JP3065590B2 - Substance activation method and apparatus - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a substance activating apparatus, and more particularly, to a substance activating apparatus, in which a conductive metal layer is interposed between a substance to be activated and radiation generating means for generating radiation for irradiating the substance. Accordingly, the present invention relates to a substance activating device improved so that a substance can be efficiently activated.

[0002]

2. Description of the Related Art Conventionally, various techniques have been proposed for improving combustion efficiency by irradiating intake air of an internal combustion engine with radiation to activate it.

[0003] For example, Japanese Patent Application Laid-Open No. 52-131024 discloses that an ionizing element made of a radioactive substance that irradiates a small amount of α-rays, β-rays, or the like to a pipe for mixing air and fuel supplied to an engine. Vaporizer with ionization element arranged "
Is described. The present invention, as shown in FIG.
On the inner wall surface of the vaporizer main body 1, an annular ionization element 2 in which a radioactive substance was processed with a non-absorbable synthetic resin was stretched, and the outer wall surface of the vaporizer main body 1 was surrounded by a radiation-proof layer 3 made of lead or the like. Things. The portion 4 of the ionization element 2 that comes into contact with the intake air is formed in a fold shape, so that the contact area between the ionization element 2 and the intake air is increased.

Japanese Patent Application Laid-Open No. Sho 53-16118 discloses that an α-ray, a β-ray,
There is disclosed a technique for applying a paint layer for irradiating radiation such as gamma rays. At the same time, as shown in FIG. 7, tritium having a radioactivity of 100 millicuries is applied to a thickness of 0.3 m inside an air cleaner 6 arranged inside the intake pipe 5.
m, ionized foil body 7 in the form of a foil of 10 mm each
Is also disclosed by a suspension line 8.

[0005]

In each of the above-mentioned prior arts, a radioactive substance is disposed in an intake pipe of an engine, and the engine intake air is activated by directly contacting the radioactive substance. Things. However, the time during which the intake air of the engine comes into contact with the above-described ionizing element 2 and the ionizing foil body 7 becomes shorter in inverse proportion to the increase in the engine speed. As a result, in the above-described prior art, the degree of activation of the intake air of the engine by the radioactive material is low, and the effect is not remarkably exhibited.

In the above-described conventional technique, the ionization element 2 or the ionization foil 7 is disposed in the intake pipe of the engine. Therefore, the resistance becomes a resistance when the engine inhales air. Is reduced.

Further, if the above-described ionizing element 2 or the ionized foil 7 is arranged in the exhaust pipe of the engine and is brought into direct contact with the exhaust gas of the engine, the ionizing element 2 or the ionized foil 7 is heated by the heat of the exhaust gas. It will be damaged. As a result, the above-described conventional substance activating device,
It cannot be used to activate engine exhaust.

Accordingly, an object of the present invention is to solve the above-mentioned problems of the prior art, and to activate, for example, substances such as combustion air taken into an engine and combustion exhaust gas discharged from an engine very efficiently. It is an object of the present invention to provide a substance activating device capable of performing the above-mentioned steps.

[0009]

Means for Solving the Problems To solve the above problems,
Therefore, the method for activating a substance according to claim 1 of the present invention can
Substance to be activated and said substance to activate the substance
A layer of radiation generating means for generating radiation for irradiating the substance
Material activation method with a conductive metal layer interposed between
Wherein the activating substance is combustion air, and
The conductive metal layer contains the combustion air therein.
It is characterized in that it is an intake pipe through which air flows. In addition, the present invention
The method for activating a substance according to claim 2, wherein
Material as combustion exhaust gas, and the conductive metal
The layer is an exhaust pipe through which the combustion exhaust gas flows.
It is characterized by the following.

[0010] That is, the present invention provides a method in which "radiation activates a substance by interposing a layer of conductive metal between a substance to be activated and a layer of radiation generating means for generating radiation for irradiating the substance. The effect is greatly amplified ", based on the findings found by the inventor of the present application. To fully explain this effect, we must wait for further research, but the charge generated when irradiating radiation to ionize the substance is charged to the conductive metal part, causing the electric field to change. And a magnetic field,
It is presently believed that such phenomena occur when the electric and magnetic fields thus generated interact with the ionized material. It has been found that the higher the specific gravity of the metal layer, the higher the activation level of the substance. In any case, by activating the combustion air and combustion exhaust gas of the automobile engine using the substance activating device according to the present invention,
Experiments have confirmed that the fuel consumption during high-speed running at a speed of 100 km / h can be reduced by about 40% at the maximum, and the carbon dioxide contained in the exhaust gas can be reduced by at most 20%.

According to the present invention, a conductive metal layer is interposed between the substance to be activated and the radiation generating means. Therefore, for example, when the intake pipe or the exhaust pipe of the engine is used as the conductive metal layer, the radiation generating means can be arranged outside the intake pipe or the exhaust pipe of the engine. Thus, the radiation generating means does not become a resistance to air intake by the engine and is not damaged by high-temperature exhaust gas.

