US2972923A - Floating tremolo and bridge construction for lute-type musical instruments - Google Patents

Floating tremolo and bridge construction for lute-type musical instruments Download PDF

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US2972923A
US2972923A US772310A US77231058A US2972923A US 2972923 A US2972923 A US 2972923A US 772310 A US772310 A US 772310A US 77231058 A US77231058 A US 77231058A US 2972923 A US2972923 A US 2972923A
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strings
string
bridge
plate
tremolo
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Clarence L Fender
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    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10DSTRINGED MUSICAL INSTRUMENTS; WIND MUSICAL INSTRUMENTS; ACCORDIONS OR CONCERTINAS; PERCUSSION MUSICAL INSTRUMENTS; AEOLIAN HARPS; SINGING-FLAME MUSICAL INSTRUMENTS; MUSICAL INSTRUMENTS NOT OTHERWISE PROVIDED FOR
    • G10D3/00Details of, or accessories for, stringed musical instruments, e.g. slide-bars
    • G10D3/14Tuning devices, e.g. pegs, pins, friction discs or worm gears
    • G10D3/147Devices for altering the string tension during playing
    • G10D3/153Tremolo devices

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  • This invention relates to a tremolo and bridge construction for stringed instruments, particularly guitars and similar lute-type instruments.
  • the invention also relates to a method of tuning a tremolo-type stringed instrument.
  • each string With relation to conventional bridge constructions, it is important that each stringhave its ownndividual bridge which is fully adjustable in a number of directions. Furthermore, it is undesirable that each tremolo movement effect reltaive sliding or rubbing between each string and the associated bridge element, which makes it important that the bridge move automatically with the tremolo means.
  • the bridge movement should not be such that the bridge elements change their vertical positions relative to the guitar body by any appreciable amounts, or that the bridge elements tip or cock relative to the guitar body.
  • a further object of the invention is to provide a tremolo device of the balanced type having a knife-edge fulcrum, stop means to determine a neutral position at which tuning may be achieved and maintained, and adjustable spring means to counteract the string tension.
  • a further object of the invention is to provide a floating bridge device which moves with the strings during tremolo operation without friction, and which is fully adjustable to change the effective length of each string, change the elevation of each string above the body and the neck, change the lateral position of each string, and change the elevations of the strings as a group.
  • a further object is to provide a bridge construction having a plurality of individual bridge elements, each of said elements being formed with a plurality of grooves into which a string may be selectively mounted to thereby adjust the lateral string position.
  • a further object is to provide a tremolo device in which grip means are provided to movably associate the tremolo control arm with other elements of the device and in such manner that long-continued movement of the control arm with the hand of the guitarist does not create undesirable looseness or play tending to prevent the control arm from remaining in a desired position.
  • a further object is to provide a balanced tremolo incorporating spring means which are readily adjustable from the exterior of the guitar without removal of the cover plate, in combination with stop means which operate in conjunction with the spring means to determine the desired neutral position at which tuning may be readily and accurately achieved and maintained.
  • a further object is to provide a tremolo device incorporating means to shift from tremolo to standard operation without alteration of tuning, and incorporating means to maintain the proper tuning of the remaining strings after one string has broken.
  • a further object is to provide a method of tuning a tremolo-type stringed instrument.
  • Figure 1 is a perspective view illustrating a guitar incorporating tremolo and bridge means constructed in accordance with the present invention
  • Figure 2 is a greatly enlarged fragmentary plan view of the tremolo and bridge portion of the guitar of Figure l;
  • Figure 3 is an enlarged fragmentary transverse sectional view taken on line 3 3 of Figure 2;
  • Figure k4 is an enlarged fragmentary longitudinal sectional view taken on line 4-4 of Figure 2, and illustrating the tremolo elements in various positions;
  • Figure 4a is an enlarged schematic illustrating the knife-edge relationship between the knife blade and the string plate
  • Figure 5 is an enlarged longitudinal fragmentary sectional view taken on line 5-5 of Figure 2, but omitting a showing of the wooden body of the guitar;
  • Figure 6 is an enlarged transverse fragmentary section on line 6-6 of Figure 4, showing the frictional gripping means for the stem of the tremolo control arm;
  • Figure 7 is a fragmentary section taken on line 7 7 of Figure 3 and illustrating a rocking post at one end o the floating bridge means.
  • the invention is illustrated as embodied in an electric guitar having a body 10, fretted neck 11, head 12, strings 13, and electromagnetic pickups 14 and 15.
  • the pickups 14 and 15 are se1ectively operable to sense the vibrations of strings 13 and transmit currents corresponding thereto to suitable amplifying and loud-speaker means, not shown.
  • the strings 13 are stretched or tensioned between suitable tuning pegs or screws (on head 12) and the tremolo device 16 which forms part of the present invention.
  • tremolo device lcooperates with a floating bridge. 17 to provide a perfect tremol'o action in the 'absence of friction and with complete adjustability.
  • the major portion of the tremolo device is mounted in a'suitable cavity or recess 18'provided in body 102
  • the recess or cavity is covered by a base or cover plate 19 which is fixedly secured to the guitar body by means of screws 21.
  • Base' plate 19 is formed with a transverse slot 22 to receive, in non-interfering relationship, the upwardly extending force-arm portion 23 of a string plate orV lever 24.
  • String plate24 also has a relatively long force-'arm portion 26' disposed in recess 18 beneath and generally parallel to base plate 19.
  • Plate'or lever 24 may also be termed'a ⁇ string-engaging element, or aconnector element.
  • the upwardly extendingforce-arm portion 23 of string plate or lever 24 is provided' above base plate 19 with ⁇ a" plurality of transversely-spaced holes 31 adapted to receive the ends' of the respective strings 13.
  • Thestring ends are connected to eyelets 32 which seat beneath an upper hook'portion 33 of the. string plate to maintain the strings in tensioned condition; ⁇ Since the strings are tensioned across the floating bridge 17 to the tuning screws on head ⁇ 12 of the instrument, it will be understood that the strings provide a very substantial force tending to effect clockwise pivoting or' string lever 24 on the knife-edge means 28, as viewed' in Figuresl 4 and'S.
  • Spring bias means are'provided to adjustab'ly counterbalance the above-indicated force' exerted by the tensioned strings13, and' are'illustratedto comprise a'helical compression spring 34' having its' upper end seated beneath the outer edge of the relatively long force arm 26 of string plate or lever 24.
  • the lower end of spring 34 seats on an adjustable seat element 36' comprising a' frustoconical nut which is threaded over a bolt 37.
  • the headl of bolt 37 rests on the upper surface of base plate 19, and the shank of the bolt extends downwardly through plate 19 and through a relatively large opening in force arm 26.
  • bolt 37 by means of a screw-driver or the like, has the eifect of raising or lowering seat element 36 depending upon the direction of bolt rotation, it being understood that the force of spring 34 is suicient to prevent rotation of the seat or nut 36.
  • An inertia plate 38 is suitably connected beneath the outer portion of force arm 26', and has an opening 39 into which the upper end of spring 34 is. inserted for seating upon the lower surface of force arm 26.
  • the inertia plate 38 thus serves to effect' proper positioning of the upper end of the spring, and also serves to give the string plate 24 sutiicient mass that it will not tend to vibrate with the strings 13 and provide an undesired damping action.
  • the tremolo action thus takes place only .upon deliberate pivoting of the string lever 24 as will be indicated subsequently.
  • Stop means 41 are provided to determine the neutral or intermediate position of string plate 24, to thereby greatly facilitate tuning and string replacement and also Vto effectother functions as will be indicated.
