Abstract:
A bolt on tremolo unit. The tremolo arm is depressed which rotates a shaft within a frame. The rotating shaft engages a conrod against a folded steel sheet. This forces it to tip thus lowering the the pitch of the strings. When the tremolo arm is released, the expansion springs pull against a shaft spring connecting hinge and return the tremolo to its original position. When the tremolo arm is pulled across the frame causing the adjustable tail piece to clear the frame, the shaft is free to rotate in the opposite direction. This raises the pitch. When the adjustable tail piece is returned to the stop block or plate the guitar returns to standard pitch.

Description:
CROSS REFERENCE TO RELATED APPLICATIONS 
     A prior application has been made to the united kingdom of Great Britain patent office. 
     Patent Application number; 
     GBO416178.2 
     STATMENT REGARDING FEDERALLY SPOSORED RESEARCH AND DEVELOPMENT 
     not applicable 
     REFERENCE TO SEQUENCE LISTING A TABLE OR A COMPUTER PROGRAM UNDER COMPACT DISK APPENDIX 
     Not applicable 
     BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The enclosed details refer to the field of musical instruments, specifically stringed instruments and their fitted tremolo devices 
     2. Description of Prior Art 
     Tremolos are often situated at the intonation end of the stringed instrument, thus a tremolo system normally hand operated, slackening and tightening instrument strings, which can be incorporated into the stringed instrument design, variations for the plate either, or be a separate unit which requires fitting with, a certain amount of work Wilkinson invention does not involve the. 
     A good tremlo will return to pitch after use which is usually the exact position it started from before use, yet Unfortunately there are very few low buget tremlos that will do this. 
     Tremolo devices are commonly found upon instruments with a 25½″ scale, because the string tension is much higher, thus the strings are able to hold against counter pull of the springs, thus maintaining normal playing pitch and string tension with ease of operation, yet, however when tremolos are fitted to instruments with a 24¾″ scale, the spring force must be increased to compensate for the lower string tension. 
     However the result in operating action of the said tremolo is very hard and heavy which results in a tremolo that is difficult and requires a lot of effort to use in practice, thus why tremolos are more common on 25½″ scale stringed instruments thus when tremolos upon a short scale instrument have spring force reduced to affect an easier and more comfortable operating action, standard playing string tension suffer, thus the result is a loss of clarity and inferior sound of notes that would be eliminated if the instrument was it&#39;s standard fixed non-tremolo design, yet on a 25½″ scale instrument the string tension is same either tremolo or non tremolo option, thus it is a common problem that has yet to be overcome. 
     Tremolos often require specialist routing out and cavities in order to be properly fitted, but tremolos can also be mounted directly on top of stringed instrument surface, wherein this requires fitting which normally involves screwing pins directly into the instrument surface, thus devaluing and damaging the instrument, to which as a result most short scale instruments tend to be of a hard tail fixed bridge non tremolo design, thus also instruments with strings that pass directly through the surface rarely have any tremolo due to its difficulty to facilitate. 
     A large portion of fixed non tremolo tend to be of the tune-o-matic design, thus comprising of a tail piece, on which the guitar strings slide through, to which the piece is the width of the base of the guitar neck and is suspended away from the guitar body by two threaded posts which are screwed into threaded inserts situated inside the guitar body, thus strings pass from the tail piece and over an adjustable bridge mounted in a similar configuration to the tail piece. 
     Friction also occurs in many tremolo&#39;s where metal rubs against metal, which thus prevents said tremolo from returning to its exact start position promoting premature wear of parts to an unsatisfactory state, thus bearings have been known to be used to reduce friction, yet bearings are expensive and prone to collapse, thus jamming said tremolo and causing problems. 
     To overcome these problems it would require a tremolo that can maintain hard tail tension with an easy operating action, return to pitch after each operation, along with low friction fulcrum points, thus maintaining stability whilst also being cost effective to produce. 
     STATEMET OF INVENTION 
     The presented invention is one that may be retrofitted onto any guitar of any designation maintain good playing pitch, stability and ease of operation without being expensive to produce. 
