TWM587040U - System capable of generating stimulations corresponding to human meridian, organ tissue, and medicine - Google Patents

Abstract

A system capable of generating stimulation in response to human meridians, organs and tissues and medicines includes a control unit, a pulse measuring unit for outputting a pulse signal, and a resonance unit. The control unit includes an operation interface and a computing module. The operation interface can display an operation message related to human meridians, organs, tissues, and types of drugs, so that the operation module outputs a control signal. The resonance unit includes a pulse wave generator and at least one signal connected to an output device of the pulse wave generator. The pulse wave generator has a control module and a pulse wave module connected to the arithmetic module and the pulse measuring unit. The regulation module analyzes the pulse signal, and at the same time cooperates with the setting of the control signal to obtain a harmonic frequency corresponding to the human meridian, a natural frequency corresponding to the organs and tissues, and a drug spectrum of the corresponding drug, and then The frequency and frequency spectrum are linearly combined to output a control signal to the pulse wave module, so that the pulse wave module outputs an electrical signal related to the control signal to the output device, so that the output device generates a stimulation of the human senses. Body's stimulus signal.

Description

System capable of stimulating human meridian, organ and tissue and medicine

The present invention relates to an electrotherapy system, in particular to a system that can respond to the human body's meridians, organs and tissues and drugs to generate stimulation.

At present, many technologies in post-modern science, called information medicine, quantum medicine, etc., link information, frequency, energy, and meridian concepts of traditional Chinese medicine. At the same time, many theories also believe that there are three major circuit systems in the human body: circulation, nerves, and meridians, which correspond to the mass, energy, and information of matter, respectively. That is, the physical entities are mainly transmitted through the circulatory system, energy is transmitted through the nervous system, and information is transmitted through the meridian system. If it is mapped to physical science, the most analogous one is the vibration pattern of waves.

The traditional Chinese medical methods such as acupuncture, moxibustion, massage, guidance, and massage, or electrotherapy mechanisms that use electric current to stimulate the meridians and acupoints of the human body, all use the concept of resonance to make the human body vibrate or stimulate with a single frequency. Corresponding resonance effects are generated internally to achieve the effect of soothing pain or treating diseases.

However, the current research results found that the human meridian does not encode a specific frequency like a radio station, but instead carries multiple groups of frequencies separately. It also carries holographic information for specific organs, so instead of applying a single frequency to generate stimuli, it is more suitable to use a composite wave or a time-series wave that can change in stages. In addition, for foods such as Chinese medicine, western medicine, herbs, minerals, Chinese medicine decoctions, etc., and all kinds of foods, they also have a specific spectrum that can have a resonance effect on the human body.

Therefore, the object of the present invention is to provide a system that can stimulate the meridians, organs, tissues and drugs of the human body.

Therefore, the novel system capable of generating stimulation for the meridians, organs and tissues of the human body includes a control unit, a pulse measuring unit, and a resonance unit.

The control unit includes an operation interface and a computing module. The operation interface can display an operation message related to human meridians, organs, tissues, and types of drugs, and receive a user's operation command corresponding to the operation message, so that the operation module outputs a control signal related to the operation command. .

The pulse measuring unit is used for outputting a pulse signal related to the human arterial pulse.

The resonance unit includes a pulse wave generator and at least one signal connected to an output device of the pulse wave generator. The pulse wave generator has a control module and a pulse wave module connected to the arithmetic module and the pulse measuring unit. Wherein, the control module parses the pulse signal to obtain a fundamental frequency of the human artery, and at the same time cooperates with the setting of the control signal to obtain a corresponding frequency of the human meridian and multiply the fundamental frequency. Harmonic frequency, a natural frequency corresponding to the characteristics of organs and tissues, and a medical spectrum corresponding to the characteristics of a drug type, and then linearly combining these frequencies and the frequency spectrum to output a control signal to the pulse wave module. The pulse wave module is configured to output an electrical signal related to the control signal to the output device. The output device generates a stimulation signal that stimulates a human sensory receptor according to the frequency of the electrical signal.