  • the ,stop means 4 is illustrated to comprise a short cylinder which is slidably mounted beneath. base plate 19 above the extreme outer edge of force-arm portion 26 of the string plate. More specifically, the cylinder 41 is threaded, riveted, or otherwise securedover the shank 42 of an actuating button 43 Which is disposed above the base plate 19. Button 43 seats on a at spring 44, the ⁇ latter providing frictional resistance to sliding of the button (and thus stop means 41) longitudinally of the instrument and between the limits permitted by a longitudinal slot 46 inthe base plate.
  • bias spring 34 is adjusted, by turning the bolt 37 and as will be described'in detail subsequently, so that the string plate 24 will be in theneutral position shown in Figure 5, even though the stop 41 is shifted away from the illustratedrstop position, when the strings 13 are all'perfectly in tune; Should a string then break, it merely required to shift the stop 41 to the Figure 5 position. The outer end of the string plate 24 will then be biased upwardly ( Figure 5) against the lower surface of stop 41, since the breaking of a string reduces the string tension tending to effect clockwise pivoting of the string ⁇ plate 24.
  • the string plate 24 is manually pivoted about fulcrum 2.8-, in order to effect the tremolo action when stop 41 is inoperative, Figure 4, by means of a control arm 51 having av handle 52 adapted to ride with the hand of the guitarist. Such riding is permitted by pivotally mounting a downwardly-extending lstern portion 53 of controlv arm 51 in a socket device 54 which is mounted in the force arm 26 and the adjacent inertia plate 38.
  • the socket device comprises a sleeve 56 which extends upwardly through an opening 57 in base plate 19 with sufficient clearance to prevent any interference therebetween.
  • Sleeve 56 is sufiiciently large in internal diameter to permit insertion of stem 53 without substantial binding, and has an externally threaded portion which is threaded into the force arm 26 and into inertia plate 38.
  • Such threading is accomplished by means o f anut or wrench-hold portion 58 having integral, downwardly-extending gripping bars or segments 59 ( Figure 6) the normal internal diameter of which is slightly smaller than that ofv stem 53.
  • the nut 58 and gripping bars 59 are formed of hard, resilient metal, so that the gripping bars 59 may be bent outwardly sufficiently to permit insertion of the stem to the position shown in Figure 4. However, the gripping bars 59 then resiliently grip the stem to resist movement thereof and provide a drag against pivoting of the steam in the socket means. y .y
  • socket 54 is superior to previously-known constructions, in which the stem 53 was threadedinto a socket, since the gripping bars 59 provide the above-mentioned drag even though the device has been used for a long period of time. It is important that the control arm 51 remain at any position desired by the guitarist, since otherwise it will pivot due to the action of gravity, or due to movement of the guitar, and interfere with playing. Threaded constructions have the desired effect for a certain period of time, but after substantial use the threads wear and result in play or clearance which causes the handle to pivot loosely in the socket and not remain in the position desired.
  • the floating bridge 17 which moves with the strings 13 upon actuation of the control arm 51 to pivot string plate 24 about knife means 28, this comprises a support channel or plate 61 which is rockably mounted upon a pair of rock post assemblies 62.
  • a plurality of individual bridge elements 63 are adjustably supported on the upper surface of the web of channel 61 and provide support for the individual strings 13. It is an important feature of the iloating bridge means 17V that the rock post assemblies are relatively long, and pivot about support or fulcrurn points disposed a substantial distance beneath the strings 13, in order that the bridge movement resulting from shifting of the strings 13 does not effect substantial tipping of channel 61 but instead merely causes the channel to move longitudinally of the instrument.
  • channel 61 does not tip, cock or toggle a substantial amount, to thereby cause substantial variation in the elevation of string 13, but instead merely moves longitudinally with the strings 13 between the positions shown in solid and phantom lines in Figure 7.
  • the pivotal movement of channel 61 is about an axis parallel to the axis of ⁇ string lever 24, and disposed a substantial distance below the face of the body 10.
  • Each rock post assembly 62 is adjustable in length, and to this end is constructed with an internally-threaded sleeve element 64 having threadedly inserted therein a threaded pin or screw 66.
  • the upper end of each sleeve 64 is rigidly secured in an opening in the web of bridge channel 61, the relationship being such that a small wrench may be inserted downwardly through the sleeve and into a socket 67 ( Figure 7) in the upper end of screw 66 in order to effect adjustment of the latter.
  • the lower end of each screw 66 is rounded to seat in a rounded socket at the bottom of a thimble 68 which is seated xedly in a round hole in body 10.
  • each thimble 68 is substantially greater than that of the sleeve 64 inserted therein, permitting rocking of each rock post assembly 62 without interference. It is therefore a simple matter to alter the effective length of the rock post assembly 62 by merely inserting the previously-indicated wrench and turning the pins or screws 66.
  • Each of the individual bridge elements 63 comprises a short cylinder or barrel which is externally threaded to provide support for a string 13 at any one of a plurality of selected lateral positions.
  • the depths of the threads of the various cylinders 63 are related to the diameters of the strings 13 to be associated therewith, in such manner as to insure that the strings will remain in desired grooves in which they are placed by the guitarist.
  • Each bridge 63 is supported on a pair of leg elements 69 comprising screws threaded transversely therethrough and extending downwardly into engagement with the web of bridge channel 61.
  • the legs or screws 69 may be turned, by means of a suitable wrench, to adjust the elevation of the bridge element above the bridge plate.
  • Adjustment of each bridge elment 63 longitudinally of the instrument is elected by means of a screw 70 which is rotatably inserted (not threaded) through one o f the webs of bridge channel 61, and is threaded through a bridge element 63 perpendicular to the axis thereof and also perpendicular to a plane containing the legs 69.
  • a helical compression spring 71 is provided around each screw 70 to maintain the associated bridge element 63 spaced the maximum permitted distance away from the channel tlange through which screw 70 is inserted.
  • each string 13 may be tuned and perfectly adjusted individually, without regard to the other strings. This would not be possible were it not for the presence of the stop 41 which operates, in conjunction with the tightly set spring 34, to lock the string plate 24 during adjustment of the string tension for tuning purposes.
  • the bridge 17 is adjusted in a number of ways, the first of which relates to changing the height of the strings 13 above the fretted neck 11.
  • the individual bridge or barrel elements 63 be as close as possible to the web or plate portion of channel 61, since mounting of an element 63 an excessive distance above the web of channel 61 may result in undesirable results including tipping over of the element 63 when the associated string is picked strongly or sharply.
  • each string may then adjust the elective length of each string by turning the associated screw 70 to shift the barrel 63 longitudinally of the string.
  • This adjustment is made with reference to string harmonics and in a manner known to the art. It is pointed out that before this adjustment is made the guitarist makes certain that the rock post assemblies 62 are coaxial with thimbles 68, and are not tipped to either of the positions illustrated in Figure 7.
  • the friction of the strings 13 upon the barrels 63 then causes the barrels 63 to move with the strings instead off envases slidingY relative thereto; so that the barrels and support channel' 61 rock with the' assemblies 62 about' the pivotor' fulcrum'points at the lower ends of screws 66.
  • Such rocking occurs due to operation off the tremolo device 16 to tension or relax the strings 13, as previously stated.
  • the instrument is thenl in condition to be played with tremolo operation.
  • the guitarist causes the handle 52 of the control arm S1 to ride in his hand, this being permitted due to the pivotal relationship-between stem 53 and secket'54.
  • the guitarist moves the handleSZupwardly andvdownwardly, causing rocking of string plate or lever 24 between the phantom line position shown in Figure 4, or between various intermediate positions.
  • Such rocking of the string plate eects relaxation or tensioning'. of strings 13 to lower or raise the pitch thereof and thus produce the tremolo both above and below perfect pitch.
  • the bridge channel 61 moves ⁇ to the right to the position shown in solid lines n Figure 7 Vor to a similar position.
  • the bridge 61 moves to the phantom line position of Figure 7 or to asimilar position.
