CN116850485A - Wave generation method and device - Google Patents

Abstract

The application discloses a wave generation method and device, the method comprises: acquiring a state of a predetermined human body part and the predetermined human body part; acquiring parameters of corresponding waves according to the preset human body parts and states, wherein each state of each human body part corresponds to one wave parameter, the parameters of the waves corresponding to each state of each human body part are preconfigured, and the parameters of all the configured waves are within a preset range; the wave is generated from parameters of the wave. The application solves the problem that the physiotherapy instrument in the prior art can only adjust the intensity, and improves the treatment effect.

Description

Wave generation method and device

Technical Field

The present application relates to the field of wave generation, and in particular to a wave generation method and apparatus.

Background

The physiotherapy instrument is a device for acting physical factors on human body to improve it, and is suitable for use in household, office and other places. Common physical factors include mechanical, electrical, optical, magnetic, pressure, and the like. Compared with the drug treatment, the physical treatment is relatively safer and more environment-friendly.

Physiotherapy apparatuses have been used in improving human health and treating human diseases, but the physiotherapy apparatuses of the prior art can only adjust the intensity, and the adjustment of the intensity depends on the user. The physiotherapy instrument has limited effect on human body.

Disclosure of Invention

The embodiment of the application provides a wave generation method, which at least solves the problem that physiotherapy instruments in the prior art can only rely on a user to adjust intensity.

According to an aspect of the present application, there is provided a wave generation method including: acquiring a predetermined human body part and a state of the predetermined human body part; acquiring parameters of corresponding waves according to the predetermined human body parts and states, wherein each state of each human body part corresponds to one wave parameter, the parameters of the waves corresponding to each state of each human body part are preconfigured, the parameters of all the configured waves are within a predetermined range, and the waves comprise at least one of the following: infrasonic, sonic, ultrasonic; a wave is generated from the parameters of the wave.

Further, the frequencies of all the configured waves are between 0.1 hz and 40000 hz; and/or the wave comprises at least one of: single frequency waves, multi-frequency superimposed waves, frequency modulated waves.

Further, the state of the predetermined human body part includes: the medical manifestation of the human body part and/or the cellular status of the predetermined human body part; wherein the cellular state of the human body part comprises at least one of: the life cycle or evolution state of the cells, the health classification or grading of the cells.

Further, the life cycle or evolution state of the cell comprises at least one of: proliferation, differentiation, senescence, apoptosis; and/or the health classification or grading of the cells comprises at least one of: health, mutation, morbidity, exacerbation, and mortality.

According to another aspect of the present application, there is also provided a wave generation method including the above method, the method further comprising: and applying the generated wave to a human body where the predetermined human body part is located.

Further, the applying the generated wave to the human body where the predetermined human body part is located includes: converting the generated wave into physical energy, wherein the physical energy comprises at least one of: mechanical vibration, electricity, magnetism, light, sound, heat; the physical energy is applied to the human body.

Further, the applying the generated wave to the human body where the predetermined human body part is located includes: the waves are applied to the predetermined body part of the human body and/or other body parts associated with the predetermined body part.

According to another aspect of the present application, there is also provided a wave generating apparatus including: the device comprises software, an energy conversion part and a human body action part, wherein the software is used for executing the method; the energy conversion section is configured to convert the wave into the physical energy; the human body action part is used for acting the physical energy on the human body.

Further, the human body action part is an electrode patch, and the energy conversion part is connected with the electrode patch to convert the wave into electric energy and/or heat energy; and/or the human body action part is a needle capable of penetrating the human body, and the energy conversion part is connected with the needle to convert the wave into at least one of the following: electric energy, heat energy and physical vibration; and/or the human body action part is a light emitter, and the energy conversion part is connected with the light emitter to convert the wave into light energy.

Further, the method further comprises the following steps: a screen for displaying at least one of: the state of the predetermined human body part, the cell state of the human body part, the wave acting on the part of the human body.

In the embodiment of the application, the acquisition of a predetermined human body part and the state of the predetermined human body part are adopted; acquiring parameters of corresponding waves according to the predetermined human body parts and states, wherein each state of each human body part corresponds to one wave parameter, the parameters of the waves corresponding to each state of each human body part are preconfigured, the parameters of all the configured waves are within a predetermined range, and the waves comprise at least one of the following: infrasonic, sonic, ultrasonic; a wave is generated from the parameters of the wave. The application solves the problem that the physiotherapy instrument in the prior art can only adjust the intensity, so that the physiotherapy instrument generates waves according to the human body parts and the state, thereby playing a good role.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application. In the drawings:

fig. 1 is a flowchart of a wave generation method according to an embodiment of the present application.