     BRIEF SUMMARY OF INVENTION 
     The presented invention is a tremolo device which; can be bolted onto the top of any tune-o-matic guitar body with a small amount of work, by replacing the tail piece and to any any through body strung, as variations. 
     The presented invention will return to the same position after each operation, will maintain standard fixed non tremolo tension, could be cost effective to produce, with low operational friction due to rotational pivots. 
     The presented invention meets all the above criteria through unconventional means of differential forces created connection of hinge points operational shaft and expansion springs that are mounted upon and within a folded suitable material frame, which is bolted directly on top of the guitar body using the two threaded inserts provided for the tail piece, thus the instrument bridge remains completely unaltered with no foreign holes made in the guitar body. 
     The presented invention leverage of the springs pulling against the hinge assembly connected to rotary shaft, is greater than the force created created from the pull of folded tremolo tail stop steel sheet to which strings are connected, yet the force created by tremolo operating arm is capable of over riding both of of these forces, thus wherein said operating force in the direction of shaft rotation is added to the force of either spring or string pull for which ever desired direction, thus allowing a light operating action and as said strings do not have the force to overcome said springs, aided by unconventional force transfer connection of a conrod, hard tail non tremolo instrument string tension is achieved. 
     The presented invention return to original position is achieved with an adjustable tail piece at the end of the operating arm, which returns upon a stop block or plate that resists the the force of said springs, thus giving the arm a definitive point to rest upon, holding tremolo to its original position under its own force which in turn aids stability and non tremolo tension, whilst retaining the ability to move above and below standard pitch through operating moving x and y axis thus allowing adjustable stop to move above or below stop point to raise or lower pitch at will. 
     Also presented invention can operate well from cheap materials, as frame can be folded from sheet steel, thus all parts can be assembled upon, within it, with rotational hinges which may be lubricated with petroleum jelly, suitable lubricant thus reducing friction, enabling a fluid mechanism, and ease of performance. 
     The presented invention can be fitted to any through strung instrument body with simple modifications to presented invention that reduce the distance between instrument body and bridge by reversing polarity of operating arm on bridge saddles, or using a roller bar carrier for the strings. 
    
    
     
       BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING 
         FIG. 1 ; Shows a plan view of the standard version of the Thunderline bolt on tremlo system fitted on top of the stringed instrument with instrument strings attached, previously omitted element  16  a stringed instrument with previously omitted element  17  instrument string. 
         FIG. 2 ; Is a plan view of the standard version Thunderline bolt on tremlo system with cover. 
         FIG. 3A ; Shows a side view of the non operating side of standard version of presented invention with cover including element  1  folded tremolo tail stop steel sheet, element  3  tremolo tail stop conrod pivot. 
         FIG. 3B ; Shows a side view of the operating side of standard version of presented invention with cover including element  1  vertical linear plate. 
         FIG. 4A ; Shows a front view of standard version of presented invention with cover. 
         FIG. 4B ; Shows a rear view of standard version of presented invention with cover. 
         FIG. 5 ; Shows a plan view of standard version of presented invention without cover. 
         FIG. 6A ; Shows a side view of the non-operating side of standard version of presented invention without cover including element  1  folded tremolo tail stop steel sheet, element  3  tremolo tail stop conrod pivot. Previously omitted element  2  operating shaft conrod hinge. 
         FIG. 6B ; Shows a side view of the operating side of standard version of presented invention without cover including element  1  folded tremolo tail stop steel sheet, element  3  tremolo tail stop conrod pivot Previously omitted element  2  operating shaft conrod hinge. 
         FIG. 7A ; Shows a front view of presented invention without of cover including element  1  folded tremolo tail stop steel sheet, element  3  tremolo tail stop conrod pivot. 
         FIG. 7B ; Shows a rear view of presented invention without cover. 
         FIG. 8A ; Shows the back, front, plan and underside views of spring adjustment bar for presented invention 
         FIG. 8B ; Shows a side view of the spring adjustment pin for presented invention. 
         FIG. 8C ; shows a side and plan views of presented invention stop plate. 
