RU2181508C1 - Contrivance for mounting fiddlestick musical instrument - Google Patents

Abstract

FIELD: musical instruments. SUBSTANCE: contrivance for mounting fiddlestick musical instrument has two screw clamps anchored on body of fiddle in upper and lower zones with bases parallel to shell of fiddle. EFFECT: simplified mounting of fiddlestick musical instrument. 1 cl, 2 dwg

Description

 The invention relates to a manufacturing technology of stringed musical instruments and is intended to reduce inelastic deformations of the violin body during mounting.

In the manufacture of the violin, after tuning the decks and assembling the case before varnishing, the violin is mounted. The mounting consists in installing the neck with the neck, stand, darling, upper and lower sills and tensioning the strings on the body. Mounting a violin is extremely important for the quality of its sound. String tension, the force of which reaches 50 kg, bringing the violin body into tension, can cause strains that exceed the elastic limits of the body, which are undesirable. String tension acts on the body in two directions. The tension between the upper and lower springs creates the compression force of the body in the longitudinal direction, and the bending of the strings through the stand - the pressure force in the transverse direction. The distribution of forces in these directions depends on the angle of inflection of the string on the stand and the height of the strings above the body, which, in turn, are determined by the ratio of the heights of the sills and the stand and the angle of inclination of the neck of the instrument to the body. The compression force of the violin case in the longitudinal direction acts differently on the case depending on the height of the strings, as the height of the string is the arm of the force. The correct mounting of the violin consists in choosing the values of all these parameters at which the violin sounds best. For each of the parameters, there are ranges of their values recommended by the violin masters. So, V. Stakhov (see Creativity of the violin master. - L .: Music, 1988) from his experience chose a rational angle of inflection of the strings on the stand at 155 ^o with the height of the fingerboard over the top deck of 20 mm. However, for violins with different thicknesses of decks, with different elasticity of the material of decks, as well as with different heights of strings above the body, there is an optimal set of mounting parameters. Setting the same angle of inflection of the strings, the heights of the sills, the angle of the neck for all violins does not help to mount the violin with the best acoustics.

 A device for mounting a neck with a neck in the body of a bowed musical instrument is known (see AS 181550). The device is a clamp with a base and jaws movable towards each other, with which the clamp is attached to the bar. Perpendicular to the plane of movement of the jaws, a movable index rod with a locking screw is installed on the base. By moving the rod, the required angle of the neck is fixed. This device improves the accuracy of the neck and simplifies the installation, however, it is not intended to mount the violin in a string with taut strings.

 The objective of the invention is to simplify the mounting of the violin when choosing the optimal ratio of the heights of the sill, stand and the angle of the neck.

 The technical result achieved by the invention is to eliminate gross, exceeding the elastic deformations of the violin case with string tension.

 To solve the task, the device, like the prototype, contains a clamp with a base and jaws. In contrast to the prototype, the device contains two clamps fixed on the violin case in the areas of the upper and lower ends of the bases parallel to the shell of the case. Each clamp is made with two levers that extend the base on both sides of the jaws. Two strings are stretched between the ends of the clamp arms on both sides of the violin case. The clamp, fixed in the region of the upper scotch, also has a third lever, at the time of mounting it performs the function of the neck and pivotally attached to the base of the clamp with the possibility of changing its angle of inclination to the violin body. In the center at the base of both clamps are made windows for violin strings.

 The invention is illustrated by drawings, where in FIG. 1 shows a fixture in an assembly on a violin body, and FIG. 2 view of the clamp on aa. The device contains clamps 1 and 2 with bases 3 and jaws 4 and 5. Clamp 1 is fixed to the violin case 6 in the region of the lower clot, and clamp 2 - in the region of the upper clot. The upper jaws 4 in this case rest on the upper deck 7 of the violin. With the lower jaws 5, with the help of screw 8, the clamps are mounted on the housing 6. The bases of 3 clamps are parallel to the shell of the housing 6. Both clamps are made with levers 9 and 10, which are extensions of the bases 3 of the clamps up and down. A string 11 is stretched between the ends of the levers 9 of both clamps above the housing 6. The same string 12 is stretched between the ends of the levers 10 on the other side of the housing 6. Both strings 11 and 12 are equipped with devices 13 for adjusting their tension. At the bases 3 of both clamps, windows 15 are made through which, when mounting the violin, its strings 16 are passed. Clamp 2, which is fastened in the region of the upper violin end, is made with a lever 17, which at the time of mounting acts as a neck. The lever 17 is fixed to the base 3 of the clamp 2 using the hinge 18. The hinge 18 allows you to change the angle of inclination of the lever 17 to the body 6 of the violin. The lever 17 is equipped with a device for fixing the angle of its inclination. In the figures, the device is not shown, since it can have various versions. In the simplest case, it could be a locking screw. At the end of the lever 17 there is a string holder 19 with pegs for tensioning the strings. The numbers 20 and 21 indicate the stand and the darling of the violin. The device operates as follows. After tuning the decks and assembling the violin body 6, clamps 1 and 2 are put on it and the strings 11 and 12 are pulled so that they sound in unison. Then, the stand 20 is installed and the violin strings 16 are pulled, securing them in the string holder 18 located at the end of the lever 17. After tensioning the strings 16, the distance between the ends of the levers 9 and 10 will change when the violin case 6 deforms. As a result, the strings 11 and 12 will be tensioned differently, respectively, the pitch of their sound will change. The change in the tension of the strings 11 and 12 will be the greater, the longer the levers 9 and 10, that is, the sensitivity of the device to deformation of the body depends on the length of the levers. Changing the angle of the lever 17 and the height of the stand 6, we achieve the sound of strings 11 and 12 in unison. This means that the deformation of the violin case 6 from the tension of the violin strings 16 is minimized. Then, clamp 2 with lever 17 is used as a template for the manufacture and installation of a permanent neck.

 The proposed device for mounting a bow musical instrument provides such a selection of the parameters of the tilt angle of the neck, the heights of the stand and the lower nut, which ensures the mutual neutralization of forces that cause multidirectional deformation of the body from stretched strings. Thus, the case of the violin, being in a state of tension from tensioned strings, does not experience constant static deforming effects, which positively affects the sound of the instrument, the duration of its operability and appearance.

Claims (1)

 A device for mounting a bowed musical instrument containing a clamp with a base and jaws, characterized in that the device contains two clamps fixed on the violin body in areas of the upper and lower ends with bases parallel to the shell of the violin, the bases of the clamps are extended on both sides by levers, between the ends of which are two strings are stretched on both sides of the violin case, and the clamp, fixed in the region of the upper clot, has a third lever, which at the time of installation, performs the function of the neck and pivotally attached to the base of the clamp with the possibility of changing the angle of inclination to the violin body, and windows for violin strings are made in the bases of both clamps.

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