  • a musical instrument of the lute' class which comprises a ⁇ body, a neck connected toI one end of said body,
  • saidl bridge element includes a ⁇ plurality of individual bridges one for each string, a support plate for said individual bridges, and means to shift said individual bridges independently both longitudinally of said strings and toward and away from said support plate; and in which said means to pivotally associate said bridge element with said body includes relatively long rocker posts connected'f to said support plate and adjustable in length to vary the spacingibetween said support plate and said body.
  • a lbridge for a guitar or the like which comprises a pair of sockets adapted to be mounted in the body of said guitar and having fulcrum or pivot surfaces at the lower inner portions thereof, a bridge channel, a pair of sleeves connected to said bridge channel and extending downwardly into said sockets, said sleeves being much smaller in diameter than said sockets, a pair of screws threadedly associated with said sleeves and extending downwardly therefrom for engagement with said fulcrum or pivot surfaces of said sockets, a plurality of threaded barrels mounted on the upper surface of said bridge channel between the flanges thereof with their axes generally parallel to the plane of said sleeves and said screws, a pair of threaded legs threaded downwardly through each of said threaded barrels for en.- gagement with the upper surface of the web of said bridge channel, said threaded legs extending perpendicular to the axis of each threaded barrel and also perpendicular to said channel web, a plurality of screws rotatably inserted through one of said said bridge
  • a string plate Llever element connected to at least one of said strings, said lever element having a pivotal association with said instrument, said string being connected to anend portion of said lever, yresilient means operatively associated with said lever, and a stop means on said instrument, opposed to said resilient means and in operative association with said lever.
  • lever element is pivotally associated with said instrument by means of a knife-edge shaped element mounted on said instrument and forming a fulcrum, and in which 10 said lever element is indented toreceive the knife edge of said fulcrum element.
  • the means to elect pivotal association between said lever element and said instrument include a pivot element associated with the body of said instrument, in which means are provided to connect all strings of said instrument to said lever element on one side of said pivot element and relatively close thereto, in which said resilient means comprises spring means operating between said body and a portion of said lever element located on the other side of said pivot element and relatively remote therefrom, said spring means being adapted to counterbalance the tension of said strings to thereby maintain said lever element in lloating relationship, in which means are connected to said lever element and are manually operable to eifect pivoting thereof about said pivot element to thereby vary the tension of said strings to alter the pitch thereof, in which said stop means comprises a movable element movably mounted on said body, said stop element being movable between a first position adapted to limit the degree of movement of said lever element in the direction effected by an increase of the bias of said spring means, said stop element also being movable to an inoperative position permitting free movement of said lever element, and in
  • said instrument has a body with a recess or opening therein, in which a base plate is xedly mounted over at least a portion of said recess and has a slot therein extending transverse to said strings, in which said lever element has a relatively long force arm portion disposed in said recess beneath said base plate and extending generally parallel thereto, said lever element also having a relatively short force arm portion extending upwardly through said slot, said lever element also having a groove portion between said long and short force arm portions, in which means are provided to connect said relatively short force arm portion to all of the strings of said instrument, in which a knife element is mounted on said base plate in said recess and in engagement with said groove portion of said lever element to provide a fulcrum therefor and to divide said lever element into said relatively long and relatively short force arm portions, in which said stop means comprises a stop movably mounted on said base plate in said recess and adapted when in operative p0- sition to prevent movement of said relatively long

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Description

Feb. 28, 1961 2,972,923
C. L. FENDER FLOATING TREMOLO AND BRIDGE CONSTRUCTION FOR LUTE-TYPE MUSICAL INSTRUMENTS 2 Sheets-Sheet 1 Filed Nov. 6, 1958 7 Afr rop/vs Y Feb. 28, 1961 c. L. FENDER 2,972,923
FLCATINC TREMoLo AND BRIDGE CONSTRUCTION FCR LUTE-TYPE MUSICAL INSTRUMENTS Filed Nov. s, 1958 2 sheets-sheet 2 IN V EN TOR. 6 6 ZAPE/vcf L .F2/vof@ rop/VE Y FLOATING rianrvroto AND BRIDGE CON- srRUcTioN Fon turn-TYPE MUSICAL INSTRUMENTS Clarence L. Fender, 2212 E. Revere, Fullerton, Calif.
Filed Nov. 6, 1958, Ser. No. 772,310
14 Claims. (Cl. 84-313) This invention relates to a tremolo and bridge construction for stringed instruments, particularly guitars and similar lute-type instruments. The invention also relates to a method of tuning a tremolo-type stringed instrument.
Conventional tremolo and bridge devices for guitars and the like are characterized by the presence of one or more of a number of defects and limitations, some of which will now be briefly indicated. In tremolo devices of the floating or balanced variety, in which the string tension is counter-balanced by a spring bias, the amount of friction present is frequently such that the neutral position is not achieved with suicient accuracy and reliability to insure maintenance of proper intonation. Furthermore, and very importantly, such balanced or floating tremolo devices are so constructed that it is a difiicult and laborious operation to replace one or more strings and effect proper tuning thereof. This is because the breaking of a string results in an imbalance between the over-all string tension and the counterbalancing spring bias, and has the etfect of causing the unbroken strings to become sharp. After the 'broken string is replaced, the tuning thereof has the effect of changing the tuning of the remaining or unbroken strings. The result is that the strings must be alternately and repetitiously tuned, by a tedious trial and error procedure, until perfect tuning of all strings is again achieved. From the above, it will also be understood that the breaking of a string during a performance renders the entire instrument substantially unusable for the performance, since the remaining strings will then be out of tune and since'proper tuning cannot again be achieved except through a long and tedious procedure.
With relation to conventional bridge constructions, it is important that each stringhave its ownndividual bridge which is fully adjustable in a number of directions. Furthermore, it is undesirable that each tremolo movement effect reltaive sliding or rubbing between each string and the associated bridge element, which makes it important that the bridge move automatically with the tremolo means. However, the bridge movement should not be such that the bridge elements change their vertical positions relative to the guitar body by any appreciable amounts, or that the bridge elements tip or cock relative to the guitar body.
in view of the above and other factors characteristic of conventional tremolo and bridge devices, it is an object of the present invention to provide a musical instrument characterized by the absence of friction, extreme simplicity of string replacement and tine tuning, complete adjustability of the individual bridge elements relative to the strings, and the absence of any sliding or rubbing between the stringsY and the bridge elements during tremolo movements or at any other time.
A further object of the invention is to provide a tremolo device of the balanced type having a knife-edge fulcrum, stop means to determine a neutral position at which tuning may be achieved and maintained, and adjustable spring means to counteract the string tension.
nited States Patent O A further object of the invention is to provide a floating bridge device which moves with the strings during tremolo operation without friction, and which is fully adjustable to change the effective length of each string, change the elevation of each string above the body and the neck, change the lateral position of each string, and change the elevations of the strings as a group.
A further object is to provide a bridge construction having a plurality of individual bridge elements, each of said elements being formed with a plurality of grooves into which a string may be selectively mounted to thereby adjust the lateral string position.
A further object is to provide a tremolo device in which grip means are provided to movably associate the tremolo control arm with other elements of the device and in such manner that long-continued movement of the control arm with the hand of the guitarist does not create undesirable looseness or play tending to prevent the control arm from remaining in a desired position.
A further object is to provide a balanced tremolo incorporating spring means which are readily adjustable from the exterior of the guitar without removal of the cover plate, in combination with stop means which operate in conjunction with the spring means to determine the desired neutral position at which tuning may be readily and accurately achieved and maintained.
A further object is to provide a tremolo device incorporating means to shift from tremolo to standard operation without alteration of tuning, and incorporating means to maintain the proper tuning of the remaining strings after one string has broken.
A further object is to provide a method of tuning a tremolo-type stringed instrument.
rihese and other objects and advantages of the invention will be more fully set forth in the following specification and claims, considered in connection with the attached drawings to which they relate.