Further, according to the present invention, there is provided a method for solving the above problems.
Item 19. The substance activating device according to Item 19,
A layer of radiation generating means for generating radiation to be irradiated;
The radiation generating means is located on one side of the layer of the radiation generating means.
An intervening conductor between the layer of the production means and the substance to be activated
A material activation device comprising: a layer of an electrically conductive metal;
The layer of the conductive metal is formed through a channel through which the substance flows.
Are formed as side walls. That is, for example, an intake pipe, an exhaust pipe, a cylinder block, and the like of an automobile engine are generally formed of a conductive metal such as steel or aluminum. Therefore, by holding the radiation generating means on the surface on the other side of this metal member,
The substance flowing on one side of this member can be efficiently activated. Also, according to claim 20 of the present invention,
As described above, the layer of the radiation generating means is attached to the side wall.
To hold the layer of the radiation generating means on the side wall
Can be provided. Further, the present invention is described in claim 21 of the present invention.
As described above, the holding member is made of a conductive metal.
Can be

[0013] On the other hand, according to claim 22 of the present invention.
Material activating device, substance capable of activating the flow of its internal
A conductive metal plate that can be wound around the pipeline to be
The conductive gold for generating radiation for irradiating the substance;
A radiation generating means layer laminated on one side of the metal plate.
The conductive metal plate is wound around the conduit.
The radiation between the substance and the layer of the radiation generating means.
The method is characterized by forming a layer of conductive metal.
Therefore, even if the tubular member forming the flow path through which the combustion air flows is made of a non-metallic material such as a polymer material, as in an air intake duct of an automobile engine, for example, Claim 2 of the present invention on the member
2. By wrapping the substance activating device according to item 2, not only a layer of conductive metal can be formed around the combustion air to be activated, but also a layer of radiation generating means is arranged and fixed outside the metal layer. can do.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the substance activating device according to the present invention will be described below in detail with reference to FIGS. Here, FIG. 1 is a perspective view showing a structure of a substance activating device according to a first embodiment of the present invention, FIG. 2 is a sectional view showing a state where the device shown in FIG. 1 is wound around a duct, and FIG. 2
FIG. 4 is an enlarged cross-sectional view showing a main part of FIG.
FIG. 5 is a cross-sectional view illustrating a state where the substance activating device according to the embodiment is attached to an exhaust pipe, and FIG. 5 is a cross-sectional view illustrating a state where the substance activating device according to the third embodiment of the present invention is attached to a cylinder block.

First Embodiment First, a substance activating device according to a first embodiment will be described in detail with reference to FIGS.

As shown in FIG. 1, a substance activating device 10 according to the first embodiment is formed by laminating a radioactive substance as a radiation generating means together with a strip-shaped metal plate. The radioactive substance layer 11 is formed by molding a monazite powder that emits a small amount of radiation into a strip using a synthetic resin that does not absorb radiation. Under the radioactive material layer 11, strip-shaped copper plates 12, 13 as conductive metal plates are laminated. On the other hand, on the upper side of the radioactive material layer 11, a strip-shaped lead plate 1 for shielding radiation is provided.
4 are stacked, and further on the upper side, the same copper plate 15 as the above-described copper plates 12 and 13 is stacked. The radioactive material layer 11, the copper plates 12, 13 and the lead plate 1
4. The copper plate 15 is caulked using a rivet 16 so as to be relatively slidable.

As shown in FIG. 2, the thus-assembled substance activating device 10 according to the first embodiment is, as shown in FIG. The copper plates 12 and 13 are wound so as to be in close contact with each other. Then, a metal layer is formed on the duct D by the two stacked copper plates 12 and 13, and a radioactive material layer 11 is formed outside the metal layer.

Thus, the radiation of about 100 mSv emitted by the radioactive substance layer 11 acts on the intake air flowing through the duct D to ionize it. At the same time, the charges generated during the ionization are transferred to the metal layers 12 and 13.
To generate an electric field and a magnetic field, and the generated electric field and magnetic field act on the ionized intake air to greatly promote the activation of the intake air. When the air thus activated is supplied into a cylinder of an automobile engine (not shown), the air is sufficiently mixed with the fuel injected into the cylinder, so that the combustion efficiency of the fuel in the cylinder is greatly increased. In addition, it is possible to promote reduction of fuel consumption rate and purification of exhaust gas.

That is, according to the substance activating device 10 of the first embodiment, the conductive metal layer and the radioactive substance layer can be formed simultaneously by being wound around the outside of the duct D of the automobile engine. . Then, since the attachment is only required to be wound around the duct D, the attachment work can be performed extremely easily without depending on the shape of the duct D. Further, since the metal layer is formed by the two copper plates 12 and 13 that are slidably stacked with each other, a metal layer having a sufficient thickness can be formed without making the mounting operation difficult due to its bending rigidity. it can. Further, the substance activating device 10 of the first embodiment includes:
Since it is attached to the outside of the duct D, there is no resistance when the engine sucks air. In addition, a brass plate or a steel plate can be used instead of the copper plate as the metal layer.

Second Embodiment Next, referring to FIG. 4, a substance activating device 2 according to a second embodiment will be described.
0 will be described in detail.

As shown in FIG. 4, the substance activating device 20 of the second embodiment utilizes an exhaust pipe EP of an automobile formed from a steel pipe, which is a conductive metal, as it is as a conductive metal layer. Is what you do. That is, a pair of upper and lower semi-cylindrical holding members 21 and 22 are provided around the exhaust pipe EP.
The flanges 21a and 22a are fixed by tightening bolts B together. In a gap formed between the exhaust pipe EP and the holding members 21 and 22, a monazite powder 23 as a radioactive material layer is sealed in a hermetically sealed state using a heat-resistant seal (not shown).

Thus, the effect of the radiation emitted by the monazite 23 toward the exhaust gas of the automobile engine flowing in the exhaust pipe EP is greatly enhanced by the metal layer formed by the exhaust pipe EP. Therefore, compounds such as carbon monoxide, carbon dioxide, and nitrogen oxides contained in the exhaust gas flowing through the exhaust pipe EP are ionized by the radiation, and at the same time, the exhaust pipe EP as a conductive metal layer is formed.
Is sent to the catalyst device in a state of being largely activated by the electric and magnetic fields generated by the gas, and is extremely efficiently cleaned.

