MUSICAL INSTRUMENT FOR PREVENTING PLAYER'S BODY FROM DAMPING VIBRATIONS

Abstract

A musical instrument, particularly a stringed instrument, has a structure that decouples the body of the player from all parts of the instrument which are indirectly responsible for the sound production for preventing the body of the player from damping the vibrations of the instrument. Instead of a top cover being the main source of indirect sound production, the musical instrument now has an annular plate which is positioned between covers. Any damping effect on the resonance of the annular plate is minimized by positioning a bridge on the annular plate to avoid any contact between the bridge and the top cover, and applying an acoustically decoupling layer between the covers and the annular plate. The covers provide protection against any damping effect of the player's body on the annular plate. This structure also minimizes the tendency of an acoustic feedback loop, 2 which may occur in the case of an electrically amplified stringed instrument.

Claims

1-13. (canceled)

14. A musical instrument for preventing a player's body from damping vibrations, comprising: an indirect sound production portion comprising a neck having a fingerboard and a headstock with tuning heads, an annular plate having a first end for receiving and securing said neck, a block having a first end and a second end with at least one of said first end and said second end being connected to said annular plate and a bridge with a support connected to said block; a direct sound production portion comprising at least one string attached on a first end of said at least one string to said tuning heads stretched tautly across said bridge and attached on a second end of said at least one string to said block; and, an enclosing portion comprising a top cover and a bottom cover attached to said annular plate, wherein said top cover provides for an opening for said support of said bridge, said top cover and said bottom cover being acoustically decoupled from said direct sound production portion and said indirect sound production portion by an acoustically decoupling interface provided between said annular plate and said top cover and said bottom cover so that sound travels between said annular plate and said top cover and bottom cover at lower speed than through said direct sound production portion and said indirect sound production portion.

15. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein said top cover and said bottom cover are attached to said block.

16. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein said annular plate, said block and said support of said bridge form a continuous structure.

17. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein between said support for said bridge and said top cover, a gap is provided.

18. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein said acoustically decoupling interface is a magnetic device.

19. The musical instrument for preventing a player's body from damping vibrations according to claim 18, wherein said magnetic device includes magnetic fasteners.

20. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein said acoustically decoupling interface comprises a material layer.

21. The musical instrument for preventing a player's body from damping vibrations according to claim 20, wherein said material layer is an adhesive.

22. The musical instrument for preventing a player's body from damping vibrations according to claim 20, wherein a layer structure is provided by an adhesive layer, said material layer and an adhesive layer.

23. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein said neck and said block form a continuous structure.

24. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein said annular plate, said neck and said block form a continuous structure.

25. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein said bottom cover has an opening that is able to closed off by a lid.

26. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein said indirect sound production portion comprises at least one pickup for converting vibrations of said at least one string to electric signals.

27. The musical instrument for preventing a player's body from damping vibrations according to claim 14, wherein said musical instrument is an electric guitar.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0027] The preferred embodiments will be described with reference to the following figures:

[0028] FIG. 1 shows a perspective illustration of an electric guitar,

[0029] FIG. 2 shows a perspective illustration in an exploded view of the parts relevant to sound production according to a preferred embodiment,

[0030] FIG. 3 shows a partially cross-sectional and partially side view of parts an electric guitar according to a preferred embodiment,

[0031] FIG. 3a shows a cross-sectional view of the tail of the guitar body,

[0032] FIG. 4 shows a perspective illustration of the annular plate,

[0033] FIG. 5 shows a perspective view of the covers,

[0034] FIG. 6 shows a perspective view of a preferred embodiment featuring the bottom cover with a rim and lid.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0035] According to a preferred embodiment the stringed instrument is a guitar having the following parts which are indirectly responsible for sound production, as shown in FIG. 1 (prior art): An annular plate 1, a block 3 connected to the annular plate 1, a neck 2 with fingerboard 8 connected to the annular plate 1, a top bridge or nut 25 between the neck 2 and the headstock 6, and a bottom bridge 5 connected to the block 3.

