KR20210119816A - Water molecule fission heat generator - Google Patents

Abstract

The present invention relates to a water molecule fission heat generating apparatus. The water molecule fission heat generating apparatus of the present invention comprises: a housing having an accommodation space; an internal electrode installed in a receiving space of the housing; and an external electrode surrounding the outside of the internal electrode while maintaining a constant distance from the internal electrode. The internal electrode and the external electrode are made of a non-magnetic material which eliminates an influence of magnetism between the internal electrode and the external electrode. An object of the present invention is to provide the water molecule fission heat generating apparatus in which scaling and corrosion do not occur in the internal electrode and the external electrode.

Description

Water molecule fission heat generator

The present invention relates to a water molecule fission heat generating device.

The method of heating water at room temperature to have thermal energy is divided into a gas boiler using gas as a heat source, an electric boiler using electricity as a heat source, and an electrode boiler using a vibration current generated from an electrode by electricity supply as a heat source.

Among the heating methods of water, the electric boiler that heats water by supplying electricity is a heater method having a structure in which a heating element is installed to generate heat by the resistance of electricity supplied to a tank that stores a certain amount of water, and a + power line is connected. It is divided into an electrode method in which the water inside the tank is heated by the current caused by ion movement when the + and - electrodes are supplied with current by installing the electrodes and - electrodes in the tank while fixing each electrode with a predetermined gap.

As a prior art of such an electrode method, there is Korean Patent Registration No. 10-1668985.

However, in the case of the prior art, when current is applied to the inner electrode and the outer electrode, magnetism is generated between the inner electrode and the outer electrode, and various components in the water stick to the outer surface of the inner electrode and the inner surface of the outer electrode, causing scaling, and the inner electrode There is a problem in that the efficiency is lowered as time elapses due to the occurrence of corrosion on the external electrode and the external electrode.

In addition, due to scaling and corrosion phenomena, when electric current is applied to the inner and outer electrodes, rust falls off due to collision of water molecules, resulting in electrical resistance. There is a problem that the external electrode melts.

In addition, scaling generated on the outer surface of the inner electrode and the inner surface of the external electrode accumulates over time, and the outer surface of the inner electrode and the inner surface of the external electrode come into contact with each other due to the accumulated scaling, thereby generating an electric spark.

The problem to be solved by the present invention is to provide a water molecule fission heat generating device in which scaling and corrosion phenomena do not occur in the inner electrode and the outer electrode.

In order to solve the above technical problems, according to a preferred aspect of the present invention, there is provided a water molecule fission heat generating device, the housing is provided with an accommodating space; an internal electrode installed in the receiving space of the housing; and an external electrode surrounding the outside of the internal electrode while maintaining a constant distance from the internal electrode, wherein the internal electrode and the external electrode are made of a non-magnetic material that eliminates the effect of magnetism between the internal electrode and the external electrode It is possible to provide a water molecule fission heat generating device.

Here, the non-magnetic material may be any one of 300 series stainless steel, tungsten, and a coated metal, and the coated metal may be a metal coated with at least one of titanium and nickel.

In addition, a power supply unit for supplying AC power to cause the water molecule fission heat generating device to generate heat, and for supplying DC power to remove scaling generated on the outer surface of the inner electrode and the inner surface of the outer electrode; can do.

According to another preferred aspect of the present invention, there is provided a water molecule fission heat generating device, comprising: a housing provided with an accommodation space; an internal electrode installed in the receiving space of the housing; an external electrode surrounding the outside of the internal electrode while maintaining a constant distance from the internal electrode; an AC supply unit for supplying AC power so that the water molecule fission heat generating device generates heat; and a direct current supply unit for supplying direct current power to the outer surface of the inner electrode and the inner surface of the outer electrode to remove scaling.

Here, the power supply unit may supply AC power when generating heat to the water molecule fission heat generating device.

Here, the DC supply unit may supply DC power when the efficiency of the water molecule fission heat generator is lowered to a certain level or more.

According to the present invention, since scaling does not occur in the inner electrode and the outer electrode, the efficiency is maintained and an electric spark is not generated.

In addition, the present invention has the effect of obtaining a high temperature because the inner electrode and the outer electrode are not corroded.

1 is a block diagram of a water molecule fission heat generating device according to an embodiment of the present invention.
2 is a configuration diagram of a water molecule fission heat generating device according to another embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all modifications, equivalents or substitutes included in the spirit and scope of the present invention.