That is, since the substance activating device 20 of the second embodiment utilizes the exhaust pipe EP of the automobile as a conductive metal layer, it is used without replacing existing parts of the automobile. be able to. Further, in the substance activation device 20 of the second embodiment, since the radioactive substance layer 23 is provided outside the exhaust pipe EP of the automobile, the radioactive substance layer 23 is damaged by the high-temperature exhaust gas. Nothing. Needless to say, the substance activating device 20 of the second embodiment can be applied not only to the exhaust pipe EP of an automobile but also to the intake pipe.

Third Embodiment Next, a substance activating device 30 for combustion air and combustion exhaust gas according to a third embodiment will be described in detail with reference to FIG.

As shown in FIG. 5, the substance activating device 30 according to the third embodiment uses a cylinder block CB of an automobile engine, which is a conductive metal, as a conductive metal layer as it is. . That is, on the surface of the cylinder block CB, the monazite powder 33 held in a sealed state by the pair of upper and lower holding members 31 and 32 is fixed by the bolts B. The holding member 32 that is in close contact with the cylinder block CB is preferably formed from a conductive metal material such as steel.

As a result, the effect of the radiation emitted by the monazite 33 is greatly amplified by the cylinder block CB and the holding member 32 forming the conductive metal layer. Air or exhaust gas can be efficiently activated.

That is, since the substance activating device 30 of the third embodiment utilizes the cylinder block CB of the automobile engine as a conductive metal layer, the intake air of the automobile engine flowing through the cylinder block CB or Exhaust gas can be efficiently activated. Instead of using the holding member to hold the radioactive substance, the inside of the hollow portion penetrating through the cylinder block CB may be filled with the radioactive substance and held.

Fourth Embodiment The substance activating device of the present invention can be used not only for activating the combustion air and the combustion exhaust gas of the engine described above, but also for activating various substances. Therefore, in the fourth embodiment, a case where the air filled in the vehicle tire is activated will be described.

In the case of a general vehicle tire, a rubber tire mounted on a rim of a metal wheel is inflated by the pressure of air to obtain a cushioning effect by utilizing the elasticity of rubber and air, and a tire and a road surface are formed. The driving and braking of the vehicle are performed using the friction generated during the driving. When the tire is stationary, the pressure of the air acting on the inner surface of the tire is uniform, but when running starts, the flat deformed portion of the tire generated at the ground contact portion moves in the direction opposite to the rotation direction of the tire. With this movement, an airflow is generated inside the tire in a direction opposite to the rotation direction of the tire. The speed of the airflow increases with an increase in the rotation speed of the tire. further,
Since the cross-sectional area of the flat deformed part of the tire is smaller than that of other general parts, the pressure difference of the air inside the tire before and after the flat deformed part increases as the airflow velocity inside the tire increases. .

The pressure difference of the air inside the tire is as follows.
Since the flat deformed portion of the tire hinders the restoring action of trying to return to its original state, it not only increases the rolling resistance but also contributes to the occurrence of a standing wave phenomenon. Also,
When the vehicle turns, the cross-sectional area of the flat deformed portion of the tire is further reduced with the movement of the center of gravity of the vehicle body, and the pressure difference of the air inside the tire is further increased. Encourage. At this time, the tire tries to adjust the internal air pressure difference by its own elasticity.However, when a large load is applied to the tire during high-speed rotation, the tire cannot adjust the air pressure difference by itself, and eventually a burst occurs. . Further, the friction noise generated when the tire rolls on the road surface increases according to the contact area and the rotation speed of the tire. However, if flat deformation of the tire is promoted, squeal and tire noise deteriorate. In addition, when flat deformation of the tire is promoted, high-speed running (120 Km /
h), the turbulence generated behind the tire increases, and the air resistance increases.

In order to solve such a problem, the substance activating device according to the fourth embodiment is provided between the air filled in the tire and the radiation generating means for generating radiation for irradiating the air. And a structure in which a conductive metal wheel on which a tire is mounted is interposed as a metal layer.

That is, the air inside the tire is irradiated with the radiation and ionized, and flows smoothly inside the tire. As a result, the pressure difference of the air inside the tire occurring before and after the flat deformed portion of the tire is reduced, and the restoring action of the flat deformed portion of the tire to return to the original state is not hindered. Therefore, it is possible to suppress the occurrence of the standing wave phenomenon, the occurrence of tire burst during high-speed rotation, and the increase in tire noise and air resistance during high-speed running.

Further, since the elasticity of the ionized air inside the tire is increased, micro-friction generated between the tire and the road surface is reduced, tire wear is reduced, and when the vehicle is subjected to a crosswind or a severe wind. Increase the dynamic stability of the vehicle when a driving operation is performed.

Further, since the ionized air inside the tire does not amplify the friction noise of the tire, it is possible to suppress an increase in tire noise.

Further, since the ionized air inside the tire always activates the rubber forming the tire, deterioration of the tire can be prevented and its elasticity can be maintained for a long period of time.

Further, since the heat transfer coefficient of the ionized air inside the tire increases, the heat generated by rolling on the road surface and the heat generated by the braking device during braking can be efficiently removed from the atmosphere through the tire. Can be dissipated inside.

Fifth Embodiment Next, a case where the substance activating device of the present invention is applied to a shock absorber of a vehicle will be described.