[0036] The strings 33 which are directly responsible for sound production are stretched taunt from the tuning machines 7 connected to the headstock 6 at one end, across the nut 25 and bridge 5 and secured to the block 3 at the other end. Any pitch bending device also has to be attached to the block 3 and must not be in contact with the covers 10 (FIG. 3).

[0037] The top and bottom covers 10 serve as elements decoupling the player's body from the parts of the instrument that are relevant to sound production. These covers 10 which are in contact with the body of the player while holding the instrument are attached to the annular plate 1 using adhesive material 35 (FIG. 3a), through which sound travels at significantly lower speed than through the parts of the instrument which are relevant for sound production. In some embodiments a layer of acoustically decoupling material 36 (FIG. 3a) is added between the covers 10 and the plate 1. Except for the annular plate 1 and pickups 34 no other parts of the stringed instrument are in contact with the covers 10. This prevents the parts relevant for sound production from being dampened by the body of the player.

[0038] The way the covers 10 are mounted to the plate 1 controls the amount of sustain of the basic resonating system consisting of strings 33, plate 1, block 3 and neck 2. They can be mounted with elastic adhesive material or spring mounted or magnetically mounted or electromechanically mounted.

[0039] According to a preferred embodiment of the invention, the musical instrument is an electric guitar with pickups 34 detecting vibrations of the strings 33 converting these vibrations to electric signals which can be sent to the input of an amplifier (not shown) via a volume unit (not shown). The pickups 34 are connected to the block 3 or to the top cover 11.

[0040] According to a preferred embodiment the annular plate 1 and the block 3 are made of Aluminium.

[0041] For descriptive purposes the invention relates the construction of an electric guitar but this is not intended to limit the scope of the invention its application or uses for it can apply to any musical instrument such as acoustic or electric violins, guitars, bass guitars, mandolins, cellos, basses or other instruments.

[0042] FIGS. 2-6 illustrate a musical instrument according to the present invention. According to a preferred embodiment the musical instrument is an electric guitar.

[0043] FIG. 2 shows the components of an electric guitar responsible for sound production according to the invention. These components include an annular plate 1, a neck 2 with a fingerboard 8, a block 3, a nut 25, a bridge 5 and a plurality of strings 33 stretched taunt across the nut 25 and bridge 5.

[0044] The annular plate 1 is glued or bolted to the heel 24 of the neck 2 and serves a number of purposes, i.e. it gives structural support and rigidity, forming a wall 30 located between the top and bottom covers 10 defining the outline of the body. It creates sustain and tone and provides a chamber in which a block 3 and electronic components (not shown) can be placed. In order to create instruments with different sound timbres the annular plate can be made of a plurality of materials such as e.g. wood, laminate material, metal, in particular aluminium, composite material or carbon fibre.

[0045] The annular plate 1 has a top surface 27, a bottom surface 28, an inner surface 26 and an outer 29 surface. The inner surface 26 defines the chamber in which the block 3 is placed. The top and bottom surfaces hold the adhesive interface securing and acoustically decoupling the covers 10. The outer surface 29 serves as sidewall 30 of the body.

[0046] An oblong block 3 is connected to the inside surface 26 at the head 31 and tail 32 of the annular plate 1. The block 3 is not in contact with the covers 10. According to the preferred embodiment the annular plate 1 and the block 3 are made of one piece forming a continuous structure which the neck 2 is glued or bolted on to as a separate piece.

[0047] Depending on the materials used and the method of production the following embodiments can be advantageous with regards to mechanical stability and production cost: [0048] the neck 2 and the block 3 are made of one piece forming a continuous structure which the annular plate 1 is glued or bolted on to as a separate piece. [0049] the annular plate 1, the block 3 and the neck 2 are made of one piece forming a continuous structure. [0050] the annular plate 1, the block 3 and the neck 2 are formed of 3 separate pieces glued and/or bolted together.

