KR102056776B1 - The power saving device using a tourmaline - Google Patents

Abstract

The present invention relates to a power-saving device using tourmaline, which minimizes loss power to reduce power consumption. According to the present invention, the power-saving device using tourmaline comprises: a case; inner and outer ionization plates electrically charged by an electron generated from an electron generation member; a conductive middle plate inserted into a space between the inner and outer ionization plates; a shape maintenance means; the electron generation member filled in the space between the outer ionization plate and the conductive middle plate and between the inner ionization plate and the conductive middle plate to generate the electron; monazite powder filled in an empty space inside the case, which is not filled by the electron generation member, to promote generation of the electron in the electron generation member; and a cover.

Description

Power saving device using a tourmaline {The power saving device using a tourmaline}

The present invention relates to a power saving device using a tourmaline, and more particularly, by connecting a power saving device using a tourmaline to each electric line of the switchboard to reduce power consumption and suppress harmonics generated from the power system. The present invention relates to a power saving device using tourmaline.

Recently, research on alternative energy resources to replace coal and oil has been actively conducted due to environmental problems and depletion of energy resources.

For example, research on the development and efficient utilization of energy resources using nuclear power, wind power, tidal power, and solar light is being actively conducted.

Coal, petroleum, and nuclear power directly utilize thermal energy, but most convert it to electrical energy.

The amount of use of the electric energy is increasing every year, and the price of electric energy supply is also increasing due to the increase in the price of fossil energy.

Accordingly, various efforts are being made to save electric energy in socio-economics.

In particular, since electricity transmitted from a power plant is transmitted to a user through a power cable, electrical energy loss may be caused by resistance of the power cable, surroundings of the power cable, or other factors, thereby improving power transmission process and using power. Attention has been paid to the development of a power saving device that can reduce energy consumption.

On the other hand, the prior art of the present invention has been filed and registered the "electric power saving device" of the Republic of Korea Patent Registration No. "10-0419312", the electric power saving device is a ceramic layer for emitting a rotating electromagnetic wave mainly on the inner wall of the mica An inner cover plate which is applied to the metal or plastic housing which is blocked from waveguide to the outside, and is supported by a space holding rod of a certain height in the inner space of the housing to absorb and radiate rotating electromagnetic waves emitted from the ceramic layer repeatedly. And a conductive plate placed in an insulated plate so that the rotating electromagnetic waves induced in the free space between the inner cover plate and the bottom plate penetrate, and the electrical wires flowing out of the rotating electromagnetic wave to the conductive plate to the power bus.

Republic of Korea Patent Registration No. 10-0419312 (2004.02.21) Republic of Korea Patent Publication No. 10-2004-0028811 (2004.04.03) Republic of Korea Patent Registration No. 10-0638051 (2006.10.26)

Accordingly, an object of the present invention is to provide a power saving device using a tourmaline that can reduce the electric energy by increasing the electrical conductivity in the power system to reduce the loss power to solve the above problems.

Electric power saving device using a tourmaline according to the present invention for achieving the above object is a rectangular parallelepiped shape and the inside of the hollow and the upper open case; An outer ionizing plate mounted inside the case and having a flat plate-shaped conductor wound in a rectangular roll shape and charged by electrons generated from an electron generating member; An inner ionizing plate mounted inside the case and flattened in a rectangular roll shape together with the outer ionizing plate in a state where the flat plate conductor is spaced apart from the outer ionizing plate and charged by electrons generated from an electron generating member; The flat plate-shaped conductor is rolled in a rectangular roll shape and inserted into a space between the inner and outer plates, and separated from the inner and outer plates by a predetermined distance, and having an R phase or an S phase in the switchboard. An intermediate conductive plate connected to the T phase or N phase electric line; The outer ionizing plate, the inner ionizing plate, and the intermediate conductive plate are flowed inside the case so that the gap between the outer ionizing plate, the inner ionizing plate, and the intermediate conductive plate is not narrowed or widened so that the outer ionizing plate, the inner ionizing plate, and the intermediate conductive plate Form holding means for holding and fixing the; An electron generating member filling the space between the outer ionizing plate and the intermediate conductive plate and the space between the inner ionizing plate and the intermediate conductive plate to generate electrons; A mordenite powder filled in an inner empty space of the case in which the electron generating member is not filled to promote electron generation of the electron generating member; And a cover which covers the open upper part of the case to seal the inside of the case, wherein the inner ionizing plate and the outer ionizing plate repeat the charging and discharging by the electrons generated from the electron generating member and the electrons to the intermediate conductive plate. And the intermediate conduction plate sends electrons to the power system through an electric line connected to the intermediate conduction plate to increase the electron density of the power system, and the power system increases the electrical conductivity as the electron density increases, thereby causing the loss. Minimize power to reduce power consumption.

