TWI679045B - Edema Soothing Conditioning System - Google Patents

Abstract

The invention discloses a edema soothing and conditioning system, which includes an electric wave generator. The electric wave generator includes a edema and pain relief conditioning resonance wave frequency control mode for generating electric waves in the form of sound, light, or microcurrent. Among them, The edema and pain relief conditioning resonance wave frequency control mode includes at least one frequency control period of the first to fifth frequency control periods. The electric energy wave generator outputs a corresponding electric energy wave according to the edema and pain relief conditioning resonance wave frequency control mode. In order to apply electric energy waves to the human body, and each energy wave distribution density (ED) is calculated using the energy wave distribution density calculation formula, it can not only effectively relieve the symptoms of body edema, but also regulate the body, stimulating hormones and nerves Conductive substances, such as Endorphine, are secreted to relieve pain.

Description

Edema Soothing Conditioning System

The invention relates to a edema soothing and conditioning system, in particular to a resonance frequency control mode technology that can effectively alleviate the symptoms of body edema and achieve the effect of improving pain.

According to the causes and types of edema can be roughly divided into emergency edema, physiological edema, refractory edema, and pathological edema. Among them, emergency edema is mainly the edema that occurs when you drink a lot of water before going to bed and wake up the next day. Such edema usually occurs in the eyes and face. Secondly, physiological edema is mainly a female physiological cycle due to changes in hormones in the body. Female students in the physiological period, due to the decline of estrogen in the body and progesterone increased edema phenomenon, and this type of edema is a normal physiological phenomenon, in general, to be physiological Edema gradually improves at the end of the period. Secondly, refractory edema is mostly caused by bad life and eating habits. Due to the busy work of modern people, long periods of sedentary life, irregular eating habits, and nutrition, coupled with lack of exercise, poor circulation metabolism and blood Poor circulation, and there are many harmful substances in life, which cause the destruction of homeostasis in the body for a long time, and lead to imbalance of electrolytes and osmotic pressure to maintain cells, which leads to edema, which is also the cause of edema in most people. As for pathological edema, it is mainly due to kidney disease, liver dysfunction, and abnormal metabolic and excretory functions such as obstruction of lymphatic reflux.

Specifically, if the body's moisture is too heavy, it is indeed a major health concern. From the point of view of Chinese medicine, the edema phenomenon is most closely related to the three organs of the lung, spleen, and kidney. The body's water metabolism is through the lungs. The physiological functions of the watercourse, spleen, and warming and steaming of the kidney are coordinated. Traditional Chinese medicine treats edema according to medical theories such as "swelling and sweating above the waist, and urinate below the waist." Condition with different etiology and pathogenesis. In addition, edema may also be caused by diseases such as nephrogenic edema, acute and chronic glomerulonephritis, nephrotic syndrome, psychogenic edema, congestive heart failure, hypothyroidism, hypoproteinemia, Vitamin B1 deficiency, nutritional edema caused by severe anemia, endocrine edema caused by primary aldosteronism, and other diseases may have edema.

On the other hand, the current medical system has not been able to completely cure the symptoms of body edema and effectively expel toxins from the body. As a result, long-term observation and treatment are necessary, and as the attack rate increases, the patient's physical and social resources are both It is a heavy burden. Therefore, how to develop a set of resonance wave technology that can effectively alleviate the phenomenon of body edema and effectively expel toxins from the body has become a technical issue urgently sought to be solved and challenged by those in the related technical field.

Since the resonance wave has specific and good effects on human diseases and psychological states, it has become a technology that industry players in the relevant technical field are competing to invest in manufacturing and research and development. However, a set of non-pharmacological, Resonance wave technology that can effectively relieve the body's edema and relieve pain is necessary for long-term in-depth research and development and testing.

