CN113713265A - Power frequency electromagnetic field generating device with tumor inhibition effect and loading mode - Google Patents

Abstract

The invention discloses a power frequency electromagnetic field generating device with tumor inhibition effect and a loading mode, wherein the device comprises: the first acquisition module is used for acquiring a first vibration frequency of a tumor suffered in the body of a target patient; the power frequency power supply module is used for determining a second frequency of the electric energy corresponding to the first vibration frequency according to the preset relation and generating second frequency electric energy; the leading-in module is used for leading the second frequency electric energy into the interior of a preset irradiation workpiece; the first generation module is used for changing the voltage inside the preset irradiation workpiece to generate static and alternating electromagnetic fields. The static and alternating electromagnetic fields can effectively inhibit and adjust the vibration frequency of the cancerous organs in the human body by inhibiting and adjusting the tumor cells in the target patient body and the vibration, thereby avoiding further deterioration, effectively inhibiting the continuous expansion of the tumor cells, and combining chemotherapy, radiotherapy and surgical treatment to more securely treat the tumor of the target patient.

Description

Power frequency electromagnetic field generating device with tumor inhibition effect and loading mode

Technical Field

The invention relates to the technical field of medical systems, in particular to a power frequency electromagnetic field generating device with a tumor inhibition effect and a loading mode.

Background

Cancerous tumors are a significant disease that seriously threatens human health and are currently the most serious public health challenge facing the world. The annual cancer death cases in China are hundreds of thousands of people, which seriously affect the health of the nation, and the existing cancer treatment methods are divided into first-line treatments such as operation, radiotherapy, chemotherapy and the like. Additional second-line treatments may include radio-vaccination, cryotherapy, hormonal or biological treatment, ablation, and the like. A combination of first line therapy and second line therapy may also be beneficial to the patient in cases where a particular therapy is not effective on its own. The disease is a state in which the entire system or its elements turn into incoherence oscillations, and these disturbances will spread to adjacent parts, eventually leading to a failure of the system. The first factor causing the oscillation imbalance is all bacteria, which essentially generate their own electromagnetic signals. Poor diet, environment and aging cause changes in the cellular chemical composition that disturb the electronic oscillation and harmony of the organism, the essence of cancer is that cancer cells transmit to neighboring cells using short wave signals, which "tune" neighboring cells to their own frequency to make the patient suffer from cancer, and at present, tumor treatment usually employs invasive surgical treatment and non-invasive chemoradiotherapy. Radiotherapy may be systemic or local. Chemotherapy is classified as targeted and non-targeted. For the cases resistant to chemoradiotherapy and without effective targeted drugs at present, a new treatment method, especially a noninvasive method with low toxic and side effects, needs to be discovered clinically, and the existing treatment method is only limited to drug treatment and has low inhibition effect on tumor cell development, so that the treatment effect is not optimistic and the life health of a patient is threatened.

Disclosure of Invention

Aiming at the problems shown above, the invention discloses a power frequency electromagnetic field generating device with a tumor inhibition effect and a loading mode, which are used for solving the problems that the existing treatment method mentioned in the background technology is only limited to drug treatment, the inhibition effect on the development of tumor cells is low, the treatment effect is not optimistic, and the life health of a patient is threatened.

A power frequency electromagnetic field generating device with tumor inhibition effect comprises:

the first acquisition module is used for acquiring a first vibration frequency of a tumor suffered in the body of a target patient;

the power frequency power supply module is used for determining a second frequency of the electric energy corresponding to the first vibration frequency according to the preset relation and generating second frequency electric energy;

the leading-in module is used for leading the second frequency electric energy into the interior of a preset irradiation workpiece;

the first generation module is used for changing the voltage inside the preset irradiation workpiece to generate static and alternating electromagnetic fields.

Preferably, the obtaining module includes:

the first generation submodule is used for generating a test electromagnetic wave according to the organ motion signal of the target patient;

a transmitting sub-module for transmitting the test electromagnetic wave into the body of a target patient;

the receiving submodule is used for receiving a plurality of feedback signals sent from the interior of the body of the target patient;

and the screening submodule is used for screening the tumor target feedback signals suffered by the body of the target patient from the plurality of feedback signals according to the specific information of each tumor cell in the database and acquiring a first vibration frequency of the feedback signals.