In the power saving device using the tourmaline according to the present invention having such a structure, a mixed electron generating member generates electrons, and the ionizing plate discharges electrons while being charged with electrons, and a conductive plate connected to each phase electric line. By transmitting the electrons received from the ionizing plates to each of the power systems, the electric power of the power system can be improved to reduce the lost power.

In addition, the present invention can extend the life of the power saving device by suppressing the oxidation of the ionizing plate or the conductive plate as much as possible.

In addition, according to the present invention, the outer ionizing plate, the middle conducting plate, and the inner ionizing plate are rolled in a rectangular roll shape to discharge from the inner and outer ionizing plates by maximizing the area of the inner and outer ionizing plates and the middle conducting plates in contact with the electron generating member as much as possible. The amount of electrons and the amount of electrons delivered to the intermediate conductive plate can be increased as much as possible.

In addition, the present invention increases the number of electrons in the power system to increase the electron density and electron mobility and reduce the harmonics through electron rearrangement.

In addition, the present invention can reduce the harmonics to reduce the noise, vibration, heat, etc. of the electric elements as well as the impedance of the electric circuit, thereby improving the life of the power equipment, improving the quality, and improving the power factor.

In addition, harmonics can prevent damage to the line cabin, transformers, cables, and circuit breakers, prevent malfunction of power equipment, increase capacity of the power system, and prevent induction of communication lines.

1 is a combined perspective view of the present invention,
2 is an exploded perspective view of the present invention,
3 is a view illustrating an inner ionizing plate rolled up in a rectangular roll shape and an intermediate ionizing plate outer ionizing plate and shape maintaining means;
Figure 4 is a view for explaining the front end side clamping groove, the end side clamping groove and the fixed side clamping groove processed in the inner roll and middle conducting plate and the outer ionizing plate rolled in a rectangular roll shape,
Figure 5 is a perspective view of the inner roll and the middle conducting plate and the outer leafboard rolled in the form of a square roll combined with the shape maintaining means,
Figure 6 is a cross-sectional view of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

Electric power saving device using a tourmaline according to the present invention, as shown in Figures 1 to 4, a rectangular parallelepiped shape and the inside of the case (1) and the upper open; An outer ion exchange plate (5) mounted inside the case (1) and wound with a flat plate-shaped conductor in the form of a square roll, and charged by electrons generated from the electron generating member 3; The flat plate-shaped conductor mounted inside the case 1 is rolled together with the outer ionizing plate 5 in the form of a square roll in a state in which the flat plate conductor is spaced apart from the outer ionizing plate 5, and has an electron generating member 3. An inner ionizing plate 7 charged by electrons generated from the inner portion; The flat plate-shaped conductor is rolled into a rectangular roll shape and fitted into a space between the inner board 7 and the outer board 5, and the inner board 7 and the outer board 5 are predetermined. An intermediate conductive plate 9 spaced apart and connected to an R-phase, S-phase, T-phase or N-phase electric line in the switchboard; The outer ionizing plate 5, the inner ionizing plate 7, and the intermediate conductive plate 9 flow in the case 1, such that the outer ionizing plate 5, the inner ionizing plate 7, and the intermediate conductive plate 9 are flown. Shape holding means (11) for holding and fixing the outer ionizing plate (5), the inner ionizing plate (7), and the intermediate conductive plate (9) so that the gap between the nipples is not narrowed or widened; An electron generating member (3) filling the space between the outer ionizing plate (5) and the intermediate conductive plate (9) and the space between the inner ionizing plate (7) and the intermediate conductive plate (9) to generate electrons; A hatite powder 13 filled in the inner empty space of the case 1 in which the electron generating member 3 is not filled to promote electron generation of the electron generating member 3; And a cover 15 covering the open upper portion of the case 1 to seal the inside of the case 1, wherein the inner ionizing plate 7 and the outer ionizing plate 5 are the electron generating member 3. The electrons generated from the electrons are transferred to the intermediate conductive plate 9 while repeating charging and discharging, and the intermediate conductive plate 9 transfers the electrons to the power system through an electric line connected to the intermediate conductive plate 9. And increase the electron density of the power system, and as the electron density is increased, the electrical conductivity is improved, thereby minimizing the lost power, thereby reducing power consumption.