The function of the novel type is: by combining the frequency related to its own pulse harmonic frequency, the frequency of organ tissue characteristics, and the spectrum of the type of medicine consumed, in order to enable the user to obtain the effect of improving the energy of meridian qi and blood.

100‧‧‧control unit

110‧‧‧ operation interface

120‧‧‧ Computing Module

200‧‧‧pulse measuring unit

210‧‧‧pulse detection device

220‧‧‧pulse diagnosis instrument

300‧‧‧ resonance unit

310‧‧‧pulse generator

313‧‧‧connector

320‧‧‧ output device

321‧‧‧Electric stimulation patch group

400‧‧‧ Data Unit

410‧‧‧analysis database

420‧‧‧ Preset Mode

430‧‧‧ pulse diagnosis mode

440‧‧‧component frequency and spectrum database

311‧‧‧ Regulation module

312‧‧‧pulse module

500‧‧‧ users

Other features and effects of the present invention will be clearly presented in the embodiment with reference to the drawings, in which: FIG. 1 is a schematic diagram illustrating an embodiment of the system that can respond to the human body's meridians, organs and tissues and drugs to stimulate ; Figure 2 is a sequence diagram illustrating the sequence of signal transmission between the embodiment and a user; Figure 3 is a schematic diagram illustrating an operation interface in the embodiment and an operation displayed on the operation interface Message, a pulse measurement message, and related operation messages; and FIG. 4 is a schematic diagram illustrating an embodiment in which a control unit and a resonance unit are integrated into a device and an electrical stimulation patch group in this embodiment.

Referring to FIG. 1 and FIG. 2, an embodiment of the novel system capable of generating stimulation to the meridians, organs, tissues and drugs of the human body includes a control unit 100, a pulse measuring unit 200, a resonance unit 300, and a data unit 400.

The control unit 100 includes an operation interface 110 and an operation module 120. In addition, as shown in FIG. 3, the operation interface 110 may display an operation message, a pulse measurement message, and a suggestion message related to the human meridian, organ tissue, and drug type. A user 500 can respond to an operation message, and input an operation command, so that the operation interface 110 receives the operation command, and then allows the computing module 120 to output a control signal related to the operation command.

It should be noted that, in this embodiment, only the appearance of the operation interface 110 is illustrated by using FIG. 3, and is not limited to the appearance or various functional interface configurations presented by the appearance. In addition, the blocks shown in the figure, such as meridian, organ, tissue, medicine, and frequency, can be individually adjusted in intensity to provide the user with 500 operating flexibility.

The pulse measurement unit 200 includes a pulse detection device 210 and a pulse diagnosis device 220. The pulse detection device 210 is configured to detect a pulse of an artery in a human body, and output a pulse signal related to the pulse of the artery. The pulse measurement message is a message related to the pulse signal displayed on the operation interface. It should be noted that according to the operation principle of the novel model, the frequency to produce the best resonance effect is the frequency related to the heart beat. Therefore, the pulse detection device 210 can automatically sense the pulse and provide it to the control unit 100 to display and output the pulse signal. However, if the pulse detection device 210 is malfunctioning For other reasons, the pulse signal cannot be provided, and the user 500 can manually input a command once, so that the arithmetic module 120 can also generate the pulse signal. In addition, the pulse diagnosis instrument 220 is used to output detection data related to the human pulse, and is provided to the data unit 400 for analysis and recommendation evaluation. Among them, since the pulse diagnosis apparatus 220 is not a technical feature of the present invention, it will not be described in detail.