Terms including an ordinal number such as 1st, 2nd, etc. may be used to describe various components, but the components are not limited by these terms. These terms are used only for the purpose of distinguishing one component from another.

When a component is referred to as 'connected' or 'connected' to another component, it may be directly connected or connected to the other component, but other components may exist in between. It should be understood that there is On the other hand, when it is mentioned that a certain element is 'directly connected' or 'directly connected' to another element, it should be understood that the other element does not exist in the middle.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as 'comprise' or 'have' are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

1 is a block diagram of a water molecule fission heat generating device according to an embodiment of the present invention.

Referring to FIG. 1 , the water molecule fission heat generating device 100 includes a housing 110 , an internal electrode 120 , an external electrode 130 , a power supply unit 140 , a water supply pipe 150 , and a heat exhaust pipe 160 . includes

The housing 110 has a container shape with an internal space, and water supplied through the water supply pipe 150 is accommodated therein.

The internal electrode 120 is installed in the inner space of the housing 110 . Here, the internal electrode 120 may have a circular shape, an oval shape, an egg shape, or a rod shape.

The external electrode 130 is coupled to the internal electrode 120 in a structure surrounding the outside of the internal electrode 120 while maintaining a predetermined distance, and a plurality of grooves 131 are formed on the surface of the external electrode 130 . . Here, when the internal electrode 120 and the external electrode 130 have an elliptical or rod-shaped shape, a vortex phenomenon due to the generation of bubbles may be increased, and heat generation efficiency may be higher than that of other shapes.

When the water accommodated in the housing 110 through the groove 131 formed under the external electrode 130 fills the space between the internal electrode 120 and the external electrode 130, the internal electrode 120 and the external electrode ( Power is applied to 130 through the power supply unit 140 .

At this time, as the electrolysis of water is made in the space between the outer surface of the inner electrode 120 and the inner surface of the outer electrode 130 by the power applied through the power supply unit 140 , H ₂ , O ₂ , H ⁺ , O ^{2 -} Alternatively ^{, frictional force caused by colliding and pushing and pulling water molecules according to the ionization of water such as OH -} , sonorminescence phenomenon in which heat is generated in the process of generating and bursting microbubbles, and water molecule splitting due to collision between water molecules The gas and water accompanying the heat are generated, and the gas and water accompanying the generated heat are transferred to the heat exhaust pipe 160 through the groove 131 formed in the upper part of the external electrode 130, and the external electrode ( New water flows into the space between the inner electrode 120 and the outer electrode 130 through the groove 131 formed in the lower part of the 130 , and the process of splitting water molecules and generating heat is repeated. Here, the gas and water accompanying the heat discharged through the heat discharge pipe 160 may be provided as water vapor or heat accompanying a heat exchanger (not shown), that is, hot water.

The internal electrode 120 and the external electrode 130 are a non-magnetic material that eliminates the influence of magnetism between the internal electrode 120 and the external electrode 130, and the non-magnetic material is 300 series stainless steel, and the non-magnetic material is A magnetic substance is a substance that has no magnetism or has little magnetism.

When power is applied to the internal electrode 120 and the external electrode 130 through the power supply unit 140 and the process of splitting water molecules and generating heat is repeated, magnetism is generated in the internal electrode 120 and the external electrode 130 . As time elapses, scaling occurs in the internal electrode 120 and the external electrode 130, and the internal electrode 120 and the external electrode 130 are corroded, and the internal electrode 120 made of 300 series stainless steel. Since the external electrode 130 and the external electrode 130 are strong against corrosion without being magnetic, this can be prevented. This can be confirmed through [Table 1] below.

200 series stainless steel 400 series stainless steel 300 series stainless steel Scaling attachment point 3 hours elapsed 4.5 hours elapsed occurrence Degree of scaling relative to surface area
(After 24 hours of operation of the water molecule fission heat generator) Approx. 3.2% adhesion Approx. 2.6% adhesion no attachment Lifespan of water molecule fission heat generator (based on 12 hours a day operation) about 9 months about 12 months semi-permanent Uniqueness Not only scaling but also rust due to corrosion Not only scaling but also rust due to corrosion No corrosion

Referring to [Table 1], in the case of 200 series stainless steel, since the content of nickel and chromium is significantly lower than that of 300 series stainless steel, it has magnetism. In addition to being attached to the inner surface of the inner electrode 120 and the inner surface of the outer electrode 130, when the water molecule splitting heat generating device 100 continues to operate and use, as time elapses, the inner electrode 120 and the outer electrode 130 This corrosion phenomenon causes rust.

