TWI551265B - Cell metabolism conditioning system - Google Patents

Description

Cell metabolic conditioning system

The invention relates to a cellular metabolic conditioning system, in particular to a resonance wave frequency formulating technique which can enhance and regulate the metabolism of human cells.

According to what is commonly referred to as a metabolic disease, it usually refers to a disease caused by a disorder of human cell metabolism. Part of the cause of metabolic diseases is caused by genetic defects in human enzyme molecules; another part may be due to the lack of external metabolites; or the disorder of human metabolic regulators. According to current medical knowledge, it is generally known that normal cells produce energy by aerobic respiration pathways, while cancer cells use a small amount of glucose for aerobic metabolic pathways. Most of the rest of the body's glucose will undergo glycolysis and become lactic acid, and lactic acid is an important cause of tumor growth. Most normal tissues acquire energy through aerobic decomposition of sugar during aerobic conditions, only in the absence of oxygen. For anaerobic glycolysis, the tumor tissue acquires energy by anaerobic glycolysis even under conditions of sufficient oxygen supply, which may be due to dysfunction of cancer cell mitochondria, or zymogram with tumor cells. Changes, in particular, are associated with increased activity of key enzymes in three glycolysis and changes in isozyme zymograms, as well as decreased activity of key gluconeogenesis enzymes.

Today's medicine has confirmed that cancer is a disease caused by poor metabolism of the human body, and according to relevant medical research teams in China, the medical research team has found a mechanism to regulate cancer cell proliferation caused by glucose metabolism in cancer cells, and to prove cancer. Cells are caused by mutations in the metabolic pathways of normal cells, and it has also been found that as long as the binding of key enzymes is inhibited, Let the tumor shrink. However, the above-mentioned medical research has only stayed at the stage of publication of results and clinical trials. Therefore, for patients with metabolic diseases at this stage, the relief of the disease is still not effective and immediate.

Furthermore, the use of electric energy waves in the form of sound, electromagnetic or light acts on animals, plants or human bodies to produce growth promoting the growth of essential cells, or inhibiting the growth of foreign cells, or producing specific physiological or psychological relief or treatment. Generally accepted technology for research and use; however, in the prior art, only simple fixed electrical energy waves (such as low frequency, medium frequency or high frequency of fixed frequency) are applied to the rough. In the human body, the prior art does not delve into the resonance wave prescriptions in which the spectral energy waves are effective for which kind of disease or physical discomfort, which is only a rough frequency wave regardless of the disease or physical discomfort. To be applied, the effect of treating or soothing symptoms must not be effectively demonstrated. Secondly, in order to improve the health of the human body with resonance waves, the applicant has been actively investing in manpower and money for research and development. In the early stage, an application for the invention of the Republic of China, No. 100130621, "Bioresonance waves acting on biological control" has been developed. In the patent application shown in the system and method, the main technical core of the patent is to design a resonance wave that can resonate with the frequency in the human body, so as to have a beneficial effect on the human body. However, the patent does not have the function of resolving the resonance wave formula of cardiovascular disease. Therefore, the frequency of the resonance wave can only be set according to the empirical analysis inference, and then the periodic modulation correction is performed for the frequency of action, in order to find out. The preferred and feasible frequency band of operation, so the patent case has a certain effect, but there is still the need for further research and development. Since the resonance wave has specific and good effects on the diseases, mental state and growth of the human body or other animals and plants, it has become a technology that the relevant technical fields are vying for production and R&D. However, it is necessary to develop a Non-pharmaceutical and can enhance and regulate human body The resonance wave technology of the prevention and health care mechanism of cell metabolism requires a long-term in-depth research and development and testing to have an opportunity to achieve.

In addition, based on the urgent needs of the medical and related industries, Dr. Huang Zhongxin, a graduate of the Medical Research Institute of Kaohsiung Medical University, has developed a Correlative Neuromoduation Therapy (formerly known as retrograde neurotherapy), which is A non-invasive neurological dysfunction recovery technique that uses a pulse-frequency resonance therapy device to emit a resonant wave at a specific frequency that can be treated for a specific neurological treatment point, according to Dr. Huang Zhongxin, in addition to the treatment technique. The dysfunctional nervous system can be quickly restored to normal, and local microcirculation can be promoted by improving the ability of the nerve to regulate. According to Dr. Huang Zhongxin, the treatment technique can achieve the effect of relaxing autonomic nerves and boosting immunity; However, the treatment technique does not disclose the resonance spectrum data of the above-mentioned pulse-frequency resonance therapeutic apparatus, so that it is impossible to confirm whether the resonance spectrum data used by the resonance spectrum spectrum data can actually achieve the effect of improving immunity by clinical experiments. , the treatment technology is not able to treat metabolic diseases The patient, so the patient can not achieve promotion and metabolic diseases of the metabolism of human cells conditioning effect.