In view of the great possible effect of biological resonance waves on the treatment or physiological relaxation of human diseases, the present inventors have worked hard for a long time to study the electrical energy waves required for various diseases or physiological states, in order to find a better frequency of treatment or relaxation resonance waves The combination and the combination of energy waves generated by it, and its realization, can produce a good soothing effect through implementation and experiments. Prior to this, several invention patents have been successively applied, and they have also been approved by the patent. For example, No. I524910 "Cardiovascular Relief System", No. I524911 "Autonomic Nerve Relaxation System", No. I543747 "Resonance Frequency Formula and Control Method for Immunity Enhancement", No. I548434 "For Parkinson's Center Resonance Frequency Control System for Reduction of Nervous System Degradation ", I551322" Cellular Water Conditioning System "and I551265" Cell Metabolic Conditioning System ", I571280" Oral Tissue Anti-Inflammation System "and I579014" Hypertension Relief System ", etc. Patent shown. Nowadays, given that the general public is often suffering from symptoms such as body edema and pain, and the previous technology has not yet had a set of effective ways to relieve body edema symptoms and pain relief or a resonance wave formula, the present inventors and others are actively working on research and development. Implementation and experiments have finally developed an exclusive resonance wave formula that can effectively alleviate the symptoms of body edema and pain relief. The effects achieved by the present invention cannot be effectively and concretely achieved by the conventional techniques described above. To ensure the legitimate rights and interests of the present invention, 爰File a patent application in accordance with the law.

The main purpose of the present invention is to provide a edema soothing conditioning system, which mainly outputs resonance waves of specific energy wave distribution density and frequency corresponding to the frequency control mode of the edema and pain relief conditioning resonance wave sequentially in a plurality of frequency control periods. Effectively relieve body edema symptoms and relieve pain in non-drug treatment and non-food supplement situations. To achieve the main purpose of the invention The technical means includes an electric wave generator. The electric wave generator includes a edema and pain relief conditioning resonance wave frequency control mode for generating electric waves in the form of sound, light, or microcurrent. Among them, the edema and pain relief conditioning resonance wave. The frequency control mode includes at least one frequency control period of the first to fifth frequency control periods. The electric energy wave generator outputs electric energy with a corresponding energy wave distribution density according to the frequency control of the edema and pain relief conditioning resonance wave frequency control mode. The electric wave is applied to the human body to relieve the symptoms of edema of the body and achieve the effect of improving pain.

10‧‧‧ Electric wave generator

11‧‧‧ operation interface

12‧‧‧Control drive unit

13‧‧‧Database

14‧‧‧electric wave generation unit

140‧‧‧electrode group

15‧‧‧display unit

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

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

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

FIG. 4 is a comparison diagram of working conditions and energy wave distribution density of the edema and pain relief conditioning resonance wave frequency control mode of the present invention.

FIG. 5 is a schematic diagram showing the distribution of energy wave distribution density on the linear time axis of the edema and pain relief conditioning resonance wave frequency control mode of the present invention.

FIG. 6 is a schematic diagram of the implementation of the energy wave distribution density of the edema and pain relief conditioning resonance wave frequency control mode of the present invention on a circular time axis.

In order to allow your reviewers to further understand the overall technical features of the present invention and the technical means for achieving the purpose of the present invention, specific embodiments and drawings are described in detail below:

Please refer to Figs. 1-2. The system includes an electric wave generator 10. The electric wave generator 10 includes a edema and pain relief conditioning resonance wave frequency control mode for generating electric waves in the form of sound, light, or microcurrent. The edema and pain relief conditioning resonance wave frequency control mode includes at least one frequency control period of the first to fifth frequency control periods. The electric wave generator 10 is based on the edema and pain relief conditioning resonance wave frequency control mode at the at least one frequency. The corresponding electric energy wave is output in a controlled period to apply the electric energy wave to the human body, thereby not only effectively alleviating the symptoms of bodily edema, but also effectively soothing pain.

Specifically, the electric wave generator 10 shown in FIGS. 1 to 2 includes an operation interface 11, a control driving unit 12, and a frequency control period of each frequency control period for storing and edema and pain relief conditioning resonance wave frequency control mode. A database 13 of frequency-corresponding frequency spectrum data and modulation parameters, an electric energy wave generating unit 14 and a display unit 15, the electric energy wave generating unit 14 includes an electrode sheet group 140 for attaching to a human body. The above-mentioned control driving unit 12 (such as a combined architecture of a microcontroller and a driving circuit) is used to sequentially read the frequency spectrum data and the modulation parameters in the database 13 at each frequency control period, thereby driving the electric energy wave generating unit 14 to each The frequency control period controls the on / off of the current according to the frequency parameter to generate an electric energy wave having an energy wave distribution density (ED) corresponding to the frequency, emissivity, modulation bandwidth, and control action time.

