extending peripheral groove 48 is formed in the surface of the piston 16 from the rounded bottom to the string aperture 42.

A significant aspect of the tuning key of the present invention includes a pair of vertically extending plates 45 which are mounted to the upper surface of the radial flange 22. A small circular pulley or guide roller 46 is journaled by a transverse axle 47 which is mounted between the two plates 45. A string is passed under the roller 46, along the axial peripheral groove 48 in the exterior of the tuning piston 16 and through the transverse opening 42 where it is clamped to the piston by screw 43. The roller-like string guide pulley 46 permits the string 13 to be moved and ten¬ sioned with a force substantially less than that necessary to overcome the static coefficient of friction which would exist with a string 13 bent over a stationary edge as pre¬ sented in the prior art. The string 13 directly engages the pulley 46 which uniformly and smoothly transmits string ten¬ sion along the longitudinal axes of the string segments bet- ween the neck piece 12 and the point at which the string is clamped. The string guide pulley permits the rolling transfer of string tensioning forces in a direction parallel to the axes of the string segments at all points along string. That is, the axial movement of the tuning piston produces directly transferred string tensioning forces in a direction orthogonal to the direction of movement of the piston. No force produced by piston movement goes untrans- ferred in string tension. A vast improvement in linear tuning keys.

A transverse set screw 49 passes through the wall of the piston housing 19 and extends into and is received by the groove 48 to permit and finally limit axial movement of the piston 16 but to restrain rotational movement thereof.

In operation, the tuning knob 17 is rotated in a direc¬ tion so as to cause the actuation ram 34 to move the head 35 thereof to the bottom portion of the inner chamber 21 in the piston housing 19. This also lowers the tuning piston 16 in preparation for receiving a string. An instrument string 13 is first passed between the plates 45 and under the pulley 46. The string is then received into the axially extending groove 48 and is bent and passed through the transverse hole 42. The set screw 43 is then tightened to clamp the string 13 rigidly to the tuning piston 16. The tuning knob 17 is rotated to move the actuation ram 34 upwardly and thereby move the tuning piston 16 upwardly. The piston pulls the string upwardly across the pulley 46 and thereby tensions

OMPI y ry, IPO ,, the string 13 to produce the desired resonant tone upon vibration. Rotation of the knob 17 in the opposite direc¬ tion will similarly lower the tuning piston 16 and thereby reduce the tension on the string and produce a lower fre- quency of resonance. The tuning knob 17 is knurled on its outer surface to provide reliability of grip.

Figures 3 and 4 illustrate alternative means for securing the instrument string to a tuning piston of a key constructed in accordance with the present invention. More particularly, Figure 3 shows a tuning piston 16 positioned within the cylindrical inner chamber of a piston housing 19 mounted within a peg head 11. The piston 16 includes a longitudinally extending groove 48 into which extends a set screw 49 to prevent rotational movement of the piston while permitting longitudinal movement. The upper end of the tuning piston 16 includes a transversely extending diametri¬ cal slot 51 which defines a pair of opposed planar walls 52 between which are positioned an eccentric cam member 53 having an actuation handle 50. The eccentric cam member 53 is journaled to move between the walls 52 upon an axle 54. The exterior eccentric surface of the cam member includes serrations 55. In operation, a string 13 is passed between the plates 45 and across the pulley 46 into the longitudinal groove 48 and between the walls 52. The string 13 passes beneath the cam member 55 while the handle 54 is positioned in a vertical position in general axial alignment with the tuning piston 16. The eccentric provides a space between the serrated exterior surface 55 and the bottom of the slot 52 for the string to freely pass. Thereafter, the handle 50 is moved downwardly to the position shown in Figure 3 whereby the serrated exterior surface 55 of the eccentric cam 53 engages the surface of the string 13 and clamps it against the bottom surface 56 of the slot 51. As can be seen from Figure 3, tension in the string produced by ver¬ tical movement of the tuning piston 16 serves to cause the eccentric cam to more firmly engage the string and lock it against slippage. The clamp mechanism of Figure 3 also includes a feature of very rapid attachment of the string 13 to the tuning piston 16 for quick changing of strings, for example, in the event of string breakage during a perfor¬ mance on the instrument.

Figure 4 also discloses a portion of a peg head 11 through which a piston housing 19 having an upper flange 22 passes. The flange 22 also mounts a pair of upright plates

45 and a string pulley 46 journaled by an axle 47 extending between the plates 45. The piston 16 includes a longitudi- nally extending groove 48 into which extends for sliding engagement a set screw 49 to prevent rotation of the piston while permitting longitudinal movement thereof. The upper end of the tuning piston 16 includes a pair of longitudi- nally spaced transversely extending diametrical openings 61 and 62. A threaded axially extending opening 63 extends from the upper end of the ram and intersects the bottom of the upper transverse opening 62. A threaded set screw 64 is received into the opening 63. A string 13 is passed between the plates 45 and across the pulley 46 into the longitudinal groove 48 and transversely through the lower opening 61. The string is bent into a ϋ-shape ^'and then passed in the opposite direction through the upper transverse opening 62 beneath the set screw 64. The screw 64 is then tightened to clamp the string against the bottom of the upper opening 62. The string clamp configuration of Figure 4 is especially adapted for use with unwound strings which are very dif¬ ficult to lock rigidly to a tuning ram because of their smaller diameter and lack of friction engagement surface. The double loop technique of the embodiment of the clamp portion of the invention shown in Figure 4 securely clamps the unwound strings to the tuning ram so that upon axial movement thereof, the string is not subject to creep or

"g JREAlT OMPI other movement with respect to the tuning piston.

