JP6555733B1 - Accessories for audio equipment and manufacturing method thereof - Google Patents

Abstract

An object of the present invention is to provide a novel accessory for audio equipment. According to the present invention, an O-ring made of fluororubber having an antistatic coating is provided as an accessory for audio equipment. Moreover, according to the present invention, there is provided an O-ring made of fluororubber having an antistatic coating film, which is an insulator for audio equipment. In addition, according to the present invention, there is provided a method for manufacturing an accessory for audio equipment, wherein the O-ring made of fluororubber is immersed in a solution of an antistatic agent and then dried. . [Selection] Figure 1

Description

  The present invention relates to an accessory for audio equipment, and more particularly to an accessory having an insulator function.

  In general, it is known that audio equipment such as an amplifier, a speaker, a CD player, and a record player is vulnerable to vibration, and that the sound quality deteriorates when receiving a lot of vibration. Since all audio devices have their own vibration sources, they are easily affected by external vibrations through the installation surface, so there is no difference between audio enthusiasts seeking to reproduce the original sound. Then, it is common sense to arrange an insulator between an audio device and an installation surface for the purpose of absorbing internal vibration of the device and blocking external vibration (for example, Patent Document 1).

  Currently, products using various materials such as metal, wood, rubber, resin, and ceramics are distributed as insulators for audio equipment, and the shape is also disc-shaped, cube-shaped, or conical spikes. There are many variations, such as a type that supports at a single point.

JP 2013-126061 A

  An object of the present invention is to provide a novel accessory for audio equipment.

  The present inventor conducted numerous hearing tests on various materials in order to find a promising new material as an insulator for audio equipment. I found that it was possible to get a good sound. Thereafter, the inventor further discovered a method for overcoming the audibility problem of the fluororubber O-ring in the course of further study, and reached the present invention.

  That is, according to the present invention, there is provided an O-ring made of fluororubber having an antistatic coating film, which is an accessory for audio equipment.

  As described above, according to the present invention, a novel accessory for audio equipment having the function of an insulator is provided.

The flowchart which shows the manufacturing method of the accessory for audio devices of this embodiment. The figure which shows the usage example of the accessory for audio equipment of this embodiment. The figure which shows the usage example of the accessory for audio equipment of this embodiment.

  Hereinafter, the present invention will be described with reference to embodiments shown in the drawings, but the present invention is not limited to the embodiments shown in the drawings.

  Based on the flowchart shown in FIG. 1, the manufacturing method of the accessory for audio equipment which is embodiment of this invention is demonstrated.

(Process 1)
Prepare an O-ring made of fluoro rubber. Fluoro rubber is a rubber having excellent heat resistance, oil resistance, pressure resistance, and chemical resistance, and usually vinylidene fluoride type fluoro rubber is used for the O-ring.

(Process 2)
An antistatic agent solution (hereinafter referred to as an antistatic solution) is prepared. An antistatic agent is an agent that prevents accumulation of static electricity by imparting a slight electrical conductivity to the surface of an insulator. Many antistatic agents contain a surfactant, and the surfactant film formed on the surface of the object reduces the electrical resistance of the object surface by adsorbing moisture in the air, preventing the surface from being charged. To do.

(Process 3)
Immerse the fluororubber O-ring in the antistatic solution. In another embodiment, the antistatic liquid may be applied directly to the O-ring using a spray or a brush.

(Process 4)
The fluororubber O-ring is taken out of the antistatic liquid and dried naturally, and the solvent of the antistatic liquid is volatilized. As a result, a fluororubber O-ring having an antistatic agent film (hereinafter referred to as an antistatic film) formed on the surface is obtained as an accessory for audio equipment of the present embodiment.

  Next, a method of using the audio device accessory of this embodiment (that is, a fluororubber O-ring with an antistatic coating) will be described.

  First, the fluororubber O-ring with antistatic coating of this embodiment can be used as an insulator for audio equipment. The usage method is the same as that of a conventional insulator, and an O-ring is arranged between the audio device and the installation surface. FIG. 2A exemplarily shows a state in which the O-ring 10 of the present embodiment is used as an amplifier insulator, and FIG. 2B shows a state in which the O-ring 10 of the present embodiment is used as an insulator of a speaker. Is exemplarily shown.

  Second, the fluororubber O-ring with antistatic coating of the present embodiment can be used for so-called “squeaking”. Specifically, the O-ring 10 of the present embodiment having an appropriate inner diameter is fitted into a portion where it is desired to stop squeaking and tightened, thereby preventing resonance at that portion. FIG. 3A exemplarily shows a state in which the O-ring 10 of the present embodiment is fitted to the connector of the RCA cable, and FIG. 3B shows the O-ring 10 of the present embodiment in the case of the wireless iphone. The fitted state is exemplarily shown. In addition, by fitting the O-ring 10 of this embodiment to cylindrical parts such as knobs of various audio devices, audio rack columns, speaker stand columns, etc., it is possible to stop noise and improve sound quality. .

