CN113362784A - Violin damping and silencing device and method - Google Patents

Abstract

The invention relates to the technical field of damping and sound attenuation, in particular to a violin damping and sound attenuation device and a violin damping and sound attenuation method, which comprise a violin tailpiece, a violin bridge, violin G strings, violin D strings, violin A strings and violin E strings, one end of each of the violin G strings, the violin D strings, the violin A strings and the violin E strings is connected with a violin string tying plate in a manner of screwing and connecting through a string shaft, the other end of each of the violin G strings, the violin D strings, the violin A strings and the violin E strings is buckled on the top surface of a violin bridge, four damping pieces A are arranged on the outer side of the top surface of the violin bridge, the four damping pieces A are respectively sleeved on the top surfaces of the violin G strings, the violin D strings, the violin A strings and the violin E strings, the top surfaces of a violin G string and a violin D string between the violin tailpiece and the violin bridge are provided with damping pieces B, and the top surfaces of a violin A string and a violin E string between the violin tailpiece and the violin bridge are provided with damping pieces C.

Description

Violin damping and silencing device and method

Technical Field

The invention relates to the technical field of damping and silencing, in particular to a violin damping and silencing device and method.

Background

The violin is a stringed instrument, totally has four strings, produces sound by the friction of the strings and bows, has more than 300 years of history in the appearance of modern violins, is one of the most important instruments in western music since the 17 th century, is known as an instrument queen, is also an exquisite art at a gate pole, has beautiful timbre, is close to human voice, has wide range of voice and strong expressive force, and always occupies a remarkable position in the instrument from the birth day of the violin, thus being popular for people.

The novel violin generally produces noise, especially high-frequency noise, the modern violin making technology is not effectively solved, the high-frequency noise is restrained and attenuated due to the fact that the surface layer of the high-quality ancient violin is wooden and naturally decayed in the general long-term, and therefore the violin has good tone quality, and the modern violin making technology is difficult to achieve the point, and therefore the problem that the high-frequency noise is always a violin is solved.

Therefore, the violin damping silencer capable of effectively solving the problems and the defects of high noise, unclear pronunciation and unstable tone quality is produced, and has wide market prospect.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the violin damping silencing device which can effectively solve the problems and the defects of high noise, unclear pronunciation and unstable tone quality, and is used for overcoming the defects in the prior art.

The technical scheme adopted by the invention is as follows: a violin damping and silencing device comprises a violin string tying plate, a violin bridge, violin G strings, violin D strings, violin A strings and violin E strings, wherein one ends of the violin G strings, the violin D strings, the violin A strings and the violin E strings are connected with the violin string tying plate in a manner of screwing through string shafts, the other ends of the violin G strings, the violin D strings, the violin A strings and the violin E strings are buckled on the top surface of the violin bridge, four damping pieces A are arranged on the outer side of the top surface of the violin bridge, the four damping pieces A are respectively sleeved on the top surfaces of the violin G strings, the violin D strings, the violin A strings and the violin E strings, the four damping pieces A are respectively buckled on the top surface of the violin bridge through the violin G strings, the violin D strings, the violin A strings and the violin E strings, and damping pieces B are arranged on the top surfaces of the violin D strings between the violin string tying plate and the violin bridge, and a damping piece C is arranged on the top surfaces of the string A and the string E between the tailpiece of the violin and the violin bridge.

Damping piece A adopt square massive structure, the cross opening has been seted up to damping piece A's bottom surface, has seted up the string notch on the violin sign indicating number top surface, the horizontal plane opening of cross opening is located same water flat line with this string notch, the vertical plane opening buckle of cross opening is on the top surface of violin sign indicating number.

Damping piece B adopt the massive structure of "Z" style of calligraphy, first string opening has all been seted up to damping piece B's last horizontal surface and lower horizontal surface, damping piece B through first string opening suit on the top surface of violin G string and violin D string.

Damping piece C adopt the massive structure of "Z" style of calligraphy, second string opening has all been seted up to damping piece C's last horizontal surface and lower horizontal surface, damping piece C passes through second string opening suit on the top surface of violin A string and violin E string.

The damping piece B on all seted up the first amortization groove of a plurality of on the lateral wall of transverse surface and transverse surface down, all seted up a plurality of second amortization groove on the lateral wall of damping piece C on transverse surface and transverse surface down, first amortization groove and second amortization groove all adopt the structure of arc sunken form.

A method for damping and silencing a violin as in claim 1, first, the damping member B is fastened on the top surfaces of the string G and the string D of the violin between the string board and the violin bridge, the damping member C is fastened on the top surfaces of the string A and the string E of the violin between the string board and the violin bridge, then the four damping members A are fastened on the top surfaces of the string G, the string D of the violin, the string A of the violin and the string E of the violin bridge through cross openings, respectively, according to the silencing requirement, the distance between the damping member B on the string G and the string D of the violin and the distance between the damping member C on the string A and the string E of the violin are adjusted, and the obtained effect is more obvious through the first silencing groove and the second silencing groove which are arranged on the damping member B and the damping member C.

