DE102006005973A1 - Musical instrument, in particular stringed instrument with a sound corpus - Google Patents

Abstract

In the case of a musical instrument, in particular a stringed instrument, with a sound body (1) having sound-radiating surfaces in the form of a back, sides and top (8), in which at least one sound-radiating surface (8) is formed from a material made of a hardened matrix reinforced with fiber layers, an improvement in sound radiation in conjunction with an effect stabilizing the sound-emitting surface (8) is achieved in that the at least one sound-emitting surface (8) is divided into a number of sub-surfaces (9) which are curved and, due to their curvature, one of the sub-surfaces (9) form limiting rib (10).

Description

The The invention relates to a musical instrument, in particular a stringed instrument, with a sound-emitting surface in the form of floor, frame and ceiling having sound corpus, at the at least one sound-radiating surface made of a material one reinforced with fiber layers cured Matrix is formed.

Of the Sound corpus of a musical instrument has the task in the musical instrument recorded vibrations and with a through the sound corpus to radiate certain sound characteristics. At a stringed instrument the string vibration is as possible efficient in a large membrane vibration changed. The biggest influence in the sound production has the ceiling, in instruments with Stimmstock (violin, viola, cello) also the ground. It is essential furthermore, the resonance volume of the body and, if present, the Arrangement of one or more sound holes.

For efficient sound radiation, the stiffness and weight of the sound-radiating surface must be optimized, on the one hand, to activate a large membrane area and, on the other hand, to prevent the moving mass from becoming too large, which would suppress high frequencies. Furthermore, the blanket must also absorb the stress of a bridge supporting the strings and in part also the tensile force of the strings. For guitars, the ceiling and floor are stiffened with a bracing. The arrangement and pattern of the lining can vary. DE 19 69 876 U1 discloses a bracing with interlocking U-shaped bent strips. For stringed instruments, curved ceilings and floors are used instead of the lining, which cause geometric stiffening. EP 0 050 314 A1 describes a curved-banded stringed instrument that is simultaneously provided with a fine groove structure of the surface.

stringed instruments with carcase elements made of artificial Materials are known. Own "Ovation" guitars one-piece bottoms and ribs made of fiber composite material. "National" guitars are made with a flat-conical Resonator made of steel on the ceiling complements, with embossed ribs is stiffened. The company "Rainsong" manufactures guitars completely made of plastic fiber composite. Here are the ceilings through graduated Fiber layers controlled in stiffness. However, this is expensive in the production, since different sized blanks of the fiber material layered Need to become. At the same time, the moving mass in the area of the web is increased, since the rigidity through the reinforcement reached larger areas becomes.

By US 5,333,527 It is also known to stabilize a flat sound radiating surface of a sound body of a stringed instrument by groove-shaped depressions on the one hand and on the other hand to separate partial surfaces that allow different resonance frequency ranges.

Of the present invention is based on the object, a musical instrument the aforementioned Design the type so that the sound radiating surface of the Klankorpus in a simple way with improved sound properties can be produced.

These Task is according to the invention with a Musical instrument of the aforementioned Sort of solved by in that the at least one sound-radiating surface is subdivided into a number of sub-areas is that from the outside Seen from the sound corpus are concave and due to your bulge one the faces train limiting rib.

At the musical instrument according to the invention are the faces in unusual Way at least partially preferably concave, so those with a big, one curvature radius decreasing towards the rib the neighboring faces forming ribs separating from each other. Meet at the rib one size subarea and a partial surface which is small in extent perpendicular to the rib, creates a strong asymmetric rib, since the radius of curvature for the size subarea is much larger as for the small part surface. By the concave according to the invention Training of the partial surfaces the sound radiating surface on the one hand, a desired stabilization the sound radiating surface achieved and on the other hand, the vibration of the sound-emitting area for deep Frequencies are not significantly disturbed. The sound-emitting area can be created in a single operation as a composite material and allows it, the sound-radiating surface, especially in the form of the ceiling of the sound corpus, preferably at a violin or guitar without creating a complicated performance.

It is advantageous if the present invention arched faces for Edge of the sound radiating surface in a flat area leak. This facilitates the bonding of the ceiling of a guitar with the frame.