Further, the above-mentioned control driving unit 12 may be triggered by the instruction signal generated by the operation interface 11 to read the relevant spectrum data and modulation parameters in the database 13 and then output the frequency and energy wave distribution density in the frequency control period. Corresponding driving signals control the on and off of the electric wave generating unit 14 (such as a micro-current or a weak electric pulse generating circuit), so that the electric wave generating unit 14 generates electric waves having a required frequency and a corresponding energy wave distribution density distribution. As for the display unit 15 It is used to display the status of operation or operation. The electric energy wave generating unit 14 can output electric energy waves of a specific frequency and conforming to the energy wave distribution density of the frequency control period. The electrode sheet group 140 can transmit electric energy waves to the human body, so that the electric energy wave generating unit 14 and the human body form a loop of electric energy wave circulation. In addition, the implementation form of the electric energy wave generating unit 14 of the present invention is not limited to the micro-current or weak electric pulse generating circuit. The electric energy wave generating unit 14 may also be a light emitting device or an audio playback device. Here, the electric energy of the present invention can be obtained. The wave generator 10 emits electric energy waves in the form of light or audio at a specific frequency.

Please refer to FIG. 1 to FIG. 2 and FIG. 4, the electric energy wave generator 10 of the present invention is an electric energy wave outputted according to the edema and pain relief conditioning resonance wave frequency control mode, wherein the first frequency control period is located as shown in FIG. 4. In the first to sixth sequences shown, the energy wave distribution density of the electric energy waves generated in the first frequency control period is selected from the first to sixth energy waves respectively generated from the six base frequencies of the first to sixth base frequencies. Distribution density (ED), the first to sixth base frequencies are between 1900 and 10500 Hz, the first energy wave distribution density is between 4.12 and 6.87, the second energy wave distribution density is between 3.93 and 6.55, and the third energy is Wave distribution density is between 4.13 ~ 6.88, fourth energy wave distribution density is between 3.77 ~ 6.28, fifth energy wave distribution density is between 3.94 ~ 6.57, and sixth energy wave distribution density is between 3.92 ~ 6.53 between. The second frequency control period is located in the 10th to 14th order shown in FIG. 4. The energy wave distribution density of the electric energy waves generated in the second frequency control period is selected from five kinds of bases from the seventh to the eleventh base frequencies. Seventh to eleventh energy wave distribution densities (ED) continuously generated by the frequency, the seventh to eleventh base frequency are between 680 ~ 1600Hz, the seventh energy wave distribution density is between 3.57 ~ 5.95, and the eighth Energy wave distribution density is between 3.47 ~ 5.78, ninth energy wave distribution density is between 3.45 ~ 5.75, tenth energy wave distribution density is between 4.09 ~ 6.82, and eleventh energy wave distribution density is 3.44 ~ 5.73 of between. The third frequency control period is located in the order from 19 to 22 as shown in FIG. 4. The energy wave distribution density of the electric energy waves generated in the third frequency control period is selected from the twelfth to fifteenth base frequencies respectively continuously. The twelfth to fifteenth energy wave distribution density (ED), the twelfth to fifteenth base frequency are between 450 ~ 2300Hz, the twelfth energy wave distribution density is between 4.27 ~ 7.12, the thirteenth The energy wave distribution density is between 3.90 to 6.49, the fourteenth energy wave distribution density is between 3.33 to 5.55, and the fifteenth energy wave distribution density is between 3.71 to 6.19, preferably 4.95. The fourth frequency control period is located in the 28th to 30th sequence shown in FIG. 4. The energy wave distribution density of the electric energy waves generated in the fourth frequency control period is selected from three kinds of bases from the sixteenth to eighteenth base frequencies. Sixteenth to eighteenth energy wave distribution densities (ED) continuously generated by frequency, the sixteenth to eighteenth base frequencies are between 100 ~ 300Hz, and the sixteenth energy wave distribution density is between 3.15 and 5.24 The density of the seventeenth energy wave is between 3.50 and 5.83, and the density of the eighteenth energy wave is between 2.92 and 4.87. The fifth frequency control period is located in the 36th to 37th sequence shown in FIG. 4. The energy wave distribution density of the electric energy waves generated in the fifth frequency control period is selected from two base frequencies from nineteenth to the third base frequency. The nineteenth to nineteenth energy wave distribution density (ED) to the third energy wave distribution density (ED) are continuously generated. The nineteenth to the ninth energy base frequency ranges from 1900 to 2300Hz, and the nineteenth energy wave distribution density is from 3.62 to 6.03 The distribution density of the first energy wave is between 3.60 ~ 6.00.

