JP7252687B1 - A virtual earth, its materials and a kit for making a virtual earth - Google Patents

Abstract

A small-sized virtual earth capable of effectively reducing electrical noise from inside and outside an acoustic device and obtaining high-quality sound quality is provided. A powdered virtual earth material comprising a mixture containing aramid fiber, aluminosilicate, calcium silicate, amorphous silica, activated carbon, and powdered rubber, the virtual earth material containing synthetic zeolite as the aluminosilicate, It is kneaded with water to form a clay, and a conductor cable is inserted into the molded clay to form a virtual earth. A bag filled with powder material, a ground wire cable, and a paper box are combined to form a kit for making a virtual ground. [Selection drawing] Fig. 1

Description

Article 30, Paragraph 2 of the Patent Act is applied Published on the website Date of publication: February 20, 2020 Address: http://composite-insulator. p2. weblife. me/home. html http://composite-insulator. p2. weblife. me/audioj. html http://composite-insulator. p2. weblife. me/_src/1698/Konade01_SDS. pdf

The present invention relates to a virtual earth material suitable as a virtual earth used in audio equipment, a virtual earth produced from the material, and a kit for producing the virtual earth.

In general households, it is recommended that refrigerators, washing machines, and air conditioners be grounded as a countermeasure against electric shock due to electric leakage. In audio equipment, it is desirable to ground the equipment because it is required to reduce electrical noise as much as possible in order to improve sound quality. However, the connection to the ground wire in the home is shared with other home appliances, which has the detrimental effect of inviting electrical noise from these appliances into the audio equipment. By burying an electrode in the ground as an independent ground and connecting audio equipment to it, good effects can be obtained without interference from other equipment, but this is difficult to achieve in general households, especially households in collective housing. .
For this reason, in order to reduce electrical noise from inside and outside the audio equipment, a virtual ground made of a material that strongly absorbs electrical noise, which does not need to be connected to the ground, is used as an independent dedicated ground for the audio equipment. Thought to connect.

As a conventional technology, a carpet-type virtual earth for audio is known (Patent Document 1), and carbon fiber is used as a functional material. Electrical noise consists of positive ions and negative ions. Carbon-based materials can absorb anionic negative ion electrical noise due to the polarity of their surfaces, but they do not absorb cationic positive ion electrical noise. can't do Therefore, it is considered that the absorption of electrical noise was insufficient.

Accordingly, the present inventors have studied various materials with the aim of reducing electrical noise by using both a material that adsorbs negative ions and a material that adsorbs positive ions. Since the carbon fiber in the conventional technology does not have a microporous structure due to the high temperature treatment process during manufacturing, it is considered that the performance of absorbing the electrical noise of anionic negative ions is insufficient. Activated carbon was used. In addition, we adopted bentonite, which is a natural aluminosilicate mineral, as a material that can adsorb cationic positive ions, and developed a virtual earth composed of a material containing both. Although this had a better effect than the conventional virtual earth, its performance was still not sufficient.

Utility Model Registration No. 3200305

The present invention provides a material suitable for creating a virtual earth that can more effectively reduce electrical noise from the inside and outside of audio equipment, a virtual earth made from the material, and a kit for creating the virtual earth. The task is to provide

The inventors of the present invention found that by using synthetic zeolite instead of bentonite, which is a natural aluminosilicate mineral, in the virtual earth, it is possible to provide even better electrical noise absorption capability, and completed the invention. reached.

Synthetic zeolites are represented by the general formula _M2 / _{nO.Al2O3.xSiO2.yH2O} , _and have fine pores in the range of 0.2 _nm to ₁ nm, which are not found in natural aluminosilicate _minerals . It has a typical crystal structure. It is believed that the microporous structure increases the adsorption of cationic positive ions, thereby significantly reducing electrical noise (noise voltage).
In addition, a further effect can be obtained by using in combination with activated carbon, which is a carbon species having a microporous structure and which has an action of adsorbing anionic negative ions, which has been conventionally used.

The present invention relates to a virtual earth used for audio equipment, and is based on the following technology.
(1) A powdered virtual earth material comprising a mixture of aramid fiber, aluminosilicate, calcium silicate, amorphous silica, activated carbon, and powdered rubber, which contains synthetic zeolite as aluminosilicate. A virtual earth material characterized by:
(2) The virtual earth material according to (1), characterized by containing 5 to 50% by weight of synthetic zeolite based on the total amount of the mixture.
(3) A virtual earth characterized by comprising a molding obtained by kneading the powder of the mixture described in (1) and (2) with water and molding the mixture.
(4) A kit for creating a virtual earth, comprising a bag filled with the powder of the mixture described in (1) and (2) above, a conductor cable for earthing, and a box made of paper.

Advantageous Effects of Invention According to the present invention, it is possible to provide a small-sized virtual earth capable of effectively reducing electric noise from the inside and outside of audio equipment and obtaining high-quality sound quality.