In a shock absorber that is a shock absorber of a vehicle, a type that uses a damping force generated when oil or high-pressure gas sealed in a cylinder passes through an orifice is generally used. However, it is inevitable that the surface accuracy varies in the production of the orifice,
The quality of the buffer action could not be improved.

In order to solve such a problem, the substance activating device according to the fifth embodiment uses a working fluid such as oil or high-pressure gas sealed in a shock absorber.
It has a structure in which a shock absorber housing made of a conductive metal or a piston having an orifice penetrated as a metal layer is interposed between the working fluid and radiation generating means for generating radiation.

That is, when the substance activating device according to the fifth embodiment is used, the oil and the high-pressure gas sealed in the shock absorber are ionized, and can smoothly flow through the orifice. As a result, even if the surface accuracy of the orifice varies, the sealed oil or high-pressure gas flows smoothly in the orifice, and the quality of the buffer action can be further improved.
In addition, ionized oil and high-pressure gas not only improve their elasticity, but also their durability,
High quality shock absorbing action can be performed over a long period of time.

By providing a conductive metal layer and a radiation generating means around a rubber bush provided in a portion where such a shock absorber is mounted on a vehicle body, the elastic force of the rubber bush itself is improved and the rubber bush itself is improved. Deterioration can be prevented, and the effect of shock absorption can be further improved.

Sixth Embodiment Next, a case where the substance activating device of the present invention is applied to a lubricating device that lubricates a sliding portion of a machine with oil will be described.

Chemically synthesized lubricating oils are used to reduce the friction of the parts of the machine where the metals slide, but such lubricating oils are adversely affected by heat, worn metal powder and the like. Its lubricating ability and heat exchange ability gradually decrease. In addition, if metal abrasion powder accumulates on the oil filter, the oil passing ability is reduced, and the lubrication performance is further reduced.

In order to solve such a problem, the substance activating device according to the sixth embodiment generates a lubricating oil for lubricating a sliding portion of a machine and radiation for irradiating the lubricating oil. It has a structure in which a conductive metal container for storing the lubricating oil or a conductive metal conduit in which the lubricating oil flows flows as a metal layer between the container and the radiation generating means.

That is, when the substance activating device of the sixth embodiment is used, the lubricating oil is efficiently ionized,
A lubricating oil film can be adhered to the surface of the metal to be lubricated. This ensures that the metal element such as molybdenum dispersed in the lubricating oil comes into contact with the metal surface, so that the lubrication performance and heat exchange capacity can be greatly improved, and the life of the machine can be extended. Also,
Since the ionized lubricating oil can smoothly flow between the metal abrasion powder and the like accumulated on the oil filter, not only can the lubrication performance be improved while maintaining the performance of the oil filter, but also the burden on the oil pump can be increased. And power loss can be reduced.

Seventh Embodiment Next, a case will be described in which the substance activating device of the present invention is applied to a device for cooling a heat-generating portion of a machine using a cooling liquid.

For example, in an engine or the like, a coolant is pressurized and circulated in order to efficiently remove heat generated by combustion from a cylinder block. However, when the coolant is pressurized and circulated, not only is a load imposed on the pump, but also leakage may occur from a connection portion such as a pipe or a hose may be damaged.

In order to solve such a problem, the substance activating device according to the seventh embodiment employs a cooling liquid for cooling a heat-generating portion of a machine and a radiation for generating radiation for irradiating the cooling liquid. It has a structure in which a conductive metal container for storing the cooling liquid or a conductive metal pipe in which the cooling liquid flows flows as a metal layer between the container and the generating means.

That is, by using the substance activating device of the seventh embodiment, the coolant can be ionized to form an ionized coolant layer on the inner wall surface of the coolant circulation system. In addition to improving the cooling efficiency, the cooling fluid is laminar and flows smoothly, and the circulation resistance of the cooling fluid is reduced. As a result, the circulation pressure of the cooling liquid can be reduced, so that not only the load on the pump can be reduced and power loss can be reduced, but also
It is also possible to prevent leakage from a connection portion such as a pipe and breakage of a hose. Further, the layer of the ionized cooling liquid has an effect of preventing corrosion of the cooling liquid circulation system and preventing deterioration of the rubber hose and the like.

Eighth Embodiment Next, a case where the substance activating device of the present invention is applied to a device for supplying a liquid fuel to a combustion engine such as an engine will be described.

In general combustion, vaporized liquid fuel and oxygen are combined in a combustion chamber to extract thermal energy. However, in order to efficiently extract the energy from liquid fuel, the fuel and air must be combined. Must be well mixed.

In order to solve such a problem, the substance activating device according to the eighth embodiment employs a fluid fuel supplied to a combustion engine and a radiation generating means for generating radiation for irradiating the fluid fuel. And a conductive metal fluid fuel container or a conductive metal pipe in which the fluid fuel flows inside as a metal layer.

That is, when the substance activating device of the eighth embodiment is used, the liquid fuel such as gasoline or light oil is ionized, and the particle diameter of the liquid fuel when atomized by injection from the fuel injector is reduced. It can be made much smaller than in the case. Thereby, the liquid fuel and the air are sufficiently mixed in the combustion chamber, and the thermal energy of the liquid fuel can be sufficiently extracted. The substance activating device according to the eighth embodiment is not limited to liquid fuels such as gasoline and light oil,
For example, the invention can be applied to a gaseous fuel such as propane gas.

Ninth Embodiment Next, a case where the substance activating device of the present invention is applied to an exhaust gas purifying device for purifying exhaust gas of an engine will be described.

