KR102255907B1 - A System for Controlling a Growth by a Characteristic Band Width of an Electro-Magnetic Wave and the Method for Controlling the Growth using the Same - Google Patents

Abstract

The present invention relates to a growth control system based on electromagnetic wave band characteristics and a growth control method thereof, and specifically, an electromagnetic wave band for controlling the growth of bacteria and viruses by radiating electromagnetic waves of at least two predetermined frequency bands to a target target. It relates to a growth control system by characteristics and a growth control method thereof. A growth control system based on electromagnetic wave band characteristics and a growth control method thereof include: a microbial database 20 storing information on a specific frequency group in which at least one microbe reacts to electromagnetic wave energy effective to a microbial target; A signal oscillator (G) for generating electromagnetic waves in at least one band based on the information transmitted from the microbial database 20; And a microcomputer (C) for controlling the operation of the signal oscillator (G). An output control device (OC) for adjusting the output strength of the electromagnetic wave generated from the signal oscillator (G); A filter (F) for passing or blocking a signal of a specific frequency band; A power amplifier (AMP) for amplifying the strength of the fundamental frequency generated by the signal oscillator (G); A protection circuit (PC) for automatically blocking the connection by detecting an excessive current or an abnormal current of an electromagnetic wave; An antenna unit (ANT) for receiving a frequency and emitting an electromagnetic wave to a target; And a shielding structure that determines the radiation range of electromagnetic waves.

Description

A System for Controlling a Growth by a Characteristic Band Width of an Electro-Magnetic Wave and the Method for Controlling the Growth using the Same}

The present invention relates to a growth control system based on electromagnetic wave band characteristics and a growth control method thereof, and specifically, an electromagnetic wave band for controlling the growth of bacteria and viruses by radiating electromagnetic waves of at least two predetermined frequency bands to a target target. It relates to a growth control system by characteristics and a growth control method thereof.

Various methods for removing by applying physical or chemical irritation to microorganisms or providing favorable conditions are provided in this field, and methods such as sterilization or disinfection may be applied, for example, for sterilization. Sterilization can be done on chemical or physical instruments, but can be done on structures such as buildings or barns. In addition, sterilization or quarantine may be performed on livestock or an area where livestock is reared. Sterilization or disinfection can be accomplished by various methods such as the use of high-temperature steam, electromagnetic waves or chemicals, but in the case of quarantine with a scale, a method of spraying sterilizing components is applied. Among various sterilization methods, sterilization by electromagnetic waves has the advantage of being easy to control or control because the treatment process is performed by electrical or mechanical methods while there are few side effects due to the sterilization treatment.

Patent Registration No. 10-0942781 discloses a method of sterilizing by high-frequency electromagnetic waves, and US 9,433,692 discloses a method of sterilizing by electromagnetic radiation without applying heat. In addition, US Patent Publication No. US 2013/0315785 discloses a method of sterilizing by microwave in a closed compartment.

The sterilization method by electromagnetic radiation proposed in the prior art has a disadvantage in that it is difficult to selectively apply to specific microorganisms because the frequency generation method is limited and non-discriminatory. However, the prior art does not disclose such a method.

Prior Art 1: Patent Registration No. 10-0942781 (February 18, 2010, Lee Sang-jin) Mobile specially equipped vehicle for eco-friendly treatment of killed or dead livestock carcasses Prior Art 2: US Patent Registration No. US 9,433,692 (Announcement on September 6, 2016 by Elwha LLC) Non-thermal Electromagnetic Sterilization Prior Art 3: US Patent Publication No. US 2013/0315785 (Maguffin Microwave LLC) Electromagnetic Wave Sterilization

An object of the present invention is to provide a growth control system and a growth control method thereof based on electromagnetic wave band characteristics.