The corresponding relationship between the frequency and energy wave distribution density developed by the present invention is the same as the energy wave distribution density calculation formula used by the inventor in the previous calculation, and it is presented in numerical form, which is convenient for the examiner or the Those with ordinary knowledge in the field of the invention can understand it in detail, and the calculation formula of the energy wave distribution density is as follows: Energy Density (ED) = log10 (Freq. × Duty Cycle (D%) × (2Width + 1) × Total Time (TT) +1)

That is, the energy wave distribution density (ED) = log10 [base frequency × duty cycle emissivity × (2 scan width + 1) × control action time + 1]. Take the first base frequency in the first frequency control period of the resonance frequency control mode of edema and pain relief conditioning as an example. Assume that when the first base frequency Freq. = 10000hz, the duty cycle emissivity D% = 70%, the scanning width (Ie bandwidth) Width = 0, the control action time TT = 45 seconds (sec) in this period, according to the calculation formula of the energy wave distribution density: ED = log10 (10000 × 70% × (2 × 0 + 1) × 45 + 1) = 5.50. Therefore, according to the foregoing calculation formula, the energy wave distribution density ED of the first base frequency can be specifically obtained = 5.50. In addition, although the energy wave distribution density ED referred to in the present invention has no specific unit, it has substantial meaning, that is, it means "total transmitted energy". When the frequency is higher, the number of voltage (current) switching times is more. , So the more energy it consumes. If multiplied by time, it indicates the duration of continuous energy. This energy wave distribution density ED has taken into account all transmission parameters, that is, it can represent the transmission behavior; if each parameter changes too much, the energy wave distribution density ED will also change, if it exceeds the predetermined energy wave distribution density ED range, the efficiency will change accordingly.

Please refer to FIG. 3, the electric energy wave system of the present invention is a square wave (such as a square wave equal to or lower than 5V; but not limited to this), the above-mentioned D is the duty cycle; T is the single Frequency control action time; D% is the duty cycle emission rate. In the present invention, the electric wave emission rate is set to 70% in each duty cycle; in other words, U is 70%, which represents a square wave output with a positive potential, and V is 30%, which represents Is the 0 potential in the closed state; in addition, P represents a frequency pluse rate (hz), P = 1 / (U + V), T represents a frequency control action time, and TT is a plurality of frequency control action times Of the sum.

With reference to the specific embodiment shown in FIG. 4, the first frequency control period of the present invention includes control of the first to sixth base frequencies, wherein the first base frequency is a single-frequency scanning control mode, and the first base The frequency (freq) is between 9000 ~ 11000hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the control action time (TT) is 45 seconds. The second base frequency is a single-frequency scanning control mode. The second base frequency (freq) is between 4500 and 5500hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0hz. The time (TT) is 50 seconds. The third base frequency is the scanning convergence control mode. The third base frequency (freq) is between 3100 ~ 3500hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 1hz, and the control action time (TT) is 48 seconds. The fourth base frequency is a single-frequency scanning control mode. The fourth base frequency (freq) is between 2800 ~ 3100hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0hz. The time (TT) is 50 seconds. The fifth base frequency is a single-frequency scanning control mode. The fifth base frequency (freq) is between 2060 ~ 2300hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0hz. The time (TT) is 120 seconds. The sixth base frequency is a single-frequency scanning control mode. The sixth base frequency (freq) is between 1900 and 2060hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0hz. The time (TT) is 120 seconds.

The seventh base frequency in the above-mentioned second frequency control period is a single-frequency scanning control mode. The seventh base frequency is between 1300 ~ 1600hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0hz, control action time (TT) is 55 seconds. The eighth base frequency is a single-frequency scanning control mode. The eighth base frequency (freq) is between 900hz and 1100hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0hz. The time (TT) is 60 seconds. The ninth base frequency is a single frequency scanning control mode. The ninth base frequency is between 850 ~ 950hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the control action time (TT ) Is 65 seconds. Tenth base The frequency is the scan decreasing control mode. The tenth base frequency is between 790 ~ 850hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 7hz, and the control action time (TT) is 64 seconds. . The eleventh base frequency is a single-frequency scanning control mode. The eleventh base frequency is between 650 ~ 800hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the control action time (TT) is 70 seconds.