The invention has the beneficial effects that: the invention comprises a violin string tying plate 1, a violin bridge 2, violin G strings 3, violin D strings 4, violin A strings 5 and violin E strings 6, wherein one ends of the violin G strings 3, the violin D strings 4, the violin A strings 5 and the violin E strings 6 are connected with the violin string tying plate 1 in a string shaft screwing mode, the other ends of the violin G strings 3, the violin D strings 4, the violin A strings 5 and the violin E strings 6 are respectively clamped on the top surface of the violin bridge 2, four damping pieces A9 are arranged on the outer side of the top surface of the violin bridge 2, the four damping pieces A9 are respectively sleeved on the top surfaces of the violin G strings 3, the violin D strings 4, the violin A strings 5 and the violin E strings 6, the four damping pieces A14 are respectively clamped on the top surface of the violin bridge 2 through the violin G strings 3, the violin D strings 4, the violin A strings 5 and the violin E strings 6, and the top surface of the violin bridge 2 are provided with the violin D strings 4, and the violin string tying pieces B7, damping pieces C8 are arranged on the top surfaces of strings A5 and E6 between a string tying plate 1 and a violin bridge 2 of the violin, the distance between strings G3 and D4 of the violin and the distance between damping pieces C8 and strings A5 and E6 of the violin are adjusted through B7, the sound of the violin can be more stable, pure and beautiful, the obtained silencing effect can be more obvious through the first silencing grooves 12 and the second silencing grooves 10 which are arranged on the damping pieces B7 and C8, the noise generated by the violin bridge can be more effectively eliminated, the sound of the violin is clearer, sensitive and powerful, and the problems of large noise, unclear sound and unstable sound quality are solved; the invention has the advantages of simple structure, convenient operation, ingenious design, great improvement on the working efficiency, good social and economic benefits and easy popularization and use.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an overall sectional structure diagram of the present invention.

Fig. 3 is a schematic perspective view of the damping member a of the present invention.

Fig. 4 is a schematic bottom view of the damping member a of the present invention.

Fig. 5 is an enlarged schematic view of point a in fig. 2.

Fig. 6 is an enlarged schematic view of point B in fig. 2.

Detailed Description

As shown in fig. 1, 2, 3, 4, 5 and 6, the violin damping and sound attenuating device comprises a violin string system string board 1, a violin bridge 2, a violin G string 3, a violin D string 4, a violin a string 5 and a violin E string 6, wherein one end of each of the violin G string 3, the violin D string 4, the violin a string 5 and the violin E string 6 is connected with the violin string system string board 1 in a string shaft screwing mode, the other end of each of the violin G string 3, the violin D string 4, the violin a string 5 and the violin E string 6 is buckled on the top surface of the violin bridge 2, four damping pieces a9 are arranged on the outer side of the top surface of the violin bridge 2, the four damping pieces a9 are respectively sleeved on the top surfaces of the violin G string 3, the violin D string 4, the violin a string 5 and the violin E string 6, and the four damping pieces a14 are buckled on the top surfaces of the violin G string 3, the violin D string 4, the violin string 5 and the violin string 6, the top surfaces of violin G strings 3 and violin D strings 4 between the violin tailpiece 1 and the violin bridge 2 are provided with damping parts B7, the top surfaces of violin A strings 5 and violin E strings 6 between the violin tailpiece 1 and the violin bridge 2 are provided with damping parts C8, the distances between the damping parts B7 on the violin G strings 3 and the violin D strings 4 and between the damping parts C8 on the violin A strings 5 and the violin E strings 6 can be adjusted to enable violin sounds to be more stable, pure and beautiful, and the damping effects obtained by the damping parts B7 and the damping parts C8 can be more obvious and can effectively eliminate the noise generated by the bridge, so that the violin has clearer, more sensitive and powerful pronunciation, and the problems of loud noise, unclear pronunciation and unstable are solved.

Damping piece A9 adopt square massive structure, cross opening 14 has been seted up to damping piece A9's bottom surface, has seted up the string notch on 2 top surfaces of violin sign indicating number, the horizontal plane opening of cross opening 14 is located same water flat line with this string notch, the perpendicular face opening buckle of cross opening 14 is on the top surface of violin sign indicating number 2, the noise cancelling effect that makes its acquire can be more obvious, the noise that the more effectual elimination sign indicating number produced.

Damping piece B7 adopt the massive structure of "Z" style of calligraphy, first string opening 13 has all been seted up to damping piece B7's last horizontal surface and lower horizontal surface, damping piece B7 is through first string opening 13 suit on the top surface of violin G string 3 and violin D string 4.

Damping piece C8 adopt the massive structure of "Z" style of calligraphy, second string opening 11 has all been seted up to damping piece C8's last horizontal surface and lower horizontal surface, damping piece C8 passes through second string opening 11 suit on the top surface of violin A string 5 and violin E string 6.