In the drawings:
Figure 1 is a perspective view illustrating a guitar incorporating tremolo and bridge means constructed in accordance with the present invention;
Figure 2 is a greatly enlarged fragmentary plan view of the tremolo and bridge portion of the guitar of Figure l;
Figure 3 is an enlarged fragmentary transverse sectional view taken on line 3 3 of Figure 2;
Figure k4 is an enlarged fragmentary longitudinal sectional view taken on line 4-4 of Figure 2, and illustrating the tremolo elements in various positions;
Figure 4a is an enlarged schematic illustrating the knife-edge relationship between the knife blade and the string plate;
Figure 5 is an enlarged longitudinal fragmentary sectional view taken on line 5-5 of Figure 2, but omitting a showing of the wooden body of the guitar;
Figure 6 is an enlarged transverse fragmentary section on line 6-6 of Figure 4, showing the frictional gripping means for the stem of the tremolo control arm; and
Figure 7 is a fragmentary section taken on line 7 7 of Figure 3 and illustrating a rocking post at one end o the floating bridge means.
Referring to the drawings, the invention is illustrated as embodied in an electric guitar having a body 10, fretted neck 11, head 12, strings 13, and electromagnetic pickups 14 and 15. The pickups 14 and 15 are se1ectively operable to sense the vibrations of strings 13 and transmit currents corresponding thereto to suitable amplifying and loud-speaker means, not shown.
The strings 13 are stretched or tensioned between suitable tuning pegs or screws (on head 12) and the tremolo device 16 which forms part of the present invention. The
. 3" tremolo device lcooperates with a floating bridge. 17 to provide a perfect tremol'o action in the 'absence of friction and with complete adjustability.
Proceeding rst to adetailed 'description of -thetreniolo device 16, and with particularreferenceto Figures?. and"4-6, the major portion of the tremolo device is mounted in a'suitable cavity or recess 18'provided in body 102 The recess or cavity is covered by a base or cover plate 19 which is fixedly secured to the guitar body by means of screws 21. Base' plate 19 is formed with a transverse slot 22 to receive, in non-interfering relationship, the upwardly extending force-arm portion 23 of a string plate orV lever 24. String plate24 also has a relatively long force-'arm portion 26' disposed in recess 18 beneath and generally parallel to base plate 19. Plate'or lever 24 may also be termed'a` string-engaging element, or aconnector element.
v The'long and short force- arm portionsl 26 and 23 of string plate 24 meet each other at a lrelatively sharp pivot langle or groove 27 (Figure 4a); Such angle or groove is adapted' to seat fulcrum means in the forrn of two knife-blade portions 28 of a fulcrum element 29, the latterV being* suitably secured beneath base plate 19 by means of screws 30. The knife-blade portions 28 are provided at opposite sides of fulcrum element 29, andare formed of hardened steel asis the string plate 24. The result is a' substantially frictionless *pivoting action between the knife-bladeportions 28 and the string plate 24 'at the pivot angle or groove 27.r
The upwardly extendingforce-arm portion 23 of string plate or lever 24 is provided' above base plate 19 with `a" plurality of transversely-spaced holes 31 adapted to receive the ends' of the respective strings 13. Thestring ends are connected to eyelets 32 which seat beneath an upper hook'portion 33 of the. string plate to maintain the strings in tensioned condition; `Since the strings are tensioned across the floating bridge 17 to the tuning screws on head` 12 of the instrument, it will be understood that the strings provide a very substantial force tending to effect clockwise pivoting or' string lever 24 on the knife-edge means 28, as viewed' in Figuresl 4 and'S.
Spring bias means are'provided to adjustab'ly counterbalance the above-indicated force' exerted by the tensioned strings13, and' are'illustratedto comprise a'helical compression spring 34' having its' upper end seated beneath the outer edge of the relatively long force arm 26 of string plate or lever 24. The lower end of spring 34 seats on an adjustable seat element 36' comprising a' frustoconical nut which is threaded over a bolt 37. The headl of bolt 37 rests on the upper surface of base plate 19, and the shank of the bolt extends downwardly through plate 19 and through a relatively large opening in force arm 26. Turning of bolt 37, by means of a screw-driver or the like, has the eifect of raising or lowering seat element 36 depending upon the direction of bolt rotation, it being understood that the force of spring 34 is suicient to prevent rotation of the seat or nut 36.
An inertia plate 38 is suitably connected beneath the outer portion of force arm 26', and has an opening 39 into which the upper end of spring 34 is. inserted for seating upon the lower surface of force arm 26. The inertia plate 38 thus serves to effect' proper positioning of the upper end of the spring, and also serves to give the string plate 24 sutiicient mass that it will not tend to vibrate with the strings 13 and provide an undesired damping action. The tremolo action thus takes place only .upon deliberate pivoting of the string lever 24 as will be indicated subsequently.
Stop means 41 are provided to determine the neutral or intermediate position of string plate 24, to thereby greatly facilitate tuning and string replacement and also Vto effectother functions as will be indicated. The ,stop means 4is illustrated to comprisea short cylinder which is slidably mounted beneath. base plate 19 above the extreme outer edge of force-arm portion 26 of the string plate. More specifically, the cylinder 41 is threaded, riveted, or otherwise securedover the shank 42 of an actuating button 43 Which is disposed above the base plate 19. Button 43 seats on a at spring 44, the` latter providing frictional resistance to sliding of the button (and thus stop means 41) longitudinally of the instrument and between the limits permitted by a longitudinal slot 46 inthe base plate.
When the stop 41 is in the retracted position shown in Figure 4, it is completely clear of the string plate 24 and does not interfere with pivotal movement of the string plate between the positions illustrated. On the other hand, when the stop is slid to the operative position shown in Figure 5, it prevents upward pivoting of the string plate past the illustrated position. Since the force arm 26 of string lever 24 is much longer than the force arm 23V thereof, it is pointed out that the positioning of the outer end of force arm 26 in engagement with, or very close to, stop 41 effects a very precise positioning of the eyelets 32 at the ends of strings 13. Thus, even in situations where the outer end of force arm 26 is not exactly even with the lower surface of stop 41, but is still close to such lower surface, the eyelets 32 will be very close to the neutral or intermediate positions assumed when the precise position ot Figure 5 is achieved.
The pressure of bias spring 34 is adjusted, by turning the bolt 37 and as will be described'in detail subsequently, so that the string plate 24 will be in theneutral position shown in Figure 5, even though the stop 41 is shifted away from the illustratedrstop position, when the strings 13 are all'perfectly in tune; Should a string then break, it merely required to shift the stop 41 to the Figure 5 position. The outer end of the string plate 24 will then be biased upwardly (Figure 5) against the lower surface of stop 41, since the breaking of a string reduces the string tension tending to effect clockwise pivoting of the string` plate 24. --However, as soon as the broken string is replaced and properly tuned, the over-all tension of strings"13will again be such that string plate 24 will remain in the neutral position (Figure 5) even after the' stop'A 41 is shifted to its inoperative position (Figure 4). If it is impossible to replace the string before continuing playing, the stop 41 still prevents the remainder of the strings'from being out of tune.