Detailed Description

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other. The application will be described in detail below with reference to the drawings in connection with embodiments.

It should be noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer executable instructions, and that although a logical order is illustrated in the flowcharts, in some cases the steps illustrated or described may be performed in an order other than that illustrated herein.

The human body is an energy emitter and receiver, and the human body can receive information and energy. In the physical world, everything is embodied in waves, energy. Optical, electrical, magnetic, acoustic and mechanical kinetic energy are all physical vibrations and are convertible between each other. In the following embodiments, corresponding waves are generated according to the condition of a human body, and the waves are applied to the human body to transmit energy to the human body, thereby achieving the corresponding purpose. The wave that different human bodies or different afflictions need is different, in prior art, can only adjust intensity to can't accomplish and produce different waves along with different symptoms, provide a mode that can produce the wave along with patient's characteristic in this embodiment, solved the problem that prior art's physiotherapy equipment can only adjust intensity, improved treatment.

In this embodiment, there is provided a wave generation method, and fig. 1 is a flowchart of a wave generation method according to an embodiment of the present application, as shown in fig. 1, the flowchart including the steps of:

step S102, a predetermined human body part and a state of the predetermined human body part are obtained.

Step S104, obtaining parameters of corresponding waves according to the preset human body parts and states, wherein each state of each human body part corresponds to one wave parameter, the parameters of the waves corresponding to each state of each human body part are preconfigured, and the parameters of all the configured waves are within a preset range, and the waves comprise at least one of the following: infrasonic, sonic, ultrasonic.

As a preferred embodiment, the predetermined range is a range formed by a minimum parameter and a maximum parameter of the sound wave audible to human ears; or a wave that acts on the human body, the frequency range of the wave that acts on the human body or other parameters can be obtained by testing a human body sample.

The parameters of the waves corresponding to the states of the different body parts and the different body parts can be obtained through testing. For example, 100 patients with stomach pain are selected, and the same frequency of waves is used on these 100 patients with stomach pain, at which time the patient's response is observed, and the frequency of the waves contributing to stomach pain is selected. That is, in the same state of the same human body part, a plurality of waves of different frequencies are respectively tested for a plurality of samples, and the probability value that the state of the samples changes in the same frequency is counted. For example, 1000 samples were tested, of which 880 samples changed state, with a probability value of 88% for a change in state of the samples. The parameter of the wave having the largest probability value of the state change is selected as the parameter of the wave corresponding to the state of the human body part.

In consideration of the fact that physiological parameters such as different sexes may also cause subtle differences, in this step S104, parameters of the corresponding waves may be acquired according to physiological parameters of the human body, the human body part, and the state of the human body part. Physiological parameters of the human body are for example: age, race, sex, etc. These can also be obtained by the sample test described above.

Step S106, generating waves according to the parameters of the waves in the step.

In this step, a wave audible to human ears or a wave effective to the human body is generated, and the wave can be used at various parts of the human body to exert a certain effect on the human body. The present embodiment selects a wave that acts on a human body or a wave that can be heard by an ear from various waves that exist through a sample test, and applies the wave to a therapeutic apparatus has a good effect.

In step S104, parameters of the wave are acquired according to different human body parts and states corresponding to the parts, and there are various parameters of the wave, for example, intensity of the wave, shape of the wave, and the like. In an alternative embodiment, the frequencies of the corresponding waves are configured according to the body part and the different states of the part, i.e. each state of each part may correspond to a wave of one frequency or all states of each part correspond to a wave of one frequency. The configurations are pre-configured and the user, after selecting the body part and/or the state to which the body part corresponds, will correspond to the frequency at which the wave is found.

In step S104, the frequencies of all the configured waves are between 0.1 hz and 40000 hz; the wave species include at least one of: the waves in step S104 are waves that can be heard by the human ear, as a preferred embodiment, the waves of a single frequency, a multi-frequency superimposed wave, and a frequency modulated wave, and in this preferred embodiment, the frequencies of all the configured waves may be between 20.1 hz and 20000.1 hz.

