JP7343132B1 - Stringed instruments and diaphragms for stringed instruments - Google Patents

Abstract

The present invention provides a stringed instrument and a diaphragm for a stringed instrument that can reflect not only the vibration of the strings but also the unique acoustic characteristics of the main body of the stringed instrument in the sound. [Solution] A string 20 made of a high magnetic permeability material is stretched on a stringed instrument body 10, and an electric current is provided adjacent to the string 20 between the string 20 and the stringed instrument body 10, and the vibration of the string 20 is A pickup 30 that converts the signal into a signal is provided in the stringed instrument body 10 adjacent to the pickup 30 without contacting the pickup 30 on the side opposite to the strings 20 with respect to the pickup 30, and vibrates together with the stringed instrument body 10 to absorb the vibration. It includes a diaphragm 40 made of a material with high magnetic permeability that is converted into an electric signal by the pickup 30. [Selection diagram] Figure 1

Description

The present invention relates to a stringed instrument and a diaphragm for a stringed instrument. More specifically, for example, in an electric guitar, this technology transmits the vibrations of the body and neck of the instrument to the diaphragm, and uses an existing pickup to mix the sound of the strings and the sound of the diaphragm and output it. It is related to.

For example, as seen in Patent Document 1, as a conventional stringed instrument,
The main body of the stringed instrument,
Strings made of high magnetic permeability material (e.g. iron) stretched on the main body of this stringed instrument,
A pickup (21) that is provided on the stringed instrument body adjacent to the string between the string and the stringed instrument body and converts the vibration of the string into an electric signal;
String instruments equipped with this are known.

According to this stringed instrument, as is well known, the vibration of the strings can be converted into an electrical signal by a pickup (21), and the electrical signal can be amplified by an amplifier and output as sound.

However, with this stringed instrument, although the vibrations of the strings are converted into electrical signals by the pickup, the vibrations of the stringed instrument itself are not converted into electrical signals.
Therefore, there was a problem in that the unique acoustic characteristics of the stringed instrument body were not reflected in the sound.

Japanese Patent Application Publication No. 8-123404

The problem to be solved by the present invention is to provide a stringed instrument and a diaphragm for a stringed instrument that can reflect not only the vibration of the strings but also the unique acoustic characteristics of the main body of the stringed instrument in the sound.

In order to solve the above problems, the stringed instrument of the present invention has the following features:
The main body of the stringed instrument,
The strings made of high permeability material are stretched on the main body of this stringed instrument,
A pickup that is provided on the stringed instrument body adjacent to the string between the string and the stringed instrument body and converts the vibration of the string into an electrical signal;
A stringed instrument equipped with
Made of a high magnetic permeability material that is provided on the stringed instrument body adjacent to the pickup without contacting the pickup on the side opposite to the strings with respect to the pickup, vibrates together with the stringed instrument body and converts the vibration into an electrical signal in the pickup. It is characterized by being equipped with a diaphragm.

With the above configuration, this stringed instrument provides the following effects.
A diaphragm made of a highly permeable material that vibrates together with the stringed instrument body and converts the vibration into an electrical signal at the pickup is arranged adjacent to the pickup on the opposite side of the pickup from the strings without contacting the pickup. Since the diaphragm is provided in the pickup, the diaphragm vibrates together with the main body of the stringed instrument without interfering with the vibration of the strings, and the vibration can be converted into an electrical signal by the pickup.
Therefore, according to this stringed instrument, not only the vibration of the strings but also the unique acoustic characteristics of the stringed instrument body can be reflected in the sound.

In this stringed instrument and diaphragm for stringed instruments,
The diaphragm may be provided on the main body of the stringed instrument via a vibration transmission spacer.
With this configuration, the diaphragm is provided in a floating state with respect to the stringed instrument main body via the vibration transmission spacer, so that the diaphragm can easily vibrate together with the stringed instrument main body.
Therefore, the unique acoustic characteristics of the main body of the stringed instrument can be better reflected in the sound.
In addition, by changing the height of the vibration transmission spacer or preparing multiple vibration spacers with different heights and selectively using the appropriate vibration transmission spacer, the vibration characteristics of the diaphragm can be changed and the gap between the pickup and the pickup can be changed. By making appropriate adjustments, it becomes possible to adjust the sound to the user's preference.

This invention is particularly effective when the stringed instrument is an electric guitar that has a wooden body and neck as the main body of the stringed instrument.
This is because the wooden body and neck of an electric guitar each have unique acoustic characteristics due to differences in hardness, moisture content, and shape, and the present invention reflects these unique musical characteristics.