In addition, in the case of 400 series stainless steel, since there is less nickel content than 300 series stainless steel and has magnetism, scaling occurs after 4.5 hours of operating the water molecule splitting heat generating device 100 When the water molecule fission heat generating device 100 is continuously operated and used as well as being attached to the inner surface of the external electrode 130, the internal electrode 120 and the external electrode 130 are rusted due to corrosion over time.

However, in the case of 300 series stainless steel, since there is no magnetism, even if the water molecule fission heat generating device 100 is continuously operated, scaling does not occur and there is no corrosion phenomenon.

In addition, the internal electrode 120 and the external electrode 130 may be any one of tungsten and a coated metal as a non-magnetic material that eliminates the effect of magnetism between the internal electrode 120 and the external electrode 130 . The metal may be a metal coated with at least one of titanium and nickel. This is because the internal electrode 120 and the external electrode 130 of any one of tungsten and coated metal have a longer lifespan of the water molecule fission heat generating device 100 than the internal electrode 120 and external electrode 130 of other materials. Therefore, it can be confirmed through [Table 2] below.

division Lifespan of water molecule fission heat generator (based on 12 hours a day operation) tungsten semi-permanent Nickel (Coating) about 36 months titanium
(coating) About 24-36 months Dong, Hsinchu About 13 to 16 months copper about 6 to 7 months Remark about 1 month

Referring to [Table 2], the internal electrode 120 and the external electrode 130 of tungsten do not have scaling and corrosion because tungsten is not magnetic, so the lifespan of the water molecule fission heat generator (based on operation for 12 hours a day) is semi-permanent. am.

In addition, the inner electrode 120 and the outer electrode 130 of the metal coated with nickel are about 36 months, and the inner electrode 120 and the outer electrode 130 of the metal coated with titanium are about 24 to 36 months. It can be seen that the lifespan is longer.

The power supply unit 140 is installed outside the housing 110 , and applies power to the internal electrode 120 and the external electrode 130 . Here, when the internal electrode 120 and the external electrode 130 are made of 300 series stainless steel or tungsten, the power supply unit 140 applies AC power, and the internal electrode 120 and the external electrode 130 are made of nickel or titanium. In the case of the coated metal, since scaling may occur due to magnetism when the coating is peeled off, the power supply 140 supplies AC power to cause the water molecule fission heat generating device 100 to generate heat, and the water molecule fission heat When the efficiency of the generating device 100 is reduced, DC power may be supplied to remove scaling generated on the outer surface of the inner electrode 120 and the inner surface of the outer electrode 130 .

The water supply pipe 150 is connected to the lower portion of the housing, and supplies water to the inside of the housing 110 from the outside.

The heat exhaust pipe 160 is connected to the upper portion of the housing to discharge heat discharged from the groove 131 in the upper portion of the external electrode 130 to the outside.

2 is a configuration diagram of a water molecule fission heat generating device according to another embodiment of the present invention.

Referring to FIG. 2 , the water molecule fission heat generating device 200 includes a housing 210 , an internal electrode 220 , an external electrode 230 , a power supply unit 240 , a water supply pipe 250 , and a heat exhaust pipe 260 . includes

The housing 210 , the water supply pipe 250 , and the heat exhaust pipe 260 are the same as the water molecule fission heat generating device 100 of FIG. 1 , so a detailed description thereof will be omitted.

The internal electrode 220 and the external electrode 230 are the same as the internal electrode 120 and the external electrode 130 of FIG. 1, except for the 300 series stainless steel, but have a magnetic property such as 200 series, 400 series stainless steel, etc. It may be a material that is more resistant to corrosion.

The power supply unit 240 is installed outside the housing 210 and applies power to the internal electrode 220 and the external electrode 230 , and the power supply unit 240 includes a DC supply unit 241 and an AC supply unit 242 . include

The DC supply unit 241 supplies DC power to remove scaling generated on the outer surface of the inner electrode 220 and the inner surface of the outer electrode 230 .