Preferably, the power frequency power supply module includes:

the first determining submodule is used for determining an adjusting factor corresponding to the first vibration frequency and a weight value of the adjusting factor;

the selection submodule is used for selecting a target incidence relation from a plurality of incidence relations as the preset relation according to the adjusting factor and the weight value of the adjusting factor;

the second determining submodule is used for determining a second frequency of the electric energy corresponding to the first vibration frequency according to the preset relation;

and the second generation submodule is used for determining whether the second frequency is within the electric energy preset frequency range of the power frequency power supply module, if so, generating the electric energy of the second frequency, and otherwise, sending out a prompt which cannot be generated.

Preferably, the first generating module includes:

the acquisition submodule is used for acquiring control parameters of a preset autotransformer arranged in the preset irradiation workpiece;

the binding submodule is used for binding the control parameters of the preset autotransformer with the control module;

the control submodule is used for controlling the preset autotransformer to periodically change the voltage of the second frequency electric energy according to the control parameter;

and the third generation submodule is used for generating the superposed static and alternating electromagnetic fields according to the voltage change condition of the second frequency electric energy.

Preferably, the apparatus further comprises:

the first detection module is used for detecting the current magnetic field intensity of the static and alternating electromagnetic fields;

the determining module is used for determining the maximum frequency and the minimum frequency of pulse signals generated by the static and alternating electromagnetic fields according to the current magnetic field strength;

an evaluation module for evaluating the target action duration of the static and alternating electromagnetic fields according to the maximum and minimum frequencies;

and the setting module is used for setting the treatment period of the target patient according to the target action duration of the static and alternating electromagnetic fields.

Preferably, the system further comprises:

the second detection module is used for detecting the current action duration of the static and alternating electromagnetic fields;

the calculating module is used for calculating the difference value between the current acting time length and the target acting time length;

the second generation module is used for confirming whether the difference value is within a preset range, and if so, generating an excitation signal and introducing the excitation signal into the static and alternating electromagnetic fields;

the second acquisition module is used for acquiring magnetic field intensity signals output by the static and alternating electromagnetic fields under the excitation of the excitation signals;

and the judging module is used for judging whether the static and alternating electromagnetic fields can completely carry out the treatment according to the magnetic field intensity signal, if so, subsequent operation is not needed, and if not, a warning prompt is sent.

Preferably, the screening submodule includes:

the confirming unit is used for confirming a scattering signal corresponding to each tumor cell in the target patient according to the specific information of the tumor cell;

the acquisition unit is used for acquiring the specific spatial position of the tumor suffered by the target patient in the body of the target patient;

the generating unit is used for confirming the feedback signals as reference signals and generating a signal scattering interval corresponding to each reference signal according to the specific space position of the tumor suffered by the target patient;

the matching unit is used for matching the scattering signal corresponding to each tumor cell in the target patient in the signal scattering interval corresponding to each reference signal so as to determine a target reference signal corresponding to the tumor suffered in the body of the target patient;

and the detection unit is used for confirming the target reference signal as the target feedback signal and detecting the first vibration frequency of the target feedback signal.

Preferably, the step of generating, by the generating unit, a signal scattering interval corresponding to each reference signal according to a specific spatial position of a tumor suffered by the target patient includes:

constructing a preset circular area by taking the specific space position of the tumor suffered by the target patient as an origin and taking the position of the origin and the nearest organ of the tumor suffered by the target patient as the radius;

envelope extraction is carried out on each reference signal based on the preset circular area, and signal scattering distribution of each reference signal at different positions in the preset circular area is determined according to an extraction result;

performing peak value screening on signal scattering distribution of each reference signal at different positions in the preset circular area to obtain a plurality of target positions of the reference signal in the preset circular area, wherein the target positions correspond to the peak values;

acquiring phase values of a plurality of target positions corresponding to each reference signal;

calculating the phase difference of two adjacent target positions in the plurality of target positions corresponding to each reference signal according to the phase values of the plurality of target positions corresponding to each reference signal;

selecting a first target position with the minimum phase difference from the phase differences calculated by each reference signal, and removing the rest second target positions;

and generating a signal scattering interval corresponding to each reference signal by taking the connecting line of the two first target positions corresponding to each reference signal as a diameter.

