CN113546326A - Biological wave energy chip module - Google Patents

Abstract

The invention relates to a biological wave energy chip module, which comprises a signal transceiving unit, a signal receiving and transmitting unit and a signal processing unit, wherein the signal transceiving unit is used for receiving and transmitting signals; a chip connected to the signal transceiving unit, the chip further comprising: the demodulator is used for separating the human body biological electromagnetic waves from the signals received by the signal transceiving unit; the signal processing unit is used for detecting the human body biological electromagnetic wave signals to obtain frequency values of the biological electromagnetic wave signals, and comparing the frequency values with target waveband data to obtain sleep electromagnetic wave signals and microwave signals corresponding to brain wavebands of a human body during sleep; the modulator is used for receiving the sleep electromagnetic wave signal and the microwave signal, amplifying the signals and transmitting the signals to the signal receiving and transmitting unit so as to transmit and feed back the signals to a human body; and a packaging part for packaging the chip and the signal transceiving unit. The invention can feed the sleep electromagnetic wave signal back to the brain of a human body after amplification, and form same frequency resonance.

Description

Biological wave energy chip module

Technical Field

The invention relates to the technical field of chips, in particular to a biological wave energy chip module.

Background

With the continuous progress of society, the life rhythm of people is accelerated, and particularly, the people in large cities have fast life rhythm and high pressure, so that sleep disorder and sub-health conditions are more and more generated. Currently, in the field of health care, it is known to adjust the magnetic field of the human body and promote metabolism by using a bio-resonance wafer to achieve the purpose of improving the physical condition and promoting health. For example, patent CN205759139A discloses a bio-health chip, which can resonate with human body, has a concentrated resonance bandwidth, and has no radioactive damage. The biological health care wafer comprises a biological microelectronic chip, wherein the microelectronic chip comprises at least one microelectronic integrated circuit module, and the microelectronic integrated circuit module comprises an induction receiving coil, a micro information processing circuit, a cache, a crystal oscillator and a transmitting coil. The induction receiving coil, the cache, the crystal oscillator and the transmitting coil are electrically connected with the micro information processing circuit. The induction receiving coil is used for receiving biological waves emitted by human body cells and transmitting the biological waves to the cache memory through the micro information processing circuit, the crystal oscillator generates resonance according to the biological waves in the cache memory, so that wave fluctuation is amplified, the amplified resonance is transmitted to the transmitting coil through the micro information processing circuit, and the transmitting coil feeds back the resonance waves to the biological wave emitter. The bio-health wafer can alleviate various diseases, but does not mention improvement effective for sleep.

Therefore, a health chip device that can effectively improve sleep, promote the restoration of human body and promote health is needed.

Disclosure of Invention

In view of the above, the present invention provides a biological wave energy chip module.

In order to solve the technical problems, the invention adopts the following technical scheme:

a biological wave energy chip module, comprising:

the signal transceiving unit is used for receiving and transmitting signals;

a chip connected to the signal transceiving unit, the chip further comprising:

the demodulator is used for separating the human body biological electromagnetic waves from the signals received by the signal transceiving unit;

the signal processing unit is used for detecting the human body biological electromagnetic wave signals to obtain frequency values of the biological electromagnetic wave signals, and comparing the frequency values with target waveband data to obtain sleep electromagnetic wave signals corresponding to brain wavebands when a human body sleeps;

the modulator is used for receiving the sleep electromagnetic wave signal, amplifying the sleep electromagnetic wave signal and transmitting the sleep electromagnetic wave signal to the signal transceiving unit so as to transmit and feed back the signal to a human body; and

and the packaging component is used for packaging the chip and the signal transceiving unit.

Preferably, the signal transceiver is a transceiver antenna, and the transceiver is switched by the switch circuit.

Preferably, the signal received by the signal transceiver unit includes a human biological electromagnetic wave signal and an environmental electromagnetic wave signal.

Preferably, the signal processing unit further comprises a logic control unit and a memory,

the logic control unit is used for detecting the human body biological electromagnetic wave signals to obtain frequency values of the biological electromagnetic wave signals and comparing the frequency values with target waveband data;

the memory is used for storing the target waveband data, and the target waveband data is in a numerical range with the frequency of 1-7 HZ.

Preferably, the sleep electromagnetic wave signal includes a theta wave responsible for light sleep and a delta wave responsible for deep sleep.

Preferably, the frequency range of the theta wave is 4-7HZ, and the frequency range of the delta wave is 1-3 HZ.

Preferably, the device further comprises a self-generating power module for performing wave energy conversion on the human biological electromagnetic wave signals and the environmental electromagnetic wave signals received by the signal transceiving unit to generate current for the chip to use.

Preferably, the material adopted by the encapsulating component can be TPU, PE, TPE, silica gel, PVC or ABS.

