JPH09220288A - Electrification preventive appliance and electrification preventive method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the electrification in the human bodies, animals and plants and objects by allowing the easy flow of the stray currents under the ground and above the ground. SOLUTION: About 500 to 600g silicon(Si) 2 in the form of grains or powder is enclosed and hermetically put into a 'Pyrex (R)' tube (tempered glass tube) having 1m length and 3cm diameter. This silicon 2 is preferably put into a minus-ionized quartz crucible for the prescribed period of time, by which the silicon is minus-ionized. A suitable hole is excavated at approximately the center of a house, factory or farm and one piece of this electrification preventive appliance 3 is embedded perpendicularly therein. The ground currents in the ground of 100m altitude, which are heretofore 30 to 40μA, are decreased down to about 15μA by embedding this electrification preventive appliance 3 into the hole.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antistatic device and an antistatic method for facilitating the flow of stray currents underground and above ground to prevent electrostatic charges on the ground, human bodies, objects and the like.

[0002]

2. Description of the Related Art Stray currents are known to flow in the atmosphere and the earth, but their values vary depending on various natural conditions such as changes in atmospheric potential due to changes in weather, land shapes, etc. It also changes due to electrical equipment, railways, voltage cables, and other artifacts. In addition, if there are mineral veins, water veins, and underground cables underground, they will also be affected. Normally, a ground current of about 15 μA flows in the earth at an altitude of 100 m,
At this level, there is no significant effect on the human body. However, if this value is 30 to 40 μA, it is highly likely that various health disorders will be caused when it flows into the human body and is charged. Mild symptoms due to electrification include stiff shoulders, headaches, tiredness, etc.
The morbidity becomes severe. It may also affect human relationships due to poor physical condition.

The adverse effects of electrification extend not only to the human body, but also to plants, animals and even substances. This can be recognized as a decrease in growth rate and deterioration of tree vigor in plants, and a decrease in vitality and expression of pathological symptoms in animals. The static electricity due to the charging of the object may be effectively used, but may cause the following adverse effects. That is, a mechanical obstacle occurs in which a substance such as charged powder, fiber, sheet or the like is entangled with another object. In addition, flammable substances and explosive substances may ignite during electrostatic discharge, causing fire and explosion. In addition, it may cause damage, malfunction, or deterioration of quality in precision equipment such as semiconductor parts.

Therefore, conventionally, by suppressing the retention of the earth current,
As a method of preventing electrostatic charge over a wide area, carbon burial is implemented. Hereinafter, this carbon embedding will be described. For example, as shown in FIG. 4, in the case of a residential land having a land area of 100 tsubo and a building area of 40 tsubo, a buried pit 11 having a diameter r of 1 m and a depth d of 1 to 2 m.
With a distance p of 5 to 10 m, 200 to 50 per mine
Bury 0 kg of carbon-12 (eg coconut husk charcoal). carbon
The 12 forms can be granular or powdery, land 13, building 14
Use properly depending on the situation. The distance between the buried pits 11 can also be changed according to the land and building conditions. Figure 5 shows a buried pit
FIG. 12 is a schematic sectional view showing 11. Fig. 5 (a) shows the case of flat land, and Fig. 5 (b) shows the case of sloping land (the residential land is embankment).
In the case of sloping ground as shown in Fig. 5 (b), carbon 12 is buried in the natural ground in a horizontal position.

When carbon burying is carried out, the electric resistance is reduced as a whole, so that the stray current flows so as to expand while spiraling as shown in FIG. 6 (side view) and FIG. 7 (plan view). This reduces the electrostatic charges on people, animals and plants, and objects on the land where the carbon is buried, thus reducing the static electricity on the ground. Such a phenomenon can be obtained and stabilized up to about 3 m above the ground.

FIG. 8 is a plan view for explaining the case of application to factories and farmlands. The buried pit 11 of carbon 12 has an interval p of 10
m, provided at a point located at the apex of the triangle, and the buried amount of carbon 12 is adjusted by the potential gradient. When there is a potential gradient in the lateral direction as shown in FIG.
200 kg of carbon 12 was buried in the
11 is filled with 500 kg of carbon 12. Then, during this period, proportional distribution is performed to determine the amount. Even if there is a potential gradient in the vertical direction of the figure, the amount of carbon 12 buried is adjusted. Buried pit
The diameter of 11 is 1 to 1.2 m and the depth is 1 to 2 m. In this case as well, it is desirable that the carbon 12 be buried in the ground portion in a horizontal position. Even when applied to factories and farmlands in this way, the same effect as in the case of houses can be obtained.

[0007]

However, in order to carry out carbon burial, 1 to 2 tons of carbon 12 is required in the case of a house, and 10 when applied to a factory (site: 1,000 tsubo, building: 500 tsubo). ~ 30t carbon-12 is required. Moreover, since a large number of buried pits 11 are to be excavated, a large amount of money is required when the construction cost is included, resulting in a large financial burden. Also, carbon on the ground surface is 3-10
Some effect can be obtained only by spraying with a thickness of about cm, but the effect is inferior to underground burial,
The effect duration is short, about half a year.

The present invention has been made in view of such circumstances, and a stray current (ground current) is obtained by a relatively inexpensive means.
It is an object of the present invention to provide an antistatic device and an antistatic method that can easily reduce the electric charge and prevent the human body, animals, plants, and objects from being charged.

[0009]

According to a first aspect of the present invention, there is provided an antistatic device in which a glass tube is provided with granular or powdered Si or SiO.
It is characterized in that _X (0 <x <2) is enclosed.