According to an embodiment of the present invention, the growth control system based on electromagnetic wave band characteristics stores information on a specific frequency group in which at least one microorganism reacts to electromagnetic wave energy effective to a microorganism target, and exists or exists in various microorganism targets. Information about possible microorganisms, bacteria, viruses or bacteria is stored, and the information includes biological information about the target and each organ or cell of the microorganism, as well as information about the electromagnetic waves in the frequency and frequency bands that affect it. A microbial database to store; A signal oscillator (G) for generating an electromagnetic wave in at least one band based on the information transmitted from the microbial database; A microcomputer that controls the entire operation based on the information transmitted from the microbial database, and controls the operation of the signal oscillator (G) to generate a signal of a specific frequency band as a target; An output control device that adjusts an output intensity of the electromagnetic wave generated from the signal oscillator (G); A filter that passes or blocks a signal of a specific frequency band; A power amplifier amplifying the strength of the fundamental frequency generated by the signal oscillator G; A protection circuit that automatically cuts off a connection by detecting an excessive current or an abnormal current of an electromagnetic wave; An antenna unit for receiving a frequency and emitting an electromagnetic wave to a target; And a shielding structure that determines the radiation range of electromagnetic waves.

According to another embodiment of the present invention, a microbial database in which information on at least one microbe present in a target, which is an organism, is stored; An electromagnetic wave generation module for generating electromagnetic waves in at least one band based on the information transmitted from the microbial database; And a target module for receiving the electromagnetic wave transmitted from the electromagnetic wave generating module and emitting it to a target.

According to another embodiment of the present invention, electromagnetic waves of two different frequency bands are generated.

According to another embodiment of the present invention, the frequency band is a frequency at which at least one cell of the microorganism is resonant.

The growth control system according to the electromagnetic wave band characteristics according to the present invention emits a plurality of electromagnetic waves of specific frequencies to remove specific microorganisms or bacteria over the entire area, thereby enabling effective sterilization or quarantine. The growth control system according to the present invention has the advantage that sterilization is possible without affecting the environment, human body or livestock at all. The growth control method according to the electromagnetic wave band characteristics according to the present invention has the advantage of being easy to control by limiting the emission area while being sterilized by an electromagnetic method and minimizing side effects to external influences. In addition, the growth control system according to the electromagnetic wave band characteristics according to the present invention allows sterilization or quarantine to be selectively performed for restrictive application to various types of microorganisms or bacteria.

1A, 1B, and 1C are block diagrams illustrating an embodiment of a structure of a growth control system based on electromagnetic wave band characteristics according to the present invention.
2 shows an embodiment of a control signal oscillator applied to the growth control system according to the present invention.
3A and 3B illustrate an embodiment to which the growth control system according to the present invention is applied, respectively.
Figure 4 shows an embodiment of the operating structure of the growth control system according to the present invention.
5 shows an embodiment of a growth control method according to the present invention.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments are for a clear understanding of the present invention, and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so if they are not necessary for the understanding of the invention, they will not be described repeatedly, and well-known components will be briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiment of.

1A, 1B, and 1C are block diagrams illustrating an embodiment of a structure of a growth control system based on electromagnetic wave band characteristics according to the present invention.

1A, 1B, and 1C, the growth control system based on electromagnetic wave band characteristics stores information on a specific frequency group in which at least one microorganism reacts to electromagnetic wave energy effective to a microorganism target, and is applied to various microorganism targets. Information on microorganisms, bacteria, viruses or bacteria that may or may be present is stored, and the information is applied to the biological information about the target and the respective organs or cells of the microorganism, as well as the electromagnetic waves in the frequency and frequency bands affecting it. A microbial database 20 that includes information and stores it; A signal oscillator (G) for generating electromagnetic waves in at least one band based on the information transmitted from the microbial database 20; A microcomputer (C) that controls the entire operation based on the information transmitted from the microbial database (20), and controls the operation of the signal oscillator (G) to generate a signal of a specific frequency band as a target; An output control device (OC) for controlling an output intensity of the electromagnetic wave generated by the signal oscillator (G); A filter (F) for passing or blocking a signal of a specific frequency band; A power amplifier (AMP) for amplifying the intensity of the fundamental frequency generated by the signal oscillator (G); A protection circuit (PC) for automatically blocking the connection by detecting an excessive current or an abnormal current of an electromagnetic wave; An antenna unit (ANT) for receiving a frequency and emitting an electromagnetic wave to a target; And a shielding structure that determines the radiation range of electromagnetic waves.