The exhaust gas of the engine contains hydrocarbons such as carbon monoxide and carbon dioxide. These hydrocarbons can be released into the atmosphere as water or carbon dioxide by complete combustion, but since such complete combustion is physically difficult, various exhaust gas purification devices such as catalyst devices are used. Must be used. Furthermore, the flow of exhaust gas discharged from the cylinder of the internal combustion engine is:
Due to the resistance of the catalyst device or the like, it cannot flow smoothly, and the back pressure increases, which hinders the output from increasing.

In order to solve such a problem, the substance activating device according to the ninth embodiment is provided with an exhaust gas discharged from a combustion engine and a radiation generating device for generating radiation for irradiating the exhaust gas. A structure is provided in which an exhaust gas purifying device made of a conductive metal is interposed as a metal layer between the device and the means.

That is, when the substance activating device according to the ninth embodiment is used, the exhaust gas in contact with the metal surface of the exhaust gas purifying device is ionized, so that the purifying action of the exhaust gas is efficiently performed. In addition, since the exhaust gas can flow smoothly inside the exhaust gas purification device by being ionized, the exhaust gas flows smoothly and is discharged without being affected by the resistance of the catalyst device. further,
The ionized exhaust gas has an effect of preventing corrosion of the exhaust gas purification device.

Tenth Embodiment Next, a case where the substance activating device of the present invention is applied to a fluid flowing in a turbine will be described.

A rotary driving force is obtained by applying a working fluid such as water in the case of hydraulic power generation, steam in the case of thermal power generation, and oil or the like in the case of an automatic transmission of an automobile to turbine blades. However, the resistance generated on the turbine blades due to the contact with the fluid increases as the speed of the fluid increases, thereby reducing the ability to transfer energy from the fluid to the turbine blades.

In order to solve such a problem, the material activating device according to the tenth embodiment includes a working fluid flowing into a turbine and a radiation generating means for generating radiation for irradiating the working fluid. And a structure in which a turbine blade made of conductive metal or a casing accommodating the turbine blade therein is interposed as a metal layer. Specifically, the radiation generating means is built in a hollow space formed inside the moving blade or the stationary blade constituting the turbine.

That is, when the material activating device according to the tenth embodiment is used, the working fluid flowing into the turbine is ionized at the moment when the working fluid comes into contact with the moving blade or the stationary blade of the turbine.
Since a laminar flow is formed on the surfaces of the moving blades or the stationary blades and flows smoothly between the turbine blades, the resistance generated on the turbine blades is reduced, and the rotational driving force can be obtained with high efficiency. .

Eleventh Embodiment Next, a case where the substance activating device of the present invention is applied to a plain bearing will be described.

Oil-lubricated slide bearings are classified into a dynamic pressure type and a static pressure type. In a dynamic pressure type slide bearing, pressure is applied to a lubricating fluid film interposed in the bearing clearance due to relative sliding motion between the shaft and the bearing. This is a type of bearing that generates (dynamic pressure) and tries to support a load with this pressure. However, in this dynamic pressure type slide bearing, the higher the rotation speed of the shaft, the greater the dynamic pressure, so that the bearing resistance increases and eventually a micro-vibration occurs.

Therefore, in order to solve such a problem, the substance activating device according to the eleventh embodiment generates lubricating oil interposed in the bearing gap of the plain bearing and generates radiation for irradiating the lubricating oil. It has a structure in which a sliding bearing body or a rotating shaft made of a conductive metal is interposed as a metal layer between the radiation generating means. Specifically, the radiation generating means is built in a bearing main body forming a sliding bearing or a hollow space formed in a rotating shaft.

That is, when the substance activating device of the eleventh embodiment is used, the lubricating oil interposed in the bearing gap is ionized and adheres to the rotating shaft and the metal surface of the bearing as a film of the ionized lubricating oil. The oil flows smoothly, so that not only the bearing resistance during high rotation can be reduced, but also the occurrence of micro-vibration can be prevented. In addition, the metal surfaces of the rotating shaft and the bearing can be reliably lubricated even at a high rotation, so that the wear of the sliding bearing can be reduced. The substance activating device according to the eleventh embodiment can be similarly applied to a transmission of an automobile or a gear of a differential.

Twelfth Embodiment Next, a case where the substance activating device of the present invention is applied to a cooling device such as an air conditioner will be described.

For example, a cooling device of an air conditioner or a refrigerator is configured to vaporize a refrigerant in an evaporator to take heat from air in a room or a refrigerator, compress the refrigerant with a condenser, and radiate heat to the outside through a radiator. Has become. Therefore, in order to improve the cooling performance of refrigerators and air conditioners, it is necessary to improve the heat exchange efficiency of the refrigerant in the evaporator.

In order to solve such a problem, the substance activating device according to the twelfth embodiment is provided between a refrigerant used for a cooling device and radiation generating means for generating radiation for irradiating the refrigerant. And a structure in which an evaporator made of a conductive metal or a pipe through which a refrigerant flows is interposed as a metal layer.

That is, when the substance activating device of the twelfth embodiment is used, the refrigerant in the evaporator is ionized and the film of the ionized refrigerant adheres to the metal inner wall surface of the evaporator. Can greatly improve the heat exchange efficiency between them.

Thirteenth Embodiment Next, a case where the substance activating device of the present invention is applied to cleaning water will be described.

For example, in general households and the like, tap water is used as a solvent for a detergent for washing dishes and the like. However, hot water must be used to increase the washing power, and the utility cost is high. is there.

In order to solve such a problem, the substance activating device according to the thirteenth embodiment is provided with a conductive material between cleaning water and radiation generating means for generating radiation for irradiating the cleaning water. It has a structure in which a cleaning water storage container made of a conductive metal or a pipe through which cleaning water flows is interposed as a metal layer.