A loading mode suitable for the industrial frequency electromagnetic field generating device with tumor inhibition effect of claims 1-7, characterized by comprising the following steps:

acquiring and storing a first vibration frequency of a tumor suffered in the body of a target patient;

recording second frequency electric energy generated according to the first vibration frequency;

and loading static and alternating electromagnetic fields with different strengths according to the change of the direct current voltage and the change of the alternating current voltage inside the preset irradiation workpiece.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a schematic structural diagram of a power frequency electromagnetic field generating device with tumor suppression effect according to the present invention;

FIG. 2 is a schematic structural diagram of a first generation module in a power frequency electromagnetic field generating device with tumor suppression provided by the present invention;

FIG. 3 is another schematic structural diagram of a power frequency electromagnetic field generating device with tumor suppression function according to the present invention;

fig. 4 is a flowchart of a loading method according to the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

Cancerous tumors are a significant disease that seriously threatens human health and are currently the most serious public health challenge facing the world. The annual cancer death cases in China are hundreds of thousands of people, which seriously affect the health of the nation, and the existing cancer treatment methods are divided into first-line treatments such as operation, radiotherapy, chemotherapy and the like. Additional second-line treatments may include radio-vaccination, cryotherapy, hormonal or biological treatment, ablation, and the like. A combination of first line therapy and second line therapy may also be beneficial to the patient in cases where a particular therapy is not effective on its own. The disease is a state in which the entire system or its elements turn into incoherence oscillations, and these disturbances will spread to adjacent parts, eventually leading to a failure of the system. The first factor causing the oscillation imbalance is all bacteria, which essentially generate their own electromagnetic signals. Poor diet, environment and aging cause changes in the cellular chemical composition that disturb the electronic oscillation and harmony of the organism, the essence of cancer is that cancer cells transmit to neighboring cells using short wave signals, which "tune" neighboring cells to their own frequency to make the patient suffer from cancer, and at present, tumor treatment usually employs invasive surgical treatment and non-invasive chemoradiotherapy. Radiotherapy may be systemic or local. Chemotherapy is classified as targeted and non-targeted. For the cases resistant to chemoradiotherapy and without effective targeted drugs at present, a new treatment method, especially a noninvasive method with low toxic and side effects, needs to be discovered clinically, and the existing treatment method is only limited to drug treatment and has low inhibition effect on tumor cell development, so that the treatment effect is not optimistic and the life health of a patient is threatened. In order to solve the above problems, the present embodiment discloses a power frequency electromagnetic field generating device with tumor suppression effect.

An industrial frequency electromagnetic field generating device with tumor inhibition function, as shown in fig. 1, comprises:

a first obtaining module 101, configured to obtain a first vibration frequency of a tumor inside a body of a target patient;

the power frequency power supply module 102 is configured to determine a second frequency of the electric energy corresponding to the first vibration frequency according to a preset relationship and generate second frequency electric energy;

the leading-in module 103 is used for leading the second frequency electric energy into a preset irradiation workpiece;

the first generation module 104 is used for changing the voltage inside the preset irradiation workpiece to generate static and alternating electromagnetic fields.

The working principle of the technical scheme is as follows: the method comprises the steps of firstly, obtaining a first vibration frequency of a tumor suffered in the body of a target patient by using a first obtaining module, knowing a resonance frequency in the body of the user according to the first vibration frequency, further providing data support for the construction of a magnetic field, then determining a second frequency of electric energy corresponding to the first vibration frequency according to a preset relation through a power frequency power supply module and generating second-frequency electric energy, achieving stable power supply of the magnetic field and setting the first vibration frequency aiming at tumor cells to completely play a role in inhibiting, then introducing the second-frequency electric energy into a preset irradiation workpiece through an introducing module, and finally generating static and alternating electromagnetic fields to inhibit and regulate the tumor cells of the target patient through a first generating module according to the change of direct current and alternating current voltage in the preset irradiation workpiece.

