RU2504024C2 - Layered material for soundboards of musical instruments - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: layered material for soundboards of musical instruments has soft and hard layers joined to each other, arranged perpendicular to the given base plane of the material and repeatedly alternating with each other. The soft layers are made of porous materials, such as foamed polyurethane or foam plastic or balsa, and the hard layers are made of a metal alloy or plastic or hardwood.

EFFECT: making soundboards of musical instruments whose acoustic properties match those of classical instruments and eliminating shortcomings that are typical for natural wood, while widening the timbre range of the instruments.

7 cl, 1 dwg, 2 ex

Description

The invention relates to musical instruments, and in particular to layered materials from which resonant decks of musical instruments are made, in particular decks of bow, pluck and keyboard instruments with high acoustic properties.

It is known that the acoustic properties of musical instruments are determined, in many respects, by the materials from which they are made. Throughout the long history of existence, bowed, plucked and keyboard instruments were made from certain types of wood. Since ancient times, materials for instruments with high sound quality have been selected in this way: for the upper deck - spruce, and for the lower deck and sidewalls - maple, cedar, rosewood, which is associated with certain physical properties of wood in general and the mentioned species in particular. In this case, the layered-fibrous structure of wood is of particular importance, characterized, in particular, by the successive alternation in the cross section of annual rings of solid “winter”, darker and denser, with soft “summer”, lighter and less dense. The density and width of the annular layers depends on many factors, in particular wood species, geographic, climatic and soil conditions. Even by ancient masters it was revealed that in wooden instruments the function of the propagation of sound waves is performed by harder “winter” layers, and soft “summer” layers are a medium in which sound waves propagate and are muffled in different ways depending on the structure of the tree. The indicated properties of hard “winter” and soft “summer” layers determine such characteristics as the speed of sound, resonance ability and the logarithmic decrement of vibrations that determine the sound quality of a musical instrument.

With the development of industrialization and population growth, accompanied by deforestation, there was less and less wood suitable for the manufacture of high-quality wooden musical instruments, resulting in the problem of providing manufacturers of musical instruments with acoustic raw materials.

It should also be taken into account that in a rather complex and lengthy process of processing wood raw materials, there are large losses during rejection due to knots, twigs and other heterogeneities. In addition, its disadvantages include such properties as incomplete predictability of the characteristics of the tool during its manufacture, associated, in particular, with the anisotropy of wood, for example, different widths of annual layers as the tree grows and depending on various natural factors, and deterioration quality of the tool over time, associated with cracking of wood under the influence of even minor changes in temperature and humidity.

The above disadvantages predetermined the need to replace wood, as a material for the manufacture of musical instruments, with artificial material, which, not inferior to wood in acoustic properties, can be made to the required scale to meet the needs of manufacturers of musical instruments, while it will be free from the disadvantages inherent in wood.

A well-known deck of string musical instruments (US patent No. 4364990, publication date - 12.21.1982, class B29C 70/02, B29C 70/08, B29C 70/20. B32B 5/28, G10D 1/00, B29C 70/00, В29С 70/10, В32В 5/22), made of artificial material, consisting of two or three layers adjacent to each other. One of the layers is made of cardboard, the other layer is formed by fibers arranged in random directions, previously immersed in epoxy resin. A three-layer option is possible when the cardboard forms the middle layer, and the fibrous layers adjoin it from above and below.

Known string instrument string (US patent No. 5905219, publication date 05/18/1999, class G10D 1/00), made of a composition containing an unsaturated polyurethane resin and an inorganic filler in the form of pieces of polyester or glass balls with a specific gravity of 0.45 ... 0, 60 g / cm ³ , which corresponds to the density of wood. A layer of varnish or other coating is applied on top to give the tool the appearance of a natural tree.

A musical instrument is known (patent EP No. 0433430, publication date 06.26.1991, class G10D 1/00), in which the upper deck is made of several, at least two layers adjacent to one above and below the bottom, each of which is formed by fibers carbon saturated with polymerizable resin. Above and below, this layered structure is covered by a layer of veneer, which determines the vibrational characteristics of the tool.