In view of the fact that bioresonance waves have great potential therapeutic effects on the treatment or physiological relief of human diseases, and the aforementioned patents and prior art do not have a set of electric energy wave formulas which can enhance and regulate the metabolism function of human cells, the present inventors actively strive to develop Through practice and experiment, finally developed a power wave formula that can enable patients with metabolic diseases to enhance and regulate the metabolism of human cells. The effects achieved by the present invention cannot be effectively achieved in the above-mentioned conventional structures. The lawful rights and interests of the invention shall be filed in accordance with the law.

The main object of the present invention is to provide a cellular metabolic conditioning system, mainly The output of multiple frequency action periods can promote the specific energy density of the cells to regulate and metabolize, and in the case of non-medication and non-food consumption, the intracellular calcium, magnesium and potassium ions can be affected by the resonance of the cell frequency. The distribution state, in order to achieve physiological adjustment, promotes the metabolism of human cells, thereby improving the debilitating constitution of patients with metabolic diseases. The technical means for achieving the main object of the present invention is that the electric energy wave generator outputs an electric energy wave acting on the human body according to the resonance wave formula of the cellular metabolic conditioning, wherein the electric energy wave is continuously generated by the six frequencies during the first frequency action period. First to sixth energy density. The seventh to eleventh energy density continuously generated by the five frequencies is generated during the second frequency action period. The twelfth to fifteenth energy densities continuously generated by the four frequencies are generated during the third frequency action period. The sixteenth to nineteenth energy densities continuously generated by the four frequencies are generated during the fourth frequency action period. The first to second energy densities generated by the three frequencies are generated during the fifth frequency action period. The third to fourth energy density generated by the two frequencies is generated during the sixth frequency action period, and the effect of the human cell metabolism regulation is enhanced by the action of the electric energy wave on the human body.

10‧‧‧Power Wave Generator

11‧‧‧Operation interface

12‧‧‧Control drive unit

13‧‧‧Database

14‧‧‧Power wave generation unit

140‧‧‧electrode sheet

15‧‧‧Display unit

1 is a schematic diagram of the implementation of a specific architecture of the present invention.

2 is a functional block diagram of a specific implementation architecture of the present invention.

3 is a waveform diagram of a single frequency scanning mode of the present invention.

4 is a schematic diagram of frequency wave output control of the scan decrement mode of the present invention.

FIG. 5 is a schematic diagram of frequency wave output control of the scan convergence mode of the present invention.

Figure 6 is a schematic illustration of the distribution of the energy density of the present invention on the toroidal time axis.

Figure 7 is a schematic illustration of the distribution of the energy density of the present invention on a linear time axis.

Figure 8 is a comparison table of operating conditions and energy density for each frequency action period of the present invention.

In order to allow the reviewing committee to further understand the technical features of the present invention and the technical means for achieving the object of the present invention, it will be described in detail by way of specific embodiments and drawings: please refer to FIG. 1, 2 and FIG. The electric energy wave generator 10 is constructed with a resonance wave formula containing cell metabolic conditioning for at least six frequency action periods, so that the electric energy wave generator 10 is sequentially ordered from the first to the sixth according to the resonance wave formula of the cell metabolism conditioning. The corresponding electric energy wave is output; then, the electric energy wave is introduced to act on the human body. Specifically, the power wave generator 10 shown in FIG. 1 and FIG. 2 includes an operation interface 11 , a control driving unit 12 , and a spectrum data corresponding to each frequency of each frequency action period and A data library 13 for modulating parameters, an energy wave generating unit 14, a display unit 15, and an electrode sheet group 140 for attaching to the human body. The control driving unit 12 (such as a combination of a microcontroller and a driving circuit) is configured to sequentially read the spectrum data and the modulation parameters in the data library 13 during each frequency action period, thereby driving the power wave generating unit 14 to sequentially Each frequency action period produces an energy wave corresponding to each energy density (ED). Further, the control driving unit 12 can be read by the instruction signal generated by the operation interface 11 to read the relevant spectral data and the modulation parameter in the database 13, and then output the driving corresponding to the frequency and energy density of the frequency action period. The signal controls the on/off of the power wave generating unit 14 (such as the weak electric pulse generating circuit), so that the electric energy wave generating unit 14 generates the electric wave of the desired frequency and energy density distribution. As for the display unit 15, it is a screen for displaying the state of operation or operation. The electric energy wave generating unit 14 can output an electric energy wave of a specific frequency and conforming to the energy density of the frequency acting period. The electrode chip group 140 can conduct electric energy waves to the human body to make the electric energy wave A loop of electrical energy circulation is formed between the living unit 14 and the human body. In a preferred mode of operation of the present invention, the two electrode sheets of the electrode sheet group 140 are respectively attached to the positions on both sides of the navel of the user. In addition, the embodiment of the power wave generating unit 14 of the present invention is not limited to the weak electric pulse generating circuit, and the electric energy wave generating unit 14 can also be a light emitting device or an audio playing device. Here, the power wave generator of the present invention can be used. 10 emits a wave of electric energy in the form of light or audio of a specific frequency.