That is, when the substance activating device of the thirteenth embodiment is used, tap water used as washing water can be ionized efficiently. Further, in the ionized tap water, the surfactant of the detergent exhibits an effective action even at room temperature, so that the ability to wash dishes, laundry and the like can be greatly improved. Further, the ionized tap water has an effect of preventing corrosion inside the water pipe.

Fourteenth Embodiment Next, a case where the substance activating device of the present invention is applied to the bottom of a ship will be described.

The bottom surface of a ship must periodically remove phytoplankton, shellfish, and other deposits in order to reduce frictional resistance during navigation, but such removal requires a great deal of labor. I do.

In order to solve such a problem, the substance activating device according to the fourteenth embodiment has a structure in which a conductive material is provided between water floating on a ship and radiation generating means for generating radiation for irradiating the water. It has a structure in which a ship bottom made of a conductive metal is interposed as a metal layer.

That is, when the substance activating device of the fourteenth embodiment is used, a film of ionized water is formed on the bottom surface of the ship, and the adhesive force of phytoplankton, shellfish and the like is weakened.
This makes it possible to easily remove phytoplankton, shellfish, and the like attached to the bottom of the ship by the water pressure generated when the ship sails. Further, since the ionized water film adheres to the bottom surface of the ship, the frictional resistance of the water received by the ship during navigation can be reduced.

Fifteenth Embodiment Next, a case where the substance activating device of the present invention is applied to an aircraft will be described.

At the front end of the main wing of the aircraft, an anti-icing device using an electric heater, hot air or the like is provided to prevent moisture in the air from freezing and adhering. However, when a high-lift device such as a leading-edge slat that increases lift during takeoff and landing is provided at the leading edge of the main wing, it is difficult to provide electric wiring for an electric heater and hot air supply piping.

Therefore, in order to solve such a problem, the substance activating device according to the fifteenth embodiment includes ice attached to the main wing surface of an aircraft, and radiation generating means for generating radiation for irradiating the ice. And a structure in which a main wing surface plate made of a conductive metal is interposed as a metal layer.

That is, when the substance activating device according to the fifteenth embodiment is used, the portion of the ice adhered to the leading edge of the wing of the aircraft which is in close contact with the wing surface is ionized and melted.
It easily falls off the wing surface due to wind pressure during flight. Further, since the substance activating device of the fifteenth embodiment does not require any equipment such as electric wiring and hot air piping, it can be easily mounted on the leading edge of the wing even when a high-lift device such as a leading edge slat is provided. be able to. Furthermore, the fifteenth book
Since the film of ionized air adheres to the surface of the main wing provided with the substance activation device of the embodiment, in addition to the effect of laminarizing the air flowing therethrough and reducing the air resistance, the adhesion of ice It also has the effect of preventing.

Sixteenth Embodiment Next, a case where the substance activating device of the present invention is applied to a plant will be described.

Plant growth requires water that contains nutrients in addition to sunlight and atmospheric carbon dioxide. To promote plant growth, the amount of water absorbed from plant roots is required. Need to be increased. However, in the prior art, the absorption amount can be increased to some extent by increasing the temperature of water.

In order to solve such a problem, the substance activating device according to the sixteenth embodiment comprises water containing nutrients to be supplied to plants and radiation generating means for generating radiation for irradiating the water. And a structure in which a conductive water supply container or a conduit through which supply water flows is provided as a metal layer.

That is, by using the substance activating device of the sixteenth embodiment, the water supplied to the plant and the nutrients contained therein can be ionized. The water and nutrients thus ionized are easily absorbed by the hair roots of the plant, so that the growth of the plant can be promoted. Nitrogen compounds required by plants are generated when bacteria and enzymes decompose humus.
When the ionized water is supplied by the substance activating device of the embodiment, the decomposition of the humus is promoted, and the generation of nitrogen compounds is increased. Thereby, the growth of plants can be greatly promoted by ionized water in which such nitrogen compounds are sufficiently dissolved.

Seventeenth Embodiment Next, a case where the substance activating device of the present invention is applied to a septic tank for treating sewage will be described.

For example, in a septic tank for treating human waste discharged from general households, aerobic bacteria oxidize and decompose organic substances while taking in oxygen in the air. Therefore, it is possible to efficiently treat human waste by growing such aerobic bacteria.

Therefore, in order to solve such a problem, the substance activating device according to the seventeenth embodiment uses air for aeration supplied to a septic tank for treating sewage and radiation for irradiating the air for aeration. It has a structure in which an aeration air supply pump made of a conductive metal or a pipe through which aeration air flows is provided as a metal layer between the aeration air supply pump made of the metal and the radiation generating means.

That is, when the substance activating device of the seventeenth embodiment is used, it is possible to supply ionized air into the septic tank, thereby activating the aerobic bacteria that decompose night soil and increasing the efficiency. Sewage can be treated.

Eighteenth Embodiment Next, a case where the substance activating device of the present invention is applied to a spray coating device will be described.

For example, when painting the body of an automobile,
In order to form a more uniform and high quality painted surface, it is necessary to reduce the particle size of the paint dispersed in the form of a mist. However, since the conventional spray coating apparatus has a structure in which the paint is dispersed in a mist state using the air as it is, it has been difficult to further reduce the particle size of the dispersed paint.

In order to solve such a problem, the substance activating device according to the eighteenth embodiment uses compressed air used for spraying and atomizing paint, and radiation for irradiating the compressed air. Between the radiation generating means to generate
It has a structure in which a compressed air supply pump made of a conductive metal or a pipe through which compressed air flows is interposed as a metal layer.

