KR100715288B1 - Subtle energy generator - Google Patents

Abstract

The present invention absorbs and dissipates the torsion field energy emitted from the far-infrared radiation material and supplies the negative ions emitted from the torsion field and the anion material induced by the resonance absorption state to the power line and the fossil fuel combustion device to reduce power consumption. The present invention relates to a microenergy generator that can reduce electrical energy, can reduce electric energy, improve combustion efficiency of a combustion device, and improve fuel efficiency, and additionally implements a function of reducing static electricity and blocking water waves. The generator includes a synthetic resin housing 10 coated with a polyethylene coating layer 12 on an inner wall thereof, and a far-infrared material layer 22 and particles formed of powder (mavanite and ocher) on an inner bottom surface of the housing 10. The large volcanic stone layer 24 and the small volcanic stone layer 26 are sequentially compressed and placed in a compressed layer 20 partitioned into partition plates (insulation plates: bakelite) 32 and an upper surface of the compressed layer 20. And conductive plates 30 and 30a for receiving anion emanating material therein, wires 40 connected to the conductive plates 30 and 30a and leaked out of the housing 10, and the housing 10. It is disposed on the upper portion of the inner wall and includes a cover 50 attached to the inner surface of the compression layer 20a coated with a polyethylene (PE) coating layer 12a. As a result, the torsion field energy is collected in a predetermined space, and the collected torsion field is provided with activation energy that is discharged through the track by the discharge means, that is, a subtle energy generator.

Far Infrared Ray, Torsion Field Energy, Micro Energy Induction Window, Ceramic Layer, Resonance Layer, Polyethylene (PE), Power Saving Device

Description

Fine Energy Generator {Subtle Energy Generator}

1 is a partially cutaway perspective view of a power saving device of the present invention;

2 is a longitudinal sectional view of the present invention,

3 is a longitudinal sectional view of the lid of the present invention,

4 is a longitudinal cross-sectional view of another embodiment cover of the present invention.

-Explanation of the codes for the main parts of the drawings-

10; A housing 12; High Density Polyethylene Coating Layer

12,12a; Compressive layers 22, 22a; Far Infrared Material Layer

24,24a; Large volcanic rock layer 26,26a; Small volcanic rock

30,30a; Conducting plate 32; Partition plate

40; Wire 50; cover

60; Adjusting screw rod 62; Hoist

66; Platform

The present invention relates to an improvement in an electric power saving device, and more particularly, torsion field energy emitted from a layer of far-infrared material is absorbed and diverged, thereby supplying torsion field energy induced in a resonance absorption state to a power line. By reducing the power consumption by promoting the flow of electrons due to the activation energy discharged through the tracks, the electrical energy can be saved, and the anion organically released along the tracks together with the far infrared forms a fine magnetic field around the combustor. The present invention relates to a microenergy generator for improving fuel efficiency by increasing combustion rate.

In general, far-infrared rays are a kind of electromagnetic waves that collectively refer to wavelengths from 2.5 to 1000 micrometers. However, in the industrial field, the 2.5 to 30 micrometer range is mainly used.

These far infrared rays have the properties of resonance absorption, radiation, and cardiac calendar, and the molecules constituting the material perform unique angular vibration, rotational vibration, and stretching vibration movement according to the arrangement of atoms. The frequency representing the vibration wavelength of these molecules is determined to a specific value by the molecular structure, and typically appears over 2.5 to 30 micrometers. At this time, the frequency of radiation energy and the frequency of molecules when irradiating far infrared rays on the material coincide, and the molecules absorb far infrared radiation energy and the vibration becomes more intense, which is called resonance absorption. Due to this action, part of the kinetic energy is converted into active energy, thereby activating molecular motion.

In recent years, these far-infrared characteristics have been used for various purposes. The most commercially available uses far-infrared radiant ceramics in heating or sauna facilities. In particular, the far-infrared rays penetrate deep into the body to activate the molecules or atoms in the body to discharge waste products and promote metabolism, thereby activating physical health rhythm. In addition, the effect of far infrared rays is numerous. However, there is no example of using far infrared rays for power saving.

An electric power saving device, which is a technology for achieving power saving using far infrared rays, is introduced by Korean Patent Registration No. 10-0419312.