The twelfth base frequency in the third frequency control period is the scanning convergence control mode. The twelfth base frequency is between 600 ~ 660hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width ) Is 7hz, and the control action time (TT) is 75 seconds. The thirteenth base frequency is the scanning convergence control mode. The thirteenth base frequency is between 500 ~ 550hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 2hz, and the control action time ( TT) is 75 seconds. The fourteenth base frequency is a single frequency scanning control mode. The fourteenth base frequency is between 500 ~ 550hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the control action time (TT) is 75 seconds. The fifteenth base frequency is a single-frequency scanning control mode. The fifteenth base frequency (freq) is between 2060 ~ 2300hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0hz. The control action time (TT) was 60 seconds.

The sixteenth base frequency in the fourth frequency control period described above is a single-frequency scanning control mode. The sixteenth base frequency is between 200 ~ 300hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width ) Is 0hz, and the control action time (TT) is 90 seconds. The 17th base frequency is the scanning convergence control mode. The 17th base frequency is between 90 ~ 150hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 2hz, and the control action time ( TT) is 90 seconds. The eighteenth base frequency is a single-frequency scanning control mode. The eighteenth base frequency is between 90 ~ 150hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the control action time (TT) is 90 seconds.

The nineteenth base frequency in the fifth frequency control period is a single-frequency scanning control mode. The nineteenth base frequency is between 2060 and 2300hz. The duty cycle emissivity (D%) is 70% and the scan width (Width ) Is 0hz, and the control action time (TT) is 45 seconds. The first base frequency is a single frequency scanning control mode. The first base frequency is between 1900 ~ 2060hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0hz, and the control action time (TT ) Is 45 seconds.

In addition, it must be noted that the so-called single-frequency scanning control mode means that the frequency in the control action time of each base frequency is a fixed frequency, and until the control action time of the base frequency ends, the first base For example, the frequency is 10009.3hz, then the frequency of the control action time (TT) at the first base frequency is fixed at 10009.3hz, until the frequency control action time reaches 45 seconds, and then enter the second base frequency. The control action time (TT), and so on, and since the single-frequency scanning control mode does not have a frequency range value, the scanning width (ie, the frequency bandwidth) is 0hz.

Secondly, the calculation method of the frequency change of the scan-decreasing control mode 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 a variable frequency bandwidth (such as 1hz ), When the next output frequency is equal to the base frequency Fn, the next output frequency is the last output frequency. Taking the tenth base frequency (freq) as an example, the frequency is 805.5hz, and the scan width is 7hz. According to the above formula, the number of output frequencies can be calculated to be 8, and the output order of the frequencies is 812.5hz. , 811.5hz, 810.5hz, 809.5hz, 808.5hz, 807.5hz, 806.5hz and 805.5hz, each single-frequency control action time is 8 seconds, and the total control action time (TT) of the 8 output frequencies is 64 seconds.

As for the frequency change of the scan convergence control mode, the first output frequency is the base frequency Fn plus the scan width m; the second output frequency is the base frequency Fn minus the scan width m; the third output frequency Subtract a variable frequency bandwidth from the first output frequency (for example, a scan width of 1hz); the fourth output frequency is a second output frequency plus a variable frequency width from the first (such as 1hz), and so on. When the next output frequency When it is equal to the base frequency, the next output frequency is the last output frequency. Take the third base frequency (freq) as an example, the frequency is 3182.1hz, and the scan width (Width) is 1hz. According to the above formula, the number of output frequencies can be calculated as 3. The output order of the frequencies is 3183.1hz. , 3181.1hz and 3182.1hz, the control action time of each frequency is 16 seconds, and the total control action time (TT) of the three output frequencies is 48 seconds.

Please refer to Figure 4 for reference. The edema and pain relief conditioning resonance frequency control mode further includes four periods of energy-free wave density distribution control. The four periods of energy-less wave density distribution control are placed between two adjacent five Between the frequency control periods, the electric energy wave generator 10 generates different frequencies according to each of the energy-free wave distribution density control periods, and filters out their frequencies so that each energy-free wave distribution density control period is an energy-free wave distribution. density. Specifically, the above first energy-free wave distribution density control period is in the order of 7-9, the second energy-free wave distribution density control period is in the order of 15-18, and the third energy-free wave distribution density control period is in the order of 23 ~ 27. The fourth energy-free wave distribution density control period is in the order 31 ~ 35.