The antistatic method according to claim 2 is the method according to claim 1.
It is characterized in that the described antistatic tool is buried vertically in the ground.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be specifically described below with reference to the drawings showing the embodiments. FIG. 1 is a schematic view showing an antistatic device according to the present invention. Length 1m, diameter 3
cm to a tempered glass tube 1 made of Pyrex (manufactured by Iwaki Glass Co., Ltd.), and 500 to 600 g of silicon (S
i) 2 is enclosed and sealed. Silicon 2 is negatively ionized by putting it in a negatively ionized quartz crucible for a predetermined time in advance. An appropriate hole is excavated in the approximate center of a house, factory, or farm, and one antistatic tool 3 is vertically embedded.

FIG. 2 is a side view showing a house in which the antistatic device 3 is buried and its vicinity, and FIG. 3 is a plan view thereof.
The ground current was 30 to 40 μA in the land with an altitude of 100 m, but it was about 15 μ due to the antistatic tool 3 being buried.
It was reduced to A. It is considered that this is because a stray current was liable to flow on the ground surface portion and its vicinity, and static electricity that had accumulated was discharged and removed. As a result, the current flowing through the human body is reduced, and the above-mentioned health disorders and pathological symptoms are alleviated.

Further, due to the eddy of the right-handed current shown in FIGS. 2 and 3, negative ions of silicon 2 act to increase the negative ion concentration in the house and its vicinity. Negative ions are known to be effective in recovering from fatigue, purifying blood, and the like, and air purifiers, bedding (futons, pillows), and the like having the added function are becoming popular. Therefore, when the antistatic tool 3 is embedded, oxygen molecules are activated by the negative ions. This cleans the air and provides a comfortable living space. In addition, in the human body, the body feels lighter, the energy becomes longer, and the physical and mental effects are exhibited.

When an antistatic device is buried in a private house in Yamagata prefecture, the temperature of the room heated by the oil stove is near the oil stove (or the temperature displayed by the temperature display means provided in the fan heater or the like). Even though they are the same, I feel warmer. When the antistatic device was not embedded, it felt warm when the display temperature near the oil stove reached 21 ° C, but when the antistatic device is embedded, the display temperature would be sufficient even if the display temperature is 14-16 ° C. I was able to feel. It is considered that this is because the warm air, which tends to rise, spreads throughout the room due to the eddy of the current described above, and the room temperature became uniform, so that it was sufficiently warmed to the feet. Furthermore, there was a phenomenon in which the snow on the roof slipped down faster than usual. In the past, the heating effect was not obtained in a room without a heating device installed, but by embedding an antistatic device, the heating effect of one heating device can be achieved even in a room without a heating device installed. It is thought that this is because the whole house has come to be covered.

Since the method of the present invention need only excavate a hole for burying one antistatic tool 3, it can be carried out more easily than the conventional carbon burial. Also, since the buried object is only one glass tube, there is almost no burden in transportation.

Further, when the antistatic device 3 was buried in a fish feed factory where a bad odor was widespread, the bad odor immediately disappeared. Furthermore, when applied to farms, the plants were activated and the growth rate was increased.

The effect of the antistatic device 3 is that its length is 1
If it is m, it reaches about 25 m above the ground, and if it is 1.5 m
Reach up to 50m. Therefore, the length and diameter of the tempered glass tube 1 and the amount of silicon 2 may be appropriately selected depending on the land and building to which the glass is applied. The effect is also permanent. Although Si is used in the above-mentioned embodiment, SiO _X can also be used. The composition of SiO _x is 1.00 ≦
A good effect is obtained when x ≦ 1.95, but there is almost no effect when x = 2.00. Further, the higher the degree of negative ionization of Si or SiO _x, the greater the antistatic effect. Further, although one antistatic tool is embedded in the above-mentioned embodiment,
When an effect is obtained in a wide area or a larger effect is obtained, a plurality of antistatic tools may be embedded.

[0018]

As described above, in the antistatic device and the antistatic method according to the present invention, by burying a glass rod in which silicon is vertically embedded underground, a stray current easily flows underground and above ground. According to the present invention, it is possible to prevent electrification that adversely affects the human body, plants and animals, and objects.

[Brief description of drawings]

FIG. 1 is a schematic view showing an antistatic device according to the present invention.

FIG. 2 is a side view showing a house in which an antistatic tool is embedded and the vicinity thereof.

FIG. 3 is a plan view showing a house in which an antistatic tool is embedded and its vicinity.

FIG. 4 is a plan view showing a case where carbon burial is applied to a residential land.

FIG. 5 is a schematic cross-sectional view showing a buried pit in carbon burial.

FIG. 6 is a side view showing a stray current when carbon burying is performed.

FIG. 7 is a plan view showing a stray current when carbon burying is performed.

FIG. 8 is a plan view illustrating a case where carbon burial is applied to a factory or farmland.

[Explanation of symbols]

 1 Tempered glass tube 2 Silicon 3 Antistatic tool

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Toyoko Ohara 7-538-18-18 Ayameikeminami, Nara City, Nara Prefecture (72) Inventor Hideaki Kikuchi 1-25-25 Taishibashi, Asahi-ku, Osaka-shi, Osaka

Claims (2)

[Claims] 1. Granular or powdery Si or S is added to a glass tube.
An antistatic device characterized in that iO _x (0 <x <2) is enclosed. 2. An antistatic method comprising burying the antistatic device according to claim 1 vertically in the ground.