The conventional technology reduces power consumption by using far infrared rays, but has a ceramic layer on the inner wall of the housing, and a resonance plate (conductor plate) for resonance absorption of the rotating electromagnetic waves in the intermediate space, so that the rotating electromagnetic waves are placed on the upper part of the mold. It is to save electric energy by supplying to electric line installed in space.

However, in the above technology, since the inner wall is made of a ceramic layer composed of an ore layer, the activity of far-infrared rays is weak, and the formation of the torsion field energy is insufficient, and the torsion field energy is guided to the outside by the metal housing. The cold war was achieved, and there was a problem in that the space formation supplying the torsion field energy was incomplete due to insufficient resonance layer formation due to insufficient spacing of the resonance layers formed in the power saving device. This problem is matched with the characteristics of the load.

The present invention has been made to solve such a problem, it is possible to reduce the power consumption by reducing the power consumption by preventing the consumption of the current amount due to the activation energy discharged through the line using far infrared rays can reduce the electrical energy and reduce the power consumption The present invention provides a fine energy generating device that reduces friction loss due to rotation.

In addition, the effects that occur in the vicinity of the device connected to the present invention is implemented to reduce the static electricity generated on the TV screen, the noise of the fan and the motor driven, the static electricity of the winter vehicle, the water-wave blocking.

In the present invention for achieving the above object, when supplying far-infrared rays of a specific wavelength band to the electric current flowing through the electric current, the molecules constituting the conductor of the electric line is configured to generate a resonance absorption vibration absorbing it to activate the molecules. That is, a space for supplying a torsion field energy, which is a thermodynamic activation energy, is applied to the conductors constituting the electric line, and a polyethylene (PE) coating layer is applied to the inner wall, and the synthetic resin housing to the outside, and the inner bottom of the housing Far-infrared material layer made of powder on the surface, volcanic stone layer with large particle and volcanic stone layer with small particle are sequentially compressed and partitioned by partition plate, and conductive layer placed on the upper surface of the compressed layer and accommodating anion emitting material therein A microenergy including a plate, a wire connected to the conductive plate and leaked to the outside of the housing, a cover disposed on the upper side of the housing and coated with a polyethylene (PE) coating on the inner wall, and the pressing layer attached to the inner surface. To provide a generator.

Another technical means in the present invention for achieving the above object is to provide a fine energy generating device that the housing and the cover integrally assembled with the housing is formed without the inner wall is coated first.

As another technical means in the present invention for achieving the above object is the cover is controlled by the compression layer formed by sequentially compressing the far-infrared material layer made of powder, the large volcanic stone layer and the small particle volcanic stone layer on the inner bottom surface An object of the present invention is to provide a fine energy generating device which is elevated by a screw rod.

Here, after the resonance band (internal distribution capacity) matched with the present invention for each load is measured, it will be applied regardless of the place in a similar environment in the form of a box without the need for a lifting plate.

As another technical means in the present invention for achieving the above object, the cover is a compression layer formed by pressing a plurality of layers formed on the inner bottom surface is fixed and disposed in front of the compression layer coupled with the elevating control rod penetrating the cover It is to provide a fine energy generating device in which the lift plate is elevated.

Therefore, the resistance of the conductor due to the activation energy discharged through the line is reduced to prevent the consumption of the current amount by the resistance to reduce the power consumption to save the electrical energy.

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

1 is a partially cut-away perspective view of the power saving device of the present invention, FIG. 2 is a longitudinal sectional view of the power saving device of the present invention, and FIG. 3 is a longitudinal sectional view of the lid of the present invention.

That is, the present invention is connected to the crimping layer 20 and the conductive plates 30 and 30a disposed on the crimping layer 20 in which a plurality of layers are crimped in the housing 10 made of synthetic resin. And, the cover 50 is assembled to the upper portion of the housing 10 constitutes a fine energy generating device.

The housing 10 has a polyethylene (PE) coating layer 12 is applied to the inner wall is formed to block the far infrared wave to the outside.

The compressed layer 20 has a far-infrared material layer 22 made of powder stacked on the inner bottom surface of the housing 10, and a volcanic stone layer 24 having large particles stacked on the upper surface thereof, followed by a small volcanic stone layer 26. ) Are sequentially stacked and pressed to partition them into partition plates 32.