The string plate 24 is manually pivoted about fulcrum 2.8-, in order to effect the tremolo action when stop 41 is inoperative, Figure 4, by means of a control arm 51 having av handle 52 adapted to ride with the hand of the guitarist. Such riding is permitted by pivotally mounting a downwardly-extending lstern portion 53 of controlv arm 51 in a socket device 54 which is mounted in the force arm 26 and the adjacent inertia plate 38. Stated more specifically, the socket device comprises a sleeve 56 which extends upwardly through an opening 57 in base plate 19 with sufficient clearance to prevent any interference therebetween. Sleeve 56 is sufiiciently large in internal diameter to permit insertion of stem 53 without substantial binding, and has an externally threaded portion which is threaded into the force arm 26 and into inertia plate 38. Such threading is accomplished by means o f anut or wrench-hold portion 58 having integral, downwardly-extending gripping bars or segments 59 (Figure 6) the normal internal diameter of which is slightly smaller than that ofv stem 53. The nut 58 and gripping bars 59 are formed of hard, resilient metal, so that the gripping bars 59 may be bent outwardly sufficiently to permit insertion of the stem to the position shown in Figure 4. However, the gripping bars 59 then resiliently grip the stem to resist movement thereof and provide a drag against pivoting of the steam in the socket means. y .y
The described construction of socket 54 is superior to previously-known constructions, in which the stem 53 was threadedinto a socket, since the gripping bars 59 provide the above-mentioned drag even though the device has been used for a long period of time. It is important that the control arm 51 remain at any position desired by the guitarist, since otherwise it will pivot due to the action of gravity, or due to movement of the guitar, and interfere with playing. Threaded constructions have the desired effect for a certain period of time, but after substantial use the threads wear and result in play or clearance which causes the handle to pivot loosely in the socket and not remain in the position desired.
Proceeding next to a detailed description of the floating bridge 17 which moves with the strings 13 upon actuation of the control arm 51 to pivot string plate 24 about knife means 28, this comprises a support channel or plate 61 which is rockably mounted upon a pair of rock post assemblies 62. A plurality of individual bridge elements 63 are adjustably supported on the upper surface of the web of channel 61 and provide support for the individual strings 13. It is an important feature of the iloating bridge means 17V that the rock post assemblies are relatively long, and pivot about support or fulcrurn points disposed a substantial distance beneath the strings 13, in order that the bridge movement resulting from shifting of the strings 13 does not effect substantial tipping of channel 61 but instead merely causes the channel to move longitudinally of the instrument. Stated otherwise, the channel 61 does not tip, cock or toggle a substantial amount, to thereby cause substantial variation in the elevation of string 13, but instead merely moves longitudinally with the strings 13 between the positions shown in solid and phantom lines in Figure 7. The pivotal movement of channel 61 is about an axis parallel to the axis of` string lever 24, and disposed a substantial distance below the face of the body 10.
Y Each rock post assembly 62 is adjustable in length, and to this end is constructed with an internally-threaded sleeve element 64 having threadedly inserted therein a threaded pin or screw 66. The upper end of each sleeve 64 is rigidly secured in an opening in the web of bridge channel 61, the relationship being such that a small wrench may be inserted downwardly through the sleeve and into a socket 67 (Figure 7) in the upper end of screw 66 in order to effect adjustment of the latter. The lower end of each screw 66 is rounded to seat in a rounded socket at the bottom of a thimble 68 which is seated xedly in a round hole in body 10. The internal diameter of each thimble 68 is substantially greater than that of the sleeve 64 inserted therein, permitting rocking of each rock post assembly 62 without interference. It is therefore a simple matter to alter the effective length of the rock post assembly 62 by merely inserting the previously-indicated wrench and turning the pins or screws 66.
Each of the individual bridge elements 63 comprises a short cylinder or barrel which is externally threaded to provide support for a string 13 at any one of a plurality of selected lateral positions. The depths of the threads of the various cylinders 63 are related to the diameters of the strings 13 to be associated therewith, in such manner as to insure that the strings will remain in desired grooves in which they are placed by the guitarist.
Each bridge 63 is supported on a pair of leg elements 69 comprising screws threaded transversely therethrough and extending downwardly into engagement with the web of bridge channel 61. The legs or screws 69 may be turned, by means of a suitable wrench, to adjust the elevation of the bridge element above the bridge plate. Adjustment of each bridge elment 63 longitudinally of the instrument is elected by means of a screw 70 which is rotatably inserted (not threaded) through one o f the webs of bridge channel 61, and is threaded through a bridge element 63 perpendicular to the axis thereof and also perpendicular to a plane containing the legs 69. A helical compression spring 71 is provided around each screw 70 to maintain the associated bridge element 63 spaced the maximum permitted distance away from the channel tlange through which screw 70 is inserted.
Method of tuning and operation Let it be assumed that the instrument is initially without strings, and that spring 34 is relatively loose. The guitarist then inserts the strings 13 through the holes 31 in force arm portion 23 of string lever or plate 24, and connects them in taut condition, but not up to pitch, to the tuning screws on thead 12. Each string is mounted across an individual bridge or barrel element 63.
The guitarist then pushes actuating button 43 to slide the stop 41 to operative position or to the left as viewed in Figures 4 and 5, after which he turns the screw 37 to effect substantial upward shifting of seat element 36. The latter etects compression of spring 34 to force the relatively long force arm portion 26 of string plate 24 relatively tightly against stop 41. Such spring tightening is caused to be suicient that the string plate will not pivot away from the stop 41 even though the tension of strings 13 is increased until the strings are brought up to pitch.
The strings 13 are then brought up to perfect pitch, and all adjustments of the tuning screws and of the bridge 17 are made. It is emphasized that each string 13 may be tuned and perfectly adjusted individually, without regard to the other strings. This would not be possible were it not for the presence of the stop 41 which operates, in conjunction with the tightly set spring 34, to lock the string plate 24 during adjustment of the string tension for tuning purposes.
The bridge 17 is adjusted in a number of ways, the first of which relates to changing the height of the strings 13 above the fretted neck 11. In this regard it is desired that the individual bridge or barrel elements 63 be as close as possible to the web or plate portion of channel 61, since mounting of an element 63 an excessive distance above the web of channel 61 may result in undesirable results including tipping over of the element 63 when the associated string is picked strongly or sharply.
To the above end, wrenches are inserted into the sleeves 64 to turn the threaded pins or screws 66 in a direction lengthening the rock post assemblies 62, and until the bridge channel 61 is relatively far above the face of body 10. The various leg elements 69 are then rotated to shift the associated threaded barrels 63 and thereby adjust the exact elevation of each string 13 above the neck. If it develops that one or more'of the barrels 63 must be shifted ydownwardly into engagement with the web of channel 61, the screws 66 are turned in directions effecting lowering of channel 61. If, on the other hand, it develops that none of the barrels 63 is very close to the web of channel 61, the pins 66 are turned in directions effecting further elevation of the channel 61. The end result is that one or more barrels 63 should be relatively close to the channel web, and the remainder of the barrels spaced thereabove by different distances as desired by the particular guitarist and as required by the neck construction.
The guitarist then makes minute adjustments in the lateral positions of the strings 13 on the bridge. This is accomplished by shifting the strings in one lateral direetion or the other until various threads of barrels 63 are engaged. Such an adjustment constitutes a substantial improvement over previous constructions, in which only a single bridge groove was provided for each string 13.
The guitarist may then adjust the elective length of each string by turning the associated screw 70 to shift the barrel 63 longitudinally of the string. This adjustment is made with reference to string harmonics and in a manner known to the art. It is pointed out that before this adjustment is made the guitarist makes certain that the rock post assemblies 62 are coaxial with thimbles 68, and are not tipped to either of the positions illustrated in Figure 7. The friction of the strings 13 upon the barrels 63 then causes the barrels 63 to move with the strings instead off envases slidingY relative thereto; so that the barrels and support channel' 61 rock with the' assemblies 62 about' the pivotor' fulcrum'points at the lower ends of screws 66. Such rocking occurs due to operation off the tremolo device 16 to tension or relax the strings 13, as previously stated.
After the -guitar'i's completely adjusted, and in perfect tune, the guitarist turns the screw 37 (Figures 4 and 5) in a direction effecting lowering of the seat element 36 and consequent reduction in the pressure of spring 34. This should be accomplished relatively slowly, and is accompanied'by a slight tapping by the hand of the guitarist against' the underside of control arm 5l. As soon as the pressure of spring- 34is reduced sufficiently to permit force arm 26 to pivot a slight distance away from the underside of stop 41, such slight tapping upon-the underside of the control arm produces a click which is audible to the guitarist. The guitarist then knows that the sp-ring 34 is almost in perfect balance with strings 13. He then turns the screwl 37 a very slight amount in the opposite direction, until the upper surface of force arm 26 is in very light engagement with the underside of stop 41.