The resonance unit 300 includes a pulse wave generator 310 and at least one signal connected to an output device 320 of the pulse wave generator 310. The pulse wave generator 310 has a control module 311 and a pulse wave module 312 connected to the arithmetic module 120 and the pulse measuring unit 200. The regulation module 311 parses the pulse signal to obtain a fundamental frequency of the human artery, and also records the pulse signal to obtain a pulse spectrum of the human artery that changes within a time. It is worth mentioning that according to the theory of blood circulation resonance elaborated by Professor Wang Weigong and others, each artery of the human body has its own specific resonance frequency, and each organ and acupuncture point are respectively coupled with these arteries to cause frequency division. Therefore, each organ and acupuncture point also has its specific resonance frequency. If the organs of the same resonance harmonic are classified into one category, the corresponding relationship between human organs and meridians will be obtained. At the same time, the heart beat is the source of all resonance energy, and its beat frequency is the base of the resonance frequency of each meridian, and has a correlation between the fundamental wave and its resonance harmonics. The application of related theories has been clearly disclosed in the previous case of this new type of person, so I will not repeat them here.

Then, the control module 311 cooperates with the setting of the control signal to obtain a harmonic frequency (f ₁ ) corresponding to the characteristics of human meridian and multiplied by the fundamental frequency, and a natural frequency (f ₂ ) corresponding to the characteristics of organs and tissues. And a spectrum of drugs (F ₃ ) corresponding to the characteristics of the drug type, and then linearly combine the frequencies and the spectrum to output a regulation signal (f _S ) to the pulse wave module 312. Therefore, the following equation can be obtained: f _S = a ₁ × f ₁ + a ₂ × f ₂ + a ₃ × F ₃

Among them, a ₁ , a ₂ , and a ₃ are weight values relative to the frequencies and the frequency spectrum, and the weight values are also related to the resonance intensity related to the constituent frequencies and the frequency spectrum in the operation command.

Finally, the pulse wave module 312 outputs an electrical signal related to the control signal to the output device 320. The output device 320 generates a stimulation signal that stimulates a human sensory receptor according to the frequency of the electrical signal.

It should be noted that one of the technical features of the new model is that the computing module 120 uses the pulsation spectrum as a feedback value to perform feedback control, and adjusts the output in real-time (Real-time) related to these frequencies and The control signals of the weighted values (a ₁ , a ₂ , a ₃ ) of the linear combination of the spectra are used to adjust a new stimulus signal in real time, so that the physiological state of the user 500 can reach the operation command input by him. The desired result is that the stimulation signal received by the user 500 can resonate to specific meridian or organ tissues. This technical feature is based on Multivariable Control Design, which treats these frequencies and the frequency spectrum as variables, and because these variables are coupled to each other (Coupled), they must be decoupled through mathematical calculations, and The new model integrates the decoupling results and the corresponding matrixes of weight values into a database, and stores it in the data unit 400 for the arithmetic module 120 to adjust in real time through a table lookup method.

In addition, for the user 500 after taking a medicine, the time when the body responds to the medicine should be included in the control rule of the computing module 120, and different linear combinations of weight values are used according to the duration of the medicine effect ( a ₁ , a ₂ , a ₃ ) adjustment, especially a ₃ must change over time. In this way, the control signal output by the operation module 120 allows the control module 311 to cooperate with the setting of the control signal to perform the harmonic frequency, the natural frequency and the drug spectrum in a specific time course. Different linear combinations, and output the regulating signal to the pulse wave module 312 in stages, in order to match the performance characteristics of the drug, so that the user 500 can more effectively obtain the drug effect of the drug.

Furthermore, the medicine should also be classified as belonging to traditional Chinese medicine or western medicine, and traditional Chinese medicine can be divided into unilateral (single-flavored medicinal materials) and compound (multiple-flavored medicinal materials); western medicine can also be divided into unilateral (containing only one active ingredient ) And compound (containing more than two active ingredients). Therefore, the medicine spectrum (F ₃ ) can be regarded as a traditional Chinese medicine single spectrum (F ₃₁ ), a traditional Chinese medicine compound spectrum (F ₃₂ ), a western medicine single spectrum (F ₃₃ ), and a western medicine compound spectrum (F ₃₄ ). This kind of linear combination of spectra uses a ₃₁ , a ₃₂ , a ₃₃ , and a ₃₄ as the weight values relative to these spectra, so we can get the following equation: F ₃ = a ₃₁ × F ₃₁ + a ₃₂ × F ₃₂ + a ₃₃ × F ₃₃ + a ₃₄ × F ₃₄