Referring now to Figure 5, there is shown an additional alternate embodiment of a tuning key constructed in accor¬ dance with the invention. There is shown a peg head 11 which mounts a piston housing 19 having a radial flange por¬ tion 22 at the upper end thereof positioned adjacent the upper surface of the peg head 11. On one side of the upper surface of the flange 22 is mounted a pair of spaced upstanding walls 45 between which is journaled a first string guide pulley 46 by means of an axle 47. The opposite side of the flange includes a flange block 65 through which is formed a transversely extending string receiving opening 66 which is also in communication with an axially extending threaded opening 67. A set screw 68 is received within the threaded opening 67. The upper end of the tuning piston 16 is bifurcated similar to the upper end of the piston in the embodiment of Figure 3, and includes a transversely extending slot 71 formed between a pair of opposed parallel walls 72. A second string guide pulley 73 is journaled for rotation between the walls 72 by means of an axle 74. The piston 16 includes a pair of diametrically opposed longitu¬ dinally extending grooves 48 into one of which extends a set screw 49 to prevent rotational movement of the ram while permitting longitudinal movement. A string 13 is passed between the plates 45 and under the first guide pulley 46, into the first longitudinal slot 48, across the second string guide pulley 73 into the second longitudinally extending string receiving groove 48 in the piston 16 and through the transverse opening 66 in the flange block 65. The set screw 68 is tightened to clamp the string 13 against the bottom surface of the transverse opening 66. Vertical movement of the tuning piston 16 serves to tension the string 13 with an additional mechanical advantage by virtue of the first and second string guide pulleys 46 and 73 so that a given incremental movement of the tuning piston 16 produces a correspondingly greater change in the tensioning of the string 13. Figures 6 and 7 disclose two additional alternate embo¬ diments of the tuning key of the present invention, each of which feature tuning key actuation knobs which are mounted for rotational movement only and are not axially displaced by rotation. Referring particularly to Figure 6, there is shown a peg head 11 having a cylindrical opening 18. In the opening 18 is mounted a piston housing 19 , the first upper end of which is terminated by a radially extending flange 22 the lower surface of which abuts the upper surface of the peg head 11. The lower second end of the piston housing 19 is externally threaded at 101 and the interior of the inner chamber 102 is narrowed by a transition region 103 to a small clearance opening 104. The piston housing 19 is held within the opening 18 of the peg head 11 by means of flange 22 at the top and a flat circular washer 105 positioned against the lower surface. The washer 105 is clamped to the lower surface of the peg head 11 by means of an internally threaded cylindrical mounting sleeve 106 which engages the exterior threads 101 of the lower end of the housing 19. The movable tuning piston 16 is generally cylindrical and includes a pair of opposed longitudinally extending exterior grooves 48 into one of which is received a set screw 49 extending through the wall of the piston housing 19. The screw 49 allows longitudinal movement of the piston 16 but not rotational movement thereof. The interior of the piston 16 includes a threaded axial opening 100 which enga¬ ges the threaded exterior of a drive screw 107. The lower end of the drive screw 107 is fixed to the top of a flanged head 108 of a base screw 109. A retaining circlip 99 encircles the base screw 109 and the lower end of the base screw 109 is threaded into rigid engagement with a central axial hole in the lower end wall of the cap-like tuning knob

OMPI 17. The interior of the tuning knob 17 includes a cylindri¬ cal wall which closely receives the exterior of the mounting sleeve 106 and a flat upper edge surface which closely receives the lower surface of the washer 105. The pitch of the threads on the exterior of the drive screw 107 and the interior of the tuning piston 16 establishes the degree of axial movement of the tuning piston 16 in response to a given angular rotation of the tuning knob 17.

One side of the upper surface of the flange 22 has mounted thereto a pair of spaced upstanding walls 45 between which are journaled a first string guide pulley 46 by means of an axle 47. The upper end of the tuning piston 16 is bifurcated to define a slot 110 extending between a pair of spaced parallel walls 111. Between the walls a second string guide pulley 112 is journaled by means of an axle 113. The portion of the flange opposite the first guide pulley 46 includes a block 114 having a transverse opening 115 at the lower edge thereof and a longitudinally extending threaded opening 116 which intersects the opening 115. A _Se screw comprises a threaded shank 117 and a pivotal handle 118. The threaded shank 117 is in engagement with the threaded interior of the opening 116.

In operation, a string 13 is threaded between the walls

- ϋ ϊA

OMPI 45 under the first guide pulley 46, into the longitudinal groove 48, across the second guide pulley 112 into the oppo¬ site longitudinally extending groove 48 and through the transverse opening 115. The string is first partially ten- sioned to remove slack and then the set screw 117 is rotated to clamp the string 13 to the bottom of the opening 115. Rotation of the tuning knob 17 rotates the screw 109, the head 108, and the drive screw 107 to rotate within the internally threaded axial opening 100 of the tuning piston 16 to move the piston in an axial direction. Movement of the piston 16 causes the pulley 112 to move and thereby ten¬ sions the string 13. The string guide pulleys 46 and 112 allow all string tension forces to be in a direction parallel to the longitudinal axis of the string. It is to be noted that the embodiment of Figure 6 features a tuning knob which is fixed against other than rotational movements and enables the tensioning of an instrument string by means of vertical movement of a tuning ram without corresponding vertical movement of the tuning knob itself. Referring now to Figure 7, there is shown an additional alternate embodiment which also features a longitudinally fixed but rotationally movable tuning knob. The peg head 11 has an opening 18 formed therethrough within which is posi- tioned a piston housing 19 having first and second ends including an upper radially outwardly extending flange 22 and a threaded lower exterior portion 103. The cylindrical inner chamber 102 is narrowed by a conical portion 103 and terminated by an axial clearance opening 104. A washer 105 is clamped against the lower surface of the peg head 11 by means of an internally threaded mounting sleeve 106. The movable tuning piston 16 includes a longitudinally extending groove along the outside 48 into which extends a set screw 49 to prevent rotational movement thereof but allow and limit longitudinal movement. A threaded axial interior opening 100 in the piston 16 is engaged by a drive screw 107 which is part of the enlarged head 108 of a base screw 109. A retaining circlip 99 encircles the base screw 109 the lower end of which is rigidly affixed to a central opening in the lower inside surface of the tuning knob 17. The upper end of the tuning piston 16 includes a transversely extending slot 110 defined by a pair of spaced opposed walls 111 between which are positioned a rotatable second guide pulley 112 journaled upon an axle 113. The upper surface of the radially extending flange 22 includes on one side a pair of parallel vertically spaced walls 45 between which are journaled a first guide pulley 46 on an axle 47. The other side of the flange mounts a block 114 having a transversely extending opening 113 and an axial threaded opening 116 into which is engaged a set screw 117.

A string 13 is threaded between the upstanding walls 45 over the first guide pulley 46 and under the guide pulley 112 positioned in the slot 110 in the upper end of the tuning piston 16. The string thereafter passes through the opening 113 and is clamped by means of the screw 117. Rotation of the tuning knob 17 draws the tuning piston 16 down into the cylindrical inner chamber 102 and thereby ten¬ sions the string 13. It is to be noted that in the key design of Figure 7, longitudinal movement of the piston is also achieved without any movement of the tuning knob other than rotational. Referring now to Figure 8 an additional embodiment is illustrated providing an alternative means of mounting the tuning knob 17 to the rest of the novel tuning key of the present invention and for securing the string 13. In par¬ ticular, in Figure 8 there is shown a peg head 11 having an opening 18 therein into which is fitted a piston housing 19 having first and second open ends. The lower exterior por¬ tion of the piston housing 26 is threaded at 101. The housing 19 is engaged by an internally threaded retaining nut 121 which firmly tightens the washer 105 to the under¬ side of the peg head 11.