The invention also provides a biological wave health-care mattress, which is provided with the biological wave energy chip module.

Preferably, the number of the biological wave energy chip modules is more than one.

The biological wave energy chip module can convert the energy of human biological electromagnetic waves or environmental electromagnetic waves into self electric energy by acquiring the energy of the human biological electromagnetic waves or the environmental electromagnetic waves, and obtains sleep electromagnetic wave signals after processing the received signals, wherein the sleep electromagnetic wave signals comprise theta waves responsible for shallow sleep, delta waves responsible for deep sleep, microwaves and the like, and are amplified and fed back to the brain of a human body to form same-frequency resonance. In addition, the biological wave energy chip module is a passive chip, has no radioactivity and is harmless to the body.

Drawings

The invention is described in detail below with reference to the following figures and detailed description:

fig. 1 is a schematic structural view of a bio-wave energy chip module according to the present invention.

Fig. 2 is a schematic chip structure diagram of the biological wave energy chip module according to the present invention.

Fig. 3 is a schematic structural view of a power module of the bio-wave energy chip module according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only used for simplifying the description of the present invention, and do not indicate or imply that the indicated devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be further specifically noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or may be connected internally to two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The following describes in detail a specific embodiment of the present invention with reference to fig. 1-2. Fig. 1 is a schematic structural view of a bio-wave energy chip module according to the present invention. Fig. 2 is a schematic chip structure diagram of the biological wave energy chip module according to the present invention.

As shown in fig. 1 to 2, the bio-wave energy chip module of the present invention includes a signal transceiving unit 1, a chip 2, and a packaging member 3. The signal transceiving unit 1 is used for receiving and transmitting signals. The chip 2 is connected with the signal transceiver unit 1 and is mainly used for processing the signals received from the signal transceiver unit 1 and then feeding the processed signals back to the signal transceiver unit 1. And the packaging component 3 is used for packaging the chip 2 and the signal transceiving unit 1. The components are explained in detail below.

Preferably, the signal transceiver unit 1 is a common antenna for transmitting and receiving, and is switched between transmitting and receiving by a switch circuit (not shown). The signals received by the antenna 1 comprise human body biological electromagnetic wave signals and environment electromagnetic wave signals. The antenna 1 comprises at least one group. Preferably, the antenna 1 may include 2 groups, which are respectively disposed on two sides of the chip 2 and symmetrically distributed. The blind areas of the 2 groups of antennas are less when the antennas transmit and receive signals, and the sensing coverage area is large.

The chip 2 further comprises: a demodulator 21, a signal processing unit 22 and a modulator 23. Wherein, the demodulator 21 is used for separating the human body biological electromagnetic wave from the signal received by the signal transceiving unit 1. Specifically, since the biological electromagnetic wave is loaded on the environmental electromagnetic wave, the biological wave carrier signal can be retrieved by demodulation.

And the signal processing unit 22 is configured to detect the human body biological electromagnetic wave signal, obtain a frequency value of the biological electromagnetic wave signal, compare the frequency value with target waveband data, and obtain a sleep electromagnetic wave signal corresponding to a brain waveband of the human body during sleep.

Preferably, the signal processing unit 22 further comprises a logic control unit 24 and a memory 25. The logic control unit 24 is configured to detect the human biological electromagnetic wave signal to obtain a frequency value of the biological electromagnetic wave signal, and compare the frequency value with target waveband data. The memory 25 is used for storing the target waveband data, wherein the target waveband data is a numerical range with the frequency of 1-7 HZ and is a frequency range of brain wavebands emitted by a human body during sleeping. For example, the signal processing unit 22 detects that the frequency of the human body biological electromagnetic wave signal is 4HZ, and the human body biological electromagnetic wave signal belongs to the numerical range of the target band data, specifically, the light sleep band data, and the human body biological electromagnetic wave signal is a sleep electromagnetic wave signal, and is subsequently transmitted to the modulator 23 for amplification and then emitted.

The modulator 23 is configured to receive the sleep electromagnetic wave signal, perform amplification resonance on the sleep electromagnetic wave signal, and transmit the sleep electromagnetic wave signal to the signal transceiver unit 1, so as to transmit and feed back the sleep electromagnetic wave signal to a human body.

In the invention, the sleep electromagnetic wave signal comprises a theta wave responsible for light sleep and a delta wave responsible for deep sleep. The frequency range of the theta wave is 4-7HZ, and the frequency range of the delta wave is 1-3 HZ.