         FIG. 9A ; shows a front view of standard version of presented invention element  1  vertical linear plate 
         FIG. 9B ; shows a rear view of standard version of presented invention element  1  vertical linear plate 
         FIG. 9C ; shows a plan view of standard version of presented invention element  1  vertical linear plate 
         FIG. 9D ; shows a side/back view of standard version of presented invention element  3  tremolo tail stop conrod pivot. 
         FIG. 9E ; shows a side view of standard version of presented invention element  1  vertical linear plate 
         FIG. 10A ; Shows a side view of presented invention arm. 
         FIG. 10B ; shows a plan view of presented invention arm. 
         FIG. 10C ; shows a side view of presented invention stop plate. 
         FIG. 11A ; Shows a side view of presented invention torque amplify shaft 
         FIG. 11B ; Shows the rear view of presented invention element  2  operating shaft conrod hinge. 
         FIG. 11C ; Shows a side view of presented invention element  2  operating shaft conrod hinge. 
         FIG. 11D ; Shows a front view of presented invention operating shaft hinge for spring. 
         FIG. 11E ; Shows a side view of presented invention operating shaft hinge for spring. 
         FIG. 11F ; Show a plan view of hook hinge. 
         FIG. 11G ; Shows a side view of hook hinge. 
         FIG. 11H ; shows a plan view of hook 
         FIG. 11I ; shows a side view of hook 
         FIG. 11J ; Shows a plan view of standard version conrod for presented invention. 
         FIG. 12A ; shows a plan view of both halves of presented invention folded tremolo tail stop steel sheet pivot pieces. 
         FIG. 12B ; Shows a plan view of standard version of presented invention frame 
         FIG. 12C ; Shows a plan view of both bearing bush inserts for presented invention. 
         FIG. 13 ; Shows a bridge saddle variant of presented invention previously omitted element  18  a bridge saddle. 
         FIG. 14A ; Shows a side view of non operating side of bridge saddle variant of presented invention without cover including element  2  operating shaft conrod hinge, previously omitted element  18  a bridge saddle, Previously omitted element  2  operating shaft conrod hinge. 
         FIG. 14B ; Shows a side view of operating side of bridge saddle variant of presented invention without cover including element  2  operating shaft conrod hinge, previously omitted element  18  a bridge saddle Previously omitted element  2  operating shaft conrod hinge. 
         FIG. 15 ; Shows a plan view of bridge saddle variant of frame of presented invention. 
         FIG. 16A ; Shows a front view of bridge saddle variant Of presented invention without cover previously omitted element  18  a bridge saddle. 
         FIG. 16B ; Shows a front view of through instrument strung bridge saddle variant of presented invention previously omitted element  18  a bridge saddle. 
         FIG. 17A ; shows a front view of bridge saddle variant presented invention folded tremolo tail stop steel sheet. 
         FIG. 17B ; shows a plan view of bridge saddle variant presented invention folded tremolo tail stop steel sheet. 
         FIG. 17C ; shows a side view of saddle variant presented invention vertical linear plate with previously omitted element  19  dashed line to indicate passage instrument string through bridge saddle variant presented invention folded tremolo tail stop steel sheet. 
         FIG. 18 ; Shows a plan view of through instrument strung bridge saddle variant of presented invention without cover including previously omitted element  18  a bridge saddle. 
         FIG. 19A ; Shows a side view of non operational side of through instrument strung  FIG. 18 ; Shows a plan view of through instrument strung bridge saddle variant of presented invention without cover including previously omitted element  18  a bridge saddle. 
         FIG. 19B ; Shows a side view of operational side of through body instrument strung strung bridge saddle variant of presented invention without cover including previously omitted element  16  a bridge saddle. 
         FIG. 20 ; Shows a plan view of through instrument strung frame of presented invention 
         FIG. 21A ; Shows a front view of through instrument strung intonation saddle vertical linear plate variant. 
         FIG. 21B ; Shows a side view of through instrument strung intonation saddle vertical linear plate variant. 
         FIG. 21C ; Shows a plan view of through instrument strung intonation saddle vertical linear plate variant. 
         FIG. 21D ; Shows a plan view of expansion spring  FIG. 22A  shows the front and side views bridge saddle folded tremolo tail stop steel sheet conrod pivot variant. 