The interior of the tuning knob includes a central, axially extending threaded opening 129 which engages the threaded exterior 130 of the lower portion of the tuning piston 131. Rotation of the tuning knob 17 drives the piston 131 in the axial direction. The upper interior por¬ tion of the tuning knob 17 includes a cylindrical opening 122 which receives with clearance both the nut 121 and the washer 105. The upper/outer portion of the nut 121 includes a circumferential groove within which is received a circular ring 124 having a rectangular cross-section and smooth outer surface for rotational movement within the groove. The ring 124 includes a plurality of radially inwardly extending sockets 125 which receive set screws 126 extending through openings in the exterior of the knob 17 and which engage the sockets in the rotatable ring 124. Thus, the knob 17 is journaled to rotate about the nut 121 by means of the rota¬ tion of the circular ring 124 within the circular peripheral groove 123.

The upper portion of the tuning piston 131 includes a cylindrical shaft 133 having a longitudinal groove 134 therein. The groove 134 receives a set screw 135 which extends through an opening in the wall of the piston housing 26 to restrain rotational movement of the piston while allowing and limiting longitudinal movement thereof. The upper end of the piston 133 is bifurcated and mounts a second string guide pulley 136 on an axle 137. The upper end of the piston housing 19 includes a radially extending flange 22 the lower surface of which abuts the upper surface of the peg head 11. One side of the upper surface of the flange 22 has mounted thereto a pair of upstanding walls 45 between which are mounted a first string guide pulley 46 by means of an axle 47. The portion of the flange opposite the first guide pulley may include the block 114 shown in Fig. ' 5, 6, and 7, or the string securing mechanism described in more detail below. Still referring to FIG. 8 there is shown an alternative embodiment of means for securing the instrument string 13 to the piston housing 19. The string securing apparatus comprises a threaded post 150 having a bifurcated upper por¬ tion 152 which projects from the flange 22. The base of the bifurcated section terminates in a curved body portion 154 adapted for receiving the instrument string 13 thereacross. The lower end of the threaded post is secured to the flange 22. A clamping member 156 is provided for receiving the

^«£UREA

_ OMPI Wli-O post 150 therethrough in threaded engagement. The clamping member 156 includes an outer cylindrical body portion 158 terminating along a lower, circular edge 160 of narrowed wall thickness. The narrow wall thickness is provided by a tapered inner wall 162 which produces the thin peripheral edge 160 around the base of the clamping member for rota¬ tably engaging and bearing against an instrument string received through the bifurcated section 152. As the clamping member is threaded down upon the post 150, a string 13 received therethrough is sandwiched between the mating members and is securely pinned therebetween relative to the movable tuning piston 16. In this manner, the string end is secured during the axial movement of the piston 16 for the tensioning of the remaining body of the string on the instrument. Such threaded members are economically fabri¬ cated and provide enhanced gripping reliability which is required for the tensioning actuation of the present inven¬ tion.

In operation, a string 13 is threaded between the walls 45 under the first guide pulley 46 across the second guide pulley 136 and under the clamping member 156. The string is first partially tensioned to remove slack and then the string securing mechanism is used to clamp the string 13. Rotation of the tuning knob 17 drives the threaded portion 130 of the tuning screw 133, to move the piston in an axial direction. Movement of the tuning piston 133 causes the pulley 136 to move and thereby tensions the string 13. It is to be noted that the embodiment of Figure 8 also features a tuning knob which is fixed against other than rotational movements and enables the tensioning of an instrument by means of vertical movement of a tuning ram or piston without corresponding axial movement to the tuning knob itself. Referring now to FIG. 9, there is shown a further embo¬ diment for the novel tuning key of the present invention. In this embodiment, the tuning knob also effects axial mov- ent of a tuning ram by means of rotational movement only without any vertical displacement of the knob. As shown, a peghead 11 has an opening 18 formed therethrough into which is fitted a piston housing 19. The piston housing 19 is generally cylindrical having a radially extending flange 201 at the upper end thereof which engages the upper surface of the peghead 11. The housing 29 has a closed lower end 202 including a central clearance aperture 203 formed therein.

The outer surface of the lower portion of the piston housing 19 is externally threaded at 204 to receive on internally threaded cylindrical mounting sleeve 205. A cylindrical

OMPI washer 206 is positioned between the upper edge of the mounting sleeve 205 and the lower surface of the peghead 11 to clamp the piston housing 19 to the peghead between the washer 206 and the radially extending flange 201. The outer surface of a cylindrical tuning piston 207 is received for axial movement within the cylindrical cavity 21 of the piston housing 19. The tuning piston 207 includes a longitudinally extending groove 208 in the outer surface which receives a set screw 209 extending through the wall of the piston housing 19 to allow and limit vertical movement of the tuning piston 207 while restraining any rotational movement thereof. The tuning piston 207 includes a threaded axial cylindrical passageway 211 which receives an exter¬ nally threaded drive screw 212. The screw 212 extends through the axial clearance opening 203 in the lower end of the piston housing 19 and has affixed to or as part of the lower end thereof a flanged head 213 connected with a base screw 214. The threads on the base screw 214 are pre— ferrably formed in the opposite direction from the threads of the upper portion of the drive screw 212.

A pair of washer-like teflon bearing surfaces 215 and 216 are positioned below and above the radially extending portions of the flanged head 213 to form bearing surfaces between the flanged head 213 and adjacent parts during rota¬ tion of the screws 212 and 214. A cylindrical plug 217 threadedly engages the lower interior of the retaining sleeve 205 and includes an axial opening and a countersunk recessed portion 218 formed in the upper surface for receiving the flanged head 213 of the base screw 214. The lower surface of the plug 217 includes screw slots 219 for ease of installing and removing the plug from within the lower end of the retaining sleeve 205. The cap-like tuning knob 217 has a knurled outer surface and includes a cylindrical wall 221 which closely receives the outer sur¬ face of the mounting sleeve 205 for free rotation of the knob 17 thereabout. The tuning knob 17 also includes a central axially extending threaded opening 222 in the lower end wall thereof to receive the threaded outer portion of the base screw 214. The threads of the opening 222 are also formed in the opposite direction from those on the upper portion of the threaded drive screw 212 for ease of installation as will be explained below. Moreover, the tuning knob 17 may also be secured to the base screw threads 214 in a permanent fashion such as by means of epoxy.

The upper surface of the radially extending flange 201 has affixed to one side thereof a pair of upstanding

r OMP parallel vertically spaced walls 45 between which are jour¬ naled a first string guide pulley 46 on a transverse axle 47. The upper end of the cylindrical tuning piston 207 has an axially extending central threaded opening 225 and a generally flat upper end 226. A string clamp mechanism 227 includes a threaded cylindrical lower portion 228 and a somewhat conical string receiving spindle having' an enlarged radial portion 231 and a tapering neck portion 232 about which a string 13 is wrapped. The lower portion 228 threadedly engages the opening 225 in the upper end of the ram 207 so that the radial portion 231 abuts the flat upper end 226. Above the neck portion 232 is an enlarged threaded cylindrical slug 233 to the top of which is affixed a narrow cylindrical unthreaded neck portion 240 having an enlarged head 234.

