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Acoustic structure fiddle and manufacturing method thereof

A violin and configuration technology, applied in violins, measuring devices, special recording/indicating devices, etc., can solve problems such as unsatisfactory, reduce the probability of loss of sound information, reduce material requirements, and improve volume and tone. Effect

Inactive Publication Date: 2014-08-06
黄孝珍 +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The violins made by modern people imitating it are often unsatisfactory in terms of volume and timbre.

Method used

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  • Acoustic structure fiddle and manufacturing method thereof
  • Acoustic structure fiddle and manufacturing method thereof
  • Acoustic structure fiddle and manufacturing method thereof

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Embodiment Construction

[0044] In the specific embodiment of the present invention, an acoustic configuration violin is taken as an example. The heights of the headwood and tailwood traditionally used in the manufacture of violins are 30.5mm and 32.5mm. Taking this as a reference, we selected two sets of data from Table 2 when making the violin of the acoustic configuration. The selected data are as follows.

[0045] musical alphabet: # A 98 A 97 # G 96 G 95 # f 94 f 93 E. 92 # D. 91 D. 90 # C 89 C 88 B 87

[0046]Wavelength: 29.968 33.638 37.757 42.381 47.775 53.397

[0047] (mm) 31.750 35.381 40.381 44.901 50.400 56.572

[0048] Sound name: A 97 # G 96 G 95 # f 94 f 93 E. 92 # D. 91 D. 90 # C 89 C 88 B 87 # A 86

[0049] Wavelength: 31.750 35.381 40.002 44.901 50.400 56.572

[0050] (mm) 33.638 57.757 42.381 47.775 53.397 59.936

[0051] We call these two groups of sounds the design vowels.

[0052] All the tones of the violin, including semiton...

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Abstract

A violin having an acoustic configuration different from classical violins and a method of making the same. The violin comprises: a back plate, a side plate and a side plate constituting the violin cavity, one end of the cavity is the head end, the other end is the tail end, a c-shaped area is arranged on the side of the cavity, and f holes are opened on the panel; On the longitudinal mid-section of the violin head end and tail end, from the head end or tail end to the location of the C-shaped area, the vertical distance between the inner surface of the panel and the back plate increases gradually, and the farther away from the C-shaped area the The smaller the rising slope of the vertical distance is, the closer the distance to the C-shaped area is, the larger the rising slope of the vertical distance is.

Description

technical field [0001] This invention relates to improvements in the configuration of violins and methods of making such violins. Violins involved in this patent include violins, violas and cellos. Background technique [0002] Today's violin follows the violin shape of famous ancient Italian luthiers, and it has been more than 300 years. Its shape is like figure 1 shown. [0003] The traditional violin is mainly composed of the headstock, strings, bridges, sound columns, bass beams, fingerboards, panels, backboards, side panels, first wood, tail wood and angle wood, and bow. The violins made by modern people imitating it are often unsatisfactory in terms of volume and timbre. [0004] In order to improve the timbre and volume of the violin, various parts of the violin have been improved. The cavity of the violin is the main part of the sound and resonance of the violin. Improvements to the cavity structure will directly affect the volume and tone of the violin. [00...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G10D3/02G10D1/02
CPCG01D3/02G10D1/02G10D3/02Y10T29/49574
Inventor 黄孝珍侯凌云杨世珍
Owner 黄孝珍
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