The cover 15 and the case 1 are processed from iron, aluminum or plastic material.

The inner ionizing plate 7, the outer ionizing plate 5 and the intermediate conductive plate 9 are made of a conductive metal.

The intermediate conductive plate 9 is preferably processed from copper or aluminum.

As shown in FIGS. 2 to 3, the shape maintaining means 11 may prevent the front end of the inner ionizing plate 7, the outer ionizing plate 5, and the intermediate conductive plate 9 from flowing. (7) and tip fixing means (17) for holding and fixing the ends of the outer ionizing plate (5) and the intermediate conductive plate (9); Termination of the inner ionizing plate 7 and the outer ionizing plate 5 and the intermediate conductive plate 9 so that the ends of the inner ionizing plate 7 and the outer ionizing plate 5 and the intermediate conductive plate 9 do not flow. End fixing means (19) for holding and fixing the; And the inner ionizing plate so that the front, rear, left, and right sides of the inner ionizing plate 7, the outer ionizing plate 5, and the intermediate conductive plate 9, which are rolled in a rectangular roll shape with a predetermined interval therebetween, do not flow. (7) and the front, rear, left, and right sides of the outer ionizing plate (5) and the intermediate conductive plate (9).

As shown in FIG. 3, the tip fixing means 17 protrudes from the tip of the outer ionizing plate 5 in the left direction of the outer ionizing plate 5 and extends in the height direction of the outer ionizing plate 5. A front end left side fixed rail 23 in which a square groove is machined on one side thereof; A left side projecting in a left direction and a right direction of the intermediate conductive plate 9 from the distal end of the intermediate conductive plate 9 and extending in a height direction of the intermediate conductive plate 9 and facing the outer ionizing plate 5; A front intermediate fixing rail 25 in which a square groove is machined on the right side facing the inner ionizing plate 7; A front right fixed rail 27 protruding from the tip of the inner ionizing plate 7 in the right direction of the inner ionizing plate 7 and extending in the height direction of the inner ionizing plate 7 and having a square groove formed on one side thereof. ; A first spacing bar 29 having a side that is fitted into a square groove of the front left fixed rail 23 in the form of a flat bar; and the outer ionizing plate 5 in the form of a flat bar. The second gap between the front end of the middle conductor plate 9 and the front end of the intermediate conductor plate 9, and one side of which is fitted into the square groove of the front end fixing rail 25 protruding to the left side of the middle conductor plate 9. A holding bar 31; Tip middle fixed rail which is inserted between the tip of the inner ionizing plate 7 and the tip of the intermediate conductive plate 9 in the form of a flat bar and has one side protruding to the right side of the intermediate conductive plate 9. A tip-side third gap retaining bar 33 fitted into the square groove of the column 25; A front end side fourth spacing bar 35 in which one side is fitted into a square groove of the front end right fixing rail 27 as a flat bar shape; The tip side first spacing bar 29, the tip side second spacing bar 31, the tip side third spacing bar 33, and the tip side fourth spacing held side by side with a predetermined spacing therebetween. A tip space maintaining bar fixing piece 37 to which the lower end of the bar 35 is fixedly coupled; And processing the groove in the lower end of the square groove processed in the tip left fixing rail 23, the tip middle fixing rail 25, and the tip right fixing rail 27 to fit the tip gap holding bar fixing piece 37. A front end side fixing piece fitting groove 39 to be formed, wherein the front end side first spacing bar 29, the front end side second spacing bar 31, and the front end side third spacing bar 33, The front end side gap retaining bar 35 and the front end side gap retaining bar 37 are made of a non-conductive material.