A string clamp knob 235 has a knurled outer portion 236 which tapers to a reduced cylindrical wall 237. The upper interior of the knob 235 includes an enlarged cylindrical recess 238 which receives with clearance the head 234 and joins a threaded central cylindrical portion 241 which enga¬ ges the external threads 233. The lower interior portion of the knob 235 includes an enlarged cylindrical recess 242 which receives with clearance the threaded cylindrical por-

OMPI tion 241. As can be seen, the string clamp mechamism 227 is assembled by first inserting the threaded portion 225 down through the upper cylindrical recess 238 of the knob 236, screwing the threaded portion 233 through the threads 241 until the threaded portion 233 enters the lower cylindrical recess 242. The string clamp mechanism 227 is then attached to the upper end of the tuning ram 207 by screwing the threaded lower portion 228 into the threaded opening 225 so that the radial portion 231 abuts the flat upper end 226. The head 234 retains the string clamp knob 235 and prevents accidental loss thereof.

As shown in FIG. 9, a string 13 passes beneath the first string guide wheel 46 through a transverse opening 245 in the upper end of the tuning ram 207 and is wrapped spirally about the neck portion 232 and any excess cut off. The string clamp knob 235 is then lowered to engage the spirally wrapped string 13 and the internally threaded cylindrical portion 241 engages the externally threaded cylindrical plug 233. Rotation of the clamp knob 235 brings the lower cylindrical recess 242 down over the spirally wound strings in the case of thin string members to enshroud them. The lower edge of the knob 235 presses down against the spirally wrapped string to press the string surfaces together and cla p them to the ram 207.

Once a string has been clamped to the upper end of the tuning ram 207, rotation of the tuning knob 17 causes the tuning ram 207 to move axially in one direction within the tuning piston housing 19 and thereby tension the string 13 to produce a desired pitch upon vibration. Rotation of the tuning knob 17 in the opposite direction effects de- tensioning of the string. As can be seen, rotation of the tuning knob 17 does not result in any axial translation of the knob 17 but only rotation of the drive screw 212 which affects movement of the tuning ram 207 and thereby tuning of the string.

Referring now to FIG. 10, there is shown another embodi¬ ment of a tuning key structure of the type described above in connection with the drive mechanism of FIG. 2 and the alternative string clamp mechanisms of FIGS. 3 and 4 and having a further alternative embodiment of string clamp mechanism. As shown, a tuning ram 16 moves within a piston housing 19 mounted within a peghead 11 of a stringed instru- ment. A radially extending flange 22 abuts the upper sur¬ face of the peghead and has mounted to one side thereof a pair of spaced parallel vertical plates 45 having a guide pulley 46 mounted therebetween upon an axle 47. The tuning ram 16 includes a longitudinally extending groove 48 into which extends a set screw 49 which passes through the side of the housing 19 to prevent rotational movement of the ram while allowing and limiting axial movement thereof. The upper portion of the tuning ram 16 includes a transversely extending diametrical slot 245.

A string clamp mechanism 227 includes a threaded cylindrical lower portion 228 and a somewhat conical string receiving spindle having an enlarged radial pedestal portion 231 and a tapering neck portion 232 about which a string 13 is wrapped. The lower portion 228 threadedly engages the opening 225 in the upper end of the ram so that the radial portion 231 abuts the flat upper end 226. Above the neck portion 232 is an enlarged threaded cylindrical slug 233 to the top of which is affixed a narrow cylindrical unthreaded neck portion 240 having an enlarged head 234.

A string clamp knob 235 has a knurled outer portion 236 which tapers to a reduced cylindrical wall 237. The upper interior of the knob 235 includes an enlarged cylindrical recess 238 which receives with clearance the head 234 and joins a threaded central cylindrical portion 241 which enga¬ ges the external threads 233. The lower interior portion of the knob 235 includes an enlarged cylindrical recess 242 which receives with clearance the threaded cylindrical por¬ tion 241. As can be seen, the string clamp mechanism 227 is assembled by first inserting the threaded portion 225 down through the upper cylindrical recess 238 of the knob 236, 5 screwing the threaded portion 233 through the threads 241 until the threaded portion 233 enters the lower cylindrical recess 242. The string clamp mechamism 227 is then attached to the upper end of the tuning ram 16 by screwing the threaded lower portion 228 into the threaded opening 225 so

10 that the radial portion 231 abuts the flat upper end 226.

The head 234 retains the string clamp knob 235 and prevents accidental loss thereof.

As shown in FIG. 10, a string to be tuned 13 passes beneath the first string guide wheel 46 through the trans-

15 verse opening 245 in the upper end of the tuning ram 16 and is wrapped spirally about the neck portion 232 and any excess cut off. The string clamp knob 235 is then lowered to engage the spirally wrapped string 13 and the internally threaded cylindrical portion 241 engages the externally

20. threaded cylindrical slug 233. Rotation of the clamp knob 235 brings the lower cylindrical recess 242 down over, the spirally wound strings in the case of thin string members to enshroud them. The lower edge of the knob 235 presses down

_CMFI_ against the spirally wrapped string to press the string sur¬ faces together and clamp them to the ram 16 and the end of the string is then cut off.

A similar alternative embodiment of string clamp echa- mism in a double pulley tuning key constructed in accordance with the invention is shown in FIG. 11. There is shown a peghead 11 having an axial opening therein into which is received a piston housing 19 which receives a tuning ram 16. The tuning ram 16 has a pair of axially extending peripheral slots 48 one of which receives a set screw 49 to prevent rotational movement of the ram while allowing and limiting longitudinal movement thereof. A radially extending flange 22 mounts on one side thereof a pair of vertically extending spaced plates 45 between which is journaled a guide wheel 46 on an axle 47. The upper end of the tuning ram 16 is bifur¬ cated similar to the upper end of tuning ram of the embodi¬ ment of FIG. 3 and includes a transversely extending slot 71 formed between a pair of opposed parallel walls 72. A second string guide pulley 73 is journaled for rotation bet¬ ween the wall 72 by means of an axle 74.

The string clamp mechamism 227 includes a threaded cylindrical lower portion 228 and a somewhat conical string receiving spindle having an enlarged radial pedestal portion 231 and a tapering neck portion 232 about which a string 13 is wrapped. The lower portion 228 threadedly engages an opening 225 in the upper surface of the flange 22 so that the radial portion 231 abuts the flat upper surface. Above the neck portion 232 is an enlarged threaded cylindrical slug 233 to the top of which is affixed a narrow cylindrical unthreaded neck portion 240 having an enlarged head 234.