  Finally, the effect of the fluororubber O-ring with the antistatic coating of this embodiment on hearing is explained.

  The O-ring as an insulator has an advantage that the influence of the resonance component derived from the material (rubber) on the sound signal is reduced correspondingly because the volume is much smaller than that of the existing insulator. In addition, an O-ring as an insulator has an advantage that it has excellent vibration blocking properties because its ground contact area is very small.

  Among them, the O-ring made of fluoro rubber has a feature that there are very few resonance components (accompanying sound) derived from rubber compared with other O-rings made of rubber, and a natural hearing feeling without wrinkles is obtained. There is an advantage that

  The reason for this is further unknown by applying antistatic treatment to such a fluororubber O-ring, but the overtone component is reduced compared to the case where antistatic treatment is not applied, and There is an effect that distortion is reduced.

  Although the present invention has been described with the embodiment, the present invention is not limited to the above-described embodiment, and various changes, modifications, improvements, and the like can be made without departing from the spirit of the present invention. .

  Hereinafter, the audio device accessory of the present invention (that is, a fluororubber O-ring with an antistatic coating) will be described more specifically with reference to examples. However, the present invention is limited to the examples described later. It is not a thing.

<Production of fluororubber O-ring with antistatic coating>
Prepare an antistatic solution (a solution obtained by dissolving an antistatic agent in isopropyl alcohol) and a fluororubber O-ring. Lightly immerse the O-ring in the antistatic solution and let it dry naturally until the alcohol volatilizes. As a result, an O-ring made of fluororubber with an antistatic coating (hereinafter referred to as Example) was obtained.

<Hearing test 1>
With the four O-rings that support the main body of the audio device (Network Player N-50, manufactured by Pioneer Corporation) and the O-ring of the example placed one by one, the high-resolution sound source is played. The sound was auditioned by an audio equipment development engineer.

  As a comparative example, four kinds of O-rings (Comparative Examples 1 to 4) in which an antistatic coating is not formed and a disk type insulator made of magnesium (Comparative Example 5) are used under the same conditions as described above. A hearing test was conducted. The details of the O-ring and insulator used in this experiment are summarized in Table 1 below.

<Evaluation results>
The engineer in charge of the trial listening evaluated the audibility when the examples and comparative examples 1 to 5 were arranged as insulators based on the reproduced sound in a state where no insulator was arranged as follows.

(Comparative Example 1: Nitrile rubber O-ring)
Sound loss is bad, dynamic range (band) is narrow, resolution is sweet, sound is dubbed, and there is an incidental sound with a sense of incongruity in the high frequency range.

(Comparative Example 2: O-ring made of ethylene propylene)
The resolution and response are good, but the sound has shifted to the high frequencies and the balance is lost, and the reverberation is quite thin.

(Comparative Example 3: Silicon rubber O-ring)
The sound balance is close to the high range, the low range is poor, and the dynamic range (band) is narrow.

(Comparative Example 4: O-ring made of fluoro rubber)
Sound resolution and a sense of spaciousness in the upper, lower, left, and right directions, an increased amount of information and thickness in the front and rear, a good balance of all bands, and a natural sound quality with no wrinkles. However, the amount of reverberation is slightly less because of the increased resolution. There is also some distortion in the sound.

(Example: O-ring made of fluororubber with antistatic coating)
The sound density is high, the sound is smooth, the outline of the sound is clear, the reverberation is enough, and the sound is high fidelity. Moreover, the distortion of the sound felt in Comparative Example 4 disappears.

(Comparative Example 5: Magnesium disk insulator)
Although the resolution and spread of the sound increase, compared to the embodiment, there is a feeling that the sound peculiar to magnesium is slightly applied.

<Hearing test 2>
Playing a high-resolution sound source with an O-ring made of fluororubber with antistatic coating fitted to the rod-shaped part of the case of a wireless iphone (AirPods, Apple), and listening to the sound engineer engineer As a result, the sound resolution and low-frequency volume were improved, and the thin sound peculiar to earphones was reduced, resulting in a vivid sound.

10… Fluorine rubber O-ring with antistatic coating

Claims (3)

  An O-ring made of fluororubber with an antistatic coating, an accessory for audio equipment.   An O-ring made of fluororubber with an antistatic coating, which is an insulator for audio equipment.   A method for manufacturing an accessory for audio equipment, comprising: dipping a fluororubber O-ring in a solution of an antistatic agent and then drying the O-ring.