At this time, if the user 500 takes different kinds of drugs at the same time, the computing module 120 still generates corresponding control signals according to the plan, so that the regulating module 311 can also cooperate with the setting of the control signals to generate the harmonics. The frequency, the natural frequency, and the drug spectrum are linearly combined according to another specific time course, and the regulation signal is output to the pulse wave module 312 "in stages". Here, in addition to adjusting the weighting values of a ₁ , a ₂ , and a ₃ during different periods, the weighting values of a ₃₁ , a ₃₂ , a ₃₃ , and a ₃₄ are adjusted separately, so that the regulation The module 311 can act solely on the spectrum of one of the medicines taken by the user 500 within a specific period, and then change the spectrum of the other medicine, continuously rotating and adjusting the length of individual periods.

For example, if the user 500 is taking Xiaochaihu decoction (compound Chinese medicine) and stomach medicine (single western medicine) at the same time, the spectrum of Xiaochaihu decoction is first screened out by the control signal, and other frequencies and the spectrum of the stomach medicine are linearly combined. After a period of action, the spectrum of the stomach medicine was changed to the same screen, and the linear combination with other frequencies was also performed for another period of time. In this way, the body of the user 500 can be absorbed correspondingly to the western medicine that exhibits the faster effect, and then can be absorbed correspondingly to the traditional medicine that exhibits the slower effect, thereby improving the absorption of the medicinal effect of these medicines. degree.

On the other hand, another technical feature of the present invention is that the output device 320 adopts a variety of implementations, not only a traditional electrotherapy patch, so it can be an electrical stimulation patch group 321, a stroboscopic light emitter (not shown) ), An audio sounder (not shown), and a vibration shaker (not shown).

Furthermore, the stimulation signal generated by the electrical stimulation patch group 321 is used to stimulate the human skin and muscles underneath, and can be used as shown in FIG. 1 Separate positive and negative patches, or a single chip type in which the positive and negative electrodes are disposed on the same patch as shown in FIG. 4 are implemented. A weak current output from the positive electrode passes through the contact site, the subcutaneous tissue, and the muscle to the negative electrode to form a current loop. In this way, the muscles under the electrical stimulation patch group 321 will generate intermittent contraction corresponding to the stimulation signal, so as to achieve the resonance effect of the electrical stimulation on specific meridians or organs and tissues. In addition, according to physics, light, sound, and vibration are also all forms of energy. Therefore, more and more studies have shown that the use of non-electrical forms of energy can also activate the physiological state of the human body. The strobe light emitting device generates a stimulation signal for stimulating a human visual organ or skin. It is worth mentioning that the strobe light emitting device emits light related to the frequency cut of the stimulus signal by a lamp that can accept high frequency signal switching, and induces the limbic system in the brain by means of flicker. Adjust physiological signals. In addition, the lamp can be installed in a room as a lighting device, or combined with an eye mask for the user 500 to continuously receive stimulation during sleep.

In addition, the connection between the five internal organs of the human body and the five sounds-palace, quotient, horn, sign, and feather-was mentioned as early as in "The Yellow Emperor's Internal Classical Yin-Yang Yingxiang Dalun". From modern physics, it is through sound. The frequency changes to resonate with the internal organs of the human body to adjust the functions of the corresponding internal organs accordingly. Therefore, the audio sounder proposed by the present invention also emits a sound related to the frequency cut of the stimulus signal from a speaker that can accept high-frequency signal switching-whether or not the human ear can hear it-to stimulate the human hearing organ or skin. In addition, in addition to the sound of a single frequency, it can also be carried by a carrier wave. In this way, the stimulus signal is hidden in a piece of ordinary melody music, and the user 500 accepts it implicitly.