A string clamp knob 235 has a knurled outer portion 236 which tapers to a reduced cylindrical wall 237. The upper interior of the knob 235 includes an enlarged cylindrical recess 238 which receives with clearance the head 234 and joins a threaded central cylindrical portion 241 which enga¬ ges the external threads 233. The lower interior portion of the knob 235 includes an enlarged cylindrical recess 242 which receives with clearance the threaded cylindrical por¬ tion 233. As can be seen, the string clamp mechanism 227 is assembled by first inserting the threaded portion 225 down through the upper cylindrical recess 238 of the knob 236, screwing the threaded portion 233 through the threads 241 until the threaded portion 233 enters the lower cylindrical recess 242. The string clamp mechamism 227 is then attached to the upper end of the ram 16 by screwing the threaded lower portion 228 into the threaded opening 225 so that the radial portion 231 abuts the flat upper surface. The head 234 retains the string clamp knob 235 and prevents acciden¬ tal loss thereof.

As shown in FIG 11, a string to be tuned 13 passes beneath the first string guide pulley 46 across the second string guide pulley 73 and is wrapped spirally about the neck portion 232 and any excess cut off. The string clamp knob 235 is then lowered to engage the spirally wrapped string 13 and the internally threaded cylindrical portion 241 engages the externally threaded cylindrical slug 233.

Rotation of the clamp knob 235 brings the lower cylindrical recess 242 down over- the spirally wound strings in the case of thin string members to enshroud them. The lower edge of the knob 235 press down against the spirally wrapped string to press the string surfaces together and clamp them to the ram 16.

As can be seen, the various embodiments of the present invention overcome many of the structural shortcomings of prior art linear movement tuning keys. It is thus believed that the operation and construction of the present invention will be apparent from the foregoing description. While the method and apparatus shown and described has been charac¬ terized as being preferred, it will be obvious that various changes and modifications may be made therein without department from the spirit and scope of the invention as defined in the following claims.

Claims

WHAT IS CLAIMED IS:

1. A tuning key for a stringed musical instrument having a peg head with apertures therein, comprising: a generally cylindrical piston housing including an elongate inner cavity having an open end with a radially extending flange and a closed end having a reduced threaded opening therein, the exterior surface of the closed end of said housing also being threaded; a tuning piston positioned for axial movement within the inner cavity of said piston housing, said piston having an upper end protruding from the open end of the cavity with means to clamp an instrument string thereto and a lower end within the cavity; an actuation ram having first and second ends the first end being positioned within the inner cavity of the piston housing in abutting engagement with the lower end of said tuning piston and a threaded shaft portion in engagement with the threaded walls of the reduced opening in the closed end of the cavity; a cylindrical mounting sleeve having internal threads in engagement with the threaded exterior of the closed end of the housing to clamp the housing into an aperture in the instrument peg head between the radial flange of the piston housing and the upper edge of the mounting sleeves; a first string guide pulley journaled upon an axle mounted parallel to the radially extending flange of the piston housing to receive and guide an instrument string into clamped engagement with the upper end of the tuning piston without abrading the string; and a cap-like cylindrical tuning knob having an open end and a closed end with inner walls which overlie and closely receive the outer walls of the mounting sleeve, the central inner portion of the tuning knob being rigidly fixed to the second end of the actuation ram to rotate the shaft portion thereof to move the first end of the ram and thereby effect axial movement of the tuning piston for tensioning an instrument string affixed thereto.

2. A tuning key for a stringed musical instrument as set forth in Claim 1 wherein the outer surface of said mounting sleeve includes a groove formed circumferentially thereabout and which also includes an O-ring formed of resi¬ lient material positioned within the circumferential groove in the mounting sleeve to seal against the inner walls of the tuning knob and enclose the interior thereof.

3. A tuning key for a stringed musical instrument as set forth in Claim 1 wherein said tuning piston has a longi¬ tudinally extending groove in the exterior surface thereof and which also includes a set screw extending through the side wall of said piston housing into the longitudinal groove in said tuning piston to allow longitudinal movement while restraining rotational movement thereof.

4. A tuning key for a stringed musical instrument as set forth in Claim 1 wherein the means for attachment of a string to the upper end of the tuning piston comprises a transverse diametric opening for receiving a string and a threaded axial opening within which is positioned a set screw for clamping the string within the transverse opening against the bottom thereof.

5. A tuning key for a stringed musical instrument as set forth in Claim 1 wherein said means for attachment of a string to the upper end of said tuning ram comprises a pair of longitudinally spaced transversely extending diametric openings adapted for receiving a string first through the lower opening and back through the upper opening and a threaded axial opening within which is positioned a set screw for clamping the string within the upper transverse opening against the bottom thereof.

6. A tuning key for a stringed musical instrument

__c,' having a peg head with apertures therein, comprising: a generally cylindrical piston housing including an elongate inner cavity having an open end with a radially extending flange and a closed end having a reduced threaded opening therein, the exterior surface of the closed end of said housing also being threaded; a tuning piston positioned for axial movement within the inner cavity of said piston housing, said piston having an upper end protruding from the open end of the cavity; an actuation ram having first and second ends, the first end being positioned within the inner cavity of the piston housing in abutting engagement with the lower end of said tuning piston and the threaded shaft portion in engage¬ ment with the threaded walls of the reduced opening in the closed end of the cavity; a cylindrical mounting sleeve having internal threads in engagement with the threaded exterior of the closed end of the housing to clamp the housing into an aper¬ ture in the instrument peg head between the radial flange of the piston housing and the upper edge of the mounting sleeve; a first string guide pulley journaled upon an axle mounted parallel to the radially extending flange of the piston housing to receive and rotationally guide an instru¬ ment string into engagement with the upper end of the tuning piston for direct transfer of tensioning forces therealong; means for securing an end of said instrument string relative to said tuning piston wherein axial movement of said piston imparts movement of said string across said guide roller; a cap-like cylindrical tuning knob having an open end and a closed end with side walls which overlie and clo- sely receive the outer walls of the mounting sleeve, the central inner portion of the tuning knob being rigidly fixed to the second end of the actuation ram to rotate the shaft portion thereof to move the first end of the ram and effect axial movement of the tuning piston for tensioning an instrument string coupled thereto.

7. A tuning key for a stringed musical instrument as set forth in Claim 6 wherein said securing means includes; a second string guide pulley mounted for rotation upon an axle fixed to the upper end of said tuning piston and extending transversely thereof for rotationally guiding a string upon axial movement of said piston; and mean for clamping an end of said string to a point on the radially extending flange of said piston housing opposite said first string guide pulley.