In a specific embodiment of the present invention, the power wave generator 10 outputs the energy waves of six frequency action periods in accordance with the first to sixth order in accordance with the resonance wave recipe of the cell metabolism conditioning. The energy density of the electric energy wave generated during the first frequency action period is the first to sixth energy density (ED) continuously generated by the six frequencies of the first to sixth frequencies, respectively. At least three energy densities of the first to sixth energy densities (ED), the first energy densities being between 2.47 and 6.87, preferably 5.50. The second energy density is between 2.51 and 6.55, preferably 5.24. The third energy density is between 2.49 and 6.88, preferably 5.51. The fourth energy density is between 2.46 and 6.28, preferably 5.02. The fifth energy density is between 2.44 and 6.57, preferably 5.25. The sixth energy density is between 2.43 and 6.53, preferably 5.23.

The energy density of the electric energy wave generated by the second frequency action period is selected from seventh to eleventh energy density (ED) continuously generated by at least two of the five frequencies of the seventh to eleventh frequencies, respectively. At least two energy densities, the seventh energy density being between 2.31 and 7.25, preferably 4.62. The eighth energy density is between 2.30 and 5.85, preferably 4.60. The ninth energy density is between 2.34 and 6.82, preferably 5.46. The tenth energy density is between 2.29 and 5.78, preferably 4.59. The eleventh energy density is between 2.28 and 5.71, preferably 4.57.

The energy density of the electric energy wave generated during the third frequency action period is selected from the tenth consecutively generated by at least two of the four frequencies of the twelfth to fifteenth frequencies At least two energy densities from two to fifteenth energy densities (ED), the twelfth energy density being between 2.22 and 6.98, preferably 4.44. The thirteenth energy density is between 2.48 and 7.21, preferably 4.95. The fourteenth energy density is between 2.21 and 6.16, preferably 4.93. The fifteenth energy density is between 2.22 and 6.92, preferably 4.44.

The energy density of the electric energy wave generated during the fourth frequency action period is selected from the sixteenth to nineteenth energy densities respectively continuously generated by at least two of the four frequencies of the sixteenth to nineteenth frequencies ( At least two energy densities in the ED), the sixteenth energy density is between 1.91 and 7.02, preferably 3.82. The seventeenth energy density is between 1.89 and 5.36, preferably 3.78. The eighteenth energy density is between 2.24 and 6.21, preferably 4.47. The nineteenth energy density is between 1.68 and 6.07, preferably 3.35.

The energy density of the electric energy wave generated during the fifth frequency action period is selected from the third energy density (ED) to the second energy density (ED) continuously generated by at least two of the three frequencies from 廿 to the second frequency. At least one of the energy densities, the energy density of the crucible is between 2.46 and 6.15, preferably 4.92. The first energy density is between 1.90 and 4.75, preferably 3.80. The energy density of the second is between 1.85 and 4.63, preferably 3.70.

The energy density of the electric energy wave generated during the sixth frequency action period is selected from the third energy density (ED) to the fourth energy density continuously generated by at least one of the two frequencies of the third to fourth frequencies. At least one energy density in (ED), the energy density of the third is between 1.33 and 3.33, preferably 2.67. The fourth energy density is between 0.99 and 2.47, preferably 1.97.

Each of the above energy densities is calculated by an energy density calculation formula, and the energy density calculation formula is as follows: Energy Density(ED)=log10(Freq.×Duty Cycle(D%)×(2Width+1)×Total Time(TT)+1)

In other words, the energy density (ED) = log 10 [frequency (Freq.) x duty cycle emissivity (D%)] x [2 scan width (Width) + 1] x [time period (TT) + 1]. Taking the first frequency in the first frequency action period as an example, assume that when the first frequency Freq.=10000hz, the duty cycle emissivity D%=70%, the scan width (ie, the bandwidth) Width=0, the time period of the period TT = 45 seconds (sec), the calculation is as follows: ED = log 10 (10000 x 70%) x (2 x 0 + 1) x 45 + 1) = 5.50.