         FIG. 22B ; shows front and side views of bridge saddle variant folded tremolo tail stop steel sheet conrod pivot variants. 
         FIG. 22C ; Shows a plan view of bridge saddle variant conrod. 
         FIG. 22D ; Shows a plan view of through bridge saddle variant. 
         FIG. 23A ; Shows a side view of through instrument strung variant operational previously omitted element  20  shaft bracket. 
         FIG. 23B ; Shows a plan view of through body strung previously omitted element  21  operational shaft conrod pivot variant. 
         FIG. 24 ; Shows a plan view of through instrument strung tune-o-matic variant of presented invention without cover. 
         FIG. 25A ; Shows a side view of non operating side of through instrument strung tune-o-matic variant of presented invention without cover. 
         FIG. 25B ; Shows a side view of operating side of through instrument strung tune-o-matic variant of presented invention without cover. 
         FIG. 26A ; Shows a front view of through instrument strung tune-o-matic variant of presented invention without cover. 
         FIG. 26B ; Shows plan and side views of through instrument strung variant roller bar pivot pieces. 
         FIG. 26C ; Shows plan and side views of through instrument strung tune-o-matic variant tie bar connectors. 
         FIG. 26D ; Shows plan and side views of through instrument strung tune-o-matic variant conrod instrument strung tune-o-matic variant conrod. 
         FIG. 27A ; Shows a side view of through instrument strung tune-o-matic variant roller bar. 
         FIG. 27B ; Shows a side view of through instrument strung tune-o-matic variant tie bar. 
         FIG. 27C ; Shows a plan view of through instrument strung tune-o-matic variant frame. 
         FIG. 28A ; Shows a front view for cover of presented invention 
         FIG. 28B ; Shows a plan view for cover of presented invention 
         FIG. 29A ; Shows a rear view for the cover of presented invention 
         FIG. 29B ; Shows side view of non operating side of cover for presented invention 
         FIG. 29C ; Shows side view of operating side of cover for presented invention 
         FIG. 30A ; Shows standard version of presented invention in non operational position with instrument string attached over tune o matic bridge, previously omitted element  9  a bridge, with previously omitted element  17  a instrument string. 
         FIG. 30B ; Shows presented invention in operational position to lower string tension and pitch previously omitted element  9  a bridge with previously omitted element  17  a string. 
         FIG. 30C ; Shows plan view of presented invention in operational position to raise string tension and pitch previously omitted element  9  a bridge, with previously omitted element  17  a string. 
     
    
    
     DETAILED DESCRIPTION OF INVENTION 
     The frame for presented invention is made from steel, suitable metal sheet a munimum of 2 mm thick marked out as per  FIG. 12B ,  FIG. 20 ,  FIG. 27C  (note if constructing by hand tools allow 2 mm in between side fold line and base) thus all holes are drilled and tapped out as per  FIG. 12B ,  FIG. 20 ,  FIG. 27C , thus all excess material is removed from around template and deburred, thus allowing all sides around template to be folded 90 degrees vertical from base section of presented invention frame  FIG. 12B ,  FIG. 20 ,  FIG. 27C , which may be done by hand or mechanical press and suitable constructed jig. 
     A pair of threaded insert bearing bushes ( FIG. 12C ) are made from brass, phosphor bronze or similar material rod, turned upon a suitable lathe with an intended bore 0.080 thou larger than the diameter of the torque amplify shaft ( FIG. 11A ), thus the outside of said bearing bushes ( FIG. 12C ) is threaded to a suitable size, either by lathe or hand die, to match a nut ( FIG. 12C ) of corresponding thread, size and material. 
     The operating shaft ( FIG. 11A ) is machined, turned upon lathe from steel similar material rod as per  FIG. 11  A, thus blank said operating shaft ( FIG. 11A ) is then drilled and tapped through the vertical and horizontal axis 90 degrees to corresponding threaded holes as per  FIG. 11  A. 