8. A tuning key for a stringed musical instrument as set forth in Claim 6 wherein the outer surface of said mounting sleeve includes a groove formed circumferentially thereabout and which also includes: an O-ring formed of resilient material positioned within the circumferential groove in the mounting sleeve to seal against the inner walls of the tuning knob and enclose the interior thereof. 9. A tuning key for a stringed musical instrument as set forth in Claim 6 wherein said tuning piston has a longi¬ tudinally extending groove in the exterior surface thereof and which also includes: a set screw extending through the side wall of said piston housing into the longitudinal groove in said tuning piston to allow longitudinal movement while restraining rotational movement thereof.

10. The apparatus as set forth in Claim 7 wherein said clamping means comprises a flange block having a transverse diametric opening formed in said block adapted for receiving said string therethrough and a threaded axial opening adapted to receive a set screw for clamping said string within said transverse opening against a bottom portion

^■&JR£

OMPI thereof .

11. A tuning key for a stringed musical instrument as set forth in Claim 7 wherein said clamping means comprises a transverse opening extending diametrically through the upper end of said piston and adapted for receiving said string therethrough and a threaded axial opening housing a set screw for clamping said string within said upper transverse opening against a bottom portion thereof.

12. A tuning key for a stringed musical instrument having a peg head with apertures therein, comprising: a generally cylindrical piston housing including an elongate inner cavity having a first open end with a radially extending flange and a second end having an opening therein and an exterior surface a portion of which is threaded; a tuning piston positioned for axial movement within the inner cavity of said piston housing, said piston having an upper end protruding from the flanged open end of the cavity, a lower end positioned within the cavity and a threaded axial opening; an actuation ram having first and second ends, the first end being threaded and in engagement with the axial opening in said piston and the second end extending through the second opening in the end of said housing; a cylindrical mounting sleeve having internal threads in engagement with the threaded exterior of the second end of the housing to clamp the housing into an aper- ture in the instrument peg head between the radial flange of the piston housing and the upper edge of the mounting sleeve; a first string guide pulley journaled upon an axle mounted parallel to the radially extending flange of the piston housing to receive and rotationally guide an instru¬ ment string into engagement with the upper end of the tuning piston for direct transfer of tensioning forces therealong; means for securing an end of said instrument string relative to said tuning piston wherein axial movement of said piston imparts movement of said string across said guide roller; and a cap-like cylindrical tuning knob having an open end and a closed end with inner walls which overlap and clo¬ sely receive the outer walls of the mounting sleeve, the central inner portion of the tuning knob being rigidly fixed to the second end of the actuation ram to rotate the ram and effect axial movement of the tuning piston for tensioning an instrument string coupled thereto without axial movement of

OMPI the tuning knob.

13. A tuning key for a stringed musical instrument as set forth in Claim 12 wherein said securing means includes; a second string guide pulley mounted for rotation 5 upon an axle fixed to the upper end of said tuning piston and extending transversely thereof for rotationally guiding a string upon axial movement of said piston; and mean for clamping an end of said string to a point on the radially extending flange of said piston housing ]_Q opposite said first string guide pulley.

14. A tuning key for a stringed musical instrument as set forth in Claim 12 wherein said securing means includes a transverse diametric opening in the upper end of said piston for receiving a string and a threaded axial opening within 5 which is positioned a set screw for clamping the string within the transverse opening against the bottom thereof.

15. A tuning key for a stringed musical instrument as set forth in Claim 12 wherein the outer surface of said mounting sleeve includes a groove formed circumferentially 0 thereabout and which also includes; an O-ring formed of resilient material positioned within the circumferential groove in the mounting sleeve to seal against the inner walls of the tuning knob and enclose

^' the interior thereof.

16. A tuning key for a stringed musical instrument as set forth in Claim 12 wherein said tuning piston has a longitudinally extending groove in the exterior surface thereof and which also includes: a set screw extending through the side wall of said piston housing into the longitudinal groove in said tuning piston to allow longitudinal movement while restraining rotational movement thereof. 17. A tuning key for a stringed musical instrument having a peg head with apertures therein, comprising: a generally cylindrical piston housing including an elongate inner cavity having a first open end with a radially extending flange and a second end having an opening therein and an exterior surface a portion of which is threaded; a tuning piston positioned for axial movement within the inner cavity of said piston housing, said piston having an upper end protruding from the flanged open end of the cavity and a threaded lower end extending through second end of the cavity; a retaining nut having a central threaded opening in engagement with the threaded exterior of the said piston housing to clamp the housing within an aperture in the instrument peg head between the radial flange of the piston housing and the upper surface of the nut, said nut having a circular circumferential groove formed in the periphery thereof; a circular ring positioned for rotation in the cir¬ cumferential groove of said retaining nut; a first guide roller rotatably mounted on an axle parallel to the radially extending flange of the piston housing to receive and rotationally guide an instrument string into engagement with the upper end of the tuning piston for direct transfer of tensioning- forces therealong; means for securing an end of said instrument string relative to said tuning piston wherein axial movement of said piston imparts movement of said string across said guide roller; a cap-like cylindrical tuning knob having an open end and a closed end, the open end having edges which abut the lower surface of the peg head and outer walls which receive the retaining nut with clearance therebetween, said knob having a threaded axial opening for receiving the lower end of the tuning piston; and means for rigidly mounting the inside walls of the open end of the tuning knob to the circular ring to permit rotation of the knob about the retaining nut and move the tuning piston in the axial direction to tension a string.

18. A tuning key for a stringed musical instrument as set forth in Claim 17 wherein said securing means includes; a second string guide pulley mounted for rotation upon an axle fixed to the upper end of said tuning piston and extending transversely thereof for rotationally guiding a string upon axial movement of said piston; and means for clamping an end of said string to a point on the radially extending flange of said piston housing opposite said first string guide pulley,

19. A tuning key for a stringed musical instrument as set forth in Claim 17 wherein said securing means includes a transverse diametric opening in the upper end of said piston for receiving a string and a threaded axial opening within which is positioned a set screw for clamping the string within the transverse opening against the bottom thereof.

20. A tuning key for a stringed musical instrument as set forth in Claim 17 wherein the outer surface of said mounting sleeve includes a groove formed circumferentially thereabout and which also includes: an O-ring formed of resilient material positioned within the circumferential groove in the mounting sleeve to seal against the inner walls of the tuning knob and enclose the interior thereof.

21. A tuning key for a stringed musical instrument as set forth in Claim 17 wherein said tuning piston has a longitudinally extending groove in the exterior surface thereof and which also includes: a set screw extending through the side wall of said piston housing into the longitudinal groove in said tuning piston to allow longitudinal movement while restraining rotational movement thereof.