,

The AC supply unit 242 supplies AC power to the internal electrode 220 and the external electrode 230 when heat is generated by the water molecule fission heat generator 200 .

The power supply unit 240 periodically supplies DC power having a high instantaneous output force and a pushing force to the internal electrode 220 and the external electrode 230 through the DC supply unit 241 for a short period of time to supply the internal electrode 220 . ) of the outer surface and the inner surface of the external electrode 230 to reduce the scaling. Here, the period in which the power supply unit 240 supplies DC power through the DC supply unit 241 is stored according to a user setting. When the time comes, it supplies DC power through the DC supply unit 241 or a sensor (not shown). When the efficiency of the water molecule fission heat generating device 200 measured through the flow decreases by more than a certain level, DC power can be supplied, and also, DC power can be supplied manually through the DC supply unit 241 while being used by a user.

In addition, the DC supply unit 241 is not included in the power supply unit 240 , and may be operated by being connected to an external power terminal (not shown) of the water molecule fission heat generator 200 in a portable form.

The output, operating time, etc. according to the shape of the DC supply unit 241 can be confirmed through [Table 3] below.

12V DC applied 54V DC applied form When the DC supply unit 241 is included in the power supply unit 240 . When the DC supply unit 241 is not included in the power supply unit 240 and is in a portable form operating time After 12 to 24 hours of operation of the water molecule fission heat generator After about 3 to 6 months of operation of the water molecule fission heat generating device DC supply
operating time 10 minutes 1 hours effect remove scaling remove scaling

Referring to [Table 3], when the DC supply unit 241 is included in the power supply unit 240, the DC supply unit 241 supplies a DC power of 12V inside the water molecule fission heat generator 200 after 12 to 24 hours of operation. Scaling generated on the outer surface of the inner electrode 220 and the inner surface of the outer electrode 230 may be removed by applying to the electrode 220 and the external electrode 230 for 10 minutes.

When the DC supply unit 241 is not included in the power supply unit 240 and is in a portable form, the DC supply unit 241 supplies a DC power of 54V to the internal electrode 220 after about 3 to 6 months of operation of the water molecule fission heat generating device 200 . ) and the external electrode 230 for 1 hour to remove scaling generated on the outer surface of the inner electrode 220 and the inner surface of the external electrode 230 .

At this time, if the operating time of the DC supply unit 241 is exceeded, the surface of the internal electrode 220 and the external electrode 230 may be damaged.

Although the embodiments according to the present invention have been described above, these are merely exemplary, and those of ordinary skill in the art to which the present invention pertains will understand that various modifications and equivalent ranges of embodiments are possible therefrom. . Therefore, the true technical protection scope of the present invention should be defined by the following claims.

110: housing 120: internal electrode
130: external electrode 140: power supply
150: water supply pipe 160: heat exhaust pipe

Claims (5)

In the water molecule fission heat generating device,
a housing having an accommodation space;
an internal electrode installed in the receiving space of the housing; and
An external electrode surrounding the outside of the internal electrode while maintaining a constant distance from the internal electrode;
The internal electrode and the external electrode are made of a non-magnetic material that eliminates the influence of magnetism between the internal electrode and the external electrode
Water molecule fission heat generating device, characterized in that.
According to claim 1,
The non-magnetic material is any one of 300 series stainless steel, tungsten, and a coated metal,
The coated metal is a metal coated with at least one of titanium and nickel
Water molecule fission heat generating device, characterized in that.
According to claim 1,
A power supply unit for supplying AC power to cause the water molecule fission heat generating device to generate heat, and for supplying DC power to remove scaling generated on the outer surface of the inner electrode and the inner surface of the outer electrode; further comprising
Water molecule fission heat generating device, characterized in that.
In the water molecule fission heat generating device,
a housing having an accommodation space;
an internal electrode installed in the receiving space of the housing;
an external electrode surrounding the outside of the internal electrode while maintaining a constant distance from the internal electrode;
an AC supply unit for supplying AC power so that the water molecule fission heat generating device generates heat; and
A direct current supply unit for supplying direct current power to the outer surface of the inner electrode and the inner surface of the outer electrode to remove scaling
Water molecule fission heat generating device, characterized in that.
5. The method of claim 4,
The direct current supply unit supplies direct current power when the efficiency of the water molecule fission heat generating device is lowered to a certain level or more
Water molecule fission heat generating device, characterized in that.

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