The energy density ED=5.50 of the first frequency in the first frequency action period can be obtained by the above calculation formula; in addition, the energy density ED referred to in the present invention has no specific unit, but has substantial meaning, that is, “total” The meaning of "transmitting energy" means that the higher the frequency, the more the voltage (current) is switched, and the more energy is consumed. If you multiply the time, it means the duration of the energy period. This energy density ED value has considered all transmission parameters, that is, it can represent the transmission behavior; if each parameter changes too much, the energy density ED will also change, and if it exceeds the set energy density ED range, the performance will be Follow the change.

Referring to FIG. 3 and FIG. 8 , the power wave system of the present invention is a square wave, and the D is a duty cycle; T is a single-frequency action time; and D% is a duty cycle emissivity. The invention sets the energy wave emissivity of each duty cycle to be 70%; in other words, the portion where U is 70% represents a square wave output with a positive potential, and V is a portion of 30%, which represents It is the zero potential of the off state; in addition, P is represented as an action frequency Pluse Rate(hz), P=1/(U+V), T represents the action time of one frequency, and TT is the total time of multiple frequency action times. Hehe. The percentage of normalization in Figure 1 is the ratio of the ED of a certain frequency period (level) to the total ED after the total ED is added.

When the power wave generator 10 of the present invention starts to operate, a power wave of a specific frequency is emitted to the human body, and first enters a first energy density generation period in the first active frequency period, as shown in FIG. The frequency of the first energy density generation period is a single frequency scanning mode, and the first frequency (freq) is between 10000hz and 10010hz, preferably the original fundamental frequency is 10000hz, and the base frequency is 10004.5hz (the original fundamental frequency is Is the true frequency of the transmission, and the base frequency is obtained by random processing), the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 45 seconds. The so-called single-frequency scanning mode, that is, each operating frequency is a fixed frequency until the end of the action time of the energy density generating period, taking the first energy density generating period as an example, assuming that the first frequency is 10000 hz, then The first frequency (freq) of the first energy density period is fixed at 10000 hz until the frequency action time reaches 45 seconds, then enters the next energy density period, and so on, and because of the single The frequency sweep mode has no range of frequency variation, so the scan width (ie, bandwidth) is 0hz. The frequency of the second energy density generation period is a single frequency scanning mode, and the second frequency (freq) is between 5000hz and 5010hz, preferably the original fundamental frequency is 5000hz, and the base frequency is 5003.7hz (the original fundamental frequency is The frequency of the true emission, and the base frequency is obtained by random number processing, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 50 seconds. The frequency of the third energy density generation period is a scan convergence mode. The third frequency (freq) is between 3170hz and 3200hz, preferably the original fundamental frequency is 3176hz, and the base frequency is 3176.1hz (the original fundamental frequency is The true frequency of the emission, and the base frequency is obtained by random number processing), the duty cycle emissivity (D%) is 70%, the scan width (Width) is 1hz, the action time (TT) is 48 seconds; as for the scan The frequency wave output sequence of the convergence mode is as shown in FIG. 5, and the frequency value change calculation method is: the first output frequency is the base frequency Fn plus the scan width m; the second output frequency is the base frequency Fn Subtract the scan width m; the third output frequency is the first output frequency minus one tone variable (such as a scan width 1hz); the fourth output frequency is the second output frequency plus one tone variable (such as 1hz ), and so on, when the next output frequency is equal to the base frequency, then the next output frequency is the last output frequency. For example, the third frequency (freq) of this time period is 3176.1hz, and the scan width ( Width) is 1hz. According to the above formula, the number of frequencies can be determined as three. The output order of frequency is 3177.1hz, 3175.1hz and 3176.1hz respectively. The action time of each frequency is 16 seconds. The total effect of three frequencies The time (TT) is 48 seconds, that is, TT = (2M + 1) * T. The frequency of the fourth energy density generation period is a single frequency scanning mode, and the fourth frequency (freq) is between 3000hz and 3010hz, preferably the original fundamental frequency is 3000hz, and the base frequency is 3001.6hz (the original fundamental frequency is It is the frequency of the true emission, and the base frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 50 seconds. The frequency of the fifth energy density generation period is a single frequency scanning mode, and the fifth frequency (freq) is between 2130hz and 2200hz, preferably the original fundamental frequency is 2128hz, and the base frequency is 2137.3hz (the original fundamental frequency is The frequency of the true emission, and the base frequency is obtained by random processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 120 seconds. The frequency of the sixth energy density generation period is a single frequency scanning mode, and the sixth frequency (freq) is between 2000hz and 2010hz, preferably the original fundamental frequency is 2008hz, and the base frequency is 2008.4hz (the original fundamental frequency is The frequency of the true emission, and the base frequency is obtained by random processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 120 seconds.