The conductive plates 30 and 30a are placed on the upper surface of the pressing layer 20 to accommodate anion emanating material therein, and the conductive plates 30 and 30a have wires leaked out of the housing 10. 40) is connected.

The cover 50 is disposed on the housing 10, and a polyethylene (PE) coating layer 12a is applied to an inner wall thereof, and the compression layer 20a is attached to an inner surface thereof.

Here, the cover 50 is a compressed layer 20a formed by sequentially compressing the far-infrared material layer 22a made of elvan and loess, the volcanic stone layer 24a having a large particle size, and the volcanic stone layer 26a having a small particle size on the inner bottom surface thereof. ) Is adjustable by the adjustment screw rod (60).

The particle size of the large volcanic stone layers 24 and 24a is preferably 5 mm or more, and the particle size of the small volcanic stone layers 26 and 26a is preferably 5 mm or less.

4 is a longitudinal sectional view of another embodiment cover of the present invention.

As shown in Figure 4, the cover 50 of the present invention is a pressing layer (20a) formed by pressing a plurality of layers formed on the inner bottom surface is fixed, the cover 50 is disposed on the front of the pressing layer (20a) Coupled with the elevating adjustment bar 62 penetrates, the elevating plate 66 is configured to adjust the elevating.

On the other hand, the housing 10 and the cover 50 integrally assembled with the housing 10 are formed without the inner wall being coated.

Meanwhile, the conductive plates 30 and 30a sequentially form a powdered far-infrared material layer 22, a large volcanic stone layer 24, and a small volcanic stone layer 26 on the inner bottom surface thereof. An anion radiating material layer is placed on a portion corresponding to the uneven portion of the plate 30, 30a, and is formed by being seated on the plate and pressed. The surface is coated except for the copper plate of the conductive plate 30, 30a. ought.

Referring to the technical principle of the present invention made of such a configuration as follows.

Generation of torsion field energy, which is a theoretical background of the present invention, is a state in which an atomic bond structure of a ceramic, which is a material of a far infrared emitter, is mixed with a covalent bond and a crystallized pi bond. In this state, a torsion field energy is generated along with the generation of alternating magnetic fields.

And the heat energy sucked from the outside is also converted to torsion field energy. In addition, a lot of torsion field energy is generated when polyethylene (PE) is coated on the housing.

It is the technical basic theory of the present invention to satisfy such a far-infrared radiator structure and to have the ability to generate and supply this energy by itself.

Thus, the various molecular structures that make up each substance have a specific frequency of vibration and rotation from the differences in the aggregates, the state of the arrangement, and the collective forces on the mass structure of the atom. When radiating far infrared rays to a material, if the frequency of radiant energy coincides with the molecular frequency of the material, the molecules absorb far infrared energy and the molecular motion becomes more intense.

This is called resonance absorption, and in detail, the torsion field energy emitted from the ceramic coating surface is converted into far infrared rays (maximum radiant energy around 8 to 11 micrometers) due to the structural characteristics of the free space in free space. This far-infrared radiation is radiated from the surface and absorbed by another surface, which in turn causes a conversion motion to become torsion field energy by an alternating magnetic field.

Here, the principle of absorption and power saving of torsion field energy is that the existing energy refers to the energy of electrons flowing into the conductor, and according to a recent study, the electric energy is composed of the flow of the torsion field energy and the vibration of the electrons. Turned out to be. Based on this, it is judged that the power line can absorb the torsion field energy. When the energy path line of the far-infrared radiator is in contact with the power line, the absorption force is caused by the static pressure difference between the far-infrared radiator and the power line due to the flow of the torsion field energy flowing in the power line. This happens. Due to this absorption force, the torsion field energy generated in the far infrared radiator is transferred into the power line.

If we look at how this absorbing power is related to power savings, the torsion field energy absorbed in the power line creates crystal bonds of new atoms in the wire, so the new alternating magnetic field regains the heat energy lost due to the existing electrical resistance in the wire. This is because it is made of torsion field energy (rotating electromagnetic wave) and reduced to effective energy.

As a result, this torsion field energy plays a decisive role in reducing various types of resistance in the wire, which saves about 5 to 15% of electrical energy.