Known material for resonant decks of musical instruments (US patent No.2002066354, publication date 06.06.2002, class G10C 3/06, G10D 1/00, G10D 3/02, G10C 3/00), formed of three or five layers. The thickness of the middle layer, called the slab, is much greater than the thickness of the layers adjacent to the middle layer above and below. The middle layer is made of dense foam or loose wood, and the outermost layers are made of a fibrous laminate with multidirectional fibers. The density of the extreme layers is greater than the middle layer. A distinctive feature of the material is the presence of cylindrical recesses in the middle layer located in zones in which the deck made of this material will experience slight bending stresses. The purpose of these recesses is to reduce the amount of mass driven into oscillation, which helps to improve the sound of the instrument.

Closest to the claimed layered material for resonant musical instrument decks is the material for musical instrument decks (US patent No. 7202065, publication date 01.03.2006, class G10C 3/06, G10D 1/00, G10D 3/02, G10C 3 / 00), in which the middle layer of the deck material is made of balsa or dense foam, and a denser layer of fibrous material is adjacent to it from above and below. In addition, to balance the longitudinal forces, the central part of the middle layer, located on both sides of the longitudinal axis of the deck, is made not of balsa, like the rest of this layer, but of a more dense substance.

A disadvantage of the known material for musical instrument decks is that the sound quality reproduced by instruments whose decks are made of the specified material is inferior to the sound quality reproduced by classical artisans whose decks are made of the finest natural wood species.

The objective of the invention is the creation of a layered material for resonant decks of musical instruments, in which due to the proposed implementation of the material provides the production of resonant decks of musical instruments, which acoustic properties are not inferior to the decks of classical master instruments, and ensures the elimination of the above-mentioned disadvantages inherent in natural wood, while expanding timbre palette of instruments made of artificial material.

The problem is achieved by the proposed layered material for resonant musical instrument decks containing soft and hard layers interconnected, characterized in that the soft and hard layers are perpendicular to a given reference plane of the material and are alternately interchanged with each other, and the soft layers are made of porous materials, such as polyurethane foam or styrofoam, or balsa, and the hard layers are made of an alloy of metals or plastics, or hardwoods.

As an alloy of metals, alloys of aluminum, iron, zinc, titanium, copper, silver and gold are used.

As a plastic, carbon fiber or carbon is used.

Ebony, or boxwood, or rosewood, or fernambuk are used as hardwoods.

It is better when the soft layers have a thickness of 1-4 mm.

It is better when the hard layers have a thickness of 0.1-1 mm.

The specific gravity of the soft layers is 50-900 kg / m ³ and the specific gravity of the hard layers is 5000-20000 kg / m ³ .

Unlike the well-known artificial materials for musical instrument decks, in the proposed layered material, soft and hard layers are perpendicular to a given plane of the material, which is the base plane of the resonant decks of musical instruments, and are alternately interchanged with each other. This ensures a complete imitation of the texture of natural wood with alternating annual layers of different densities, soft “summer” and hard “winter” ones, and ensures the location of these layers in relation to the direction of propagation of sound waves with multiple intersection of sound waves of soft and hard layers of different densities. With the indicated arrangement of soft and hard layers of material, the acoustic characteristics that determine the sound quality of the instrument, by changing these parameters, can be set within a wide range: from those that are characteristic of traditional craftsman tools from the best types of wood, to those that appear and will constantly appear to provide the ability to play new, modern music.

The proposed invention is illustrated in the drawing, which shows a General view of the artificial laminate for resonant decks of musical instruments.

The artificial layered material for resonant decks of musical instruments comprises interconnected soft layers 1 and hard layers 2 located perpendicular to a given reference plane of the material 3 and alternating between them repeatedly. The predetermined reference plane 3 is the reference plane of the resonant decks of musical instruments. The soft layers 1 are made of porous materials such as balsa or polyurethane foam or foam. The hard layers 2 are made of an alloy of metals such as alloys of aluminum, iron, zinc, titanium, copper, silver and gold, or hardwoods such as ebony, boxwood, rosewood, fernambuque, or plastics such as carbon fiber, carbon . The soft layers 1 have a thickness of 1-4 mm, and the hard 2 layers are 0.1-1 mm. Soft layers 1 have a specific gravity of 50-900 kg / m ³ and hard layers 2 have 5000-20000 kg / m ³ .