The beneficial effects of the above technical scheme are: static and alternating electromagnetic fields corresponding to the vibration frequency of the tumor cells are constructed according to the principle that the tumor cells drive other organs of a human body to resonate to change the self frequency so as to generate canceration, so that the tumor cells in the body of a target patient are inhibited and the vibration of the cancerated organs in the body of the patient is effectively inhibited and adjusted, further deterioration is avoided, the continuous expansion of the tumor cells is effectively inhibited, the affected tumor of the target patient can be treated more assuredly by combining chemotherapy, radiotherapy and surgical treatment, and the problems that in the prior art, only the drug treatment is limited, the inhibition effect on the development of the tumor cells is low, the treatment effect is not optimistic, and the life health of the patient is threatened are solved.

In one embodiment, the obtaining module includes:

the first generation submodule is used for generating a test electromagnetic wave according to the organ motion signal of the target patient;

a transmitting sub-module for transmitting the test electromagnetic wave into the body of a target patient;

the receiving submodule is used for receiving a plurality of feedback signals sent from the interior of the body of the target patient;

and the screening submodule is used for screening the tumor target feedback signals suffered by the body of the target patient from the plurality of feedback signals according to the specific information of each tumor cell in the database and acquiring a first vibration frequency of the feedback signals.

The beneficial effects of the above technical scheme are: the feedback signals inside the body of the target patient can be effectively distinguished by acquiring a plurality of feedback signals inside the body of the target patient through the emission test electromagnetic waves and then screening the target feedback signals of the tumor suffered inside the body of the target patient, so that the interference of normal feedback signals of human organs is avoided, the accurate judgment of the feedback signals of tumor cells is ensured, and the working efficiency is improved.

In one embodiment, the power frequency power supply module includes:

the first determining submodule is used for determining an adjusting factor corresponding to the first vibration frequency and a weight value of the adjusting factor;

the selection submodule is used for selecting a target incidence relation from a plurality of incidence relations as the preset relation according to the adjusting factor and the weight value of the adjusting factor;

the second determining submodule is used for determining a second frequency of the electric energy corresponding to the first vibration frequency according to the preset relation;

and the second generation submodule is used for determining whether the second frequency is within the electric energy preset frequency range of the power frequency power supply module, if so, generating the electric energy of the second frequency, and otherwise, sending out a prompt which cannot be generated.

The beneficial effects of the above technical scheme are: the reasonable corresponding electric energy frequency can be selected according to different vibration frequencies of the tumor cells by selecting the preset relation according to the regulating factor corresponding to the first vibration frequency and the weight value thereof so as to construct a magnetic field to inhibit the development of the tumor cells, thereby further improving the inhibition effect of the tumor cells and ensuring the tumor treatment effect on a target patient.

In one embodiment, as shown in fig. 2, the first generating module includes:

the obtaining submodule 1041 is configured to obtain a control parameter of a preset autotransformer set inside the preset irradiation workpiece;

the binding submodule 1042 is used for binding the control parameter of the preset autotransformer with the control module;

the control submodule 1043 is configured to control the preset autotransformer to periodically change the voltage of the second frequency electric energy according to the control parameter;

the third generation submodule 1044 is configured to generate a superimposed static electromagnetic field and an alternating electromagnetic field according to a voltage change condition of the second frequency electric energy;

in this embodiment, the control module controls the preset autotransformer to periodically change the ac voltage and the dc voltage of the second frequency electric energy.

The beneficial effects of the above technical scheme are: the superposed static and alternating electromagnetic fields generated by changing the alternating voltage and the direct voltage inside the preset irradiation workpiece in real time can enable the intensity of the electromagnetic field to accord with the treatment standard, and simultaneously, the structural stability of the electromagnetic field is also ensured.