In addition, the growth control system includes a microorganism database 20 in which information on at least one microorganism present in a target, which is an organism, is stored; An electromagnetic wave generating module 10 for generating electromagnetic waves in at least one band based on the information transmitted from the microbial database 20; And a target module 30 receiving the electromagnetic wave transmitted from the electromagnetic wave generating module 10 and emitting it to the target T.

The target (T) may be such as, but not limited to, a human, livestock, wild animal, plant, or contaminated area, and may be a microorganism, bacterium or bacterium parasitic, or any object present therein. In addition, the target (T) may be an organism such as a protein such as an enzyme, a fat, or a carbohydrate. In this way, the target (T) may be a microorganism, human tissue, cell, organism, or the like, which is affected or found to be affected by an electromagnetic wave of a specific frequency band, and the present invention is not limited by the type of the target (T). Does not.

Information about microorganisms, bacteria, viruses, or bacteria that may or may be present in various microbial targets may be stored in the microbial database 20, and the information may be It may include information on the frequency and electromagnetic waves in the frequency band that have an effect. Information on various targets, microorganisms, organs of microorganisms, or cells forming microorganisms, and information according to bands of various types of electromagnetic waves may be stored in the microorganism database 20.

In the present specification, microorganisms are used as a concept including bacteria, bacteria, viruses, or similar pathogens or bacteria that cause beneficial effects. The microorganism database 20 may be connected to a server that provides information on various microorganisms, and may be connected to the microcomputer C to provide a frequency band, output, exposure time, or similar information affecting the microorganism. Specifically, the information transmitted to the microbial database 20 may include biological information and environmental information. Environmental information such as a geographic location of a target, an electronic property of a structure, temperature, humidity, or a location of a target may be collected or detected by the environmental information module 31. In addition, microbial information related to the target may be collected or detected by the biological information module 32 and transmitted to the microbial database 20. Based on the information transmitted from the microorganism database 20, a frequency band that affects microorganisms present in the target may be searched and transmitted to the electromagnetic wave generating module 10, and the electromagnetic wave generating module 10 is, for example, a microcomputer ( C), a signal oscillator (G), a power amplifier (AMP) or an output control device (OC), such as may be included. The searched frequency may be transmitted to the signal oscillator G, and accordingly, the signal oscillator G may generate electromagnetic waves in at least one or more frequency bands, and the electromagnetic waves in the generated frequency bands are directed toward the target through an appropriate transmission means. Can be released.

In this way, a signal oscillator (G), a microcomputer (C), and an output control device (OC) may be disposed in order to be emitted so as to have a predetermined output condition toward a microorganism having a specific resonance frequency.

The signal oscillator G may generate an electromagnetic wave having a fundamental frequency. A microcomputer (C) and an output control device (OC) for instructing or controlling the operation of the signal oscillator (G) may be disposed. The micom C may search for a frequency band that affects microorganisms present in the target based on the information transmitted from the microbial database 20 and transmit it to the signal oscillator G. In addition, the microcomputer (C) allows a specific frequency of a predetermined band transmitted from the microbial database 20 to be emitted as a target. Under the control of the microcomputer (C), the output control device (OC) adjusts the frequency band generated by the signal oscillator (G).

The signal oscillator G may generate an electromagnetic wave of at least one frequency band, and the generated electromagnetic wave may be transmitted to the target module 30 and emitted toward the target T.

The growth control system according to the present invention may be made in various structures capable of generating electromagnetic waves affecting a specific microorganism to be targeted, and is not limited to the presented embodiments.