Then, entering a seventh energy density generation period in the second active frequency period, as shown in FIG. 8, the frequency of the seventh energy density generation period is a single frequency scanning mode, and the seventh frequency (freq) is introduced. Between 1000hz and 1010hz, the preferred original fundamental frequency is 1000hz. The bottom frequency is 1002.0hz (the original fundamental frequency is the true transmission frequency, and the base frequency is obtained by random number processing), the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0hz. The time (TT) is 60 seconds. The frequency of the eighth energy density generation period is a single frequency scanning mode, and the eighth frequency (freq) is between 880hz and 890hz, preferably the original fundamental frequency is 880hz, and the base frequency is 886.5hz (the original fundamental frequency is It is the frequency of the true emission, and the base frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 65 seconds. The frequency of the ninth energy density generation period is a scan decrement mode, and the ninth frequency (freq) is between 800hz and 810hz, preferably the original fundamental frequency is 801hz, and the base frequency is 806.5hz (the original fundamental frequency is The frequency of the true emission, and the base frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 7hz, and the action time (TT) is 64 seconds. As for the scan. The frequency wave output sequence of the decrement mode is as shown in Fig. 4. The frequency value change calculation method is: the first output frequency is the base frequency Fn plus the scan width m; the second output frequency is the first output frequency minus one The modulation variable (such as 1hz), when the next output frequency is equal to the base frequency Fn, then the next output frequency is the last output frequency. For example, the ninth frequency (freq) is 806.5hz, the scan width (Width) is 7hz, the number of frequencies can be determined according to the above formula is 8, and the output order of the frequency is 813.5hz, 812.5hz, 811.5hz respectively. , 810.5hz, 809.5hz, 808.5hz, 807.5hz and 806.5hz, each single frequency action time is 8 seconds, the total action time (TT) of 8 frequencies is 64 seconds, ie TT=(M+1)* T. The frequency of the tenth energy density generation period is a single frequency scanning mode, the tenth frequency (freq) is between 780hz and 790hz, preferably the original fundamental frequency is 787hz, and the base frequency is 794.5hz (original The fundamental frequency is the true transmission frequency, and the base frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 70 seconds. . The frequency effect of the eleventh energy density generation period The mode is single-frequency scanning mode, the eleventh frequency (freq) is between 750hz and 760hz, preferably the original fundamental frequency is 751hz, and the base frequency is 759.6hz (the original fundamental frequency is the true emission frequency, and the base The frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 70 seconds.

Then, entering the twelfth energy density generation period in the third active frequency period, the frequency of the twelfth energy density generation period is a single frequency scanning mode, and the twelfth frequency (freq) is between 520hz Between ~535hz, the preferred original fundamental frequency is 522hz, the base frequency is 526.8hz (the original fundamental frequency is the true transmission frequency, and the base frequency is obtained by random number processing), and the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 75 seconds. The frequency of the thirteenth energy density generation period is a single frequency scanning mode. The thirteenth frequency (freq) is between 2120 and 2135 hz, preferably the original fundamental frequency is 2128 hz, and the base frequency is 2131.1 hz (original basis). The frequency is the frequency of the actual transmission, and the base frequency is obtained by random processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 60 seconds. The frequency of the fourteenth energy density generation period is a single frequency scanning mode. The fourteenth frequency (freq) is between 2005hz and 2015hz, preferably the original fundamental frequency is 2008hz, and the base frequency is 2016.3hz (original basis). The frequency is the frequency of the actual transmission, and the base frequency is obtained by random processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 60 seconds. The frequency of the fifteenth energy density generation period is a single-frequency scanning mode. The fifteenth frequency (freq) is between 460hz and 480hz, preferably the original fundamental frequency is 465hz, and the base frequency is 468.2hz (original fundamental frequency). It is the frequency of the real emission, and the base frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 85 seconds.

Then, entering the sixteenth energy density generation period in the fourth active frequency period, as shown in FIG. 8, the frequency function of the sixteenth energy density generation period is a single frequency scanning mode, and the sixteenth frequency (freq) is between 90hz and 100hz, preferably the original fundamental frequency is 95hz, and the base frequency is 95.6hz (the original fundamental frequency is the true emission frequency, and the base frequency is obtained by random processing), and the duty cycle is transmitted. The rate (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 100 seconds. The frequency of the seventeenth energy density generation period is a single frequency scanning mode, and the seventeenth frequency (freq) is between 70hz and 80hz, preferably the original fundamental frequency is 72hz, and the base frequency is 73.0hz (original basis). The frequency is the frequency of the actual transmission, and the base frequency is obtained by random processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 120 seconds. The frequency of the eighteenth energy density generation period is a scan decrement mode, the eighteenth frequency (freq) is between 30hz and 35hz, preferably the original fundamental frequency is 33hz, and the base frequency is 33.6hz (original basis). The frequency is the true transmission frequency, and the base frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 7hz, and the action time (TT) is 160 seconds. The frequency of the nineteenth energy density generation period is a single-frequency scanning mode. The nineteenth frequency (freq) is between 20 and 30 hz, preferably the original fundamental frequency is 20 hz, and the base frequency is 27.0 hz (original fundamental frequency). It is the frequency of the actual emission, and the base frequency is obtained by random processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 160 seconds.