The state of the body part may be a medical state of the body part, for example: aging, pain, inflammation, edema, etc., a wave of a frequency may be selected based on the aging, the wave being used to activate the aging tissue; a wave of a frequency may also be selected based on pain, which is used to alleviate pain, etc.

The state of the body part may also be a state of cells of the body part, which may be obtained by microscopy or other assay means, the state of cells of the body part comprising at least one of: the life cycle or evolution state of the cells, the health classification or grading of the cells. For example, the life cycle or evolution state of a cell includes at least one of: proliferation, differentiation, senescence, apoptosis; for another example, the health classification or grading of cells includes at least one of: health, mutation, morbidity, exacerbation, and mortality.

Similarly, waves of different frequencies may be selected depending on the cell state. As another alternative, after the frequency of the wave is selected according to the state, the intensity of the wave may also be selected according to the degree of the state. For example, the degree of aging or cell death is relatively large, and a relatively strong wave may be selected at this time, whereas a relatively weak wave may be selected.

The parameters of the wave that can change the cell state can also be obtained by a sample test. For example, a predetermined number of pathological sample cells are selected, and a wave of a predetermined parameter is applied to the sample cells to count the probability of a change in the pathological sample cells. And then the parameters are replaced, and the probability of cell change is counted again on the pathological sample cells which are acted again. The multiple sets of parameters are repeatedly tested in this way to obtain parameters of the wave that can alter the pathological sample cells.

There is provided in the present embodiment a wave generating method including the method of the above embodiment, and the method further includes: and applying the generated wave to a human body where the predetermined human body part is located.

The human body can be regarded as a sound box, and the sound waves can be directly acted on the human body. Alternatively, the generated waves may be converted into physical energy, for example: one or more of mechanical vibration, electrical energy, optical energy, thermal energy, magnetic energy, and acoustic energy; the physical energy is applied to the human body.

When acting on human body, the product can directly act on the part of human body with problems or find out the acupoints corresponding to the part of human body according to the theory of traditional Chinese medicine, and act on the acupoints. The action of the wave to be generated on the human body where the predetermined human body part is located includes: the waves are applied to the predetermined body part of the human body and/or other body parts associated with the predetermined body part.

As an alternative implementation mode, the device can act on seven large pulse wheels of a human body, wherein the pulse wheels on the human body are not organs which exist in a substance, but refer to energy collection points of the whole body, and are similar to acupuncture points in traditional Chinese medicine.

(1) Sea bottom wheel, also known as root wheel. The seabed wheel is arranged above the pudendum below the navel. (2) umbilical wheels. The navel is where the infant is coupled to the mother, and the umbilical wheel is the navel site. (3) The sun gear is a belt around the diaphragm, above the stomach. (4) the heart wheel, refer to the central position of the chest. (5) a laryngeal wheel positioned at the laryngeal position. (6) eyebrow wheel, refer to the middle part of two eyebrows. And (7) a top wheel positioned at the top of the head.

Waves of the following frequencies may be used when applied to the seven large pulse wheels. (1) submarine wheels: 396HZ; (2) a sun gear: 417HZ; (3) umbilical wheel: 528HZ; (4) a heart wheel: 639HZ; (5) laryngeal wheels: 714HZ; (6) three eye wheel: 852HZ; (7) top wheel: 963HZ.

Acting on these seven parts is beneficial to adjusting the whole human body.

In order to act on the human body, there is provided in the present embodiment also a wave generating apparatus including: software for executing the method of generating waves in the above-described embodiments, an energy conversion section, and a human body action section; the energy conversion section is configured to perform conversion of the wave into the physical energy; the human body action part is used for applying physical energy or waves to the human body.

There are various forms of the human body action part, for example: the human body action part is an electrode patch, and the energy conversion part is connected with the electrode patch to convert waves into electric energy and/or heat energy; also for example: the human body action part is a needle-shaped object which can be penetrated into a human body, and the energy conversion part is connected with the needle-shaped object to convert waves into at least one of the following components: electric energy, heat energy and physical vibration; also for example: the human body action part is a light emitter, and the energy conversion part is connected with the light emitter to convert waves into light energy. These human body action parts may be connected to the energy conversion part at the same time. Alternatively, the body-engaging portion may be attached to the body by means of an earlobe, wrist, adhesive, or the like.

As another alternative embodiment, the apparatus may further include: a screen for displaying at least one of: the state of the predetermined human body part, the cell state of the human body part, and the wave acting on the part of the human body.