4 is a photograph showing a virtual earth housed in a paper box according to one embodiment of the present invention; FIG. 4 is a schematic diagram showing an example of connection of a virtual earth to audio equipment;

The virtual earth material of the present invention contains synthetic zeolite having a microporous structure and activated carbon as functional materials, and also includes inorganic substances such as bentonite, calcium silicate, amorphous silica, alumina and zirconium as fillers, and aramid fibers. materials with low electrical conductivity such as organic fibers and powdered rubber.
A virtual earth composition containing predetermined amounts of the finely powdered functional material and several kinds of similarly finely powdered fillers is uniformly mixed in a mixer.
The synthetic zeolite is preferably contained in an amount of 5 to 50% by weight based on the total amount of the virtual earth material.

A virtual earth is produced by adding water to the powdery virtual earth material, kneading the clay, and molding the mixture. As a simple method, an appropriate amount of powdered material is placed in a water-resistant bag, water is added, and the mixture is kneaded by hand through the bag to form a clay-like mixture. to mold. The box is preferably made of paper, which is resistant to static electricity. Insert a conductor cable into this and connect it to the audio equipment to use it as a virtual earth.

Applied audio equipment includes equipment with a transformer in general, including power amplifiers, preamplifiers, CD players, phono equalizer amplifiers, clean power supplies, speakers with built-in amplifiers, record players with built-in amplifiers, DA converters, FM tuners, etc. Use a virtual ground connected to the ground (empty negative terminal) of the power supply or the power supply ground terminal via a cable. One virtual ground may be connected to any one of the devices to be used, or all the devices may be connected to virtual grounds.

EXAMPLES Hereinafter, the present invention will be specifically described by showing examples and comparative examples, but the present invention is not limited to the following examples.

<Creation of virtual earth>
A powdered virtual earth material having the composition shown in Table 1 was mixed in an Eirich mixer for 5 minutes, 200 g of the resulting mixture was subdivided into plastic bags, a copper wire of appropriate length was inserted, and 200 g of tap water was added. After 6 hours, it was confirmed that it had sufficiently absorbed water and became clay-like.

（※）数値が低いほど良い。

(*) The lower the number, the better.

<Noise evaluation>
Using a GW Instek oscilloscope, we measured the residual electric noise voltage (ground potential) of the ground of the audio equipment with and without connecting a virtual ground to the ground of the integrated amplifier.

<Sound quality evaluation>
The sound quality evaluation was conducted using a pre-main amplifier (Accuphase E-5000), DA converter (ESOTERIC N-05), CD player (Accuphase DP-550), and speakers (FOSTEX GX100 Limited), and a virtual ground to the power supply ground terminal of the pre-main amplifier. The cases with and without connection were compared.
The sound quality evaluation items were (1) reproducibility of key tones (low, middle, and high tones), (2) reproducibility of reverberation, and (3) reproducibility of stereoscopic effect.
Accuphase's Special Sound Selection CD Nos. 1 and 2, which include music in various frequency bands such as classical music, jazz, and new music, were used as sound quality evaluation songs.

The sound quality evaluators were 16 people with different tastes, genders, and ages (28 to 70 years old), and the average was taken.
◎: Evaluated as good by 13 to 16 people ○: Evaluated as good by 8 to 12 people △: Evaluated as good by 3 to 7 people ×: Evaluated as good by 0 to 2 people

The prepared virtual earth was connected to the power supply earth terminal of the pre-main amplifier, and Table 1 shows the residual noise voltage and sound quality evaluation results.
The case where the virtual earth is not connected is shown as a reference example.
As can be seen from the results in Table 1, by adding synthetic zeolite within a predetermined range in addition to activated carbon, it is possible to further reduce residual electrical noise and obtain sound quality with excellent keynotes, reverberations, and three-dimensional effects of musical components. did it.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to obtain a material suitable for creating a virtual earth that can more effectively reduce electrical noise from inside or outside an acoustic device, and to provide a virtual earth made from the material and a virtual It is possible to provide a kit that can easily create a ground.

1 material powder kneaded material 2 bag body 3 conductor cable for grounding 4 box body

Claims (4)

A powdery virtual earth material comprising a mixture of aramid fiber, aluminosilicate, calcium silicate, amorphous silica, activated carbon, and powdered rubber, characterized by containing synthetic zeolite as the aluminosilicate. virtual ground material. 2. The virtual earth material according to claim 1, wherein the synthetic zeolite is contained in an amount of 5 to 50% by weight based on the total amount of the mixture. 3. A virtual earth comprising a molding obtained by kneading the powder of the mixture according to claim 1 or 2 with water and molding the mixture. 3. A kit for creating a virtual earth, comprising a bag filled with the powder of the mixture according to claim 1 or 2, a conductor cable for earthing, and a box made of paper.

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