     The tremolo tail stop ( FIG. 9A ,  9 B,  9 C) is made from 2 mm minnimum sheet steel, suitable metal, then marked out as per  FIG. 9A ,  FIG. 9B ,  FIG. 9C , all excess material is removed via blade or machine punch, to which all burrs are removed clearance holes drilled as per  FIG. 9A ,  FIG. 9B ,  FIG. 9C  then required part of is then folded 90 degrees verticaly as per fig  FIG. 9E , yet also may be made to thus fold from the opposite direction as used per  FIG. 25A ,  FIG. 25B ,  FIG. 27C  if tremolo tail stop ( FIG. 9A ,  FIG. 9B ,  FIG. 9C ) is desired to be in line with the front of presented invention thus this modification may be done to all variants. 
     The pivot pieces ( FIG. 12   a ) for rotation of tremolo tail stop ( FIG. 9A ,  FIG. 9B ,  FIG. 9C ) are manufactured from brass/phosphor bronze or similar material, thus each half is milled and turned as per  FIG. 12A , from suitable rod lengths of said material which are then threaded as per  FIG. 12A , via corresponding die. 
     All broad pivot and hinge parts ( FIG. 9D ,  FIG. 11B ,  FIG. 11C ,  FIG. 11D ,  FIG. 11E ,  FIG. 11F ,  FIG. 11G ,  FIG. 22B ,  FIG. 23B ,  FIG. 26B ,  FIG. 26C ,  FIG. 26D ) are made from brass, phosphor bronze or similar material blocks, of a suitable size and are then milled and drilled to  FIG. 9D ,  FIG. 11B ,  FIG. 11C ,  FIG. 11D ,  FIG. 11E ,  FIG. 11F ,  FIG. 11G ,  FIG. 22B ,  FIG. 23B ,  FIG. 26B ,  FIG. 26C ,  FIG. 26D  individually to quantity required. 
     The spring hook ( FIG. 11H ,  FIG. 11I ) is made from 2 mm minimum sheet steel, suitable metal, then marked out as per  FIG. 11H ,  FIG. 11I , thus hook is cut, machine punched out flat, with clearance holes, individual hooks are then folded to a suitable angle as per  FIG. 11H  and finaly deburred. 
     The spring adjustment bar ( FIG. 8A ) is made from a single square bar of steel, suitable material, which is then marked out as per  FIG. 8A , then milled and drilled with clearance holes and slots as per  FIG. 8A , before being deburred to compleate construction of spring adjustment bar, which may also be cast and cleaned up. 
     The spring adjustment pins ( FIG. 8B ) are made from steel, suitable metal rod material whence they are turned upon lathe to suitable stepped diameters, before a suitable thread is cut, using lathe or die, upon the longest blank, thus producing a pin as per  FIG. 8B   
     The conrod ( FIG. 11J ,  FIG. 22C ,  FIG. 22D ) is made from a rod of steel or preferred high tensile steel, suitable metal rod of preferred diameter  FIG. 11J ,  FIG. 22C ,  FIG. 22D , to either end of rod a threaded bolt, caphead bolt is welded at 90 degrees parallel to each other and facing the same direction, yet also welding is only done from top of bolt head to preserve flat beneath bolt, also said high tensile steel is preferred suitable high tensile welding rod must be used, but said conrod ( FIG. 11J ,  FIG. 22C ,  FIG. 22D ) must not be quenched as this will result in brittle con-rod ( FIG. 11J ,  FIG. 22C ,  FIG. 22D ), yet this item may be cast and threaded from mould if preferred by manufacturer. 
     The presented invention stop plate ( FIG. 8C ) is made from 2 mm minimum sheet steel, suitable material sheet, marked out as per  FIG. 8C  fig, then cut, machine punched out, before being drilled to a clearance size ( FIG. 8C ), folded as per  FIG. 8C , and finally deburred. 
     The arm ( FIG. 10A ,  FIG. 10B ) is constructed from a rod of steel, suitable metal, to which a shorter threaded rod ( FIG. 10A ,  FIG. 10B ) is welded to at 90 degrees to the longer rod, which is thus allowed to air cool, to which a threaded bush then welded to the end of long rod, to the end nearest threaded rod, thus allowing a suitable set pin to be screwed into the welded threaded bush thus producing an adjustable tail piece ( FIG. 10C ) and completing said arm  FIG. 10A ,  FIG. 10B . 