The guitarist then pushes button 43 in a direction to shift stop 41 to the inoperative position shown in Figure 4. Because of-th'e balancing operation previously described, suchshifting of the stop 41 out of the way of force arm 26 does not-effect any movement, or only an infinitesimal movement, of the string lever 24.
The instrument is thenl in condition to be played with tremolo operation. The guitarist causes the handle 52 of the control arm S1 to ride in his hand, this being permitted due to the pivotal relationship-between stem 53 and secket'54. When atremolo is desired, the guitarist moves the handleSZupwardly andvdownwardly, causing rocking of string plate or lever 24 between the phantom line position shown in Figure 4, or between various intermediate positions. Such rocking of the string plate eects relaxation or tensioning'. of strings 13 to lower or raise the pitch thereof and thus produce the tremolo both above and below perfect pitch. As the strings 13 are relaxed, the bridge channel 61 moves `to the right to the position shown in solid lines nFigure 7 Vor to a similar position. As the strings aretightened, the bridge 61 moves to the phantom line position of Figure 7 or to asimilar position.
The above rocking actions occur Without engagement or interference between any of the described elements. The only points of friction are at the bottoms of screws 66 land at the knife-edge elements 28. The friction produced at these points is so extremely small that, upon release of the control arm 51, the stringplate 24 returns to the exact neutral position producing the perfect pitch to which the instrument was tuned. In fact, the construction may be assumed to be frictionless.
Should one of the strings 13 break while the musician isl actually engagedV in playing a piece during a public performance, the musician may maintain the perfect pitch ofthe remaining strings by merely sliding the stop button 43 to the left and thereby causing the string plate 24 to remain in the neutral position shown in Figure 5. This movement of the stop may be accomplished after downward pivoting of arm 51 to overcome the increased resultant upward biasfon arm 26. The musician may thereafter, at the first available opportunity, replace the broken string in a minute or two and tune it without reference to the tuning of the other strings. When the broken string is properly tuned, it is known that the string plate 24 will again remain at the neutral position even after the stop 41 is slid back to the inoperative position shown in Figure 4. Tremolo operation may then be resumed.
Various' embodiments of the present invention, in addition to what has been illustrated and described in detail, may be employed without departing from the scope of the accompanying claims.
I claim: p 1. A musical instrument of the lute' class, which comprises a` body, a neck connected toI one end of said body,
a plurality ofstrings connected 'tc -tuning Vscrews at, thev outer `end portionA of said neck, said strings'extending longitudinally above saidneck and over said body, a. stringelernent pivotallyA connected to said body for pivotal movement about an axis transverse to said strings',v means-to connect said. string element to said strings on oneside of said. axisto thereby tend to effect pivotal..
movement of said string element in a predetermined direction around said axis, spring bias means provided between said spring element and saidl body and tending to effect pivotal movement of said spring element inthe opposite direction about said axis to thereby counter-` balance the tension of said strings, adjustable stop means movable to an operative position which limits the` amount of pivoting of said string element due tothe action of said spring bias means and maintaining-.said
string element in a predetermined position despite an increase in the pressure exerted by said spring bias means, means to adjust the pressure of said spring bias means until the spring tension on said string element is` exactlyv neutralized when said string element is in said predetermined position, a bridge element mountedA be tween said strings and said body and located intermetioned axis and spaced therefrom whereby said bridgeelementmay move with said strings, the distanceY between said bridge element and' said second axisbeing sufficiently great that movement of said bridge element with said strings produces'only a slight tipping of said; bridge element, and manually-operable means to. effect pivoting of said spring element about said.` first-mentioned axis when said stop means is in inoperative position in order to increaseV and decrease the tension on` said strings and thus provide a tremolo effect.
2. The invention as claimed in claiml 1, in which saidl bridge element includes a` plurality of individual bridges one for each string, a support plate for said individual bridges, and means to shift said individual bridges independently both longitudinally of said strings and toward and away from said support plate; and in which said means to pivotally associate said bridge element with said body includes relatively long rocker posts connected'f to said support plate and adjustable in length to vary the spacingibetween said support plate and said body.
3. A lbridge for a guitar or the like, which comprises a pair of sockets adapted to be mounted in the body of said guitar and having fulcrum or pivot surfaces at the lower inner portions thereof, a bridge channel, a pair of sleeves connected to said bridge channel and extending downwardly into said sockets, said sleeves being much smaller in diameter than said sockets, a pair of screws threadedly associated with said sleeves and extending downwardly therefrom for engagement with said fulcrum or pivot surfaces of said sockets, a plurality of threaded barrels mounted on the upper surface of said bridge channel between the flanges thereof with their axes generally parallel to the plane of said sleeves and said screws, a pair of threaded legs threaded downwardly through each of said threaded barrels for en.- gagement with the upper surface of the web of said bridge channel, said threaded legs extending perpendicular to the axis of each threaded barrel and also perpendicular to said channel web, a plurality of screws rotatably inserted through one of said flanges and threaded one through each of said threaded barrels perpendicular to the axes thereof and also perpendicular to said plane, and a helical compression spring mounted around each of said last-mentioned screws and seated between the associated channel flange and threaded barrel.
4. In a guitar-type instrument having a plurality of tuned strings thereon, a string plate Llever element connected to at least one of said strings, said lever element having a pivotal association with said instrument, said string being connected to anend portion of said lever, yresilient means operatively associated with said lever, and a stop means on said instrument, opposed to said resilient means and in operative association with said lever.
5. The invention as claimed inl claim 4, in which said string plate lever element is connected to a plurality of the strings of said instrument, in which said stop means is movably mounted on said instrument for manual movement to a position out of operative association with said lever element, and in which said resilient means is disposed in opposition to the tension of said plurality of strings.
6. The invention as claimed in claim 4, in which said string plate lever element is connected to a plurality of the strings of said instrument, in which manually-operable actuating means are connected to said lever element to eect pivoting thereof and thus vary the pitch of said plurality of strings, and in which said resilient means is disposed in opposition to the tension of said plurality of strings.
7. The invention as claimed in claim 4, in which said string plate lever element is connected to a plurality of the strings of said instrument, in which said resilient means is disposed in opposition to the tension of said plurality of strings, in which manuallyoperable actuating means are connected to said lever element to effect pivoting thereof and thus vary the pitch of said plurality of strings, and in which said stop means is movably mounted on said instrument for manual movement between a position in operative association with said lever element and a position out of operative association with said lever element.
8. The invention asclaimed in claim 4, in which said string plate lever element is connected to a plurality of the strings of said instrument, in which said resilient means is disposed in opposition to the tension of said plurality of strings, and in which manually operable means are provided to vary the bias exerted on said lever element by said resilient means, said last-named means being adapted to adjust said bias until it counteracts the combined tension of said plurality of strings when said lever element is in the predetermined position at which movement thereof in at least the string-tension increasing direction is prevented by said stop means.
9. The invention as claimed in claim 4, in which said string plate lever element is connected to a plurality of the strings of said instrument, in which said resilient means is disposed in opposition to the tension of said plurality of strings, in which manually-operable actuating means are connected to said lever element to effect pivoting thereof and thus vary the pitch of said plurality of strings, in which said stop means is movably mounted on said instrument for manual movement between a first position in operative association with said lever element and a second position out of operative association with said lever element, and in which manually operable means are provided to vary the bias exerted on said lever element by said resilient means, said lastnamed means being adapted to adjust said bias until it counteracts the combined tension of said plurality of strings when said lever element is in the predetermined position at which movement thereof in at least the string-tension increasing direction is prevented by said stop means, whereby said plurality of strings may all be tuned when said stop means is in said iirst position and will remain tuned when said stop means is shifted to said second position.
l0. The invention as claimed in claim 4, in which said lever element is pivotally associated with said instrument by means of a knife-edge shaped element mounted on said instrument and forming a fulcrum, and in which 10 said lever element is indented toreceive the knife edge of said fulcrum element.