In one embodiment, as shown in fig. 3, the apparatus further comprises:

a first detection module 105 for detecting the present magnetic field strength of the static and alternating electromagnetic fields;

a determining module 106, configured to determine a maximum frequency and a minimum frequency of pulse signals generated by the static and alternating electromagnetic fields according to the current magnetic field strength;

an evaluation module 107 for evaluating the target action time of the static and alternating electromagnetic fields according to the maximum and minimum frequencies;

a setting module 108 for setting a treatment period of the target patient according to the target action durations of the static and alternating electromagnetic fields.

The beneficial effects of the above technical scheme are: the suppression effect of the static and alternating electromagnetic fields on the tumor cells can be maximally utilized by intelligently setting the treatment period of the target patient, so that the most reasonable utilization of the static and alternating electromagnetic fields is ensured, and the working efficiency is improved.

In one embodiment, the system further comprises:

the second detection module is used for detecting the current action duration of the static and alternating electromagnetic fields;

the calculating module is used for calculating the difference value between the current acting time length and the target acting time length;

the second generation module is used for confirming whether the difference value is within a preset range, and if so, generating an excitation signal and introducing the excitation signal into the static and alternating electromagnetic fields;

the second acquisition module is used for acquiring magnetic field intensity signals output by the static and alternating electromagnetic fields under the excitation of the excitation signals;

the judging module is used for judging whether the static and alternating electromagnetic fields can completely carry out the treatment according to the magnetic field intensity signal, if so, subsequent operation is not needed, and if not, a warning prompt is sent;

in the present embodiment, the current action period is smaller than the target action period.

The beneficial effects of the above technical scheme are: whether the treatment work of each period of the target patient can be completely carried out or not can be intelligently judged, so that the inhibition effect on the internal tumor cells of the target patient is strictly realized, and the treatment effect is improved.

In one embodiment, the screening submodule includes:

the confirming unit is used for confirming a scattering signal corresponding to each tumor cell in the target patient according to the specific information of the tumor cell;

the acquisition unit is used for acquiring the specific spatial position of the tumor suffered by the target patient in the body of the target patient;

the generating unit is used for confirming the feedback signals as reference signals and generating a signal scattering interval corresponding to each reference signal according to the specific space position of the tumor suffered by the target patient;

the matching unit is used for matching the scattering signal corresponding to each tumor cell in the target patient in the signal scattering interval corresponding to each reference signal so as to determine a target reference signal corresponding to the tumor suffered in the body of the target patient;

and the detection unit is used for confirming the target reference signal as the target feedback signal and detecting the first vibration frequency of the target feedback signal.

The beneficial effects of the above technical scheme are: the target feedback signal belonging to the tumor cell is determined in a mode of matching the scattering signal with the scattering interval, so that the target feedback signal emitted by the tumor cell can be accurately determined according to the scattering characteristic of the vibration frequency of the tumor cell, and the accuracy of a screening result is ensured.

In one embodiment, the step of generating the signal scattering interval corresponding to each reference signal according to the specific spatial position of the tumor of the target patient by the generating unit comprises:

constructing a preset circular area by taking the specific space position of the tumor suffered by the target patient as an origin and taking the position of the origin and the nearest organ of the tumor suffered by the target patient as the radius;

envelope extraction is carried out on each reference signal based on the preset circular area, and signal scattering distribution of each reference signal at different positions in the preset circular area is determined according to an extraction result;

performing peak value screening on signal scattering distribution of each reference signal at different positions in the preset circular area to obtain a plurality of target positions of the reference signal in the preset circular area, wherein the target positions correspond to the peak values;

acquiring phase values of a plurality of target positions corresponding to each reference signal;

calculating the phase difference of two adjacent target positions in the plurality of target positions corresponding to each reference signal according to the phase values of the plurality of target positions corresponding to each reference signal;

selecting a first target position with the minimum phase difference from the phase differences calculated by each reference signal, and removing the rest second target positions;

and generating a signal scattering interval corresponding to each reference signal by taking the connecting line of the two first target positions corresponding to each reference signal as a diameter.