That is, when the substance activating device of the eighteenth embodiment is used, the paint is sprayed and atomized by using the ionized compressed air, so that the mixing of the air and the paint is promoted, and the paint to be atomized is sprayed. Can be made even smaller. Therefore, by using the spray coating apparatus to which the substance activating device of the eighteenth embodiment is applied, a more uniform and high quality coated surface can be formed.

Nineteenth Embodiment Next, a case where the substance activating device of the present invention is applied to an acoustic speaker will be described.

The acoustic speaker generates sound by vibrating air by electrically vibrating a speaker cone. At this time, since the conventional speaker vibrates the air around it as it is, various attempts have been made to change the material of the cone in order to produce a clearer sound.

In order to solve such a problem, the substance activating device according to the nineteenth embodiment is provided between the air around the speaker cone and the radiation generating means for generating radiation for irradiating the air. In addition, a conductive metal speaker support member or a conductive metal housing for accommodating the speaker is interposed as a metal layer.

That is, when the substance activating device according to the nineteenth embodiment is used, the air existing around the cone of the acoustic speaker is ionized, so that not only a clearer sound effect can be obtained, but also the cone speaker can be obtained. Deterioration can be prevented and excellent acoustic effects can be maintained over a long period of time.

Although the embodiments of the substance activating device according to the present invention have been described in detail above, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications are possible. For example, in the embodiment described above, the monazite powder is used as the radiation generating means, but other radiation generating substances can be used within the range permitted by law.

[0099]

As is apparent from the above description, the substance activating device of the present invention forms a conductive metal layer between a substance to be activated and radiation generating means for irradiating the substance with radiation. It is to intervene. Thereby, the radiation generated by the radiation generating means ionizes the substance to be activated, and at the same time, the electric charge generated during the ionization charges the conductive metal portion to generate an electric field and a magnetic field, and thus, The resulting electric and magnetic fields interact with the ionized material. Therefore, according to the substance activating device of the present invention, various substances can be efficiently activated, and excellent effects can be obtained.

[Brief description of the drawings]

FIG. 1 is a perspective view showing the structure of a substance activating device according to a first embodiment of the present invention.

FIG. 2 is a sectional view showing a state where the device shown in FIG. 1 is wound around a duct.

FIG. 3 is an enlarged sectional view showing a main part of FIG. 2;

FIG. 4 is a cross-sectional view showing a state where a substance activating device according to a second embodiment of the present invention is attached to an exhaust pipe.

FIG. 5 is a cross-sectional view showing a state where a substance activating device according to a third embodiment of the present invention is attached to a cylinder block.

FIG. 6 is a horizontal sectional view showing a state in which the substance activating device described in Japanese Patent Application Laid-Open No. 52-131024 is mounted inside a vaporizer of an automobile.

FIG. 7 is a longitudinal sectional view showing a state in which the substance activating device described in JP-A-53-16118 is installed inside an air cleaner of an automobile.

[Explanation of symbols]

 Reference Signs List 10 Material activation device according to first embodiment of the present invention 11 Radioactive material layer 12, 13 Conductive metal plate 14 Lead plate 15 Metal plate 16 Rivets 20 Material activation device 21 according to the second embodiment of the present invention 21, 22 Holding member 23 Radioactive material EP Exhaust pipe 30 Material activating device 31, 32 Holding member 33 of third embodiment according to the present invention 33 Radioactive material CB Cylinder block

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification code FI F02M 27/06 F02M 27/06 F16C 33/10 F16C 33/10 Z G21G 4/06 G21G 4/06 H04R 7/02 H04R 7 / JP-B-61-293463 (JP, A) JP-A-8-218956 (JP, A) JP-A-8-218955 (JP, A) JP-A-7-42635 (JP, A) JP-A-7-19128 (JP, A) JP-A-5-99084 (JP, A) JP-A-59-9965 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) G21H 5/00 A01G 7/00 F01N 3/08 F02M 27/04-27/06 G21G 4/06 A61N 5/10

Claims (22)