FIG. 5 is a schematic diagram showing the distribution of the energy wave distribution density on the linear time axis of the edema and pain relief conditioning resonance frequency control mode of the present invention, wherein the upper limit shown in FIG. 5 represents the upper limit range of the energy wave distribution density of the present invention on the time axis ; The lower limit represents the lower limit range of the energy wave distribution density of the present invention in the above time axis. Please refer to FIG. 6 for the present invention. The distribution of the energy wave distribution density of the edema and pain relief conditioning resonance frequency control mode on the circular time axis is shown.

The above description is only a feasible embodiment of the present invention, and is not intended to limit the patent scope of the present invention. Any equivalent implementation of other changes based on the content, characteristics and spirit of the following claims should be It is included in the patent scope of the present invention. The structural features specifically defined in the present invention are not found in similar items, and are practical and progressive. They have met the requirements for invention patents. They have filed applications in accordance with the law. I would like to request the Bureau to verify the patents in accordance with the law in order to maintain this document. Applicants' legitimate rights and interests.

Claims (9)

An edema and soothing conditioning system includes an electric wave generator, the electric wave generator includes a edema and pain relief conditioning resonance wave frequency control mode, wherein the edema and pain relief conditioning resonance wave frequency control mode includes first to first At least one frequency control period of the five-frequency control period, the electric energy wave generator outputs a corresponding electric energy wave in the at least one frequency control period according to the control of the edema and pain relief conditioning resonance wave frequency control mode, so that the electric energy wave Acting on a human body; wherein the energy wave distribution density of the electric energy wave generated by the edema and pain relief conditioning resonance wave frequency control mode in the first frequency control period is selected from at least one base of a first to sixth base frequency The first to sixth energy wave distribution densities (ED) corresponding to at least one energy wave distribution density generated by the frequencies; the first to the sixth base frequencies are respectively 1900 to 10500 Hz, and the first to sixth energies are respectively The wave distribution density is between 3.77 ~ 6.88; the energy wave distribution of the electric energy wave generated during the second frequency control period The density is selected from at least one energy wave distribution density corresponding to a seventh to eleventh energy wave distribution density (ED) from at least one base frequency of a seventh to eleventh base frequency, the seventh to eleventh The eleven base frequencies are between 680 and 1600 Hz, and the seventh to eleventh energy wave distribution densities are between 3.44 and 6.82. The energy wave distribution densities of the electrical energy waves generated during the third frequency control period are selected. At least one energy wave distribution density corresponding to a twelfth to fifteenth energy wave distribution density (ED) corresponding to at least one base frequency from a twelfth to fifteenth base frequency, the twelfth to fifteenth The fifteenth base frequency is between 450 and 2300 Hz, and the twelfth to fifteenth energy wave distribution densities are between 3.33 and 7.12. The energy wave distribution density of the electric energy waves generated during the fourth frequency control period is At least one energy wave distribution density corresponding to a sixteenth to eighteenth energy wave distribution density (ED) selected from at least one base frequency selected from a sixteenth to eighteenth base frequency, the sixteenth to eighteenth Eighteenth base frequency are between 10 0 ~ 300Hz, the sixteenth to eighteenth energy wave distribution densities are between 2.92 to 5.83, respectively; the energy wave energy density of the electric energy waves generated during the fifth frequency control period is selected from the nineteenth to the eighteenth. At least one energy wave distribution density of the nineteenth to the third energy wave distribution density (ED) generated by at least one of the base frequency of the chirped base frequency. The nineteenth to the chirped baseband frequencies are respectively between 1900 and 2300 Hz. The energy wave distribution density of the nineteen to thorium is between 3.60 and 6.03 respectively; each energy wave distribution density (ED) is calculated by an energy wave distribution density calculation formula, and the energy wave distribution density calculation formula is: energy Wave distribution density (ED) = log10 (basic frequency × duty cycle