The beneficial effects of the above technical scheme are: the corresponding signal scattering interval is constructed on the basis of the scattering parameter of each reference signal, so that the exclusive signal scattering interval can be generated for different reference signals, the signal intensity of the scattering signal of each reference signal in the human body is ensured, and a stable foundation is laid for the subsequent signal acquisition of tumor cells.

The embodiment further discloses a loading method, as shown in fig. 4, including the following steps:

s401, collecting and storing a first vibration frequency of a tumor suffered from in the body of a target patient;

step S402, recording second frequency electric energy generated according to the first vibration frequency;

and S403, loading static and alternating electromagnetic fields with different strengths according to the change of the direct current voltage and the change of the alternating current voltage inside the preset irradiation workpiece.

The working principle of the technical scheme is as follows: the method comprises the steps of collecting and storing a first vibration frequency of a tumor suffered in the body of a target patient, recording second frequency electric energy generated according to the first vibration frequency, and loading static and alternating electromagnetic fields with different strengths according to the change of direct current voltage and the change of alternating current voltage in a preset irradiation workpiece.

The beneficial effects of the above technical scheme are: the static and alternating electromagnetic fields generated by changing the direct-current voltage and the alternating-current voltage inside the preset irradiation workpiece can effectively inhibit the tumor cells inside the patient, avoid the serious canceration condition, improve the treatment effect, further, the magnetic field intensity of the static and alternating electromagnetic fields is controlled by changing the alternating-current voltage and the direct-current voltage, so that the vibration frequency of the tumor suffered by the patient can be effectively and reasonably adjusted, and the practicability is improved.

It will be understood by those skilled in the art that the first and second terms of the present invention refer to different stages of application.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (9)

1. A power frequency electromagnetic field generating device with tumor inhibition effect is characterized by comprising:

the first acquisition module is used for acquiring a first vibration frequency of a tumor suffered in the body of a target patient;

the power frequency power supply module is used for determining a second frequency of the electric energy corresponding to the first vibration frequency according to the preset relation and generating second frequency electric energy;

the leading-in module is used for leading the second frequency electric energy into the interior of a preset irradiation workpiece;

the first generation module is used for changing the voltage inside the preset irradiation workpiece to generate static and alternating electromagnetic fields.

2. The power frequency electromagnetic field generating device with tumor suppression function of claim 1, wherein the obtaining module comprises:

the first generation submodule is used for generating a test electromagnetic wave according to the organ motion signal of the target patient;

a transmitting sub-module for transmitting the test electromagnetic wave into the body of a target patient;

the receiving submodule is used for receiving a plurality of feedback signals sent from the interior of the body of the target patient;

and the screening submodule is used for screening the tumor target feedback signals suffered by the body of the target patient from the plurality of feedback signals according to the specific information of each tumor cell in the database and acquiring a first vibration frequency of the feedback signals.

3. The power frequency electromagnetic field generating device with tumor suppression function of claim 1, wherein said power frequency power supply module comprises:

the first determining submodule is used for determining an adjusting factor corresponding to the first vibration frequency and a weight value of the adjusting factor;

the selection submodule is used for selecting a target incidence relation from a plurality of incidence relations as the preset relation according to the adjusting factor and the weight value of the adjusting factor;

the second determining submodule is used for determining a second frequency of the electric energy corresponding to the first vibration frequency according to the preset relation;

and the second generation submodule is used for determining whether the second frequency is within the electric energy preset frequency range of the power frequency power supply module, if so, generating the electric energy of the second frequency, and otherwise, sending out a prompt which cannot be generated.

4. The power frequency electromagnetic field generating device with tumor suppression function of claim 1, wherein the first generating module comprises:

the acquisition submodule is used for acquiring control parameters of a preset autotransformer arranged in the preset irradiation workpiece;

the binding submodule is used for binding the control parameters of the preset autotransformer with the control module;

the control submodule is used for controlling the preset autotransformer to periodically change the voltage of the second frequency electric energy according to the control parameter;

and the third generation submodule is used for generating the superposed static and alternating electromagnetic fields according to the voltage change condition of the second frequency electric energy.