As shown in FIG. 3, the terminal fixing means 19 protrudes from the end of the outer ionizing plate 5 in the right direction of the outer ionizing plate 5 and extends in the height direction of the outer ionizing plate 5. End right fixed rail 41 and the square groove is machined on one side; The right side and the inner side protruding from the end of the intermediate conductive plate 9 in the left and right directions of the intermediate conductive plate 9 and extending in the height direction of the intermediate conductive plate 9 and facing the outer ionizing plate 5. A terminal intermediate fixing rail 43 having a square groove formed on the left side facing the ionizing plate 7; End left fixed rail 45 protruding from the end of the inner ionizing plate 7 in the left direction of the inner ionizing plate 7 and extending in the height direction of the inner ionizing plate 7 and having a square groove formed on one side thereof. ; A terminal side first spacing bar 47 in which one side is fitted into a square groove of the terminal right fixing rail 41 in the form of a flat bar; End middle fixed rail, which is sandwiched between the end of the outer ionizing plate 5 and the end of the intermediate conductive plate 9 in the form of a flat bar, and one side protrudes in the right direction of the intermediate conductive plate 9. A second end gap retaining bar 49 fitted into the square groove of the 43; End intermediate fixed rail in the form of a flat bar sandwiched between the end of the inner ionizing plate (7) and the end of the intermediate conductive plate (9) and one side protrudes to the left side of the intermediate conductive plate (9) An end side third spacing bar 51 fitted into the square groove of the 43; A fourth end retaining bar 53 having a flat bar shape, one end of which is inserted into a square groove of the left end fixing rail 45; The end-side first spacing bar 47, the end-side second spacing bar 49, the end-side third spacing bar 51, and the end-side fourth spacing held side by side with a predetermined spacing therebetween. An end side gap retaining bar fixing piece 55 to which the lower end of the bar 53 is fixedly coupled; And a groove is formed at the lower end of the square groove processed in the terminal right fixing rail 41, the terminal middle fixing rail 43, and the terminal left fixing rail 45 to fit the terminal spacing bar fixing piece 55. An end side fixing piece fitting groove 57 to be formed, the end side first spacing bar 47, the end side second spacing bar 49, and the end side third spacing bar 51, The end side fourth spacing bar 53 and the end side spacing bar fixing piece 55 are made of a non-conductive material.

As shown in FIG. 3, the front, rear, left and right fixing means 21 is an outer board 5 rolled in a rectangular roll form from the front or rear, left side, or right side of the outer board 5 installed at the outermost side. An outer ionizing plate-side fixing rail (59) which protrudes in an outward direction and is machined on one surface thereof and extends in the height direction of the outer ionizing plate (5); The inner ionizing plate 7 protrudes toward the center of the inner ionizing plate 7 rolled in a square roll form from the front or rear, left side, or right side of the inner ionizing plate 7 installed at the outermost side, and a square groove is processed on one side thereof. An inner ionizing plate side fixing rail 61 extending in the height direction of the plate 7; From the front, rear, left side, or right side of the outermost intermediate conduction plate 9, toward the outer ionizing plate 5 and the inner ionizing plate 7 facing the outermost intermediate conducting plate 9. An intermediate conductive plate side fixing rail 63 protruding and having a square groove formed on a surface thereof facing the outer ionizing plate 5 and the inner ionizing plate 7; An outer ionizing plate-side spacing holding bar 65 having a flat bar shape and having one side fitted into a square groove of the outer ionizing plate-side fixing rail 59; The square groove of the intermediate conductive plate side fixing rail 63 fitted between the outer ionizing plate 5 and the intermediate conductive plate 9 installed at the outermost side and facing one side of the outer ionizing plate 5 installed at the outermost side. A first intermediate fitting gap retaining bar 67 fitted in the gap; The square groove of the intermediate conductive plate side fixing rail 63 is inserted between the inner ionizing plate 7 and the middle conductive plate 9 installed at the outermost side and the one side faces the inner ionizing plate 7 installed at the outermost side. A second intermediate fitting gap retaining bar 69 inserted into the second intermediate fitting gap maintaining bar 69; An inner ionizing plate-side spacing holding bar 71 having a flat bar shape and having one side fitted into a square groove of the inner ionizing plate-side fixing rail 61; The outer ionizing plate-side spacing retaining bar 65, which is erected side by side with a predetermined distance therebetween, a first intermediate fitting spacing retaining bar 67, a second intermediate fitting spacing retaining bar 69, and an inner ionizing plate-side spacing retaining bar ( A spacing bar fixing piece 73 to which the lower end of the 71 is fixedly coupled; And processing the groove in the lower end of the square groove processed in the outer ionizing plate side fixing rail 59, the inner ionizing plate side fixing rail 61, and the middle conducting plate side fixing rail 63, thereby maintaining the gap retaining bar fixing piece 73. Including a fixing piece fitting groove 75 to be fitted, the outer ionizing plate side interval maintaining bar 65, the first intermediate fitting interval holding bar 67, the second intermediate fitting interval holding bar 69, inner ionization The plate side gap retaining bar 71 and the gap retaining bar fixing piece 73 are made of a non-conductive material.

