CN113368398A

CN113368398A - Health restoration system based on same-frequency resonance

Info

Publication number: CN113368398A
Application number: CN202011316543.6A
Authority: CN
Inventors: 叶颂公; 林晓萍
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-20
Filing date: 2020-11-20
Publication date: 2021-09-10

Abstract

The invention discloses a health restoration system based on same frequency resonance, which comprises: the emitter is used for emitting electromagnetic waves of preset signal data to the head of a human body; the receiver is used for receiving signal data returned by the human head; the repairing instrument is used for generating a resonance frequency wave based on the signal data, comparing the generated resonance frequency wave with a standard resonance frequency wave, and adjusting the transmitted signal data of the electromagnetic wave if the waveform data of the resonance frequency wave is inconsistent with the waveform data of the standard resonance frequency wave; otherwise, the control transmitter finishes transmitting the electromagnetic wave. The health repair system helps to repair diseased cells based on the principle of same-frequency resonance, thereby helping the human body to recover health. The invention can be widely applied to the technical field of health care.

Description

Health restoration system based on same-frequency resonance

Technical Field

The invention relates to the technical field of big health, in particular to a health restoration system based on same-frequency resonance.

Background

With the development of modern information technology and microcircuitry, sensors can detect weak signal fluctuations, which are screened from the average statistical noise characteristics of magnetic fields, and the information of these organs and tissues is converted into digital sequences for analysis. Scientists have demonstrated that: the vibration frequency of human organs is between 1.8Hz-8.2Hz, and the cell vibration information of each tissue organ in the human body can be reflected in the brainstem. Therefore, the sensor is arranged on the head of the human body to receive the electromagnetic waves returned by the head of the human body, and whether the human body tissues are healthy or not can be known by analyzing the waveform states of the electromagnetic waves with different frequencies. The resonance electromagnetic wave returned by the head of the human body when the health state of the human body tissue is normal is taken as a standard resonance frequency wave. If the human tissue is in an unhealthy state, the resonance electromagnetic wave returned by the human head is inconsistent with the standard resonance frequency wave.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art. Therefore, an object of the present invention is to provide a health repair system based on co-frequency resonance, which helps a human body repair diseased cells based on the principle of co-frequency resonance, thereby helping the human body recover health.

The technical scheme adopted by the invention is as follows:

in a first aspect, the present invention provides a health repair system based on co-frequency resonance, including: the emitter is used for emitting electromagnetic waves of preset signal data to the head of a human body; the receiver is used for receiving signal data returned by the human head; the repairing instrument is used for generating a resonance frequency wave based on the signal data, comparing the generated resonance frequency wave with a standard resonance frequency wave, and adjusting the transmitted signal data of the electromagnetic wave if the waveform data of the resonance frequency wave is inconsistent with the waveform data of the standard resonance frequency wave; otherwise, the control transmitter finishes transmitting the electromagnetic wave.

Further, the transmitter comprises a plurality of transmitting units, and the plurality of transmitting units are used for transmitting the electromagnetic waves to a plurality of target points of the head of the human body.

Further, the receiver comprises a plurality of acquisition units, and the acquisition units are used for acquiring a plurality of signal data of a plurality of preset acquisition points arranged on the head of the human body.

Further, the repairing instrument comprises a first calculating unit, a second calculating unit and a third calculating unit; the first calculation unit is used for generating the resonance frequency wave based on the plurality of signal data; the second calculating unit is used for calculating the difference value between the waveform data of the resonance frequency wave and the waveform data of the standard resonance frequency wave; the third calculating unit is used for calculating and obtaining the emission signal data of the electromagnetic wave based on the empirical value and the difference value.

Furthermore, each acquisition unit is provided with a positioning device, the acquisition units are arranged on the positioning devices, and the positioning devices are distributed on the head of the human body.

Further, the receiver is a net-shaped head band, and the acquisition unit and the positioning device are respectively arranged on the net-shaped head band.

Further, the preset signal data of the electromagnetic wave is different corresponding to different organ tissues of the human body to be repaired.

Further, the distribution positions of the plurality of target points are different corresponding to different organ tissues of the human body to be repaired.

Furthermore, the repairing instrument is provided with a display screen and a key, the display screen is used for displaying an operation interface and data in the working process, and the key is used for controlling different menu operations of the repairing instrument.

Further, the repair instrument is connected with the transmitter and the receiver in a wired or wireless mode.