Then, entering the third energy density generation period in the fifth active frequency period, as shown in FIG. 8, the frequency effect of the third energy density generation period is the scan convergence mode, and the third frequency (freq) is introduced. Between 140 and 150 hz, the preferred original fundamental frequency is 141 hz, and the base frequency is 146.7 hz (the original fundamental frequency is the true transmission frequency, and the base frequency is after random number The result is that the duty cycle emissivity (D%) is 70%, the scan width (Width) is 6hz, and the action time (TT) is 65 seconds. The frequency of the first energy density generation period is a single frequency scanning mode, and the first frequency (freq) is between 120 and 135 hz, preferably the original fundamental frequency is 125 hz, and the base frequency is 132.2 hz (original basis). The frequency is the true transmission frequency, and the base frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 72 seconds. The frequency of the second energy density generation period is a single frequency scanning mode, and the second frequency (freq) is between 90 and 105 hz, preferably the original fundamental frequency is 95 hz, and the base frequency is 101.5 hz (original fundamental frequency). It is the frequency of the true emission, and the base frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 76 seconds.

Finally, entering the third energy density generation period in the sixth active frequency period, as shown in FIG. 8, the frequency effect of the third energy density generation period is a single frequency scanning mode, and the third frequency ( Freq) is between 5~15hz, preferably the original fundamental frequency is 6hz, the base frequency is 6.1hz (the original fundamental frequency is the true emission frequency, and the base frequency is obtained by random number processing), the working period emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 110 seconds. The frequency of the fourth energy density generation period is a single frequency scanning mode, and the fourth frequency (freq) is between 1 and 10 hz, preferably the original fundamental frequency is 1 hz, and the base frequency is 2.6 hz (original fundamental frequency). It is the frequency of the true emission, and the base frequency is obtained by random number processing. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 133 seconds.

Referring again to FIG. 6 is a schematic diagram showing the distribution of the energy density on the ring time axis, and FIG. 7 is a schematic diagram showing the distribution of the energy density on the linear time axis, wherein the upper limits shown in FIGS. 6 and 7 represent the energy density of the present invention on the time axis. Upper limit range; lower limit means this The bright energy density is in the lower limit range of the above time axis. The central portion of Fig. 6 is the distribution range of the energy density average of the above time axis of the present invention; furthermore, as seen in Figs. 6, 7 and 8, the first frequency action period is in the first to sixth time sequence; The time period is in the 11th to 15th time sequence; the third frequency action period is in the 21st to 24th time sequence; the fourth frequency action period is in the 31st to 34th time sequence; the fifth frequency action period is in the 41th to 43th time sequence, the sixth The frequency action period is in the 49th to 50th time sequence. In addition, the present embodiment includes five periods of no-energy density action period in addition to the above-mentioned six-frequency-effect resonance resonance wave formula, and the five non-energy density periods are respectively placed in two Between adjacent frequency action periods, the power wave generator 10 generates different frequencies according to each period of no energy density action, and filters out the frequency so that there is no energy density in each period of no energy density action, as shown in the figure. The five periods of no-energy density shown in Fig. 8 are sequentially distributed in the 7th to 10th time sequence, the 16th to 20th time sequence, the 25th to 30th time sequence, and the 35th to 40th and 44th to 48th time sequences.

Accordingly, according to the detailed description of the above specific embodiments, the present invention can indeed output a specific energy density which can promote and regulate cell metabolism in a plurality of frequency action periods, and in the case of non-drug treatment and non-food consumption, The resonance of the cell frequency affects the distribution of calcium, magnesium and potassium ions in the cells, thereby achieving physiological adjustment and promoting the metabolic effects of human cells, thereby improving the debilitating constitution of patients with metabolic diseases.

The above is only a possible embodiment of the present invention, and is not intended to limit the scope of the patents of the present invention, and the equivalent implementations of other changes according to the contents, features and spirits of the following claims should be It is included in the patent of the present invention. The invention is specifically defined in the structural features of the request item, is not found in the same kind of articles, and has practicality and Progressive, has met the requirements of the invention patent, and filed an application according to law. I would like to ask the bureau to approve the patent in accordance with the law to protect the legitimate rights and interests of the applicant.