A division of the sound radiating surface into a multiplicity of eleven flat partial surfaces, as in US 5,333,527 is shown, is not preferred in the inventive design of the sound radiating surface. Rather, the number of partial surfaces is preferably between three and nine, preferably between four and eight. More preferably between six and eight.

The division according to the invention the sound radiating surface in subareas forming the ribs according to the invention serves in the first Line of sound improvement of the radiated sound. Furthermore can the ribs in a ferred embodiment for stabilization the sound radiating surface be arranged in areas of recording reaction forces for tension forces of the strings.

Prefers The ribs of the invention extend linearly over the sound radiating surface and ends with both ends at edges of the sound radiating surface. there At least one rib can be curved be formed, in particular at least one rib a U-shaped course so that the free ends of the rib substantially to the same edge of the sound radiating surface.

Out manufacturing reasons it is advantageous if the material of the sound-emitting surface a has constant thickness.

The formed according to the invention sound radiating surface is preferably the ceiling of the sound corpus. She can be preferred be provided with at least one sound hole. The sound hole can be in a simple and advantageous way as a bass reflex tunnel form when the edges of the sound hole through from the sound radiating area Angled material are realized, which is a wall of the sound hole forms. The angled wall preferably extends in the interior of the orchestra and is funnel-shaped or cylindrically shaped.

For the material the hardening Matrix come all for this known materials in question. In instrument making, the Use of epoxy resin proven as a plastic matrix. Because of good sound conducting properties, it is preferable that the fiber layers with Carbon fibers produce, with the carbon fibers a predominant share the fibers should have, especially the fiber layers only consist of carbon fibers.

The musical instrument according to the invention is preferably a stringed instrument and preferably a stringed instrument with a neck to guide Strings to a head. In this training, it is advantageous if a subarea the sound radiating surface in extension the neck is formed and with a bridge and a bracket for an end the strings is provided. It is advantageous if at least a rib from a near-edge to a distal edge of the sound radiating surface so swinging, that they extend to the neck subarea adjoins and one over the length the sound radiating surface Defined parallel to the course of the strings extending outer surface. In this case can be between an outer surface and extending the neck subarea arranged partial surface be provided with a sound hole. This arrangement can be completed be through a subarea, through an approximately U-shaped rib is limited, with the free ends on the outer edge of the sound radiating area ends and abuts with the bottom of the U to the partial surface continuing the neck.

at Such a preferred arrangement of the partial surfaces and Ribs are preferably formed seven faces, of which three in each case laterally from the longitudinal axis formed by the course of the strings of the instrument are arranged, while the latter part with the U-shaped Ridge substantially in the longitudinal axis extends and is formed symmetrically to this.

The Invention will be described below with reference to an illustrated in the drawing embodiment be explained in more detail. Show it:

1 a plan view of an inventively designed guitar;

2 a partial longitudinal section through the ceiling of the guitar;

3 a cross section through the ceiling of the guitar between bridge and tailpiece;

4 a cross section through a sound hole of the guitar.

In the 1 as an example of a musical instrument with a sound corpus 1 illustrated guitar has in the usual way next to the sound corpus 1 a neck 2 and a head 3 on. There are strings over the neck 4 with one end in mind 3 attached and there by means (not shown) vortex tensioned (tunable). Between the head 3 and the neck 2 there is a saddle 5 over the strings 4 be guided so that they are at a distance parallel to the surface of the neck 2 (Fingerboard) are performed. The strings are at the other end in tailpieces 6 held behind a jetty 7 are arranged so that the strings 4 through the height of saddle 5 and footbridge 7 are stored guided.

The sound corpus 1 consists in the illustrated embodiment of a ceiling 8th , which are above an equally shaped and therefore in 1 from the ceiling 8th covered soil is arranged. The lateral connection between ceiling 8th and bottom via a (not shown) frame.

According to the present invention, the blanket 8th formed from a material consisting of a fibrous layers reinforced cured matrix. Preferably, the material is the ceiling 8th made of carbon fiber layers embedded in cured epoxy resin. The curing of the material can be done by the usual Ver drive. The carbon fiber layers can already be stacked with epoxy resin (prepreg) and then cured in a press under pressure and heat. However, it is also possible dry stacking of the carbon fiber layers and introducing the liquid epoxy resin in a suitable form in RTM (Resin Transfer Molding) or RIM (Resin Injection Molding) method.

The material of the ceiling 8th is designed with a constant material thickness.