11. The invention as claimed in claim 4, in which said string plate lever element is connected to a plurality of the strings of said instrument, in which manually-operable actuating means are connected to said lever element to etect pivotingthereof and thus vary the pitch of said plurality of strings, and in which a bridge element is pivotally mounted on said instrument in operative association with said plurality of strings, said bridge element being adapted to pivot about an axis which is transverse to said strings and is disposed suiciently far from said strings that operation of said actuating means does not effect substantial tipping of said bridge element.
12. The invention as claimed in claim l1, in which said axis is disposed a substantial distance below the face of the body of said instrument.
13. The invention as claimed in claim 4, in which the means to elect pivotal association between said lever element and said instrument include a pivot element associated with the body of said instrument, in which means are provided to connect all strings of said instrument to said lever element on one side of said pivot element and relatively close thereto, in which said resilient means comprises spring means operating between said body and a portion of said lever element located on the other side of said pivot element and relatively remote therefrom, said spring means being adapted to counterbalance the tension of said strings to thereby maintain said lever element in lloating relationship, in which means are connected to said lever element and are manually operable to eifect pivoting thereof about said pivot element to thereby vary the tension of said strings to alter the pitch thereof, in which said stop means comprises a movable element movably mounted on said body, said stop element being movable between a first position adapted to limit the degree of movement of said lever element in the direction effected by an increase of the bias of said spring means, said stop element also being movable to an inoperative position permitting free movement of said lever element, and in which means are provided to adjust the bias of said spring means.
14. The invention as claimed in claim 4, in which said instrument has a body with a recess or opening therein, in which a base plate is xedly mounted over at least a portion of said recess and has a slot therein extending transverse to said strings, in which said lever element has a relatively long force arm portion disposed in said recess beneath said base plate and extending generally parallel thereto, said lever element also having a relatively short force arm portion extending upwardly through said slot, said lever element also having a groove portion between said long and short force arm portions, in which means are provided to connect said relatively short force arm portion to all of the strings of said instrument, in which a knife element is mounted on said base plate in said recess and in engagement with said groove portion of said lever element to provide a fulcrum therefor and to divide said lever element into said relatively long and relatively short force arm portions, in which said stop means comprises a stop movably mounted on said base plate in said recess and adapted when in operative p0- sition to prevent movement of said relatively long force arm portion toward said base plate after a predetermined position of said lever element has been achieved, in which said resilient means comprises a compression spring disposed in said recess and engaged with said relatively long force arm portion at the outer end portion thereof, in which adjustable seat means are provided for said spring and are positioned to cause said relatively long force arm portion to pivot toward said stop, said seat means including means operable from the outer side of said base plate to adjust the bias of said spring until the tension of said strings is exactly counteracted when 11 112 sailevee element-isn engagementwith said stop, 21ndl 1981395395 K'auiman J an. 5, 1932` ig which an, actuating arm is connected to s'ad leverI 2,073,226 Schrickel Mar. 9, 19,37` element to effect limitedl pivo'tal` movement thereof. 2,152,783: Beauchamp Apr. 4, 1939 2,573,254 Fender Oct. 30, 1951 References Cited in the le: of thisA patent 51 2,740,313. McCarty Apr, 3I 19756 UNITED STATES PATENTS 2,741,146 Fender Apr. 10, 1956' 2786 382 Melita Mar. 26 1957 462,519 Van Dusen Nov. 3,. 1891 -j 4 1,707,069 Wenden Mar. 26, 1927-9 25846915 Dana Aug' 12 1958 UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No., 29'a'2923 l February 28fJ 1961 Clarence-: L@ Fender It is hereby certified that error appears in the above numbered patent requiring correction and that the said Lettere Patent should read as corrected below.
Column 8xE lines l()`J llY 2O :and 34V for 'epring` each occurrence(J read m string -wo Signed and sealed thie 12th dey of Septembexn 1961.,
(SEAL) Attest:
ERNEST W. SWIDER DAVID L. LADD Attesting Officer Commissioner of Patents USCOMM-DC UNITED STATES PATENT OFFICE CERTTETCATE EOECTIQN Patent No., 2V972V923 February 285, 196].
(llamameV L@ Fender It is hereby certified that error appears in the above numbered patent requiring correction and that the said Letters Patent should read as corrected below.
Column 8q lines lO7 ll.J 2O and 34V for 'sprihgmg each occurrence,J read m string ma Signed and sealed `This 12th dey of September 1961.,
(SEAL) Attest: l e
ERNEST W. SWIDER DAVID L. LADD Attesting Officer Commissioner of Patents USCOMM-DC
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US20080229898A1 (en) * 2007-03-23 2008-09-25 Gibson Guitar Corp. Tremolo Mechanism For A Stringed Musical Instrument With Pivoting String Anchor
US20080229899A1 (en) * 2007-03-23 2008-09-25 Gibson Guitar Corp. Tremolo Mechanism For A Stringed Musical Instrument With Angled Saddle Rollers
US7504578B2 (en) 2006-10-30 2009-03-17 Lewry Benjamin T System and method for providing a musical instrument having a monitor therein
US20100275756A1 (en) * 2009-04-29 2010-11-04 John Woodland Ajustable bridge for a stringed instrument
US20120103171A1 (en) * 2008-10-28 2012-05-03 Larry David Lashbrook Bridge for a Stringed Musical Instrument
US8710337B1 (en) 2010-03-31 2014-04-29 Fernando R. Gomes Tone enhancement bracket
US8779259B1 (en) * 2013-01-28 2014-07-15 Mark V. Herrmann Friction reduction in an electric guitar
US9478198B1 (en) 2015-06-18 2016-10-25 Brian H. Daley Recessed concave fingerboard
US9502010B1 (en) 2014-08-22 2016-11-22 William Cardozo Guitar tremolo bridge
US9691364B1 (en) * 2016-04-22 2017-06-27 Geoffrey Lee McCabe Integrated pivot mechanism for fulcrum tremolo
US10818272B1 (en) 2019-12-27 2020-10-27 Fender Musical Instruments Corporation Bridge mono-saddle for stringed musical instrument
US11100905B1 (en) 2020-10-20 2021-08-24 Daniel Swartz Tremolo device
US11837201B2 (en) 2020-09-30 2023-12-05 Christopher Clay Swope Adjustable bridge for stringed instrument device and method

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US3056329A (en) * 1960-09-01 1962-10-02 Paul D Butts Tremolo device for stringed instruments
US3181409A (en) * 1961-12-06 1965-05-04 Ormston Burns Ltd Bridges for stringed instruments such as for guitars