Looking at the adaptation period of the far-infrared radiator and the role of the rotating electrons, the torsion field energy absorbed in the power line forms crystal bonds in the fine structure of the conductor, but when the torsion field energy is continuously supplied, the bond is broken again. Since the covalent bonds do not flow current, only the crystal bonds protected by the covalent bonds remain in the end, and thus the electric power saving action is stabilized.

As the far-infrared emitter material that conceives the far-infrared wavelength band, a variety of commonly used radiator materials can be used. In particular, not only the natural far-infrared radiator material can be powdered and used as it is, but also baked and powdered by a conventional method can be used.

 Preferably, the mined volcanic stone, or ganban stone ocher, etc. may be used. Examples thereof may include ceramics powdered by firing or powdering them.

It can be seen that the volcanic stone is a radiator suitable for the present invention because the maximum wavelength is formed at 8 ~ 11 micrometers.

The far-infrared radiator may be molded to have various shapes as needed, and the far-infrared radiating material may be coated to have a thickness of 0.4 mm on a plastic (synthetic resin) surface, and then molded into a box using the same. Far-infrared emitters are typically not only rapidly increase the amount of infrared radiation energy when heat is applied, but also the wavelengths radiated gradually shift toward shorter wavelengths.

Therefore, when the far-infrared radiator according to the present invention is heated in an appropriate temperature range, the activation energy of the conductor constituting the electric line can be obtained by increasing the amount of infrared radiation energy.

However, if the temperature rises too much, it is not preferable because it is out of the wavelength band required by the present invention. The present invention is intended to exhibit the optimum effect at normal room temperature.

It is important to supply the far infrared rays to the electric line in order to obtain sufficient power saving effect by the radiation of far infrared rays. Preferably, a large amount of far infrared rays will be supplied to the breaker load side of the incoming line switchboard and the load side of the electric line and the high power consumption. It is desirable to be able to.

The simplest way is to pass an electrical signal into the far-infrared radiator to supply the far-infrared to the electric line.

Alternatively, the transmission medium may be used to supply far infrared rays to the electric line.

The present invention constituted by such a basic principle forms a polyethylene (PE) coating layer 12 (12a) on the inner wall of the housing 10 and the cover 50 to induce generation of torsion field energy. The polyethylene (PE) coating layer is preferably 0.4 mm or more.

 When the polyethylene (PE) coating layer is 0.4 mm or less, there is a problem that the coating layer is damaged during the compression molding, it will be difficult to use.

This is generated in a number of wavelength forms in the space in the housing 10 and the cover 50 as shown in Figure 3, the resonance absorption occurs between the cover 50 and the housing (10).

The bottom surface of the housing 10 is provided with a compressed layer 20 formed by integrally compressing the far-infrared material layer 22, the large volcanic stone layer 24, and the small volcanic stone layer 26. In addition, on the inner wall of the cover 50, a compressed layer 20a formed by integrally compressing the far infrared ray material layer 22a, the large volcanic stone layer 24a, and the small volcanic stone layer 26a is provided on the upper and lower surfaces thereof. Therefore, more torsion field energy is generated in the crystal bonds of the polyethylene (PE) coating layers 12 and 12a and the covalent bond boundary layer of the compression layer 20a, so that the generating action of the torsion field energy increases explosively.

The torsion field energy emitted from the surface of the compressed layers 20 and 20a is continuously transformed into the torsion field energy in the alternating magnetic field while repeating the reflection and absorption in the free space.

Since the interior of the housing 10 to assemble the cover 50 is configured while forming a predetermined space will be able to absorb and repeat according to the kinetic energy of more torsion field energy.

Meanwhile, a pair of conductive plates 30 and 30a is installed in the crimping layer 20 installed in the housing 10 and partitioned by the partition plate 32 to generate the torsion field inside the housing 10. The amount of energy induction and absorption can be maximized.

This torsion field energy is most activated in the free space between the pressing layer 20a of the cover 50 and the pressing layer 20 of the housing 10, and thus the conductive plates 30 and 30a disposed on the upper surface of the pressing layer 20. Is induced.

In addition, the conductive plates 30 and 30a may have an anion radiating material layer accommodated inside the uneven portion to maximize induction and absorption of anions.