Referring to FIG. 1C, the growth control system may include a microorganism database 20 in which various microorganism information is stored, and a signal oscillator (G) while controlling the entire operation based on information transmitted from the microorganism database 20 It may include a microcomputer (C) to control the signal to generate a specific frequency band. The electromagnetic waves generated by the signal oscillator G under the control of the microcomputer C may be transmitted to the power amplifier AMP in a form in which the electromagnetic waves corresponding to the noise band or other signals have been removed by the filter F. The filter F may be a band pass filter for passing a signal of a predetermined frequency band, and the power amplifier AMP may amplify an electromagnetic wave according to a transmission distance and an output condition determined in the microbial database 20. Thereafter, the electromagnetic wave may be transmitted to the protection circuit PC, and the protection circuit PC may determine whether the transmitted electromagnetic wave has a predetermined condition. If the transmitted electromagnetic wave has an excessive current or an abnormal current, the protection circuit (PC) may cut off the connection to stop the emission of the electromagnetic wave. On the other hand, if the electromagnetic wave has a predetermined condition, it may be emitted to the target T through the antenna unit ANT. In this process, the output sensor PD may have a function of detecting the output of an electromagnetic wave and feeding back to the output control device OC, the power amplifier, or the protection circuit PC. Specifically, the output sensor PD can measure the output of the electromagnetic wave emitted by being installed in the path toward the antenna unit ANT where the electromagnetic wave of a specific frequency band passed through the power amplifier (AMP) or connected to the protection circuit (PC). have. When an overcurrent or abnormal current condition of an electromagnetic wave is detected according to the output measurement, such a condition may be transmitted to the protection circuit (PC). The protection circuit PC may automatically cut off the connection to the power amplifier AMP based on the transmitted signal.

2 shows an embodiment of a control signal oscillator applied to the growth control system according to the present invention.

Referring to FIG. 2, frequency band information of an electromagnetic wave to be generated from the microbial database module may be received by the frequency band information unit 11, and the frequency band may be at least one. The transmitted frequency band is received by the resonance frequency determination unit 121 to determine a resonance frequency capable of generating resonance inside the microorganism. When a frequency band affecting a microorganism, an organ inside the microorganism, or the surrounding environment of the microorganism is determined, a stimulation frequency capable of generating vibration in the corresponding frequency band may be determined. For example, vibration in the frequency band may be generated by the harmonic frequency band. Electromagnetic waves can destroy certain organs of microorganisms or induce activity. Or it can kill the cells by stopping the functioning of the organelles of the microorganisms. The frequency band transmitted in this way may destroy the microorganism or increase the activity of the microorganism, and the extinction or increase in activity may be determined according to the type of the microorganism.

The resonance frequency determination unit 121 may determine an effect on other body organs, animal organs, plants, or surrounding environments other than the target in the process of generating resonance by transmitting the transmitted frequency band to the target. When the resonance frequency for the frequency band to be generated and the effect on the target and the environment are determined, the power to be transmitted to the target by the power determination unit 122 may be determined. Thereafter, the determined resonance frequency and power may be transmitted to the electromagnetic wave generating unit 13 to generate an electromagnetic wave having a frequency band to be transmitted.

The electromagnetic wave generating unit 13 may generate electromagnetic waves having different frequencies and may include a transmission device. If necessary, the electromagnetic wave generating unit 13 may amplify the generated electromagnetic wave and transmit it to the target module via a relay module or directly. The transmission environment may be determined by the environment determining unit 14 for transmission to the relay module or the target module. The transmission environment may include the geographic location of the target or the surrounding environmental conditions. The environment determination unit 14 may determine an environment based on information detected by the environment detection unit 15. Subsequently, the generated electromagnetic wave may be transmitted to the target T through the target module by determining a transmission method by the transmission selection unit 16. The transmission selection unit 16 may determine a transmission path, a carrier frequency, a waveform, or a transmission structure of an electromagnetic wave similar thereto. The electromagnetic waves may be generated in various forms by the various electromagnetic generating units 13 and transmitted as targets, and are not limited to the presented embodiments.