, 상기 물 100 중량부에 대하여 0.00001 내지 0.7 중량부의

, 및 PH가 6 내지 8인 첨가제를 포함한다.The electron generating member 3 is a tourmaline powder which generates electric current by itself as a tourmaline, and a permanent magnet which is mixed with the tourmaline powder to generate a constant magnetic field while promoting movement of electrons generated from the electron generating member 3 together with ferrite powder. Magnet powder, ferrite powder mixed with the permanent magnet powder to promote the movement of electrons generated from the electron generating member 3, water which is electrolyzed when contacted with the tourmaline powder to generate electrons, and 100 parts by weight of water. 1 to 10 parts by weight relative to

0.00001 to 0.7 parts by weight based on 100 parts by weight of the water

And additives having a pH of 6 to 8.

는 상기 토르마린 혼합물과 섞이면서 겔(Gel)화가 일어나고 상대적으로 많은 함량의 물을 함유하면서 안정적인 겔화가 일어난다.remind

The gelation occurs while mixing with the tourmaline mixture and a stable gelation occurs while containing a relatively large amount of water.

는 물 100 중량부에 대하여 1 중량부 미만일 경우 응집 효과가 일어나지 않으며 물 100 중량부에 대하여 10 중량부를 초과할 경우 토르마린 혼합물과 섞이기 전 겔화가 진행되어 혼합 자체가 불가능하다.remind

When less than 1 part by weight with respect to 100 parts by weight of water does not occur agglomeration effect, if it exceeds 10 parts by weight with respect to 100 parts by weight of water before the gelation is mixed with the tourmaline mixture is not possible to mix itself.

는 상기

의 응집을 지연시키는 역할을 수행하는 것으로 물 100 중량부에 대하여 0.00001 중량부 미만일 경우 상기

가 바로 응집되어 토르마린 혼합물과 혼합될 수 없다는 문제점이 있고, 물 100 중량부에 대하여 0.7 중량부를 초과할 경우 상기

의 겔화가 진행되지 않는다는 문제점이 있었다.remind

Above

If it is less than 0.00001 parts by weight based on 100 parts by weight of water to delay the aggregation of

Has a problem that can not be immediately aggregated and mixed with the tourmaline mixture, when the content exceeds 0.7 parts by weight with respect to 100 parts by weight of water

There was a problem that gelation did not proceed.

의 응집력을 높인다.The additive of PH 6 to PH 8 is the

To increase cohesion.

The tourmaline is a mineral belonging to a hexagonal system in which electricity is generated by friction, and Pierre obtained a nickname of tourmaline after discovering that electric charge (electricity) is generated on the crystal surface of tourmaline in 1880.

The tourmaline was found to have a positive electrode and a negative electrode at both ends of the crystal, no matter how small it was crushed, and to have an electrode that did not attenuate permanently unless heated to about 1000 degrees.

In addition, when the positive electrode and the negative electrode of the tourmaline crystal were connected, a weak current of 0.06 mA was found to flow.

The tourmaline has a positive and negative polarity at both ends of the crystal even when crushed to 0.3um.

The tourmaline powder is a polar crystal having electric polarization from the beginning even without applying an electric field from the outside, and forms electrodes at both ends of the powder crystal.

However, since the positive electrode and the negative electrode of the tourmaline powder crystal are not necessarily parallel, electrons flow from the negative electrode toward the positive electrode.

Therefore, the tourmaline powder generates a weak current continuously, and when moisture comes into contact with the tourmaline powder, electrons are instantaneously generated to generate electrons.

The permanent magnet generates and maintains a stable magnetic field without receiving electrical energy from the outside.

The permanent magnet powder helps the tourmaline powder electrolyze moisture to generate electrons.