The conductive plates 30 and 30a are connected to a power supply terminal of a general outlet for supplying power, and the power line connected to the power supply terminal has its own torsion field energy flow, but is generated in the housing 10 of the power saving device. Since the strength of the torsion field energy is relatively small, as shown in FIG. 1, when the plug connected to the outlet through the conductive plates 30 and 30a of the housing 10 and the electric wire 40 are contacted with the outlet, the torsion field energy is induced in the housing 10. Torsion field energy is absorbed by power lines.

As such, the absorption force is generated by the static pressure difference between the power saving device and the power supply power line. Due to this absorption force, the torsion field energy generated by the power saving device is continuously moved into the power line.

The torsion field energy absorbed inside the power line creates crystal bonds of new atoms in the wire, so the new alternating magnetic field converts the heat energy lost due to the existing electric resistance into the torsion field energy and converts it into effective electric energy.

This torsion field energy will eventually play a decisive role in reducing the various types of resistance in the wire.

Reducing the resistance results in a decrease in current (the theory that the resistive losses are small so that the desired output can be obtained with a small current flow). When the power amount is expressed as the power amount (P) = I × V × COSθ, the voltage is constant, so the current value is reduced, thereby reducing the power consumption.

Meanwhile, as shown in FIG. 3, the space size of the internal resonance layer may be adjusted by the flow of the compression layer 20a installed inside the cover 50. When the adjustment screw rod 60 is rotated, the compression layer (a 20a) is lifted and operated to adjust height.

In addition, in FIG. 4, the lifting plate 66 is disposed on the front surface of the pressing layer 20a attached to the inside of the cover 50, and the lifting guide bar 62 is coupled to the lifting guide bar 62 passing through the pressing layer 20a. Rotating the rod 62 will allow the spirally coupled lifting plate 66 to move up and down to allow height adjustment in the resonant layer.

This reduces and increases the generating space of the rotating magnetic field as necessary to enlarge or reduce the reflection radius of the rotating magnetic field to achieve the induction and absorption control force of the torsion field energy.

After all, if there are enough experimental results to maintain the optimum resonance for each load, the lifting plate may not need to be operated.

Meanwhile, the conductive plates 30 and 30a sequentially form a powdered far-infrared material layer 22, a large volcanic stone layer 24, and a small volcanic stone layer 26 on the inner bottom surface thereof. Where an area corresponding to the uneven portion of the conductive plates 30 and 30a is formed by placing an anion radiating material layer on the conductive plate and pressing it on the surface, except for the copper plate of the conductive plates 30 and 30a, It is coated.

As a result, more torsion field energy is generated in the covalently bounded boundary layer of the material layer 22 and the compressed layer 20 composed of the large volcanic stone layer 24 and the small volcanic stone layer 26. To increase.

The torsion field energy emitted from the surface of the compressed layer 20 is repeatedly converted and absorbed into the torsion field energy in the alternating magnetic field while repeating the reflection and absorption in the free space.

In addition, an anion radiating material layer is accommodated in the uneven parts of the conductive plates 30 and 30a to maximize the induction and absorption of the anion.

Therefore, the torsion field energy induced in the housing 10 through the wire 40 connected to the conductive plates 30 and 30a is absorbed into the power line.

In the case of a vehicle using the present invention, it is more effective to directly connect the battery power source than to connect a cigarette jack.

In the case of combustors using volcanic fuel, the previously published theory of Asakawa Effect (a small magnetic field around the combustor increases internal combustion efficiency) is applied.

Looking at the test results according to the present invention.

Exam 1

RV Car, 2500CC Before installation, average fuel economy 7-7.5Km

     Exam 2

  Gasoline vehicle (2000cc) Measured value after installation compared to 10.5Km of certified fuel consumption

    Exam 3

    27 pyeong apartment (individual heating)

On the average of 10.7 days before installation, after 20 days, it is distributed on the below line on average.

     Exam 4

     31 pyeong apartment (cogeneration heating)

    Measurement data: Average value from 02:20 to 07:50 per day (average power consumption per unit of 30 minutes in the measurement window)

The + side shows the average power consumption in Kw at the same measurement time,

-Side shows increase / decrease rate compared to before installation

     30-minute power consumption change table during the measurement window

The average distribution is 0.1845 before installation, and after 20 days, it is distributed on the below average line.