[0051] According to a further embodiment only one end of the block 3 is connected to the head 31 of annular the plate 1. The other end is not connected and extends inwardly towards the tail 32 of the plate 1 providing a gap between the other end of the block and the inner surface 26 at the tail 32 of the annular plate 1. This construction allows the block 3 to vibrate more freely.

[0052] According to a further embodiment only one end of the block 3 is connected to the tail 32 of annular plate 1. The other end is not connected and extends inwardly towards the head 31 of the plate 1 providing a gap between the other end of the block and the inner surface 26 at the head 31 of the annular plate 1. This construction allows the block 3 to vibrate more freely.

[0053] According to a further embodiment for stability reasons there is at least one cross member 39 between the block 3 and the annular plate 1.

[0054] A bridge support 4 connected to the block 3 protrudes the top cover 11. The opening 37 in the top cover 11 is large enough to provide a small gap around the bridge support 4 so that it is not in direct contact with the top cover 11. In the present embodiment the annular plate 1 and the bridge support 4 are formed of two separate pieces but they could equally be formed of a single piece of material.

[0055] The bridge 5 is mounted on the bridge support 4 so that bridge 5 and top cover 11 are not in direct contact with each other.

[0056] The covers 10 are not relevant to the sound production of the instrument. Their main purpose is to cover the block 3 and the annular plate 1 preventing these parts relevant to sound production from getting in direct contact with the body of the player. They also define the finish and look of the instrument and can be flat or arched, made of wood, laminate material, metal, composite material or carbon fibre

[0057] According to the preferred embodiment the bottom cover 13 consists of two parts, a rim 16 and a lid 17. The rim 16 is fixed to the bottom surface 28 of the annular plate 1 by means of acoustically decoupling adhesive material 35. The lid 17 can be opened and closed thus providing access to the chamber defined by the inner surfaces 26, 27, 28, 29, 12 and 14 of the covers 10 and the annular plate 1. This access is necessary for maintenance if the chamber contains electronic components. The majority of the surface of the back cover 13 can consist of lid 17 which is fastened to the rim 16 by mechanical or magnetic means, elastically supporting the lid which further facilitates acoustical decoupling. In the preferred embodiment padded 19 iron brackets 18 are attached to the inner surface 14 on the edge of the opening of the rim 16 and magnets 15 are inserted through the inner surface 14 at the appropriate positions around the edge of the lid 17 holding it in position by magnetic force.

[0058] According to a further embodiment the acoustically decoupling interface between the to surfaces 27 and 28 of the annular plate 1 and the covers 10 consists of three layers: an adhesive layer 35 followed by a layer which reduces sound conduction 36 followed by an adhesive layer 35.

[0059] According to the preferred embodiment electromagnetic pickups 34 are being used to convert the vibration of the strings 33 to electric signals. Further embodiments include piezoelectric pickups (not shown) or microphones (not shown).

LIST OF NUMERALS

[0060] 1 annular plate [0061] 2 neck [0062] 3 block [0063] 4 bridge support [0064] 5 bridge [0065] 6 headstock [0066] 7 tuning heads aka tuning machines or tuning pegs [0067] 8 fingerboard [0068] 9 fret [0069] 10 covers [0070] 11 top cover [0071] 12 inner surface of the top cover [0072] 13 bottom cover [0073] 14 inner surface of the bottom cover [0074] 15 magnet [0075] 16 rim of bottom cover [0076] 17 lid of bottom cover [0077] 18 iron brackets [0078] 19 padding [0079] 24 heel [0080] 25 nut [0081] 26 inner surface of annular plate [0082] 27 top surface of annular plate [0083] 28 bottom surface of annular plate [0084] 29 outer surface of annular plate [0085] 30 side wall [0086] 31 head [0087] 32 tail [0088] 33 strings [0089] 34 electromagnetic pickups [0090] 35 adhesive layer [0091] 36 material for acoustic decoupling [0092] 37 opening [0093] 39 cross member