3A and 3B illustrate another embodiment of a growth control system according to the present invention.

Referring to FIG. 3A, the growth control system includes an information detection module P31 for detecting or collecting various information related to microorganisms present in a target; A multi-frequency generation module (P32) for generating electromagnetic waves in a specific frequency band based on the detected information; A frequency spectrum module consisting of a plurality of signal generators (P331) for subdividing the electromagnetic waves generated from the multi-frequency generation module (P32) into several frequency bands, and a signal strength adjuster (P332) that controls the strength of the signal generated from the signal generator (P331). (P33); A frequency mixer P34 that combines frequencies of several bands generated through the signal generator P331; A power amplifier P35 that amplifies the combined electromagnetic waves; It may include an electromagnetic wave emission module P36 and an antenna module P37 for emitting electromagnetic waves to a target by sensing the output of the frequency amplified by the power amplifier P35.

The signal generator P331 generates an electromagnetic wave of a specific frequency band based on the information transmitted from the information detection module P31, and the multi-frequency generation module P32 limits the signal generator P331 corresponding to the multi-frequency generator. You can have it without this. Each signal generator P331 may have a signal strength adjuster P332 that adjusts the strength of each signal, and each signal whose strength is adjusted may be transmitted to the frequency mixer P34. Electromagnetic waves having various frequencies may be separated by a frequency spectrum module P33 into a range of frequencies, and may be separated by a signal generator P331 and a signal strength controller P332 through a control module. In order to determine the multi-frequency generation condition, a signal generator P331 and a signal strength adjuster P332 may be disposed inside the multi-frequency generation module P32. In this way, the multi-frequency generation module P32 and the frequency spectrum module P33 may be integrally formed or may be made in a separate structure, and the signal generator P331 is a number corresponding to the diversity of the frequency bands separated from the frequency spectrum. Can be placed as many times as possible. Resonant frequency information of the frequency band detected by the information detection module P31 may be transmitted to the multi-frequency generation module P32, and accordingly, electromagnetic waves corresponding to each frequency band are transmitted to the first signal generator, the second signal generator, and It may be generated by a third signal generator or other signal generators P331. Alternatively, electromagnetic waves having a plurality of bands may be generated by the multi-frequency generating module P32 and received by different signal generators P331, respectively. The output or size may be adjusted by the signal strength adjuster P332, respectively.

3B shows an embodiment of a target control module applied to the growth control system according to the present invention.

Referring to FIG. 3B, the target module 30 includes: a relay module 33 for receiving an electromagnetic wave transmitted from the electromagnetic wave generating module 10 or through a relay station; A direction detection unit 34 that detects the position of the target T and determines an emission direction of the electromagnetic wave; A period setting unit 35 for determining an emission period of the electromagnetic wave with respect to the target T; And an electromagnetic wave emission unit 36 that receives the electromagnetic wave and emits it to the target T through the antenna units 371 and 372.

The relay module 33 may amplify the received electromagnetic wave, separate the resonance frequency from the received electromagnetic wave, or make the received electromagnetic wave into a pulse form. It can also determine the output of electromagnetic waves. In order to determine an output condition, an internal detection unit 311 and an external detection unit 312 may be disposed on the target module 30, and an electromagnetic wave shielding unit 37 may be disposed on the target module 30. The internal environment can be detected by the internal detection unit 311, and the internal detection unit 311 can detect environmental conditions such as temperature or humidity, as well as reflectance of electromagnetic waves or absorption of walls according to the arrangement of the structure. have. In addition, external environmental conditions may be detected by the external detection unit 312. Information detected by the internal detection unit 311 and the external detection unit 312 may be transmitted to the relay module 33 to determine an output condition. At least one antenna unit 371 and 372 may be disposed, and different antenna units 371 and 372 may transmit electromagnetic waves of different frequencies. The directions of each of the antenna units 371 and 372 may be adjusted by the electromagnetic wave emission unit 36. The direction detection unit 34 may detect the relative position of each of the antenna units 371 and 372 and the target T. Further, the directions of the antenna units 371 and 372 may be adjusted by the electromagnetic wave emission unit 36 according to the information detected by the direction detection unit 34.