                Measurement result by each model and internal distribution capacity

(Measurement equipment: VIP SYSTEM3 Energy Analyzer)

Measuring method: 30 minutes power / voltage / current measurement

Daily power consumption varies according to different days of the week and compares the time zone with less daily deviation.

In this way, a result was obtained in which an optimum condition for matching with the present invention was formed.

An additional effect of the surroundings of the device connected to the present invention is a result of measuring the static electricity generated on the TV screen, the noise of the fan and the motor driven, the static electricity of the winter vehicle, the water wave blocking, etc. are implemented.

Recently, it is known that a foreign device, which is called a microenergy generator, has undergone various experiments.

(1) Reduce the noise of the laser.

(2) It can extend the life of battery by 2000%.

(3) Improve the quality of audiovisual systems such as audio, television, CDs, DVDs, etc.

(4) It has a significant effect on enzymes that play an important role in various chemical reactions of the human body. That is, a 33% increase in restriction enzymes.

(5) Significant impact on biological response. That is, the cell stress is reduced by 36%.

(6) It can reduce the damage of harmful electromagnetic fields such as computer terminals, mobile phones, etc.

(7) reduce psychological stress by 35%.

(8) Thinking turns positive.

(9) The meridians were able to stabilize the meridians in an unstable state

As described above, the present invention constitutes a space for supplying torsion field energy, which is a thermodynamic activation energy, to a conductor constituting the electric line, collects torsion field energy generated in the space in a predetermined space and discharges the torsion field energy collected. By reducing the resistance of the conductor (power line) due to the activation energy discharged through the line to prevent the consumption of the current amount by the resistance can reduce the power consumption to obtain an electric saving effect that can save the electrical energy.

As described above, the present invention has the effect of reducing power consumption, and furthermore, the amount of electric power discharged is small, so that the electromagnetic wave which adversely affects the human body is reduced, so that it does not affect the rhythm of the living body or blood flow, and waste and heart. You can expect the effect of not overdoing the beats and metabolism.

Claims (5)

In a housing in which a ceramic layer generating torsion field energy is applied to an inner wall, and a conductive plate is disposed on the housing crimp layer, and a torsion field energy is supplied to the electric line by the conductive plate. A synthetic resin housing 10 having a polyethylene (PE) coating layer 12 coated on an inner wall thereof, and far infrared wave shielding to the outside; On the inner bottom surface of the housing 10, the far-infrared material layer 22 made of powder (an elvan and ocher), a large volcanic stone layer 24 and a small volcanic stone layer 26 are sequentially compressed and partitioned. A compression layer 20 partitioned into a; Conductive plates 30 and 30a which are placed on an upper surface of the pressing layer 20 and receive anion emanation material therein; A wire 40 connected to the conductive plates 30 and 30a and leaked out of the housing 10; A fine energy generating device, characterized in that the cover is disposed on the housing 10 and the polyethylene (PE) coating layer (12a) is applied to the inner wall and the cover (50) attached to the inner surface of the pressing layer (20a). The method of claim 1, The energy generating device, characterized in that the housing (10) and the inner wall of the cover (50) which is integrally assembled with the housing (10) is formed without being coated. The method of claim 1, The cover 50 is controlled by a compression layer 20a formed by sequentially compressing a powdered far-infrared material layer 22a, a large volcanic stone layer 24a, and a small volcanic stone layer 26a on an inner bottom surface thereof. Fine energy generating device characterized in that the lifting by the screw rod (60) integrally. The method of claim 1, The cover 50 is a compression layer (20a) formed by pressing a plurality of layers formed on the inner bottom surface is fixed and disposed on the front of the compression layer (20a) and the elevating control rod 62 and penetrates the cover (50); Fine energy generating device, characterized in that the lifting elevating plate (66). The method of claim 1, The conductive plates 30 and 30a sequentially layer a powdered far-infrared material layer 22, a large volcanic stone layer 24, and a small volcanic stone layer 26 on the inner bottom surface thereof. (30) (30a) is formed by placing an anion radiating material layer on the place corresponding to the uneven portion and pressing it on the surface, except for the copper plate of the conductive plate (30) (30a) is characterized by coating the surface Fine energy generator.

Images