US3237502A (en) * 1964-05-11 1966-03-01 Semie A Moseley Stringed musical instrument
US3241418A (en) * 1964-06-05 1966-03-22 Columbia Records Distrib Corp Guitar incorporating inertial vibrato device
US3260148A (en) * 1964-11-12 1966-07-12 Columbia Records Distrib Corp Mute or damper device for a guitar
US3290980A (en) * 1965-02-24 1966-12-13 Columbia Records Distrib Corp Bridge constructions for guitars
US3411394A (en) * 1965-06-29 1968-11-19 Mirco Frets Corp Fretted instruments tremolo-vibrato tuning system
US3326072A (en) * 1965-08-17 1967-06-20 Estey Musical Instr Corp Vibrato construction for lute-type musical instruments
US3443467A (en) * 1967-06-02 1969-05-13 Louis P Richards Stringed musical instrument
US3499357A (en) * 1967-07-21 1970-03-10 Oscar Schmidt Intern Inc Multi-stringed musical instrument
US3478594A (en) * 1967-08-02 1969-11-18 Halliburton Co Variable frequency pressure transducer
US3743751A (en) * 1971-01-28 1973-07-03 R Ibanez Combined musical instrument and drum sound effects unit
US4069733A (en) * 1973-11-16 1978-01-24 Quan Glen D Combined bridge and string anchoring device for stringed musical instruments
US4031799A (en) * 1976-01-26 1977-06-28 Fender C Leo Bridge for stringed instruments
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US4373417A (en) * 1981-06-10 1983-02-15 Cbs Inc. Electric guitar
US4408515A (en) * 1981-07-13 1983-10-11 Sciuto Michael N Stringed instrument conversion kit employing combined bridge/tuning mechanism
US4512232A (en) * 1983-01-13 1985-04-23 Schaller Helmut F K Tremolo tailpiece and bridge device
US4541320A (en) * 1983-01-20 1985-09-17 Sciuto Michael N Stringed instrument saddle lock
WO1984004483A1 (en) * 1983-05-06 1984-11-22 Cbs Inc Snap-in vibrato arm
US4655116A (en) * 1984-05-09 1987-04-07 Hoshino Gakki Co., Ltd. Fine tuning mechanism for guitars and the like stringed instruments
US4681011A (en) * 1984-06-07 1987-07-21 Hoshino Gakki Co., Ltd. Tremolo arm mounting for stringed instrument
US4632005A (en) * 1984-10-01 1986-12-30 Steinberger Sound Corporation Tremolo mechanism for an electric guitar
WO1986002188A1 (en) * 1984-10-01 1986-04-10 Steinberger Sound Corporation Tremolo mechanism for an electric guitar
US4704936A (en) * 1984-10-01 1987-11-10 Steinberger Sound Corporation Tremolo with lever angle control
US4604936A (en) * 1985-01-04 1986-08-12 Fender Musical Instruments Corporation Snap-in vibrato arm
US4632004A (en) * 1985-01-31 1986-12-30 Steinberger Sound Corporation Tremolo device for an electric guitar
US4656916A (en) * 1985-01-31 1987-04-14 Gressett Jr Charles A Tremolo spring adjustment mechanism for electric guitars
US4677891A (en) * 1985-01-31 1987-07-07 Fender Musical Instruments Corporation Tremolo bridge for guitars
US4611523A (en) * 1985-05-17 1986-09-16 Mcfarland John H Device for setting the intonation of the individual strings of a fretted string instrument
US4763555A (en) * 1986-04-25 1988-08-16 Nippon Gakki Seizo Kabushiki Kaisha Tremolo unit mechanism for electric guitar
US4787285A (en) * 1987-10-07 1988-11-29 Gotoh Gut Yugen Kaisha Anchor bolt device for tremold device
US4793233A (en) * 1987-11-06 1988-12-27 Olthoff Kenneth G Mechanism for changing bridge support between alternate modes in stringed musical instruments
EP0338523A2 (en) * 1988-04-21 1989-10-25 Floyd. D. Rose Vibrato apparatus having broken string compensation feature
US4882967A (en) * 1988-04-21 1989-11-28 Rose Floyd D Tremolo apparatus having broken string compensation feature
EP0338523A3 (en) * 1988-04-21 1990-06-06 Floyd. D. Rose Vibrato apparatus having broken string compensation feature
US4864909A (en) * 1988-11-23 1989-09-12 Toney William L Stringed instrument and tremolo apparatus
US5125311A (en) * 1991-01-16 1992-06-30 Fender Musical Instruments Corporation Guitar, and method of manufacturing guitars
US5305819A (en) * 1991-01-16 1994-04-26 Fender Muscial Instruments Corporation Guitar, and method of manufacturing guitars
US5277094A (en) * 1991-02-21 1994-01-11 Hoshino Gakki Co., Ltd. Device for inserting strings
US5311804A (en) * 1993-01-19 1994-05-17 Wilkinson Trevor A Locking mechanism for floating vibrato bridge
US5460072A (en) * 1993-09-20 1995-10-24 Ferdon; Geoffrey W. Tuning block for a guitar with a floating bridge tremolo
USD378596S (en) * 1995-08-22 1997-03-25 Jarowsky William P Semi-acoustic electric guitar
US5682003A (en) * 1995-09-27 1997-10-28 Jarowsky; William P. Semi-acoustic electric guitar
US6100459A (en) * 1997-12-08 2000-08-08 Yost; John A. Tremolo and/or vibrato control system, and methods of constructing and utilizing same
US6015945A (en) * 1998-12-23 2000-01-18 Hipshot Products, Inc. Tremolo bridge apparatus
US6441282B2 (en) * 2000-02-04 2002-08-27 Yamaha Corporation Stringed instrument having height-adjustable bridge assembly
US6875910B2 (en) 2001-01-18 2005-04-05 Warren E. Roh Guitar bridge for improved sound transfer
US7504578B2 (en) 2006-10-30 2009-03-17 Lewry Benjamin T System and method for providing a musical instrument having a monitor therein
US20080229898A1 (en) * 2007-03-23 2008-09-25 Gibson Guitar Corp. Tremolo Mechanism For A Stringed Musical Instrument With Pivoting String Anchor
US20080229899A1 (en) * 2007-03-23 2008-09-25 Gibson Guitar Corp. Tremolo Mechanism For A Stringed Musical Instrument With Angled Saddle Rollers
US20080229900A1 (en) * 2007-03-23 2008-09-25 Gibson Guitar Corp. Tremolo Mechanism For A Stringed Musical Instrument With Cam Actuated Lock
US7888571B2 (en) 2007-03-23 2011-02-15 Gibson Guitar Corp. Tremolo mechanism for a stringed musical instrument with cam actuated lock
US7960630B2 (en) 2007-03-23 2011-06-14 Gibson Guitar Corp. Tremolo mechanism for a stringed musical instrument with angled saddle rollers
US8017844B2 (en) 2007-03-23 2011-09-13 Gibson Guitar Corp. Tremolo mechanism for a stringed musical instrument with pivoting string anchor
US20120103171A1 (en) * 2008-10-28 2012-05-03 Larry David Lashbrook Bridge for a Stringed Musical Instrument
US20100275756A1 (en) * 2009-04-29 2010-11-04 John Woodland Ajustable bridge for a stringed instrument
US8283542B2 (en) 2009-04-29 2012-10-09 John Woodland Ajustable bridge for a stringed instrument
US8710337B1 (en) 2010-03-31 2014-04-29 Fernando R. Gomes Tone enhancement bracket
US8779259B1 (en) * 2013-01-28 2014-07-15 Mark V. Herrmann Friction reduction in an electric guitar
US9502010B1 (en) 2014-08-22 2016-11-22 William Cardozo Guitar tremolo bridge
US20170061941A1 (en) * 2014-08-22 2017-03-02 William Cardozo Guitar Tremolo Bridge
US9697809B2 (en) * 2014-08-22 2017-07-04 William Cardozo Guitar tremolo bridge
US9478198B1 (en) 2015-06-18 2016-10-25 Brian H. Daley Recessed concave fingerboard
US9691364B1 (en) * 2016-04-22 2017-06-27 Geoffrey Lee McCabe Integrated pivot mechanism for fulcrum tremolo
US10818272B1 (en) 2019-12-27 2020-10-27 Fender Musical Instruments Corporation Bridge mono-saddle for stringed musical instrument
US11837201B2 (en) 2020-09-30 2023-12-05 Christopher Clay Swope Adjustable bridge for stringed instrument device and method
US11100905B1 (en) 2020-10-20 2021-08-24 Daniel Swartz Tremolo device

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