According to the invention, the blanket 8th as a sound radiating surface in several sub-areas 9 divided in detail with 91 . 92 . 93 . 94 . 95 . 96 . 97 are designated.

The faces are by ribs 10 separated from each other, in detail with 101 . 102 . 103 and 104 are designated.

A first partial area 91 puts under the strings 4 the shape of the neck 2 the guitar away. Accordingly, the partial area 91 by a substantially U-shaped rib 101 bounded, whose free ends coincide with the longitudinal sides of the neck 2 aligned. In the subarea 91 is the jetty 7 appropriate.

Another subarea 92 is on one side of the first face 91 and extends with a curved, the partial surface 92 limiting rib 102 from an upper edge of the ceiling 8th up to a lower edge, with the rib 102 in the area of the footbridge 7 with a bulge on the first part surface 91 adjacent, so in this area with the rib 101 coincides.

In the illustrated embodiment, the ceiling substantially in the shape of a figure eight, wherein on the right side in the plan view according to 1 at the upper edge of a recess 11 is provided, which does not find on the left side of the 8-shape. Apart from that, the shape of the ceiling 8th So the sound corpus 1 practically symmetrical.

Accordingly, it is approximately symmetrical to the rib 102 a course of the rib 103 that have a corresponding outer surface 93 separates. Between the outer partial surfaces 92 . 93 and the middle part surface 91 are thus intermediate subareas 94 . 95 educated. The left intermediate subarea 95 is because of the missing recess 11 slightly larger and has a sound hole in the upper edge area 12 on, thus at an approximately maximum distance from the bridge 7 located.

The curving lower ends of the ribs 102 . 103 laterally and through the bottom of the U-shape of the rib 101 delimited interface is by an approximately central, the rib 101 oppositely directed U-shaped rib 104 by separating a central partial surface 96 divided so that between the central part surface 96 and the outer faces 92 . 93 still each a partial area 97 . 98 located.

1 clarified by hatching that the faces 91 . 92 . 93 and 96 by slowly rising material progressions to the ribs 101 . 102 . 103 and 104 are formed concave.

This is illustrated by the sectional views of 2 and 3 clarified.

The longitudinal section of the 2 runs through the subarea 91 that over the rib 101 in the lower central part surface 96 passes. In the area of the rib 101 are tailpieces 6 provided by the over the jetty 7 guided string 4 on the ceiling 8th is attached.

2 leaves the concave curvature of the surface 91 and the subarea 96 recognize the rib 101/104, which merge into each other in a partial area and also illustrates that the tailpiece 6 close to the jetty 7 are designed to by the tensile forces of the strings 4 no moments on the ceiling 8th let develop.

The cross section of the 3 lies between jetty 7 and tailpiece 6 looking at the tailpiece 6 , Again, the concave curvature of the surface 91 to the rib 101 recognizable on both sides. Visible is also the concave curvature of the outer faces 92 . 93 to the rib 101 out. Because the faces 92 . 93 in the width of the ceiling 8th are much larger than the partial surface 91 , it can be seen that the radius of curvature in the area of the partial area 91 to the rib 101 is smaller than the radius of curvature of the surfaces 92 . 93 , creating an asymmetrical formation of the rib 101 - as shown - arises.

4 shows a cross section of the design of the ceiling 8th in the area of the soundhole 12 , The sound hole 12 is in the substantially planar trained partial surface 95 realized, and indeed with in the sound hole 12 in angled material, which is a funnel-like wall 13 forms, which are in the interior of the sound corpus 1 extends into it. By the in 4 recognizable funnel-shaped configuration of the wall 13 is a rounded transition between the surface of the face 95 and the wall 13 the soundhole 12 possible. In a cylindrical formation of the wall 13 the rounding would not be so pronounced and possibly also replaced by an angular bending.

The integration of the sound hole 12 in the material of the ceiling and the formation of the soundhole as bass reflex tunnel or short horn increases the acoustic impedance of the sound hole 12 , which benefits the reproduction of low frequencies. Due to the considerable distance from the bridge 7 can the soundhole 12 in an area of the ceiling 8th be housed, which contributes little to the generation of sound. The sound hole formed as a bass reflex tunnel or short horn makes the resonance of the ceiling less sharp and covers a wider frequency range.