22. A tuning key for a stringed musical instrument having a peg head with apertures therein, comprising: a generally cylindrical piston housing including an elongate inner cavity having a first open end with a radially extending flange and a second end having an opening therein, the exterior surface of the second end of said housing also being threaded; a tuning piston positioned for axial movement within the inner cavity of said piston housing, said piston having an upper end protruding from the flanged open end of the cavity, a lower end within the cavity and a threaded axial opening; an actuation ram having first and second ends, the first end being threaded and in engagement with the axial opening in said piston and the second end extending through the opening in the second end of said housing and having affixed thereto a radially extending flanged head and a threaded base screw; a cylindrical mounting sleeve having internal threads with the upper portion of the threads in engagement with the threaded exterior of the second end of the housing to clamp the housing into an aperture in the instrument peg head between the radial flange of the piston housing and the upper edge of the mounting sleeve; a cylindrical plug having a threaded exterior and a central axial opening including a recessed portion adjacent one end thereof, said plug being positioned in the lower portion of said sleeve to receive the threaded base screw of said actuation ram through the central axial opening with clearance and the flanged head within the recessed portion; a first string guide pulley journaled upon an axle mounted parallel to the radially extending flange of the piston housing and mounted thereto to receive and rota¬ tionally guide an instrument string into engagement with the

OMPI upper end of the tuning piston for direct transfer of ten¬ sioning forces therealong; means for securing an end of said instrument string relative to said tuning piston wherein axial movement of said piston imparts movement to said string across said guide roller; a cap-like cylindrical tuning knob having an open end and a closed end with inner walls which overlie and clo¬ sely receive the outer walls of the mounting sleeve, the central inner portion of the tuning knob having a central axial threaded opening in tight threaded engagement with the base screw of the actuation ram to rotate the ram to move the first end of the ram and thereby effect axial movement of the tuning piston for tensioning an instrument string coupled thereto.

23. A tuning key for a stringed musical instrument as set forth in Claim 22 wherein the threads formed on first end of the actuation ram are in the opposite direction from the threads formed on the base screw and the central axial opening in the tuning knob.

24. A tuning key for a stringed musical instrument as set forth in Claim 22 which also includes a frictionless washer positioned between the flanged head of the base screw

OMPI and the recessed portion of the base plug.

25. A tuning key for a stringed musical instrument as set forth in Claim 22 wherein the outer surface of said mounting sleeve includes a groove formed circumferentially thereabout and which also includes: an O-ring formed of resilient material positioned within the circumferential groove in the mounting sleeve to seal against the inner walls of the tuning knob and enclose the interior thereof. 26. A tuning key for a stringed musical instrument as set forth in Claim 22 wherein said tuning piston has a longitudinally extending groove in the exterior surface thereof and which also includes : a set screw extending through the side wall of said piston housing into the longitudinal groove in said tuning piston to allow longitudinal movement while restraining rotational movement thereof.

27. A tuning key for a stringed musical instrument as set forth in Claim 22 wherein said securing means includes; a second string guide pulley mounted for rotation upon an axle fixed to the upper end of said tuning piston and extending transversely thereof for rotationally guiding a string upon axial movement of said piston; and mean for clamping an end of said string to a point on the radially extending flange of said piston housing opposite said first string guide pulley.

28. A tuning key as set forth in Claim 22 wherein the tuning piston includes a generally flat upper end having a threaded central opening therein and wherein said instrument string securing means comprises: an elongate body having a threaded cylindrical lower portion received into the threaded central opening in the ram and a string receiving spindle having a lower radially extending pedestal abutting the upper end of said ram and being joined at the upper portion to a threaded cylindrical slug which is connected to an enlarged head by a narrow neck portion, the head being of greater diameter than the plug and the spindle having a transverse diametric aperture to receive a string therethrough; and a clamp knob having a central axial opening including an upper cylindrical recess, an intermediate threaded cylindrical position and a lower cylindrical recess and being positioned upon said elongate body by passage of the body down through the central axial opening so that the threaded slug engages the intermediate portion

OMPI to apply clamping pressure against an instrument string passed through the transverse aperture and wrapped spirally thereabout upon rotation of the knob and be retained upon the body by inability of the enlarged head of the body to pass through the intermediate cylindrical section.

'29. A tuning key as set forth in Claim 17 wherein the tuning piston includes a generally flat upper end having a threaded central opening therein and wherein said instrument string securing means comprises: an elongate body having a threaded cylindrical lower portion recessed into the threaded central opening in the ram and a string receiving spindle having a lower radially extending pedestal abutting the upper end of said ram, and being joined at the upper portion to a threaded cylindrical slug which is connected to an enlarged head by a narrow neck portion, the head being of greater diameter than the plug and the spindle having a transverse diametric aperture to receive a string therethrough; and a clamp knob having a central axial opening including an upper cylindrical recess, an intermediate threaded cylindrical portion and a lower cylindrical recess and being positioned upon said elongate body by passage of the body down through the central axial opening so that the

OMPI threaded slug engages the intermediate portion to apply clamping pressure against an instrument string passed through the transverse aperture and wrapped spirally thereabout upon rotation of the knob and be retained upon the body by inability of the enlarged head of the body to pass through the intermediate cylindrical section.

30. A tuning key as set forth in Claim 27 wherein the radially extending flange includes a perpendicular threaded aperture and said clamping means comprises; an elongate body having a threaded cylindrical lower portion received into the threaded aperture in the radial flange and a string receiving spindle having a lower radially extending pedestal abutting the upper end of said flange, and being joined at the upper portion to a threaded cylindrical slug which is connected to an enlarged head by a narrow neck portion, the head being of greater diameter than the plug and the spindle having a transverse diametric aper¬ ture to receive a string therethrough; and a clamp knob having a central axial opening including an upper cylindrical recess, an intermediate threaded cylindrical portion and a lower cylindrical recess and being positioned upon the elongate body by passage of the body down through the central axial opening so that the threaded slug engages the intermediate portion to apply clamping pressure against an instrument string passed through the transverse aperture and wrapped spirally thereabout upon rotation of the knob and be retained upon the body by inability of the enlarged head of the body to pass through the intermediate cylindrical section.

31. An improved linearly actuated tuning key for a stringed musical instrument of the type having a recipro¬ cating piston mounted for axial movement within an inner cavity of a cylindrical piston housing having a radially extending flange and being secured within the instrument peg head, said piston having an upper end protruding from an open end of the cavity with means to secure an end of an instrument string relative thereto and a lower end disposed within the cavity, wherein the improvement comprises a first guide roller rotatably mounted adjacent the open end of the piston housing and adapted for receiving said instrument string thereacross for the rolling transfer of tensioning forces to said instrument string relative to said upper end of said tuning piston to transform axial movement of said piston into direct tensioning of the instrument string.