(57) [Claims] A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause radiation
A conductive metal layer is interposed between the line generating means and the layer.
In the substance activation method, The substance to be activated is combustion air, and
The combustion air flows through the conductive metal layer.
A method for activating a substance, comprising an intake pipe. 2. A substance to be activated and the substance to be activated.
Radiation that irradiates the substance to cause radiation
A conductive metal layer is interposed between the line generating means and the layer.
In the substance activation method, The substance to be activated is a combustion exhaust gas, and
The combustion exhaust gas flows through the conductive metal layer.
A substance activating method, characterized in that the exhaust pipe is an exhaust pipe. 3. The substance to be activated and the substance to be activated.
Radiation that irradiates the substance to cause radiation
A conductive metal layer is interposed between the line generating means and the layer.
In the substance activation method, The substance to be activated was filled inside the vehicle tire
Air and the conductive metal layer
Wheels made of conductive metal with
The substance activation method to be characterized. 4. A substance to be activated and the substance to be activated.
Radiation that irradiates the substance to cause radiation
A conductive metal layer is interposed between the line generating means and the layer.
In the substance activation method, The substance to be activated is supplied to a shock absorber of a vehicle shock absorber.
A product sealed in a soap bar A fluid, and the conductive gold
A housing in which the working fluid is sealed inside
Or form an orifice through which the working fluid passes
A method for activating a substance, comprising a member. 5. The substance to be activated and the substance to be activated.
Radiation that irradiates the substance to cause radiation
A conductive metal layer is interposed between the line generating means and the layer.
In the substance activation method, Lubrication to lubricate the sliding parts of the machine with the activating substance
Oil and the conductive metal layer is coated with the lubricating oil.
Container or the lubricating oil
A method for activating a substance, characterized by using a flowing pipe. 6. A substance to be activated and the substance to be activated.
Radiation that irradiates the substance to cause radiation
A conductive metal layer is interposed between the line generating means and the layer.
In the substance activation method, Cooling the substance to be activated to cool the heat generating part of the machine
Liquid, and the conductive metal layer contains the cooling liquid.
And a pipe through which the cooling liquid flows.
A method for activating a substance, comprising: 7. The substance to be activated and the substance to be activated.
Radiation that irradiates the substance to cause radiation
A conductive metal layer is interposed between the line generating means and the layer.
In the substance activation method, A fluid fuel for supplying the activating substance to a combustion engine;
And the conductive metal layer contains the fluid fuel.
Container or conduit through which the fluid fuel flows
A method for activating a substance, comprising: 8. A substance to be activated and the substance to be activated.
Radiation that irradiates the substance to cause radiation
A conductive metal layer is interposed between the line generating means and the layer.
In the substance activation method, Exhaust gas discharged from a combustion engine with the substance to be activated
And the conductive The exhaust gas cleans the conductive metal layer.
Exhaust gas purifier that flows through the interior of the vehicle
Substance activation method. 9. The substance to be activated and the substance to be activated.
Radiation that irradiates the substance to cause radiation
A conductive metal layer is interposed between the line generating means and the layer.
In the substance activation method, The activator flows into the turbine and
A working fluid for driving a bottle, and the conductive metal layer
The turbine blades of the turbine or their turbines.
It is characterized by a casing that stores the wings inside
Substance activation method. 10. A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause
A layer of conductive metal is interposed between the layer of radiation generating means and
Substance activation method, The activating substance is interposed in the bearing gap of the plain bearing.
Lubricating oil, and the conductive metal layer
The bearing body that forms the bearing or the plain bearing
Material activation characterized by a rotating shaft supported by
Method. 11. A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause
A layer of conductive metal is interposed between the layer of radiation generating means and
Substance activation method, The substance to be activated is a refrigerant used in a cooling device,
Through the conductive metal layer, through which the refrigerant flows
An evaporator in which a pipe or the refrigerant evaporates
A method for activating a substance, comprising: 12. A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause
A layer of conductive metal is interposed between the layer of radiation generating means and
Substance activation method, The substance to be activated is washing water, and the conductive
Wash the metal layer with the washing water Container containing the above or the washing
A substance characterized by a conduit through which water flows
Activation method. 13. A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause
A layer of conductive metal is interposed between the layer of radiation generating means and
Substance activation method, The substance to be activated is water in which a ship floats, and
The conductive metal layer is formed of a conductive metal forming the ship.
A method for activating a substance, characterized in that it is a ship bottom. 14. A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause
A layer of conductive metal is interposed between the layer of radiation generating means and
Substance activation method, Ice adhering to the wing surface of the aircraft
And the conductive metal layer of the main wing of the aircraft
Material activity characterized by a surface plate forming the surface
Method. 15. A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause
A layer of conductive metal is interposed between the layer of radiation generating means and
Substance activation method, Said activator is water to be supplied to the plant, and
A container containing water for supplying the conductive metal layer to the plant
Or a pipe through which water to be supplied to the plant flows.
A method for activating a substance, comprising: 16. A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause
A layer of conductive metal is interposed between the layer of radiation generating means and
Substance activation method, Supplying the substance to be activated into a septic tank for treating sewage
Air for aeration, and the conductive gold
Through the metal layer, the aeration air flowing through it
Piping or a pump for supplying air for aeration
To do Characteristic substance activation method. 17. A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause
A layer of conductive metal is interposed between the layer of radiation generating means and
Substance activation method, In order to atomize the substance to be activated by spraying paint
And the conductive metal layer is
The pipe through which the compressed air flows or the compressed air
Substance activation characterized by a pump for supplying air
Method. 18. A substance to be activated and the substance to be activated
Radiation that irradiates the substance to cause
A layer of conductive metal is interposed between the layer of radiation generating means and
Substance activation method, The material to be activated is air around the diaphragm of the speaker.
And the conductive metal layer supports the speaker.
Supporting member or housing for accommodating the speaker
A method for activating a substance, comprising: 19. Radiation for irradiating a substance to be activated is emitted.
A layer of radiation generating means to generate
The radiation generating means layer and the active
A conductive metal layer interposed between the material and the
In the substance activation device provided, The layer of conductive metal provides a flow through which the substance flows.
Material activation device characterized by side walls forming a path
Place. 20. The method according to claim 19, wherein the radiation generating means has a layer on the side wall.
Attached to the radiation generating means layer on the side wall
The holding member for holding is provided.
The substance activating device according to claim 1. 21. The holding member is made of a conductive metal.
21. The substance activating device according to claim 20, wherein
Place. 22. Radiation for irradiating a substance to be activated is emitted.
A layer of radiation generating means to generate
The radiation generating means layer and the active
A conductive metal layer interposed between the material and the
A substance activation device comprising: The substance to be activated wraps around the conduit through which it flows
A conductive metal plate that can be attached; Generating radiation to irradiate the substance, the conductive
A layer of radiation generating means laminated on one side of the metal plate;
Prepared, The conductive metal plate is wrapped around the conduit.
A conductive property between the substance and the layer of the radiation generating means.
A substance activation device for forming a metal layer.