In the illustrated guitar as an example of a musical instrument according to the invention, a high effectiveness of the sound radiation can be achieved. This will cause the vibration of the strings 4 Deprived of energy effectively, which keeps the clay less long. This effect is known from loud instruments, such as the banjo, and is not desirable for guitars. By using a carbon fiber composite material - compared to the usual material wood - low ground damping causes, so despite the larger dynamic range, a harmonious sound of the instrument can arise.

Claims (21)

Musical instrument, in particular a stringed instrument, having a sound-radiating surface in the form of a base, a frame and a ceiling ( 8th ) having sound corpus ( 1 ), in which at least one sound-radiating surface ( 8th ) is formed of a material of a fibrous layers reinforced cured matrix, characterized in that the at least one sound emitting surface ( 8th ) into a number of subareas ( 9 ), which are arched and due to their curvature one of the faces ( 9 ) limiting rib ( 10 ) train. Musical instrument according to claim 1, characterized in that the curvature of the partial surfaces ( 9 ) to the edge of the sound emitting surface ( 8th ) leaking into a flat surface. Musical instrument according to claim 1 or 2, characterized in that the number of partial surfaces ( 9 ) is between three and nine. Musical instrument according to one of claims 1 to 3, characterized in that the ribs ( 10 ) for stabilizing the sound-emitting surface ( 8th ) in areas of absorption of reaction forces for tension forces of the strings ( 4 ) are arranged. Musical instrument according to one of claims 1 to 4, characterized in that ribs ( 102 . 104 ) over the sound emitting surface ( 8th ) and with both ends at edges of the sound-radiating surface ( 8th ) end up. Musical instrument according to one of claims 1 to 5, characterized in that at least one rib ( 10 ) is curved. Musical instrument according to claim 6, characterized in that at least one rib ( 101 . 104 ) has a U-shaped course. Musical instrument according to one of claims 1 to 7, characterized in that the material of the sound-radiating surface ( 8th ) has a constant thickness. Musical instrument according to one of claims 1 to 8, characterized in that the sound-radiating surface of the ceiling ( 8th ) of the orchestra ( 1 ). Musical instrument according to claim 9, characterized in that the sound-radiating surface ( 8th ) at least one sound hole ( 12 ) having. Musical instrument according to claim 10, characterized in that edges of the sound hole ( 12 ) through a wall ( 13 ) of the sound hole forming, of the sound emitting surface ( 8th ) Angled material are realized. Musical instrument according to claim 11, characterized in that the angled wall ( 13 ) into the interior of the sound corpus ( 1 ). Musical instrument according to claim 12, characterized in that the wall ( 13 ) extends funnel-shaped into the interior. Musical instrument according to claim 12, characterized in that the wall ( 13 ) extends cylindrically into the interior. Musical instrument according to one of claims 1 to 14, characterized in that the curing matrix with epoxy resin is formed. Musical instrument according to one of claims 1 to 15, characterized in that the fiber layers carbon fibers contain. Musical instrument according to one of claims 1 to 16 with a neck ( 2 ) for guiding strings ( 4 ) to a head ( 3 ), characterized in that a partial area ( 91 ) in extension of the neck ( 2 ) and with a web ( 7 ) and a Hal ( 6 ) for one end of the strings ( 4 ) is provided. Musical instrument according to claim 17, characterized in that at least one rib ( 102 ) from a neck near edge to a non-neck edge of the sound emitting surface ( 8th ) is curved so that it extends to the neck extending surface ( 91 ) and one over the length of the sound radiating surface ( 8th ) parallel to the course of the strings ( 4 ) extending outer faces ( 92 . 93 ) Are defined. Musical instrument according to claim 18, characterized in that a partial surface ( 95 ) between an outer surface ( 93 ) and the neck ( 2 ) extending partial surface ( 91 ) and the sound hole ( 12 ) having. Musical instrument according to one of Claims 17 to 19, characterized by a partial surface ( 96 ), characterized by an approximately U-shaped rib ( 104 ) with the free ends at the outer edge of the sound-radiating surface ( 8th ) ends and with the bottom of the U-shape to the neck ( 2 ) continuing partial area ( 91 ) adjoins. Musical instrument according to one of claims 1 to 20, characterized in that the partial surfaces ( 9 ) from the outside of the sound corpus ( 1 ) are concave.