The detection of the position of the target T and the emission of electromagnetic waves accordingly may be performed in various ways, and are not limited to the presented embodiments.

Figure 4 shows an embodiment of the operating structure of the growth control system according to the present invention.

The growth control system may include a frequency database 223 that stores information about frequencies that affect target identification. Information about the target may be input into the frequency database 223, the microcomputer 21 may transmit the transmitted information to the target data unit 211, and target data having information about the target may be generated. For example, the generated target data may include information on microorganisms, at least one resonance frequency band for the identified microorganism, or information on the output of an electromagnetic wave having a corresponding frequency band. In addition, the target data may be verified.

Information on the target may be searched for by the microcomputer 21 or received from the microbial information data 221, and the microbe is determined based on the information on the microbe by the control index calculation unit 232 included in the output control device. The level of influence can be calculated.

The target environment search unit 231 may detect side effects that may occur in the environment or the target based on information on the resonance frequency band included in the target data. In addition, the detected effect may be transmitted to the environmental index generating unit 231a, displayed as an index value, and transmitted to the control data unit 24. Electromagnetic waves may be emitted to the target based on the control data generated in this way, and control data may be transmitted to the signal oscillator for this purpose.

The control data may be generated in various ways and is not limited to the presented embodiment.

5 shows an embodiment of a growth control method according to the present invention.

Referring to FIG. 5, the method of controlling the growth of microorganisms includes determining a target region in which a target to be exposed to electromagnetic waves is located (P51); Generating control data affecting the microorganisms present in the target (P52); Searching for an environmental condition for the target area (P53); Analyzing an environmental condition and determining an output for the electromagnetic wave based on the control data (P54); Disposing an output antenna for outputting the electromagnetic wave in the target area (P55); Emitting electromagnetic waves from the output antenna to the target area (P56); Determining whether it corresponds to a predetermined resonance condition (P57); And detecting a level of reflection from the target area.

The target region may be located adjacent to the electromagnetic wave generating module, or a target region that may be located at a distance may be an isolated region according to the type of microorganism. In addition, the target area may be shielded by an electromagnetic wave shielding means, but is not required. When the target area in which the target exists is determined (P51), control data may be generated (P52).

The control data may be created based on information on microorganisms found in the target area or environmental information on the target area. When the environmental conditions change during the control process by the emission of electromagnetic waves, the control data may be supplemented, and the environmental conditions for the target area may be periodically detected to generate and supplement the control data (P53). Further, the electromagnetic wave having at least one band may be generated in the electromagnetic wave generating module described above based on the control data, and an output of the electromagnetic wave to the target may be determined (P54).

Depending on the structure of the target area, various types of output antennas may be disposed (P55), and as the electromagnetic wave is emitted to the target, it may be detected by the detection unit whether or not the electromagnetic wave is emitted under conditions determined by the target located in the target area. (P56). If the predetermined condition range is not reached (NO), the output condition may be set again (P54). On the other hand, if it is within the condition range (YES), the level of reflection of the electromagnetic wave can be detected (P58). As described above, appropriate shielding means may be arranged depending on the level of reflection in the target area, but this is not required.