The biological wave energy chip module in the invention further comprises a self-generating power module 26, which is used for converting the wave energy of the human biological electromagnetic wave signals and the environmental electromagnetic wave signals received by the signal transceiving unit 1 into electric current for the chip to use. Specifically, as shown in fig. 3, the self-generated power supply module 26 includes a rectifying circuit 27, a charging circuit 28, and a voltage stabilizing circuit 29. The signal transceiver unit 1 receives electromagnetic wave signals (including human body electromagnetic wave signals and environmental electromagnetic wave signals), i.e. generates induced current, and transmits the induced current to the rectifier circuit 27 (e.g. coil), the rectified ac signal is converted into a dc signal, the dc signal is transmitted to the charging circuit 28 (e.g. capacitor) to be charged and stored with energy, and then the charging circuit 29 is used for stabilizing the voltage to form working voltage, so as to provide power for the chip 2.

In a preferred embodiment, the material used for the encapsulating member 3 may be TPU, PE, TPE, silicone, PVC or ABS.

The biological wave energy chip module can separate human body biological wave electromagnetic signals from received human body biological electromagnetic waves or environmental electromagnetic wave energy, and the human body biological wave electromagnetic signals are processed to obtain sleep electromagnetic wave signals, wherein the sleep electromagnetic wave signals comprise theta waves responsible for shallow sleep and delta waves responsible for deep sleep, and the sleep electromagnetic wave signals are amplified and then fed back to the brain of a human body to form same frequency resonance. In addition, the biological wave energy chip module of the invention converts the biological electromagnetic wave energy of human body or environmental electromagnetic wave energy into self electric energy by acquiring the biological electromagnetic wave energy of human body, and does not need to be connected with an external power supply or an external battery for supplying power. In addition, the biological wave energy chip module is a passive chip, has no radioactivity and is harmless to the body.

The biological wave energy chip can be used in a wide range of scenes, can be embedded, implanted or sewn and stuck in various health care products such as health care pillows, health care mattresses, wearing articles or accessories, and can amplify sleep electromagnetic wave signals received by a user (human body) and feed back the signals to the human body to form same-frequency resonance with the human body. The position and the number of the biological wave energy chip modules can be properly set according to the shape, the size and the actual requirement of the health care product, for example, more than one biological wave energy chip module can be arranged in the health care mattress according to the requirement.

However, those skilled in the art should realize that the above embodiments are illustrative only and not limiting to the present invention, and that changes and modifications to the above described embodiments are intended to fall within the scope of the appended claims, provided they fall within the true spirit of the present invention.

Claims (10)

1. A biological wave energy chip module, comprising:

the signal transceiving unit is used for receiving and transmitting signals;

a chip connected to the signal transceiving unit, the chip further comprising:

the demodulator is used for separating the human body biological electromagnetic waves from the signals received by the signal transceiving unit;

the signal processing unit is used for detecting the human body biological electromagnetic wave signals to obtain frequency values of the biological electromagnetic wave signals, and comparing the frequency values with target waveband data to obtain sleep electromagnetic wave signals corresponding to brain wavebands when a human body sleeps;

the modulator is used for receiving the sleep electromagnetic wave signal, amplifying the sleep electromagnetic wave signal and transmitting the sleep electromagnetic wave signal to the signal transceiving unit so as to transmit and feed back the signal to a human body; and

and the packaging component is used for packaging the chip and the signal transceiving unit.

2. The bio-wave energy chip module according to claim 1, wherein the signal transceiver unit is a transceiver antenna, and the transceiver antenna is switched by a switching circuit.

3. The biological wave energy chip module according to claim 1, wherein the signals received by the signal transceiver unit include human biological electromagnetic wave signals and environmental electromagnetic wave signals.

4. The biological wave energy chip module according to claim 1, wherein the signal processing unit further comprises a logic control unit and a memory,

the logic control unit is used for detecting the human body biological electromagnetic wave signals to obtain frequency values of the biological electromagnetic wave signals and comparing the frequency values with target waveband data in the memory;

the memory is used for storing the target waveband data, and the target waveband data is in a numerical range with the frequency of 1-7 HZ.

5. The bio wave energy chip module according to claim 1, wherein the sleep electromagnetic wave signal includes a theta wave responsible for light sleep and a delta wave responsible for deep sleep.

6. The biological wave energy chip module as claimed in claim 5, wherein the frequency range of said theta wave is 4-7Hz and the frequency range of said delta wave is 1-3 Hz.

7. The biological wave energy chip module according to claim 1, further comprising a self-generating power module for converting the wave energy of the human biological electromagnetic wave signals and the environmental electromagnetic wave signals received by the signal transceiver to generate electric current for the chip to use.

8. The bio wave energy chip module according to claim 1, wherein the material of the encapsulation member is TPU, PE, TPE, silicone, PVC or ABS.

9. A biological wave health mattress, characterized in that, the biological wave energy chip module of any one of claims 1-8 is provided.

10. The bio-wave healthcare mattress of claim 9, wherein the number of bio-wave energy chip modules is more than one.

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