10‧‧‧Power Wave Generator

11‧‧‧Operation interface

14‧‧‧Power wave generation unit

140‧‧‧electrode sheet

15‧‧‧Display unit

Claims (9)

A cell metabolism conditioning system comprising an energy wave generator for generating a fine cell metabolic conditioning resonance wave formula, the cell metabolic conditioning resonance wave formula cell metabolism conditioning resonance wave formula is selected from six frequency effects During at least three frequency-period periods of the period, the energy wave generator outputs a corresponding electric energy wave according to the cellular metabolic conditioning resonance wave formula and according to the first to sixth sequences to act on a human body; wherein, the first The energy density of the electric energy wave generated by the frequency action period is selected from at least three energy densities of the first to sixth energy densities (ED) continuously generated by at least three of the six frequencies of the first to sixth frequencies, respectively. The first energy density is between 2.47 and 6.87, the second energy density is between 2.51 and 6.55, and the third energy density is between 2.49 and 6.88, and the fourth energy density is between 2.46 and 6.28. The fifth energy density is between 2.44 and 6.57, and the sixth energy density is between 2.43 and 6.53; the energy density of the energy wave generated during the second frequency period Selecting at least two energy densities from a seventh to eleventh energy density (ED) continuously generated by at least two of the five frequencies of the seventh to eleventh frequencies, the seventh energy density being Between 2.31 and 7.25, the eighth energy density is between 2.30 and 5.85, the ninth energy density is between 2.34 and 6.82, and the tenth energy density is between 2.29 and 5.78. The energy density is between 2.28 and 5.71; the energy density of the energy wave generated during the third frequency action period is selected from at least two of the four frequencies of the twelfth to fifteenth frequencies, respectively. At least two energy densities in the twelfth to fifteenth energy density (ED), the twelfth energy density is between 2.22 and 6.98, and the thirteenth energy density is between 2.48 and 7.21. The fourteenth energy density is between 2.21 and 6.16, and the fifteenth energy density is between 2.22 and 6.92; the energy density of the electric energy wave generated during the fourth frequency action period is selected from the sixteenth to the sixth The tenth of the four frequencies of the nineteen frequencies are successively generated To nineteenth energy density (ED) in the matter There are two kinds of energy density, the sixteenth energy density is between 1.91 and 7.02, the seventeenth energy density is between 1.89 and 5.36, and the eighteenth energy density is between 2.24 and 6.21. The nineteenth energy density is between 1.68 and 6.07; the energy density of the electric energy wave generated during the fifth frequency action period is selected from the third generation continuously generated by at least two of the three frequencies from 廿 to the second frequency. At least one energy density from an energy density (ED) to a second energy density (ED), the energy density of the enthalpy is between 2.46 and 6.15, and the first energy density is between 1.90 and 4.75. The energy density is between 1.85 and 4.63, and the first energy density is between 1.90 and 4.75; the energy density of the energy wave generated during the sixth frequency period is selected from the third to fourth frequencies. At least one of the third energy density (ED) to the fourth energy density (ED) continuously generated by at least one of the two frequencies, the third energy density being between 1.33 and 3.33, the first The energy density of the first one is between 0.99 and 2.47. The cell metabolism conditioning system of claim 1, wherein the energy wave generator comprises a control driving unit, a database for storing spectral data corresponding to each of the frequencies of each of the frequency action periods, and a An electric energy wave generating unit, configured to sequentially read each of the spectral data in the data library, so that the electric energy wave generating unit sequentially generates a corresponding energy density (ED) corresponding to each of the frequency active periods The power wave. The cell metabolism conditioning system according to claim 1, wherein each of the energy densities is calculated by an energy density calculation formula: energy density (ED) = log 10 [frequency (freq) x operation Periodic emissivity (D%)] x [2 scan width (Width) + 1] x [action time (TT) + 1]. The cellular metabolic conditioning system according to claim 1, wherein the first energy density is 5.50, the second energy density is 5.24, and the third energy density is 5.51, and the fourth energy density is 5.02, the fifth energy density is 5.25, the sixth energy density is 5.23; the seventh energy density is 4.62, the eighth energy density is 4.60, the ninth energy density is 5.46, and the tenth energy density is 4.59, The eleventh energy density is 4.57; the twelfth energy density is 4.44, the thirteenth energy density is 4.95, the fourteenth energy density is 4.93, and the fifteenth energy density is 4.44; the sixteenth energy The density is 3.82, the seventeenth energy density is 3.78, the eighteenth energy density is 4.47, the nineteenth energy density is 3.35; the third energy density is 4.92, and the first energy density is 3.80, the first The second energy density is 3.70, the third energy density is 2.67, and the fourth energy density is 1.97. The cell metabolism conditioning system of claim 1, wherein the frequency of the first energy density generation period is a single frequency scanning mode, and the first frequency (freq) is between 10000 hz and 10010 hz, and the duty cycle is transmitted. The rate (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 45 seconds; the frequency of the second energy density generation period is a single frequency scan mode, and the second frequency ( Freq) between 5000hz~5010hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, the