RU2104590C1 - Six string guitar - Google Patents

Abstract

FIELD: musical instruments. SUBSTANCE: device has deck which contains cross-bar along device symmetry axis in parallel to strings. Outside housing on upper deck side there is sound plate to which strings are mounted. Oscillations of sound plate are transmitted through two screws to upper deck side which is made from triangular wood plates. EFFECT: increased functional capabilities. 5 dwg

Description

 The invention relates to the production of stringed musical instruments, in particular, acoustic guitars.

 Acoustic guitars are known that contain a body, including interconnected decks, a bottom, a shell, glue, and a fingerboard connected to the body, including a handle, stickers, a ring mechanism, strings and a stand (Belov S.I. Shchipkovye Instruments.- M .: Goslesbumizdat, 1963, pp. 17-26).

 A disadvantage of the known designs are the low sound quality of the instrument and the inconvenience of use.

 Acoustic (six-string or seven-string) guitars are known, consisting of a body, neck and strings. The body of the guitar has an oval shape and consists of upper and lower decks connected by side recesses, the so-called shells (E. Puhol. School of playing the six-string guitar. - M.: Soviet composer, 1983).

The disadvantages of famous acoustic guitars are:
a) the static tension of the strings through the stand is transmitted to the upper deck, which is the source of sound. This makes the deck massive enough (by pasting special strips from the inside), and this in turn adversely affects the sound quality of the instrument;
b) sound vibrations from the strings propagate along the deck both along the wood fibers and across. Acoustic properties of wood across the fibers are low, which adversely affects the sound quality of the instrument;
c) under the influence of string tension, the neck is bent, which leads to additional technical difficulties during the game;
d) the neck has a different section and is rounded on the back. Different section of the neck creates additional difficulties during the game, and rounding creates increased pressure on the thumb of the left hand;
e) the heel of the neck, speaking beyond the tool body, creates difficulties when playing in the upper positions.

 The invention is aimed at eliminating the aforementioned drawbacks and the following technical result can be obtained from its use: improving the acoustic properties of the deck, improving the comfort of the game, increasing the strength of the instrument.

 The specified technical result is achieved due to the fact that a guitar design is proposed that contains a special strut along the axis of symmetry of the guitar parallel to the strings inside the body and the installation of a special sound plate instead of a stand, the upper deck glued from triangular wooden plates forming radially diverging sectors, the neck, with the back the sides of which a wooden strut is glued parallel to the bar, and in the section the bar is concave.

 A feature of the invention is that the upper deck is installed with a radial arrangement of wood layers, the upper deck is unloaded from the static tension of the strings by jointly installing a special spacer and sound plate, the spacer is installed on the back of the neck, the shape of the neck section is changed.

 The proposed tool is more durable. The sound volume is 1.5 times higher than the known ones. The timbre of the instrument can be adjusted over a wide range during manufacture by sticking on the deck from inside the springs, the number of which can be selected as desired. The upper deck is unloaded from the static tension of the strings by installing a special wooden spacer inside the body along the axis of symmetry of the guitar parallel to the strings and installing a sound plate instead of the stand. This plate is installed parallel to the top deck at a distance equal to the height of the former stand. Strings are attached to the sound plate. The sound plate performs two functions: it takes on the static tension of the strings and emits sound.

 The vibrations of the sound plate are transmitted to the upper deck with the help of two screws that are screwed into the tree of the upper deck. The design of the top deck is fundamentally different. The deck is glued from triangular wooden plates. Triangles form radially diverging sectors, filling the entire surface of the deck. The gluing center lies in the middle between the screws that transmit the vibrations to the deck. As a result, the vibrations passing the glue line always spread along the fibers in all directions. The acoustic properties of such a deck are higher than that of well-known analogues.

 The bar is made of increased rigidity. On the back of the neck, a wooden spacer is glued parallel to the neck at a distance of 30 mm. It gives the bar extra rigidity. When playing the guitar, the thumb of the left hand slides between the spacer and the back of the neck. This design does not create difficulties when playing. Moreover, the neck can be made the same in thickness. In the proposed guitar, a neck section is made, repeating from the back the shape of the thumb, i.e. slightly concave (and not convex, as in the known solutions). This section reduces pressure on the thumb of the left hand, the hand is less tired when playing.

 In FIG. 1 shows the proposed guitar, a longitudinal section along the plane of symmetry; figure 2 - upper deck, General view; figure 3 - sound plate, General view; figure 4 is a section aa in figure 3; figure 5 - node 1 in figure 1.

 The proposed acoustic six-string guitar contains a housing 1, consisting of interconnected shells 2, lower 3 and upper 4 with eight-shaped decks, neck 5 and string 6 (figure 1).