Damping piece B7 go up the lateral wall of transverse surface and transverse surface down on all seted up the first amortization groove 12 of a plurality of, damping piece C8 goes up the lateral wall of transverse surface and transverse surface down on all seted up a plurality of second amortization groove 10, first amortization groove 12 all adopts the sunken structure of form of arc with second amortization groove 10, damping piece B7 and damping piece C8 adopt the preparation of rubber material.

The use method of the product is as follows: as shown in fig. 1, 2, 3, 4, 5 and 6, firstly, the damping member B7 is fastened on the top surfaces of the strings 3 and 4 of violin G and D between the tailpiece 1 of the violin and the bridge 2 of the violin, the damping member C8 is fastened on the top surfaces of the strings 5 and 6 of violin a and E between the tailpiece 1 of the violin and the bridge 2 of the violin, and then the four damping members a9 are respectively fastened on the top surfaces of the strings 3, 4 and 5 of violin G and the bridge 2 of the violin through the cross openings 14, the distance between the damping piece B7 on the strings G3 and D4 of the violin and the distance between the damping piece C8 on the strings A5 and E6 of the violin are adjusted according to the requirement of sound attenuation, the first silencing groove 12 and the second silencing groove 10 arranged on the damping piece B7 and the damping piece C8 can obtain more obvious silencing effect.

The violin damping silencing device can effectively solve the problems and the defects of high noise, unclear pronunciation and unstable tone quality, and has wide market prospect.

Claims (6)

1. Violin damping silencing device, including violin string board (1), violin sign indicating number (2), violin G string (3), violin D string (4), violin A string (5) and violin E string (6), its characterized in that: the top surface of the clamping violin code (2) is provided with four damping pieces A (9), the four damping pieces A (9) are respectively sleeved on the top surfaces of the violin G strings (3), the violin D strings (4), the violin A strings (5) and the violin E strings (6), the four damping pieces A (14) are respectively sleeved on the top surfaces of the clamping violin G strings (2), the violin D strings (4), the violin A strings (5) and the violin E strings (6), and the violin string code (1) and the violin E strings (6) are connected with the violin chord (1) in string plate in a manner through tuning violin D strings (3), the violin D strings (4), the violin A strings (5) and the violin E strings (6), and the violin string plate (3) and the violin E string plate (2) 4) Is provided with a damping member B (7), and is provided with a damping member C (8) on the top surfaces of a violin A string (5) and a violin E string (6) between a violin tailpiece (1) and a violin bridge (2).

2. The violin damping muffler according to claim 1, wherein: damping member A (9) adopt square block structure, cross opening (14) have been seted up to the bottom surface of damping member A (9), have seted up the string notch on violin sign indicating number (2) top surface, the horizontal plane opening of cross opening (14) is located same water flat line with this string notch, the vertical plane opening buckle of cross opening (14) is on the top surface of violin sign indicating number (2).

3. The violin damping muffler according to claim 1, wherein: damping piece B (7) adopt the massive structure of "Z" style of calligraphy, first string opening (13) have all been seted up to the last horizontal surface and the lower horizontal surface of damping piece B (7), damping piece B (7) are through first string opening (13) suit on the top surface of violin G string (3) and violin D string (4).

4. The violin damping muffler according to claim 1, wherein: damping piece C (8) adopt the massive structure of "Z" style of calligraphy, second string opening (11) have all been seted up to the last horizontal surface and the lower transverse surface of damping piece C (8), damping piece C (8) pass through second string opening (11) suit on the top surface of violin A string (5) and violin E string (6).

5. The violin damping muffler according to claim 1, wherein: damping piece B (7) on all seted up a plurality of first amortization groove (12) on the lateral wall of transverse plane and transverse plane down, damping piece C (8) on all seted up a plurality of second amortization groove (10) on the lateral wall of transverse plane and transverse plane down, first amortization groove (12) and second amortization groove (10) all adopt the structure of arc sunken form.

6. A method of damping a muffler assembly as claimed in claim 1, wherein: firstly, a damping piece B (7) is buckled on the top surfaces of a violin G string (3) and a violin D string (4) between a violin string tying plate (1) and a violin bridge (2), a damping piece C (8) is buckled on the top surfaces of a violin A string (5) and a violin E string (6) between the violin string tying plate (1) and the violin bridge (2), then four damping pieces A (9) are respectively buckled on the top surfaces of the violin G string (3), the violin D string (4), the violin A string (5) and the violin E string (6) and the violin bridge (2) through cross through holes (14), the distance of the damping piece B (7) on the violin G string (3) and the violin D string (4) and the distance of the damping piece C (8) on the violin A string (5) and the violin D string (2) and the distance of the damping piece C (8) on the violin A string (5) and the violin D string (6) are adjusted according to the requirements of sound attenuation, and the first damping piece B (7) and a second damping piece C (12) are arranged on the violin a damping piece C (7) and the sound attenuation groove (12) The sound groove (10) enables the sound attenuation effect obtained by the sound groove to be more obvious.

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