action time (TT) is 50 seconds; the frequency of the third energy density generation period The mode is the scan convergence mode. The third frequency (freq) is between 3170hz and 3200hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 1hz, and the action time (TT) is 48. Second; the frequency of the fourth energy density generation period is a single frequency scanning mode, the fourth frequency (freq) is between 3000hz and 3010hz, the duty cycle emissivity (D%) is 70%, and the scan width is (Width) is 0hz, and the action time (TT) is 50 seconds; the frequency of the fifth energy density generation period is a single frequency scanning mode. The fifth frequency (freq) is between 2130hz and 2200hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 120 seconds; the sixth energy density The frequency of the generation period is a single frequency sweep In the aiming mode, the sixth frequency (freq) is between 2000hz and 2010hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 120 seconds. The cell metabolism conditioning system according to claim 1, wherein the frequency of the seventh energy density generation period is a single frequency scanning mode, and the seventh frequency (freq) is between 1000hz and 1010hz, and the duty cycle is emitted. The rate (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 60 seconds; the frequency of the eighth energy density generation period is the single frequency scan mode, and the eighth frequency ( Freq) between 880hz and 890hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, the action time (TT) is 65 seconds; the frequency of the ninth energy density generation period The mode is the scan decrement mode. The ninth frequency (freq) is between 800hz and 810hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 64. Second; the frequency of the tenth energy density generation period is a single frequency scanning mode, the tenth frequency (freq) is between 780hz and 790hz, and the duty cycle emissivity (D%) is 70%. The scan width (Width) is 0hz, and the action time (TT) is 70 seconds; the frequency of the eleventh energy density generation period is a single frequency scan mode. The eleventh frequency (freq) is between 750hz and 760hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 70 seconds. . The cell metabolism conditioning system according to claim 1, wherein the frequency of the twelfth energy density generation period is a single frequency scanning mode, and the twelfth frequency (freq) is between 520 hz and 535 hz, and works. The periodic emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 75 seconds; the frequency of the thirteenth energy density generation period is a single frequency scan mode, the first The thirteen frequency (freq) is between 2120 and 2135hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 60 seconds; the fourteenth energy density The frequency of the generation period is in the single-frequency scanning mode, and the fourteenth frequency (freq) is between Between 2005hz and 2015hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 60 seconds. The frequency of the fifteenth energy density generation period is single. In the frequency sweep mode, the fifteenth frequency (freq) is between 460hz and 480hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 85 seconds. The cell metabolism conditioning system according to claim 1, wherein the frequency of the sixteenth energy density generation period is a single frequency scanning mode, and the sixteenth frequency (freq) is between 90hz and 100hz, and works. The periodic emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 100 seconds; the frequency of the seventeenth energy density generation period is a single frequency scan mode, the first The seventeenth frequency (freq) is between 70hz and 80hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 120 seconds; the eighteenth energy density The frequency of the generation period is the scan decrement mode. The eighteenth frequency (freq) is between 30hz and 35hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 7hz, the action time (TT) is 160 seconds; the frequency of the nineteenth energy density generation period is a single frequency scan mode, and the nineteenth frequency (freq) is between 20 and 30 hz, and the duty cycle emissivity is (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 160 seconds; the frequency of the second energy density generation period is In the convergence mode, the third frequency (freq) is between 140 and 150 hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 6 hz, and the action time (TT) is 65 seconds; The frequency of the first energy density generation period is a single frequency scanning mode, the first frequency (freq) is between 120 and 135 hz, the duty cycle emissivity (D%) is 70%, and the scan width ( Width) is 0hz, the action time (TT) is 72 seconds; the frequency of the second energy density generation period is a single frequency scan mode, and the second frequency (freq) is between 90 and 105hz, working The periodic emissivity (D%) is 70%, the scan width (Width) is 0hz, and the action time (TT) is 76 seconds; The frequency of the third energy density generation period is a single frequency scanning mode, the third frequency (freq) is between 5 and 15 hz, the duty cycle emissivity (D%) is 70%, and the scan width ( Width) is 0hz, the action time (TT) is 110 seconds; the frequency of the fourth energy density generation period is a single frequency scan mode, and the fourth frequency (freq) is between 1 and 10hz, working The period emissivity (D%) was 70%, the scan width (Width) was 0 hz, and the action time (TT) was 133 seconds. The cell metabolism conditioning system of claim 1, further comprising four periods of no energy density action, wherein the five periods of no energy density action are respectively placed between two adjacent six frequency action periods, The energy wave generator generates different frequencies according to each of the periods of no energy density action, and filters the frequency so that there is no energy density in each of the periods of no energy density.