Layered material for the resonant decks of musical instruments is obtained as follows. Billets of soft layers 1 of a thickness of 1-4 mm are made of porous materials such as balsa, polyurethane foam or foam. Prepare blanks of hard layers 2 with a thickness of 0.1-1 mm from an alloy of metals such as alloys of aluminum, iron, titanium, copper, zinc, silver, gold, or hardwoods such as ebony, boxwood, rosewood, fernambuque, or plastics such as carbon fiber, carbon. Soft layers 1 and hard layers 2 are joined together by a chemical or thermal method, placing soft layers 1 and hard layers 2 perpendicular to a given reference plane of material 3, which is the reference plane of resonant musical instruments, and alternating between them repeatedly. After complete drying, the finished layered material is cut into blanks used for the manufacture of resonant decks of musical instruments.

The proposed invention is illustrated by examples of layered materials for musical instrument decks, in particular, viola and violin.

Example 1. The layered material for the Beethoven resonance alto soundboard contains interconnected soft layers 1 and hard layers 2 located perpendicular to a predetermined reference plane of the material 3, which is the reference plane of the alto soundboard, and alternating between them repeatedly. In this case, the blanks of the soft layers 1 are made of balsa 1-4 mm thick, 20 mm high and 410 mm long, and the blanks of the hard layers 2 are made of ebony 0.2-0.5 mm wide, 20 mm high and 410 mm long. The blanks of the soft layers 1 and hard layers 2 are interconnected by gluing with a polymer glue for wood.

Example 2. The artificial layered material for the resonant soundboard of the violin “Solomiya Krushelnitskaya” contains soft balls 1 and hard balls 2 located perpendicular to the base plane of the material 3, which is the base plane of the violin deck, and alternating between them. The blanks of the soft layers 1 are made of polyurethane foam 1-3 mm wide and balsa 0.2-4 mm wide. In this case, the soft layers 1 of polyurethane foam are located in the central part of the material, and the soft layers 1 of balsa are located at the edges of the material. The blanks of the solid layers 2 are made of aluminum with a width of 0.1 mm, beech with a width of 0.3 mm and fernbamba with a width of 0.3 mm. In this case, the solid layers 2 of aluminum are located in the central part of the material, the solid balls 2 of beech are in the middle part of the material to the left and the right of the central part of the material, and the solid balls 2 of fernbuck are located at the edges of the material.

Thus, the invention allows to create an artificial layered material for resonant decks of musical instruments, from which they make musical instrument decks that are not inferior in acoustic characteristics to the decks of classical master instruments. In addition, in the artificial layered material for resonant decks of musical instruments, the above disadvantages inherent in natural wood are eliminated by expanding the timbre palette of instruments whose decks are made of the specified material.

Claims (7)

1. The layered material for the resonant decks of musical instruments, containing interconnected soft and hard layers, characterized in that the soft and hard layers are perpendicular to a given reference plane of the material and repeatedly alternate with each other, and the soft layers are made of porous materials such as polyurethane foam or foam, or balsa, and the hard layers are made of an alloy of metals, or plastic, or hardwood. 2. The material according to claim 1, characterized in that the alloys of metals use alloys of aluminum, iron, zinc, titanium, copper, silver and gold. 3. The material according to claim 1, characterized in that carbon plastic or carbon is used as the plastic. 4. The material according to claim 1, characterized in that ebony, or boxwood, or rosewood, or fernambuque is used as solid wood. 5. The material according to claim 1, characterized in that the soft layers have a thickness of 1-4 mm 6. The material according to claim 1, characterized in that the solid layers have a thickness of 0.1-1 mm 7. The material according to claim 1, characterized in that the specific gravity of the soft layers is 50-900 kg / m ³ and the specific gravity of the hard layers is 5000-20000 kg / m ³ .

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