)로서 음이온을 다량 방출하는 성질을 가지며, 통상의 광물에 비해 10배 내지는 100배의 음이온을 방출한다.The mossite is a mineral contained in a lot of sand and soft crystal of the river (

) Has a property of releasing a large amount of anions, and emits 10 to 100 times the anions compared to the conventional minerals.

The mothite powder 13 improves electron transport and flow of the tourmaline powder by releasing anions.

In the power saving device using the tourmaline according to the present invention having such a structure, a mixed electron generating member generates electrons, and the ionizing plate discharges electrons while being charged with electrons, and a conductive plate connected to each phase electric line. By transmitting the electrons received from the ionizing plates to each of the power systems, the electric power of the power system can be improved to reduce the lost power.

In addition, the present invention can extend the life of the power saving device by suppressing the oxidation of the ionizing plate or the conductive plate as much as possible.

In addition, according to the present invention, the outer ionizing plate, the middle conducting plate, and the inner ionizing plate are rolled in a rectangular roll shape to discharge from the inner and outer ionizing plates by maximizing the area of the inner and outer ionizing plates and the middle conducting plates in contact with the electron generating member as much as possible. The amount of electrons and the amount of electrons delivered to the intermediate conductive plate can be increased as much as possible.

In addition, the present invention increases the number of electrons in the power system to increase the electron density and electron mobility and reduce the harmonics through electron rearrangement.

In addition, the present invention can reduce the harmonics to reduce the noise, vibration, heat, etc. of the electric elements as well as the impedance of the electric circuit, thereby improving the life of the power equipment, improving the quality, and improving the power factor.

In addition, the harmonics can prevent the line cabin, transformers, cables, and circuit breakers from being burned out, prevent malfunction of power equipment, increase capacity of the power system, and prevent induction of communication lines.

1. Case 3. Electron-generating member
5. Outer Board 7. Outer Board
9. Intermediate conduction plate 11. Form retaining means
13. Capite Powder 15. Cover
17. Tip fixing means 19. Terminal fixing means
21. Front, rear, right and left fixing means 23. Tip left fixed rail
25. Tip middle fixed rail 27. Tip right fixed rail
29. Tip First Spacing Bar 31. Tip Side Second Spacing Bar
33. Tip third spacing bar 35. Tip side fourth spacing bar
37. Tip gap retaining bar fixing piece 39. Tip fixing piece fitting groove
41. End Right Fixed Rail 43. End Middle Fixed Rail
45. End left fixed rail 47. End side first clearance bar
49. End side second gap bar 51. End side third gap bar
53. End 4th Spacing Bar 55. End Side Spacing Bar Fixing Piece
57. Ending Fixture Fitting 59. Outer ionizing plate fixing rail
61. Inner ion plate side fixing rail 63. Middle conduction plate side fixing rail
65. Outer ionizing plate side retaining bar 67. First intermediate insertion gap retaining bar
69. Second Intermediate Spacing Bar 71. Inner Ion Plate Side Spacing Bar
73. Spacer bar retainer 75. Fixer fitting groove

Claims (4)