5. The power frequency electromagnetic field generating device with tumor suppression effect according to claim 1, further comprising:

the first detection module is used for detecting the current magnetic field intensity of the static and alternating electromagnetic fields;

the determining module is used for determining the maximum frequency and the minimum frequency of pulse signals generated by the static and alternating electromagnetic fields according to the current magnetic field strength;

an evaluation module for evaluating the target action duration of the static and alternating electromagnetic fields according to the maximum and minimum frequencies;

and the setting module is used for setting the treatment period of the target patient according to the target action duration of the static and alternating electromagnetic fields.

6. The power frequency electromagnetic field generating device with tumor suppression function of claim 5, wherein said system further comprises:

the second detection module is used for detecting the current action duration of the static and alternating electromagnetic fields;

the calculating module is used for calculating the difference value between the current acting time length and the target acting time length;

the second generation module is used for confirming whether the difference value is within a preset range, and if so, generating an excitation signal and introducing the excitation signal into the static and alternating electromagnetic fields;

the second acquisition module is used for acquiring magnetic field intensity signals output by the static and alternating electromagnetic fields under the excitation of the excitation signals;

and the judging module is used for judging whether the static and alternating electromagnetic fields can completely carry out the treatment according to the magnetic field intensity signal, if so, subsequent operation is not needed, and if not, a warning prompt is sent.

7. The power frequency electromagnetic field generating device with tumor suppression function of claim 2, wherein the screening submodule comprises:

the confirming unit is used for confirming a scattering signal corresponding to each tumor cell in the target patient according to the specific information of the tumor cell;

the acquisition unit is used for acquiring the specific spatial position of the tumor suffered by the target patient in the body of the target patient;

the generating unit is used for confirming the feedback signals as reference signals and generating a signal scattering interval corresponding to each reference signal according to the specific space position of the tumor suffered by the target patient;

the matching unit is used for matching the scattering signal corresponding to each tumor cell in the target patient in the signal scattering interval corresponding to each reference signal so as to determine a target reference signal corresponding to the tumor suffered in the body of the target patient;

and the detection unit is used for confirming the target reference signal as the target feedback signal and detecting the first vibration frequency of the target feedback signal.

8. The power frequency electromagnetic field generating device with tumor suppression function according to claim 7, wherein the step of generating the signal scattering interval corresponding to each reference signal according to the specific spatial position of the tumor of the target patient by the generating unit comprises:

constructing a preset circular area by taking the specific space position of the tumor suffered by the target patient as an origin and taking the position of the origin and the nearest organ of the tumor suffered by the target patient as the radius;

envelope extraction is carried out on each reference signal based on the preset circular area, and signal scattering distribution of each reference signal at different positions in the preset circular area is determined according to an extraction result;

performing peak value screening on signal scattering distribution of each reference signal at different positions in the preset circular area to obtain a plurality of target positions of the reference signal in the preset circular area, wherein the target positions correspond to the peak values;

acquiring phase values of a plurality of target positions corresponding to each reference signal;

calculating the phase difference of two adjacent target positions in the plurality of target positions corresponding to each reference signal according to the phase values of the plurality of target positions corresponding to each reference signal;

selecting a first target position with the minimum phase difference from the phase differences calculated by each reference signal, and removing the rest second target positions;

and generating a signal scattering interval corresponding to each reference signal by taking the connecting line of the two first target positions corresponding to each reference signal as a diameter.

9. A loading mode suitable for the industrial frequency electromagnetic field generating device with tumor inhibition effect according to claims 1-8, characterized by comprising the following steps:

acquiring and storing a first vibration frequency of a tumor suffered in the body of a target patient;

recording second frequency electric energy generated according to the first vibration frequency;

and loading static and alternating electromagnetic fields with different strengths according to the change of the direct current voltage and the change of the alternating current voltage inside the preset irradiation workpiece.

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