In addition to the above two implementation modes, the output device 320 can also apply the electrical signal to a vibrating device with a relatively large power, whether it uses an eccentric motor or the principle of magnetic vibration, to form the vibration shaker. In addition, the vibration device can be combined with items that will be in contact for a long time in life, such as chair cushions, mattresses, gloves, socks, etc., for the user 500 to continuously receive stimulation in daily life, and the generated stimulation signal is used for vibration The skin or amplitude is large enough to shake its limbs and body.

In this embodiment, the pulse wave generator 310 also has a plurality of connectors 313 electrically connected to the pulse wave module 312, so that different output devices 320 can be correspondingly connected to different connectors 313, and can also borrow A switch circuit (not shown) performs switching control, so that at least one of the connectors 313 can output the electrical signal to the output device 320 to which it is connected. Therefore, the user 500 can use a plurality of output devices 320 of different appearances at the same time, or use a plurality of output devices of the same appearance at the same time, so as to achieve a multi-pronged effect.

The data unit 400 includes an analysis database 410, a plurality of preset modes 420, a plurality of pulse diagnosis modes 430, and a component frequency and spectrum database 440. Each of the preset modes 420 is based on a symptom caused by irregularities in the human body's meridians, and the analysis database 410 corresponds to a meridian clinic that can relieve the symptoms, so as to output a diagnosis related to the meridian clinic A square signal is sent to the operation interface 110, so that the operation interface 110 displays The suggestion message related to the diagnosis signal. In addition, each pulse diagnosis mode 430 is based on the detection data output by the pulse diagnosis instrument 220, and the analysis database 410 corresponds to a suggested analysis that can improve blood circulation, so that the operation interface 110 displays a correlation with the Suggested analysis of this recommended message. The component frequency and spectrum database 440 records the natural frequencies of human organs and tissues, and the medicinal spectrum that resonates on specific meridians of the human body after taking different medicines. In accordance with the setting of the control signal, a specific natural frequency and The data signal of the drug spectrum is sent to the control module 311. In addition, as mentioned above, the database related to the decoupling result and the corresponding matrix of weight values is stored in the component frequency and spectrum database 440.

In addition, the control unit 100 can be a microcontroller with a display interface, a desktop computer, a notebook computer, a tablet computer, a smart TV, a smart phone, and a smart watch or a specially developed One of the electronic devices. The data unit 400 is one of a memory (not shown) and a cloud storage system (not shown) stored in the control unit 100. Therefore, the new model can use wearable devices such as smart phones and smart watches as the control unit 100, the pulse measuring unit 200, and the data unit 400, and output through wired transmission or wireless communication. The control signal and the pulse signal are sent to the resonance unit 300. At the same time, the suggestion message can be obtained through a network connection or an application installed by itself. Among them, through the cloud storage system (not shown), not only can it be conveniently managed and analyzed, such as the use of historical records, related disease retrieval data, or the pulse diagnostic instrument 220 The output of the detection data ... etc. is related to the user's data to provide personalized diagnosis information management, and can avoid data loss and facilitate the integration of related medical applications.

According to the above description, the new system that can respond to the stimulation of human meridians, organs and tissues and medicines combines the frequency related to its own pulse frequency, characteristics of organs and tissues, and the spectrum of the type of drugs consumed, and is generated by feedback control. A stimulation signal for stimulating the sensory receptors of the human body is provided, and then different types of output devices 320 are provided to provide the user with 500 different stimulation sources, so as to achieve the effect of increasing the energy of meridians and qi and blood.

However, the above are only examples of the new model. When the scope of the new model cannot be limited by this, that is, any simple equivalent changes and modifications made in accordance with the scope of the patent application of the new model and the content of the patent specification are still It is within the scope of this new patent.