In order to solve the above problems, the diaphragm for a stringed instrument of the present invention has the following features:
The main body of the stringed instrument,
The strings made of high permeability material are stretched on the main body of this stringed instrument,
A pickup that is provided on the stringed instrument body adjacent to the string between the string and the stringed instrument body and converts the vibration of the string into an electrical signal;
A diaphragm that can be attached to a stringed instrument,
Made of a high magnetic permeability material that is provided on the stringed instrument body adjacent to the pickup without contacting the pickup on the side opposite to the strings with respect to the pickup, vibrates together with the stringed instrument body and converts the vibration into an electrical signal in the pickup. It is characterized by becoming.

With the above configuration, the diaphragm for a stringed instrument is provided adjacent to the pickup on the opposite side of the pickup from the strings, without contacting the pickup, and provides the following effects. It will be done.
A diaphragm made of a highly permeable material vibrates together with the stringed instrument body, and the vibration is converted into an electrical signal by the pickup, so that not only the vibration of the strings but also the unique acoustic characteristics of the stringed instrument body are reflected in the sound. Monkey can.

1 is a diagram showing an embodiment of a stringed instrument or a diaphragm for a stringed instrument according to the present invention, (a) is a partial plan view of an example of a stringed instrument, (b) is a partially enlarged view of FIG. (a), and (c) is a diagram ( (b) is a cc sectional view in Figure (c), and (d) is a dd sectional view in Figure (c).

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a stringed instrument or a diaphragm for a stringed instrument according to the present invention will be described with reference to the drawings. In each figure, the same or corresponding parts are given the same reference numerals.

As shown in FIG. 1, the stringed instrument 1 of this embodiment is
A stringed instrument body 10,
A string 20 made of a high magnetic permeability material stretched on the stringed instrument body 10,
A pickup 30 is provided on the stringed instrument body 10 adjacent to the string 20 between the string 20 and the stringed instrument body 10, and converts the vibration of the string 20 into an electric signal;
A stringed instrument equipped with
It is provided in the stringed instrument body 10 adjacent to the pickup 30 without contacting the pickup 30 on the side opposite to the strings 20 with respect to the pickup 30 (lower side in FIGS. 1(c) and 1(d)), and vibrates together with the stringed instrument body 10. A diaphragm 40 made of a material with high magnetic permeability is provided for converting the vibration into an electric signal by the pickup 30.

With the above configuration, this stringed instrument 1 provides the following effects.
A diaphragm 40 made of a high magnetic permeability material that vibrates together with the stringed instrument body 10 and converts the vibration into an electric signal at the pickup 30 is attached to the pickup 30 on the opposite side of the pickup 30 from the strings 20 without coming into contact with the pickup 30. Since it is provided adjacent to the stringed instrument body 10, the diaphragm 40 vibrates together with the stringed instrument body 10 without interfering with the vibration of the strings 20, and the pickup 30 converts the vibration into an electrical signal.

Therefore, according to this stringed instrument 1, not only the vibration of the strings 20 but also the unique acoustic characteristics of the stringed instrument main body 10 can be reflected in the sound.

The diaphragm 40 is provided on the stringed instrument main body 10 via a vibration transmission spacer 50.
With this configuration, the diaphragm 40 is provided in a floating state with respect to the stringed instrument main body 10 via the vibration transmission spacer 50, so that the diaphragm 40 easily vibrates together with the stringed instrument main body 10.
Therefore, the unique acoustic characteristics of the stringed instrument main body 10 can be better reflected in the sound.

Furthermore, by changing the height H1 (FIG. 1(c) and (d)) of the vibration transmission spacer 50, or by preparing a plurality of vibration spacers with different heights and selectively using the appropriate vibration transmission spacer 50 as appropriate. By changing the vibration characteristics of the diaphragm 40 and appropriately adjusting the gap C1 (FIG. 1(d)) between the diaphragm 40 and the pickup 30, it is possible to adjust the sound to the user's preference.

The stringed instrument 1 of this embodiment is an electric guitar having a wooden body 11 as a stringed instrument main body 10 and a neck 12.
The wooden body 11 and neck 12 of an electric guitar each have unique acoustic characteristics due to differences in hardness, moisture content, and shape, and these unique acoustic characteristics are reflected by the diaphragm 40. The invention is particularly effective when applied to electric guitars.

As mentioned above, the stringed instrument diaphragm 40 of this embodiment has the following features:
A stringed instrument body 10,
A string 20 made of a high magnetic permeability material stretched on the stringed instrument body 10,
A pickup 30 is provided on the stringed instrument body 10 adjacent to the string 20 between the string 20 and the stringed instrument body 10, and converts the vibration of the string 20 into an electric signal;
A diaphragm 40 that is attached to a stringed instrument 1 comprising:
A high pitcher is provided on the stringed instrument body 10 adjacent to the pickup 30 without contacting the pickup 30 on the side opposite to the strings 20 with respect to the pickup 30, and vibrates together with the stringed instrument body 10 and converts the vibration into an electrical signal in the pickup 30. This is a diaphragm made of magnetically permeable material.