     All variants comprise of the same materials as said standard versions ( FIG. 2 ,  FIG. 5 ,  FIG. 6 ,  FIG. 7 ), thus bridge saddle tremolo tail stop ( FIG. 13A ,  FIG. 13B ,  FIG. 13C ) is made from 2 mm sheet steel, suitable material which is then, marked out, drilled, cut and folded as per  FIG. 21A ,  FIG. 21B ,  FIG. 21C , and such the conrod pivot ( FIG. 22A ) is made in the same way as  FIG. 9D , yet to  FIG. 22A , designation and thus the variant conrod ( FIG. 22C ) is constructed using the same methods and materials as  FIG. 11J , thus variant frame ( FIG. 15 ) is made the same way as  FIG. 12B . 
     The trough body strung bridge saddle variant is made all the same materials as said standard version  FIG. 2 , thus the tremolo tail stop ( FIG. 21A ,  FIG. 21B ,  FIG. 21C ) is made from 2 mm sheet steel or suitable material is measured, marked out, drilled cut and folded as per  FIG. 21A ,  FIG. 21B ,  FIG. 21C , thus the conrod pivot is been constructed using the same materials and methods as per  FIG. 22 , yet to  FIG. 22B , and thus the operational shaft conrod pivot ( FIG. 23B ), is constructed from a mild steel sheet, suitable material and manufactured via marking out as  FIG. 23A , cutting or punching out and folding, thus producing  FIG. 23A , along with  FIG. 23B , which is constructed using same methods and materials as  FIG. 9D , therein conrod  FIG. 22D  is constructed using the same methods and materials as  FIG. 11J , thus frame ( FIG. 20 ) is constructed using the same materials and methods as per  FIG. 12B . 
     The through instrument strung fixed intonation style variation ( FIG. 24 ) hinge parts ( FIG. 26B ,  FIG. 26C ) are constructed in the same way, suitable materials as  FIG. 9D , yet are cut and drilled as variant  FIG. 26B ,  FIG. 26C  as is the flat con-rod ( FIG. 26D ) to which corresponding tie bar ( FIG. 27B ) is made from a single suitable rod of steel, suitable material, threaded at either end as per  FIG. 27B , to accomadate two corresponding lock nuts at either end, thus the presented invention roller bar ( FIG. 27A ) that can be either a standard stock corresponding cap head bolt, or constructed the same as  FIG. 27B , thus frame ( FIG. 27C ) is constructed using the same methods as  FIG. 12B . 
     Assembley of the Thunderline bolt on tremlo system ( FIG. 2 ) begins with folded frame of preffered designation ( FIG. 12B ), onto which both bearing bushes ( FIG. 12C ) are bolted securely to each long side accommodating hole, thus allowing the operating shaft ( FIG. 11A ) to slide through both bearing bushes ( FIG. 12C ), whilst retaining a washer against the outside of each said bearing bolt, retaining ease of rotation. 
     Further assembley of presented invention system requires brass hinge pieces ( FIG. 11B ,  FIG. 11C ,  FIG. 11D ,  FIG. 11E ,  FIG. 11F ,  FIG. 11G ) and hook (FIG.  11 H, FIG. 1J ) to be assembled upon each other and operating shaft ( FIG. 11 ), thus operating shaft conrod hinge ( FIG. 11B ,  FIG. 11C ) along with spring tension pivot ( FIG. 11D   FIG. 11E ) are bolted to the rear of operating shaft ( FIG. 11A ), using standard countersunk caphead set pins and corresponding retaining nylon lock nuts, thus hook hinge ( FIG. 11F ,  FIG. 11G ) is secured to said spring tension pivot ( FIG. 11D   FIG. 11E ) using standard stock cap head bolt whilst fitting corresponding washers either side of said spring tension pivot ( FIG. 11D   FIG. 11E ) to reduce wear and friction wherein said cap head bolt is retained using suitable nylon lock nut, thus hook (FIG.  11 H, FIG. 1J ) is riveted to hinge ( FIG. 11F ,  FIG. 11G ). 