A case (1) having a rectangular parallelepiped shape, the inside of which is hollow and whose top is opened;
An outer ion exchange plate (5) mounted inside the case (1) and wound with a flat plate-shaped conductor in the form of a square roll, and charged by electrons generated from the electron generating member 3;
The flat plate-shaped conductor mounted inside the case 1 is rolled together with the outer ionizing plate 5 in the form of a square roll in a state in which the flat plate conductor is spaced apart from the outer ionizing plate 5, and has an electron generating member 3. An inner ionizing plate 7 charged by electrons generated from the inner portion;
The flat plate-shaped conductor is rolled into a rectangular roll shape and fitted into a space between the inner board 7 and the outer board 5, and the inner board 7 and the outer board 5 are predetermined. An intermediate conductive plate 9 spaced apart and connected to an R-phase, S-phase, T-phase or N-phase electric line in the switchboard;
The outer ionizing plate 5, the inner ionizing plate 7, and the intermediate conductive plate 9 flow in the case 1, such that the outer ionizing plate 5, the inner ionizing plate 7, and the intermediate conductive plate 9 are flown. Shape holding means (11) for holding and fixing the outer ionizing plate (5), the inner ionizing plate (7), and the intermediate conductive plate (9) so that the gap between the nipples is not narrowed or widened;
An electron generating member (3) filling the space between the outer ionizing plate (5) and the intermediate conductive plate (9) and the space between the inner ionizing plate (7) and the intermediate conductive plate (9) to generate electrons;
A hatite powder 13 filled in the inner empty space of the case 1 in which the electron generating member 3 is not filled to promote electron generation of the electron generating member 3;
And a cover 15 covering the open upper portion of the case 1 to seal the inside of the case 1,
The inner ionizing plate 7 and the outer ionizing plate 5 transfer electrons to the intermediate conductive plate 9 while repeating charging and discharging by the electrons generated from the electron generating member 3, and the intermediate conducting plate. The plate 9 sends electrons to the power system through an electric line connected to the intermediate conducting plate 9 to increase the electron density of the power system, which increases the electrical conductivity as the electron density increases, thereby reducing the lost power. To reduce power consumption,
The shape maintaining means 11 is the inner ionizing plate (7) and the outer ionizing plate (5) so that the front end of the inner ionizing plate (7) and the outer ionizing plate (5) and the intermediate conductive plate (9) does not flow; A tip fixing means (17) for holding and fixing the tip of the intermediate conductive plate (9),
The tip fixing means 17 protrudes from the tip of the outer ionizing plate 5 in the left direction of the outer ionizing plate 5, extends in the height direction of the outer ionizing plate 5, and has a square groove on one side thereof. A tip left fixed rail 23;
A left side projecting in a left direction and a right direction of the intermediate conductive plate 9 from the distal end of the intermediate conductive plate 9 and extending in a height direction of the intermediate conductive plate 9 and facing the outer ionizing plate 5; A front intermediate fixing rail 25 in which a square groove is machined on the right side facing the inner ionizing plate 7;
A front right fixed rail 27 protruding from the tip of the inner ionizing plate 7 in the right direction of the inner ionizing plate 7 and extending in the height direction of the inner ionizing plate 7 and having a square groove formed on one side thereof. ;
A front side first spacing bar 29 in which one side is fitted into a square groove of the front left fixed rail 23 in the form of a flat bar;
Flat intermediate bar fixed between the tip of the outer ionizing plate (5) and the tip of the intermediate conductive plate (9) and one side protruding to the left side of the intermediate conductive plate (9) A tip-side second spacing bar (31) fitted into the square groove of (25);
Tip middle fixed rail which is inserted between the tip of the inner ionizing plate 7 and the tip of the intermediate conductive plate 9 in the form of a flat bar and has one side protruding to the right side of the intermediate conductive plate 9. A tip-side third gap retaining bar 33 fitted into the square groove of the column 25;
A front end side fourth spacing bar 35 in which one side is fitted into a square groove of the front end right fixing rail 27 in a flat bar shape;
The tip side first spacing bar 29, the tip side second spacing bar 31, the tip side third spacing bar 33, and the tip side fourth spacing held side by side with a predetermined spacing therebetween. A tip space maintaining bar fixing piece 37 to which the lower end of the bar 35 is fixedly coupled;
And processing the groove in the lower end of the square groove processed in the tip left fixing rail 23, the tip middle fixing rail 25, and the tip right fixing rail 27 to fit the tip gap holding bar fixing piece 37. Including the front side fixing piece fitting groove 39 to make,
The tip-side first spacing bar 29, the tip-side second spacing bar 31, the tip-side third spacing bar 33, the tip-side fourth spacing bar 35, and the tip-side spacing Retaining bar fixing piece 37 is made of a non-conductive material,
The electron generating member 3 is tourmaline powder which generates electric current by itself as a tourmaline,
Permanent magnet powder which is mixed with the tourmaline powder to generate a constant magnetic field and promotes the movement of electrons generated from the electron generating member 3 together with the ferrite powder,
Ferrite powder mixed with the permanent magnet powder to promote the movement of electrons generated from the electron generating member (3),
Water which is electrolyzed to generate electrons when contacted with the tourmaline powder,
1 to 10 parts by weight based on 100 parts by weight of the water

,
0.00001 to 0.7 parts by weight based on 100 parts by weight of the water

,
And the power saving device using a tourmaline, characterized in that it comprises an additive of pH 6 to 8.
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