As described above, according to the stringed instrument diaphragm 40, not only the vibration of the strings 20 but also the unique acoustic characteristics of the stringed instrument main body 10 can be reflected in the sound.

This will be explained in more detail below.

The main body 10 of the stringed instrument can be made of any known suitable material, such as wood, synthetic resin, etc.

The string 20 can be made of a known high magnetic permeability material, such as iron or nickel.
In the illustrated example, six strings 20 are strung, but the number of strings 20 is arbitrary.

The pickup 30 can be provided in the stringed instrument body 10 adjacent to the strings 20 between the strings 20 and the stringed instrument body 10, and may be any of various known pickups as long as it can convert the vibration of the strings 20 into an electrical signal. A pickup can be used.

The pickup 30 can be attached to the stringed instrument main body 10 by any known appropriate means.
In this embodiment, since the pickup 30 has a flange portion 31, the flange portion 31 is attached to the stringed instrument main body 10 by tightening and fixing it with wood screws 32 via a coil spring (compression spring) 33.
Thereby, the gap C1 (FIG. 1(d)) between the diaphragm 40 and the pickup 30 can be finely adjusted.

The diaphragm 40 can be provided on the stringed instrument body 10 adjacent to the pickup 30 without contacting the pickup 30 on the opposite side of the pickup 30 from the strings 20, and vibrates together with the stringed instrument body 10 to transmit the vibration to the pickup 30. It can be made of any known material as long as it is made of a material with high magnetic permeability that can be converted into an electrical signal. For example, it can be made of iron or nickel.

When the stringed instrument main body 10 is provided with a recess 13 for housing the pickup 30 as shown in the figure, the diaphragm 40 is sized to fit into the recess 13.
The thickness T (FIG. 1(c)) of the diaphragm 40 may be any thickness that allows it to vibrate together with the stringed instrument main body 10, but is preferably set appropriately within the range of 0.5 mm to 5 mm. By changing the thickness or preparing multiple diaphragms with different thicknesses and selecting the appropriate one, it is possible to adjust the sound to the user's preference.

The diaphragm 40 can be attached to the stringed instrument main body 10 by any known suitable means.
In this embodiment, the vibration transmitting spacer 50 is fastened to the stringed instrument main body 10 using wood screws 41.

The vibration transmission spacer 50 can be made of an appropriate material suitable for vibration transmission, such as wood, metal, or synthetic resin.
When the vibration transmission spacer 50 is cylindrical, its inner diameter, outer diameter, and length (height) can be set as appropriate.
By appropriately selecting these dimensions and materials, it is possible to adjust the sound to the user's preference.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and can be modified as appropriate within the scope of the gist of the present invention. for example,

The stringed instrument 1 includes a stringed instrument body 10, strings 20 made of a high-density material stretched on the stringed instrument body 10, and provided on the stringed instrument body 10 adjacent to the strings 20 between the strings 20 and the stringed instrument body 10. The present invention is applicable not only to electric guitars but also to other appropriate stringed instruments (for example, acoustic guitars, ukuleles, basses, cellos, etc.) as long as they are equipped with a pickup 30 that converts the vibrations of the strings 20 into electrical signals.

1: Stringed instrument 10: Stringed instrument body 20: Strings 30: Pickup 40: Diaphragm 50: Vibration transmission spacer

Claims (4)

A stringed instrument body (10),
A string (20) made of a high magnetic permeability material stretched over the stringed instrument body (10),
A pickup (30) that is provided on the stringed instrument body (10) adjacent to the string (20) between the string (20) and the stringed instrument body (10) and converts the vibration of the string (20) into an electric signal;
A stringed instrument equipped with
Provided on the stringed instrument body (10) adjacent to the pickup (30) without contacting the pickup (30) on the side opposite to the string (20) with respect to the pickup (30), and vibrates together with the stringed instrument body (10). A stringed instrument comprising a diaphragm (40) made of a high magnetic permeability material that converts the vibrations into electrical signals at the pickup (30). In claim 1,
A stringed instrument characterized in that the diaphragm (40) is provided on a stringed instrument main body (10) via a vibration transmission spacer (50). In claim 1 or 2,
The stringed instrument is an electric guitar having a wooden body (11) as a stringed instrument main body (10) and a neck (12). A stringed instrument body (10),
A string (20) made of a high magnetic permeability material stretched over the stringed instrument body (10),
A pickup (30) that is provided on the stringed instrument body (10) adjacent to the string (20) between the string (20) and the stringed instrument body (10) and converts the vibration of the string (20) into an electric signal;
A diaphragm (40) that is attached to a stringed instrument comprising:
Provided on the stringed instrument body (10) adjacent to the pickup (30) without contacting the pickup (30) on the side opposite to the string (20) with respect to the pickup (30), and vibrates together with the stringed instrument body (10). A diaphragm for a stringed instrument, characterized in that the diaphragm is made of a high magnetic permeability material that converts the vibration into an electric signal at the pickup (30).

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