Claims (9)

A system capable of generating stimuli corresponding to human meridians, organs, tissues, and drugs, includes: a control unit including an operation interface and an operation module, and the operation interface can display information related to human meridians, organs, tissues, and types of drugs Operate the message, and receive a user's operation command corresponding to the operation message, so that the arithmetic module outputs a control signal related to the operation command; a pulse measuring unit for outputting a pulse signal related to the human arterial pulse ; And a resonance unit including a pulse wave generator and at least one signal connected to the output device of the pulse wave generator, the pulse wave generator has a signal connected to the arithmetic module and the regulating module of the pulse measuring unit And a pulse wave module; wherein the regulation module parses the pulse signal to obtain a fundamental wave frequency of the human artery, and at the same time cooperates with the setting of the control signal to obtain a corresponding body meridian characteristic and multiply the frequency The harmonic frequency of the fundamental frequency, a natural frequency corresponding to the characteristics of organs and tissues, and a spectrum of drug properties corresponding to the characteristics of drug types, and then The frequency and the frequency spectrum are linearly combined to output a regulation signal to the pulse wave module, so that the pulse wave module outputs an electrical signal related to the regulation signal to the output device, and the output device generates according to the frequency of the electrical signal A stimulus signal that stimulates the human sensory receptors. The system according to claim 1, which can generate stimuli corresponding to human meridians, organs and tissues, and medicines, wherein the output device can be an electric stimulation patch set, a stroboscopic light emitter, an audio sounder, and a vibration shaker. For one, the stimulation signals generated by the electrical stimulation patch group are used to stimulate human skin; the stimulation signals generated by the flashing light emitter are used to stimulate human visual organs or skin; the stimulation generated by the audio sounder The signal system is used to stimulate the human hearing organ or skin; the stimulation signal generated by the vibration shaker is used to vibrate the skin or shake the human limbs and body. The system according to claim 1, which can generate stimuli corresponding to human meridians, organs and tissues, and drugs, wherein the regulation module analyzes and records the pulse signal to obtain a pulse spectrum of the human arteries which changes within a time, and the operation The module uses the pulsation spectrum as a feedback value to perform feedback control, and adjusts and outputs the control signal related to the frequency and the weight value of the linear combination of the spectrum in real time. As described in claim 1, the system can respond to the stimulation of human meridians, organs, tissues and drugs, wherein the operation interface can also display a pulse measurement message related to the pulse signal; in addition, the pulse measurement unit includes a pulse detection Device, the pulse detection device can detect an arterial pulsation in the human body, and output the pulse signal related to the arterial pulsation, and the pulse measurement message can be used by the user to input a number of commands to cause the arithmetic module to output The pulse signal associated with the number of orders. The system according to claim 1, which can respond to the stimulation of human meridians, organs, tissues and drugs, further includes a data unit, which includes an analysis database and a plurality of preset modes, each preset mode is based on a factor Symptoms caused by irregular meridian qi and blood, and the analysis database corresponds to a meridian clinic that can alleviate the symptoms, so as to output a diagnosis signal related to the meridian clinic to the operation interface, so that the operation interface A suggestion message related to the diagnosis signal is displayed. The system according to claim 5, which can respond to the stimulation of human meridians, organs and tissues, and drugs, wherein the data unit further includes a plurality of pulse diagnosis modes, each pulse diagnosis mode is based on a test data and corresponds to the analysis database A suggestion analysis capable of improving blood circulation is provided, so that the operation interface displays a suggestion message related to the suggestion analysis. The system according to claim 6, which can generate stimuli corresponding to human meridians, organs and tissues, and medicines, wherein the pulse measuring unit further includes a pulse diagnostic instrument, and the detection data is output by the pulse diagnostic instrument. The system according to claim 5, which can respond to the stimulation of human meridians, organs and tissues, and drugs, wherein the data unit further includes a component frequency and spectrum database which records the natural frequencies of human organs and tissues, And after taking different medicines, the medicinal spectrum that resonates to a specific meridian of the human body is matched with the setting of the control signal, and a data signal related to a specific natural frequency and medicinal spectrum is output to the regulation module. As described in claim 1, the system can respond to the stimulation of human meridians, organs and tissues and drugs, wherein the regulation module can also cooperate with the setting of the control signal to set the harmonic frequency, the natural frequency and the drug spectrum in accordance with Different linear combinations are performed at specific time courses to output the regulating signal to the pulse wave module in stages.