32. The improved linearly actuated tuning key as set forth in Claim 31 wherein said means for securing an end of said string includes a clamp assembly secured adjacent said piston opposite said guide roller and wherein said piston is constructed with a second guide roller secured thereto for receiving said string thereacross and permitting rolling transfer of engaged regions of said string relative to said clamp assembly.

33. The improved linearly actuated tuning key as set forth in Claim 32 wherein said instrument string is received under said first guide roller and over said second guide roller for tensioning said string in response to upward axial movement of said piston relative to said clamp assembly.

34. The improved linearly actuated tuning key as set forth in Claim 33 wherein said instrument string is received over said first guide roller and under said second guide roller for tensioning said string in response to downward axial movement of said piston relative to said clamp assembly.

35. An improved linearly actuated tuning key for a stringed musical instrument of the type having a recipro¬ cating piston mounted for axial movement within an inner cavity of a cylindrical piston housing secured within the instrument peg head, said piston having an upper end

SHEA, OM?I_ protruding from the open end of the cavity with means to secure an end of an instrument string relative thereto and a lower end disposed within the cavity, wherein the improve¬ ment comprises threaded side wall portions within said cavity, a screw actuation ram abutting the lower end of said piston and in threaded engagement with said threaded walls of said cavity, and a first guide roller rotatably mounted adjacent the open end of the piston housing and adapted for receiving said instrument string thereacross for the rolling transfer of tensioning forces to said instrument string relative to said upper end of said tuning piston to trans¬ form axial movement of said piston into direct tensioning of the instrument string.

3h . The improved linearly actuated tuning key as set forth in Claim 35 wherein said means for securing an end of said string includes a clamp assembly formed upon upper end of said piston.

37. The improved linearly actuated tuning key as set forth in Claim 35 wherein said cylindrical piston housing includes a cylindrical inner cavity having an open end with a radially extending flange and a closed end having a reduced axial threaded opening, the exterior surface of the closed end of said housing also being threaded, and wherein said actuation ram includes an enlarged end portion within and adjacent the closed end of the piston housing and a shaft portion in threaded engagement with the threaded opening in said cavity. 38. The improved linearly actuated tuning key as set forth in Claim 3,5 wherein said cylindrical piston housing is clamped into an aperture in the instrument peg head by a cylindrical mounting sleeve having internal threads in enga¬ gement with the external threads of the closed end of the housing for clamping said housing between the radial flange of the piston housing and the upper edge of the mounting sleeve, the outer surface of said sleeve having a rec¬ tangular groove formed circumferentially thereabout, a cap¬ like cylindrical tuning knob having an open end and a closed end with inner walls which overlie and closely receive the outer walls of the mounting sleeve, the central inner por¬ tion of the tuning knob being rigidly fixed to the end of the drive screw shaft to rotate the shaft to move the enlarged end of the screw and effect axial movement of the tuning piston for tensioning an instrument string affixed relative thereto, and an O-ring positioned within said cir¬ cumferential groove in the mounting sleeve to seal against the inner walls of the tuning knob and enclose the interior thereof .

39. The improved linearly actuated tuning key as set forth in Claim 3-8 wherein said clamp assembly comprises a transverse diametric opening formed within said piston for receiving a string therein and a threaded axial opening intersecting said diametric opening and adapted to receive a set screw for clamping a string within said transverse opening against a bottom portion thereof.

40. The improved linearly actuated tuning key as set forth in Claim 38 wherein said clamp assembly comprises a pair of longitudinally spaced transversely extending diametric openings formed in said piston and adapted for receiving said string through a first lower opening therein and back through a second upper opening, and a threaded axial opening intersecting said diametric opening and adapted to receive a set screw for clamping said string within said upper transverse opening against a bottom por¬ tion thereof.

41. The improved linearly actuated tuning key as set forth in Claim 37 wherein said means for securing an end of said string includes a clamp assembly secured adjacent said piston opposite said guide roller and wherein said piston is constructed with a second guide roller secured thereto for

_OMPI receiving said string thereacross and permitting rolling transfer of engaged regions of said string relative to said clamp assembly.

42. The improved linearly actuated tuning key as set forth in Claim 41 wherein said instrument string is received under said first guide roller and over said second guide roller for tensioning said string in response to upward axial movement of said piston relative to said clamp assembly.

43. An improved linearly actuated key for a stringed musical instrument of the type having a reciprocating piston mounted for axial movement within an inner cavity of a cylindrical piston housing secured within the instrument peg head, said piston having an upper end protruding from the open end of the cavity and a lower end disposed within the cavity, wherein the improvement comprises threaded side wall portions within said cavity, a screw actuation ram in threaded engagement with said threaded walls of said cavity and first and second rotational string guide members adapted for receiving said instrument string thereacross and being mounted generally orthogonal to said piston housing, said first rotational string guide being secured adjacent said piston housing for the rolling transfer of engaged regions of said intsrument string and said second rotational string guide being mounted upon said piston and adapted for receiving said instrument string thereacross for rolling transfer of engaged regions thereof responsive to axial movement of said piston within said piston housing _r and means for securing an end of said instrument string adjacent said piston housing in clamped engagement relative to said piston for transforming axial movement of said piston directly into orthogonally directed tensioning of said instrument string.

44. The apparatus as set forth in Claim 43 wherein said second rotational string guide member is adapted for receiving said string thereover and constructed for moving upwardly relative to said first string guide member for imparting said orthogonal tensioning of said instrument string in response to upward axial movement of said piston within said housing.

45. An improved tuning key assembly for a string of a musical instrument of the type comprising a reciprocally mounted piston disposed within a chamber secured within a portion of the musical instrument in engagement with said string, and means for securing one end of said string rela¬ tive to said piston for imparting tensioning force thereto

"g JRl i OMPI through axial movement of said piston in a direction generally orthogonal to the vibratory body portion of string, wherein the improvement comprises a guide roller secured adjacent said piston for allowing said string to move thereacross for imparting uniform tension therethrough and directly tensioning said string in response to said generally orthogonal movement of said piston relative to said string.

46. An improved linear tuning key for stringed musical instruments of the type having a reciprocally mounted piston secured upon the instrument in coupled engagement with one end of said string and adapted for the rectilinear orthogo¬ nal movement for tensioning said strings, wherein the impro¬ vement comprises a guide member rotatably mounted adjacent said piston having said string received thereacross in fric- tional engagement therewith and adapted for rotation rela¬ tive to rectilinear motion of said piston wherein said linear movement of said piston in a direction orthogonal to said string body imparts movement to said string around said rotating guide and tension to said string in direct propor¬ tion to the orthogonal movement of said piston.