The invention transmits electromagnetic waves with preset signal data to the head of a human body through a transmitter, receives signal data returned from the head of the human body through a receiver, generates resonance frequency waves based on the returned signal data through a repairing instrument, judges whether the generated resonance frequency waves are consistent with the waveform data of standard resonance frequency waves, adjusts the signal data of the transmitted electromagnetic waves if the generated resonance frequency waves are inconsistent with the waveform data of the standard resonance frequency waves, and continues to transmit the electromagnetic waves to the head of the human body; otherwise, the transmitter ends transmitting the electromagnetic wave. The health restoration system helps to restore the vibration state of the pathological cells to be restored to a normal state based on the same frequency resonance principle, thereby helping the human body to be restored to health.

In addition, the health restoration system adopts a multi-point emission and multi-point collection mode, so that resonance frequency waves generated by cells of a body are closer to standard resonance frequency waves, and the treatment effect is more accurate.

And thirdly, the receiver of the invention adopts a head band form, is suitable for wearing and is convenient for collecting resonance frequency wave signals.

In addition, the repairing instrument is adopted to control the transmitter to transmit electromagnetic waves and process signals collected by the receiver, so that the whole using process is operated automatically and is convenient to use manually.

The invention can be widely applied to the technical field of health care.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of a health restoration system based on co-frequency resonance according to the present invention;

fig. 2 is a schematic workflow diagram of the health remediation system of fig. 1.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a health restoration system based on co-frequency resonance according to an embodiment of the present invention. As shown in fig. 1, the health-care restoration system includes a transmitter 11, a receiver 12, and a restoration instrument 13.

And a transmitter 11 for transmitting an electromagnetic wave of preset signal data to the head of the human body. Wherein, the transmitter 11 comprises a plurality of transmitting units for transmitting the electromagnetic wave to a plurality of target points of the human head. The distribution positions of the plurality of target points are different according to different organ tissues of a human body to be repaired.

And the receiver 12 is used for receiving the signal data returned by the human head. Wherein, the receiver 12 comprises a plurality of collecting units for collecting signal data of a plurality of preset collecting points arranged on the head of the human body. Each acquisition unit is provided with a positioning device, the acquisition units are arranged on the positioning devices, and the positioning devices are distributed on the head of the human body. The receiver 12 is a net head band, and the collecting unit and the positioning device are respectively disposed on the net head band.

A repairing instrument 13 for generating a resonance frequency wave based on the signal data, comparing the generated resonance frequency wave with a standard resonance frequency wave, and adjusting the transmission signal data of the electromagnetic wave if the waveform data of the resonance frequency wave is not consistent with the waveform data of the standard resonance frequency wave; otherwise, the control transmitter 11 ends the transmission of the electromagnetic wave. The repairing instrument 13 includes a first calculating unit 131, a second calculating unit 132, and a third calculating unit 133; the first calculation unit 131 is configured to generate the resonance frequency wave based on a plurality of signal data received by the receiver 12; the second calculation unit 132 is configured to calculate a difference between the waveform data of the resonance frequency wave and the waveform data of the standard resonance frequency wave; the third calculation unit 133 is configured to calculate transmission signal data of the electromagnetic wave emitted from the transmitter 11 based on the empirical value and the difference.

The standard resonance frequency waves are preset and stored in the repairing instrument 13, and correspond to different human organ tissues, and the corresponding standard resonance frequency waves are different.

It is understood that the repairing instrument 13 may be a computer-like embedded electronic device, and is connected to the transmitter 11 and the receiver 12 in a wired or wireless manner, and the repairing instrument 13 may communicate with the transmitter 11 and the receiver 12 in a wired manner such as a serial port, a USB, an ethernet, etc., or may communicate in a wireless manner such as a wireless network, a bluetooth, etc., so as to control the transmission signal of the transmitter 11 and process the signal data received by the receiver 12. The repairing instrument 13 has a strong operation processing capability.

Optionally, the repairing instrument 13 is provided with an input device and an output device, such as a display screen and a key, the display screen is used for displaying an operation interface and data in a working process, the key is used for controlling different menu operations of the repairing instrument 13, for example, the key 1 is used for controlling the repairing human tissue (liver), and the key 2 is used for controlling the repairing human tissue (spleen).

Referring to fig. 2, fig. 2 is a schematic view of a working flow of the health restoration system of fig. 1. As shown in fig. 2, the workflow diagram includes the steps of:

s11: the emitter emits electromagnetic waves of preset signal data to the head of a human body;

in step S11, the predetermined signal data of the electromagnetic wave is different for different organ tissues of the human body to be repaired. That is, electromagnetic waves of different signal data are emitted to the head of the human body for different purposes of repair. For example, for the purpose of restoring the health of human tissues (liver), the frequency and intensity of electromagnetic waves emitted toward the head of a human body are different from those emitted toward the health of human tissues (spleen). It can be understood that the signal data of the electromagnetic waves corresponding to the different human tissues to be repaired can be preset in the repairing instrument, and the different electromagnetic waves can be emitted under the control of the repairing instrument.