 At the same time, the upper deck 4 (Fig. 2) consists of triangular plates 7 well fitted to one another, made of resonant wood (spruce, fir, Siberian cedar), a central spring - a slat 8 of the same tree, into which two screws 9 are screwed, transmitting vibrations from the sound plate 10.

 The sound plate 10 (figure 3) is a plate 11 of a resonant tree in the form of a semi-wave. Perpendicular to the fibers (the directions of the wood fibers are indicated by line aa), two birch springs 12 and 13 (FIG. 4) are installed at one end of the plate 11 to ensure strength. Between these springs there is a duralumin plate 14 with six inclined holes 15 for passing strings 6. Opposite each hole in the sound plate 10 there are windows 16 in which steel rods 17 are installed. In the springs 12 and 13 there are two holes 18 for screws 9 for transmitting vibrations the upper deck 4. The rounded end of the sound plate 10 through a special boss 19 (figure 1) is attached to the spreader bar 20, which is located inside the housing 1. To the same spreader bar 20 attached neck 5. From the back to the neck 5 a rib 21 is connected, at the other end it is connected to the spacer bar 20.

 If necessary, washers are installed between the decks 22. The proposed musical instrument is assembled as follows. Well fitted one to the other, triangular plates 7 3 mm thick from a resonant tree (fir, spruce, Siberian cedar) are glued so that the direction of the layers of the tree is radial (Fig. 2), and the vertices of the triangles converge in a single center, onto which they are glued from above the central spring is a bar 8 of the same tree with a size of 140x20x3 mm. The number of triangular plates ranges from 10 to 17.

 From the board thus obtained, the upper deck 4 is cut to the size of a guitar. Two screws 9 are screwed into the holes located in the spring-bar 8, which transmit vibrations from the sound plate 10.

 Fluctuations from the central spring through glue joints extend along the wood fibers in all directions. Such a deck has better acoustic properties than its known counterparts due to the radial arrangement of the layers of wood.

 The sound plate 10 is a plate 11 (figure 3) of a resonant tree with a thickness of 3 mm in the form of a semi-oval. Two birch springs 11 and 13 are glued perpendicularly to the wood fibers at one end (the directions of the wood fibers are indicated by lines aa), 140x24x2 mm in size, to ensure strength. Between these springs, a duralumin plate 14 with six inclined holes 15 with a diameter of 1.8 mm is glued to pass the strings 6. Opposite each hole in the plate 10, windows 16 are sawn into which steel rods 17 with a diameter of 1.5 mm are glued. The string is passed through the duralumin plate 14 through an inclined hole 15 and looped onto the rod 17. With the other rounded end, the plate 10 is glued through a special boss 19 (Fig. 1) to the spreader bar 20. The vibration transfer screws 9 of the upper deck 4 are screwed into the springs 12 and 13 .

 Assemble the body 1 of the guitar in one of the known ways (structural elements that do not differ from existing analogues are not mentioned). Inside the body 1, a spacer bar 20 is installed in the form of a 20 mm thick trapezoidal board, which takes on the static tension of the strings 6. Vulture 5 is glued to the spacer bar 20, and a sound plate 10 is glued through the boss 19 at the other end of the spacer bar 20.

 The height of the boss 19 is selected so that the strings 6 are at the right distance from the neck 5. Between the upper deck 4 and the spreader bar 20, a gap of 6 mm is left. The strings 6 are tensioned in such a way that a tensile force parallel to the top deck 4 acts on the sound plate 10. Rib 21 serves to increase the rigidity of the neck 5. It is made of pine 20 mm thick and glued at one end to the spreader bar 20, and the other to the neck 5.

 All adhesive joints are reinforced with birch dowels. In all critical places apply epoxy glue. From figure 1 it is clear that the tension of the strings 6 is transmitted through the sound plate 10 and neck 5 to the spacer bar 20, bypassing the main upper deck 4.

 After the strings are tightened, tighten the screws 9 connecting the deck 4 and the sound plate 10. The thumb of the player’s left hand slides between the edge 21 and the finger 5 during the game, the distance between which is 30 mm.

 Neck 5 has no heel; the neck is the same throughout the thickness. The back of the neck is concave, this increases the area of contact between the thumb and the finger and reduces pressure on the finger.

 The proposed six-stringed acoustic guitar has a bright timbre, loudness exceeding 1.5 times the usual guitars, is quite durable and easy to learn.

Claims (1)

 An acoustic six-string guitar containing a fretboard, strings and a body formed by eight-shaped upper and lower decks connected by a shell, characterized in that a strut along the symmetry axis of the guitar is parallel to the strings inside the body, a sound plate is mounted on the outside of the body parallel to the upper deck, on which are fixed strings, vibrations from the sound plate with the help of two screws are transmitted to the upper deck, which is assembled from triangular wooden plates forming radially diverging all sectors, on the back of the neck there is an edge parallel to the neck, and the section of the neck is concave.

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