     Further assembley of presented invention system is achieved by chosen frame ( FIG. 12B ) thus both adjustment pins ( FIG. 8B ) are parallel with long sides of said chosen frame, thus spring adjustment bar ( FIG. 8A ) may be fitted vertically from base of frame whilst spanning the complete width of chosen frame ( FIG. 12B ) fitting home inbetween both rear shoulders of each spring adjustment pins ( FIG. 8B ), thus allowing all six expansion springs ( FIG. 21D ) to be fitted from hook FIG.  11 H, FIG. 1J ) to adjustment bar ( FIG. 8A ), wherein eye of said spring ( FIG. 21D ) fits over hook (FIG.  11 H, FIG. 1J ), ninety degree hook end of said spring  FIG. 21D , thus spring tension is connected to operational shaft  FIG. 11A . 
     Further assembly of presented invention system is achieved by fitting one half of each pair of pivot piece ( FIG. 12A ) to the front of chosen tremolo frame ( FIG. 12B ) and secured into place with suitable corresponding nylon lock nut, thus second half of each pair of pivot pieces ( FIG. 12A ) is slid on, into first half wherein tremolo tail stop of chosen design ( FIG. 9A ,  FIG. 9B ,  FIG. 9C ,  FIG. 9E ) is secured using suitable nylon lock nut thus allowing tremolo tail stop ( FIG. 9A ,  FIG. 9B ,  FIG. 9C ,  FIG. 9E ) to pivot upon frame, wherein conrod tremolo tail stop pivot  FIG. 9D  is riveted to chosen said tremolo vertical linear plate ( FIG. 9A ,  FIG. 9B ,  FIG. 9C ,  FIG. 9E ) accordingly, thus suitable con rod ( FIG. 11J ) may be fitted between said operational shaft conrod hinge ( FIG. 11C ) and tremolo tail stop conrod pivot ( FIG. 9D ) from non operating side to operating side and thus retained into place with corresponding nylon lock nuts. 
     Further assembly of presented invention system is achieved by screwing arm ( FIG. 10A ,  FIG. 10B ) into threaded coupling of operational shaft ( FIG. 11A ) to the required height and screwing adjustable tail piece ( FIG. 10C ) into rear of arm ( FIG. 10A ,  FIG. 10B ) wherein tremolo cover ( FIG. 28A ,  FIG. 28B ,  FIG. 29A ,  FIG. 29B ,  FIG. 29C ) is then fitted and retained via two small slotted set pins upon either side of presented invention ( FIG. 2 ), thus presented invention stop plate ( FIG. 8C ) is retained with suitable set pin and thus presented invention adjustable tail piece ( FIG. 10C ) is placed upon presented invention said stop plate ( FIG. 8C ), to which spring tension is taken up with said adjustment pins ( FIG. 8B ) to desired amount. 
     Variant assembley of presented inventions ( FIG. 13 ,  FIG. 18 ,  FIG. 24 ) is the same as standard version ( FIG. 2 ) with the exception of fitting bridge saddles to variations  FIG. 13  and  FIG. 18 , yet through instrument strung bridge saddle variations ( FIG. 18 ) requires variant operational shaft conrod hinge ( FIG. 23B ) and bracket ( FIG. 23A ) to be fitted, which extends directly above the variant bridge saddle tremolo tail stop ( FIG. 21A ,  FIG. 21B ,  FIG. 21C ), thus requiring variant con-rod ( FIG. 22D ) as does bridge saddle variant ( FIG. 13 ) with con-rod ( FIG. 22C , wherein through instrument strung tune o matic variation ( FIG. 24 ) has its presented inventions tremolo tail stop fully assembled upon both inside hinge pieces ( FIG. 12A ) which point vertically up from said presented inventions frame ( FIG. 27C ), thus roller bar hinge piece ( FIG. 26B ) is placed over vertical shaft in a horizontal position pointing out beyond the front of the frame, to which the tie bar connectors ( FIG. 26C ) are laid on top of said roller bar pivots ( FIG. 26B ) yet pointing back towards the springs, with the bore of said connector on the inside, parallel with the centre line of presented inventions frame ( FIG. 27C ), thus nylon lock nut is used to retain both said  FIG. 26B  and  FIG. 26C  squarely upon hinge pieces ( FIG. 12A ) as flat con-rod ( FIG. 26D ) is fitted to standard operational shaft conrod hinge ( FIG. 11B ,  FIG. 11C ), thus allowing tie bar ( FIG. 27B ) to be slid through tie bar connectors ( FIG. 26C ) and flat con-rod ( FIG. 26D ), wherein it is secured firmly by four corresponding nylon lock nuts, thus roller bar ( FIG. 27A ) is slid through roller bar pivots ( FIG. 26B ) and retained with corresponding nylon lock nuts, yet allowing ease of rotation, thus connecting the assembled roller bar presented inventions vertical linear plate to said operational shaft, thus producing  FIG. 24 . 