As an optional implementation manner, the wave generating device can be applied to a wearable quantum sensing micro-current frequency meter, and the micro-current with different frequencies stimulates cell membrane voltage to play roles in accelerating cell metabolism, promoting cell repair and the like, and balancing human health at the cell level. Can obviously balance the physical and psychological health condition of people.

Optionally, the software is configured into a terminal (e.g., a mobile phone). The wave generating device (energy conversion part and human body action part) is connected with the mobile phone through bluetooth, and the mobile phone app is used for controlling and selecting the required waves, for example, the mobile phone app can provide up to 120 program selection channels (for example, cold finds cold channels). The user only needs 20-50 minutes per day, most people are obviously improved, and the health is very helpful.

In this embodiment, there is provided an electronic device including a memory in which a computer program is stored, and a processor configured to run the computer program to perform the method in the above embodiment.

These computer programs may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart block or blocks and/or block diagram block or blocks, and corresponding steps may be implemented in different modules.

The above-described programs may be run on a processor or may also be stored in memory (or referred to as computer-readable media), including both permanent and non-permanent, removable and non-removable media, and information storage may be implemented by any method or technique. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of storage media for a computer include, but are not limited to, phase change memory (PRAM), static Random Access Memory (SRAM), dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), read Only Memory (ROM), electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium, which can be used to store information that can be accessed by a computing device. Computer-readable media, as defined herein, does not include transitory computer-readable media (transmission media), such as modulated data signals and carrier waves.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. A method of generating a wave, comprising:

acquiring a predetermined human body part and a state of the predetermined human body part;

acquiring parameters of corresponding waves according to the predetermined human body parts and states, wherein each state of each human body part corresponds to one wave parameter, the parameters of the waves corresponding to each state of each human body part are preconfigured, the parameters of all the configured waves are within a predetermined range, and the waves comprise at least one of the following: infrasonic, sonic, ultrasonic;

a wave is generated from the parameters of the wave.

2. The method of claim 1, wherein the frequency of all the configured waves is between 0.1 hz and 40000 hz; and/or the wave comprises at least one of: single frequency waves, multi-frequency superimposed waves, frequency modulated waves.

3. The method according to claim 1 or 2, wherein the state of the predetermined body part comprises: the medical manifestation of the human body part and/or the cellular status of the predetermined human body part; wherein the cellular state of the human body part comprises at least one of: the life cycle or evolution state of the cells, the health classification or grading of the cells.

4. The method of claim 3, wherein the step of,

the life cycle or evolution state of the cell includes at least one of: proliferation, differentiation, senescence, apoptosis; and/or the number of the groups of groups,

the health classification or grading of the cells comprises at least one of: health, mutation, morbidity, exacerbation, and mortality.

5. A wave generation method, characterized by comprising the method according to any one of claims 1 to 4, the method further comprising:

and applying the generated wave to a human body where the predetermined human body part is located.

6. The method of claim 5, wherein applying the generated wave to the human body at the predetermined human body site comprises:

converting the generated wave into physical energy, wherein the physical energy comprises at least one of: mechanical vibration, electricity, magnetism, light, sound, heat;

the physical energy is applied to the human body.

7. The method according to claim 5 or 6, wherein applying the generated wave to the human body at the predetermined human body site comprises:

the waves are applied to the predetermined body part of the human body and/or other body parts associated with the predetermined body part.

8. A wave generating apparatus, characterized by comprising: software, an energy conversion part and a human body action part,

the software being for performing the method of any one of claims 1 to 4;

the energy conversion section is configured to perform the conversion of the wave into the physical energy in claim 6;

the human body action part is used for acting the physical energy on the human body.

9. The apparatus of claim 8, wherein the device comprises a plurality of sensors,

the human body action part is an electrode patch, and the energy conversion part is connected with the electrode patch to convert the wave into electric energy and/or heat energy; and/or the number of the groups of groups,

the human body action part is a needle capable of penetrating into a human body, and the energy conversion part is connected with the needle to convert the wave into at least one of the following: electric energy, heat energy and physical vibration; and/or the number of the groups of groups,

the human body action part is a light emitter, and the energy conversion part is connected with the light emitter to convert the wave into light energy.

10. The apparatus according to claim 8 or 9, further comprising:

a screen for displaying at least one of: the state of the predetermined human body part, the cell state of the human body part, the wave acting on the part of the human body.