In particular, in step S11, the electromagnetic wave is emitted to a plurality of target points on the head of the human body. The distribution positions of the plurality of target points are different according to different organ tissues of a human body to be repaired.

S12: the receiver receives signal data returned by the human head;

in step S12, the receiver acquires signal data of a plurality of preset acquisition points provided on the head of the human body. A plurality of positioning devices are arranged on the head of a human body, and a plurality of acquisition units are respectively arranged on the plurality of positioning devices. The plurality of positioning devices can be arranged on the reticular head band, and the head band is worn on the head of the human body, so that the signal data returned by the head of the human body can be collected.

S13: the repairing instrument generates a resonance frequency wave based on the signal data and judges whether the generated resonance frequency wave is consistent with the waveform data of the standard resonance frequency wave; if not, adjusting the emission signal data of the electromagnetic wave, and returning to execute the step S11; otherwise, go to step S14;

in step S13, if the generated resonance frequency wave does not coincide with the waveform data of the standard resonance frequency wave, the transmission signal data of the electromagnetic wave is adjusted, for example, the frequency or intensity of the transmission electromagnetic wave is adjusted; the execution returns to step S11. Otherwise, if the generated wave data of the resonance frequency wave is consistent with the wave data of the standard resonance frequency wave, the treated human tissue is indicated to reach the healthy state, and the treatment is ended.

Adjusting the transmission signal data of the electromagnetic wave in step S13 includes: calculating a difference between the waveform data of the resonance frequency wave and the waveform data of the standard resonance frequency wave, and calculating the transmission signal data of the electromagnetic wave based on the empirical value and the difference.

S14: the transmitter ends transmitting the electromagnetic wave.

In summary, in the health recovery system of this embodiment, the transmitter 11 transmits the electromagnetic wave of the preset signal data to the head of the human body, the receiver 12 receives the signal data returned from the head of the human body, the recovery instrument 13 generates the resonance frequency wave based on the signal data, and determines whether the generated resonance frequency wave is consistent with the waveform data of the standard resonance frequency wave, if not, adjusts the signal data of the transmitted electromagnetic wave, and continues to transmit the electromagnetic wave to the head of the human body; otherwise, the transmitter 11 ends the transmission of the electromagnetic wave. The health repair system of the embodiment helps repair diseased cells based on the principle of same-frequency resonance, thereby helping the human body to recover health.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A health remediation system based on co-frequency resonance, the health remediation system comprising:

the emitter is used for emitting electromagnetic waves of preset signal data to the head of a human body;

the receiver is used for receiving signal data returned by the human head;

the repairing instrument is used for generating a resonance frequency wave based on the signal data, comparing the generated resonance frequency wave with a standard resonance frequency wave, and adjusting the transmitted signal data of the electromagnetic wave if the waveform data of the resonance frequency wave is inconsistent with the waveform data of the standard resonance frequency wave; otherwise, the transmitter is controlled to finish transmitting the electromagnetic wave.

2. The health-care system as claimed in claim 1, wherein the transmitter includes a plurality of transmitting units for transmitting the electromagnetic waves to a plurality of target points of the human head.

3. The health maintenance system of claim 1, said receiver comprising a plurality of acquisition units for acquiring a plurality of signal data from a plurality of predetermined acquisition points disposed on the human head.

4. The health restoration system of claim 3, the restoration instrument comprising a first computing unit, a second computing unit, and a third computing unit;

the first calculation unit is configured to generate the resonance frequency wave based on the plurality of signal data;

the second calculation unit is configured to calculate a difference between the waveform data of the resonance frequency wave and the waveform data of the standard resonance frequency wave;

and the third calculating unit is used for calculating and obtaining the transmitting signal data of the electromagnetic wave based on an empirical value and the difference value.

5. The health-care system as claimed in claim 3, wherein each of said collection units is equipped with a positioning device, said collection units are disposed on said positioning device, and said positioning devices are disposed on the head of said human body.

6. The health-care system as claimed in claim 5, wherein said receiver is a net-shaped head band, and said collecting unit and said positioning device are respectively disposed on said net-shaped head band.

7. The health-care restoration system as set forth in claim 2, wherein the predetermined signal data of the electromagnetic wave is different for different organ tissues of the human body to be restored.

8. The health repair system of claim 2, wherein the distribution of the plurality of targets is different for different organ tissues of the human body.

9. The health restoration system according to any one of claims 1 to 8, wherein the restoration apparatus is provided with a display screen and keys, the display screen is used for displaying an operation interface and data in the working process, and the keys are used for controlling different menu operations of the restoration apparatus.

10. The health restoration system according to claim 9, wherein the restoration instrument is connected to the transmitter and the receiver by wire or wirelessly.