In the growth control system according to the electromagnetic wave band characteristics according to the present invention, one or more frequencies are combined to generate resonance in various enzymes inside the microorganism, for example, so that the microorganism can be controlled. The growth control system of the present invention can be usefully applied to prevent diseases of various targets such as mammals, birds, plants, fruits, insects, and arthropods susceptible to diseases caused by targets. Targets can be, for example, parts of multicellular organisms that can be treated, organs such as the body, limbs, kidneys, spleen, liver, pancreas, heart, lungs, gastrointestinal organs, cornea, bone, bone marrow, blood, cartilage and May contain the same organization. For example, if the electromagnetic energy of a selected level at the selected frequency is transmitted to the substance causing the disease, viruses, bacteria, parasites, other infectious pathogens, and cancer cell tissues are controlled to be destroyed by the electromagnetic energy at each resonance frequency. Can be. This method has the advantage that other normal cells and tissues are not affected while one frequency destroys a target such as an onset factor due to the difference in the range of the intrinsic resonance for each individual. Control of the target may include structural disruption such as lysis, rupture, rupture, and inactivation of cells. In addition, targeted control may include inhibition of survival effects such as growth, reproduction, metabolism, and invasion.

The system according to the present invention makes it possible to simultaneously control various targets by emitting electromagnetic waves having a plurality of resonant frequency bands to the target. Additionally, the control system according to the present invention can be applied to an organ or tissue transplant process, and can be applied to an agricultural field. For example, virus-infected plants, fruits, and vegetables can be sterilized by electromagnetic waves having a controlled frequency band.

The present invention has been described in detail above with reference to the presented embodiments, but those of ordinary skill in this field will be able to make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. . The present invention is not limited by such modifications and modifications, but is limited by the claims appended below.

10: electromagnetic wave generation module 11: frequency band information unit
13: electromagnetic wave generating unit 14: environmental determination unit
15: environment detection unit 16: transmission selection unit
20: microbial database 21: micom
24: control data unit 30: target module
31: environmental information module 32: biological information module
33: relay module 34: direction detection unit
35: period setting unit 36: electromagnetic wave emission unit
37: electromagnetic wave shielding unit 121: resonance frequency determining unit
122: power determination unit 211: target data unit
221: microbial information data 223: frequency database
231: target environment search unit 231a: environment index generation unit
232: control index calculation unit 311: internal detection unit
312: external detection unit 371, 372: antenna unit
AMP: Power amplifier ANT: Antenna unit
C: Micom F: Filter
G: signal oscillator OC: output control device
P31: Information detection module P32: Multi-frequency generation module
P33: Frequency spectrum module P34: Frequency mixer
P35: Power amplifier P36: Electromagnetic emission module
P37: antenna module P331: signal generator
P332: Signal strength regulator PC: protection circuit
PD: output sensor T: target

Claims (2)

Information on a specific frequency group in which at least one microorganism reacts to electromagnetic wave energy effective to a microorganism target is stored, information on microorganisms, bacteria, viruses or bacteria that exist or may exist in various microorganism targets is stored, the The information includes a microbial database 20 for storing the information on the electromagnetic wave of the frequency and frequency band affecting the biological information on the target and each organ or cell of the microbe;
A signal oscillator (G) for generating an electromagnetic wave in at least one band based on the information transmitted from the microbial database (20);
A microcomputer (C) that controls the entire operation based on the information transmitted from the microbial database (20), and controls the operation of the signal oscillator (G) to generate a signal of a specific frequency band as a target;
An output control device (OC) for controlling an output intensity of the electromagnetic wave generated from the signal oscillator (G);
A filter (F) for passing or blocking a signal of a specific frequency band;
A power amplifier (AMP) for amplifying the intensity of the fundamental frequency generated by the signal oscillator (G);
A protection circuit (PC) for automatically disconnecting the connection by detecting an excessive current or an abnormal current of an electromagnetic wave in a specific frequency band that has passed through the power amplifier;
An antenna unit (ANT) for receiving a frequency and emitting electromagnetic waves to a target; And
Includes a shielding structure that determines the radiation range of electromagnetic waves,
The frequency band is a frequency at which at least one cell of the microorganism is resonant,
Further comprising an environmental information module 31 for collecting environmental information including electronic characteristics, temperature, humidity, and location of the target of the structure in which the target is located, and the environmental information is included in the information transmitted to the microbial database 20 Growth control system based on electromagnetic wave band characteristics.
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