     To operate thus making pitch lower, strum guitar and pull arm ( FIG. 10A ,  FIG. 10B ) across instrument strings, thus lifting stop pin  FIG. 10C  up and away from stop plate  FIG. 8C  wherein operating shaft  FIG. 11A  is rotated towards said tremolo tail stop folded steel sheet  FIG. 9A ,  FIG. 9B ,  FIG. 9C   FIG. 9E , thus pulling against said springs  FIG. 21D  through pivot and hook  FIG. 11F ,  FIG. 11G ,  FIG. 11H ,  FIG. 11I  assembly, whilst pushing said conrod  FIG. 11J  forward towards tremolo tail stop  FIG. 9A ,  FIG. 9B ,  FIG. 9C   FIG. 9E , thus in turn pushing the tremolo tail stop  FIG. 9A ,  FIG. 9B ,  FIG. 9C   FIG. 9E  forwards towards the guitar bridge, which in turn slackens strings as per  FIG. 30B , thus operating arm is  FIG. 10A ,  FIG. 10B  is pulled away from guitar body until adjustable tail piece  FIG. 10C  comes to rest upon stop block or plate  FIG. 8C , returning to pitch and standard hard tail tension as per  FIG. 30A , yet in order to raise tension and pitch, pull said operating arm  FIG. 10A   FIG. 10B  across instrument strings, thus swinging adjustable tail piece  FIG. 10C  clear of said stop block or plate  FIG. 8C  thus allowing operating arm  FIG. 10A ,  FIG. 10B  to be pulled away from instrument body, which in turn enables adjustable tail piece  FIG. 10C  to lower beyond said stop block or plate  FIG. 8C , wherein operation shaft  FIG. 11A  rotates towards said springs  FIG. 21D  thus pulling conrod  FIG. 11J  back towards said springs  FIG. 21D , thus lowering tremolo tail stop folded steel sheet  FIG. 9A ,  FIG. 9B ,  FIG. 9C   FIG. 9E  which in turn pulls instrument strings tight over instrument bridge thus raising pitch and string tension as per  FIG. 30C , thus when operation is complete, said tremolo  FIG. 2  is returned to position  FIG. 30A , therefore operator can move fluidly through all positions to achieve desired effect, thus all tremolos operated in the same way, however mechanisms differ. 
     The advantages of the presented invention system are such that, the player can have one stringed instrument on stage instead of two, as long as instrument instrument is of tune o matic design you do not need to make any alterations or extra holes in the instrument body remains, but simply use the threaded inserts situated for tail piece anchorage, yet for any instrument that has strings anchored directly through the instrument body you will need to make screw holes in the instrument body to fit such variants as there is no tail piece, however for such through body strung instruments there is no tremolo available today that would allow said instrument to retain its through body strung status, thus also the presented invention does not rely upon string tension in in any way for operation and therefore has a greater flexibility of variation, since there is no reliance upon sliding plates, micro bearings, compression springs or locking devices as with other tremolos, thus all return to pitch is controlled by the operator through mechanical means that that are within the operators means to control without any external influences from said instrument, thus said instrument will always return to pitch since adjustable tail piece always returns to the same position upon presented invention stop block or plate  FIG. 8C , thus the bolt on term refers to the retro fitting of said tremolo upon existing tail piece holes or direct fixing upon an unblemished instrument body, as such all previously stated is created by separating the string anchorage from the springs by a conrod, thus creating a differential force, which makes this tremolo effective and no other tremolo available today has.