emissivity (D%) × (2 scan width (Width) + 1) × control action time (TT) + 1). The edema soothing conditioning system according to claim 1, wherein the edema and pain relief conditioning resonance wave frequency control mode includes at least three frequency control periods of the first to fifth frequency control periods; the first to fifth frequencies The energy wave distribution density of the electric energy waves generated during the control period is at least two selected from at least two base frequencies of the first to third base frequency respectively corresponding to the first to third energy wave distribution density (ED). Energy wave distribution density. The edema soothing conditioning system according to claim 1, wherein the edema and pain soothing conditioning resonance wave frequency control mode includes at least four frequency control periods of the first to fifth frequency control periods; the first to fifth frequencies The energy wave distribution density of the electric energy waves generated during the control period is at least two selected from at least two base frequencies of the first to third base frequency respectively corresponding to the first to third energy wave distribution density (ED). Energy wave distribution density. The edema soothing conditioning system according to claim 1, wherein the edema and pain relief conditioning resonance wave frequency control mode includes five frequency control periods of the first to fifth frequency control periods; and sequentially from the first to The control of the first to third base frequency in the fifth frequency control period generates electric energy waves corresponding to the first to third energy wave distribution density (ED) in sequence. The edema soothing and conditioning system according to any one of claims 1 to 4, wherein the first base frequency is 9000 to 11000 hz, the second base frequency is 4500 to 5500 hz, and the third base frequency is 3100 to 3500 hz. The fourth base frequency is 2800 ~ 3100hz, the fifth base frequency is 2060 ~ 2300hz, the sixth base frequency is 1900 ~ 2060hz, the seventh base frequency is 1300 ~ 1600h, and the eighth base frequency is 900hz ~ 1100hz. The ninth base frequency is 850 ~ 950hz, the tenth base frequency is 790 ~ 850hz, the eleventh base frequency is 650 ~ 800hz, the twelfth base frequency is 600 ~ 660hz, and the thirteenth base frequency is 500 ~ 550hz, the fourteenth base frequency is 500 ~ 550hz, the fifteenth base frequency is 2060 ~ 2300hz, the sixteenth base frequency is 200 ~ 300hz, the seventeenth base frequency is 90 ~ 150hz, the eighteenth base The base frequency is 90 ~ 150hz, the nineteenth base frequency is 2060 ~ 2300hz, the first base frequency is between 1900 ~ 2060hz; the first energy wave distribution density is 4.12 ~ 6.87, and the second energy wave distribution density is 3.93 ~ 6.55, the third energy wave distribution density is 4.13 ~ 6.88, the fourth energy wave The cloth density is 3.77 ~ 6.28, the fifth energy wave distribution density is 3.94 ~ 6.57, the sixth energy wave distribution density is 3.92 ~ 6.53, the seventh energy wave distribution density is 3.57 ~ 5.95, and the eighth energy wave distribution density It is 3.47 ~ 5.78, the ninth energy wave distribution density is 3.45 ~ 5.75, the tenth energy wave distribution density is 4.09 ~ 6.82, the eleventh energy wave distribution density is 3.44 ~ 5.73, and the twelfth energy wave distribution density It is 4.27 ~ 7.12, the thirteenth energy wave distribution density is 3.90 ~ 6.49, the fourteenth energy wave distribution density is 3.33 ~ 5.55, the fifteenth energy wave distribution density is 3.71 ~ 6.19; the sixteenth energy wave The distribution density is 3.15 ~ 5.24, the seventeenth energy wave distribution density is 3.50 ~ 5.83, the eighteenth energy wave distribution density is 2.92 ~ 4.87, the nineteenth energy wave distribution density is 3.62 ~ 6.03, and the first energy wave The distribution density is 3.60 ~ 6.00. The edema soothing and conditioning system according to claim 5, wherein the control of the first, second, fourth, fifth, and sixth base frequencies in the first frequency control period is a single-frequency scanning control mode, The scanning width (Width) is 0hz, and the control action time (TT) is 45, 50, 50, 120, and 120 seconds; the control of the third base frequency is a scanning convergence control mode, and the scanning width (Width) is 1hz, the control action time (TT) is 48 seconds; the control of the seventh, eighth, ninth, and eleventh base frequencies in the second frequency control period is a single-frequency scan control mode, and the scan width ( Width) are 0hz, and the control action time (TT) is 55, 60, 65, and 70 seconds respectively; the control of the tenth base frequency is a scan decreasing control mode, the scan width (Width) is 7hz, and the control action time ( TT) is 64 seconds; the control of the twelfth and thirteenth base frequencies in the third frequency control period is a scan convergence control mode, the scan width (Width) is 7 and 2hz, and the control action time (TT ) Are 75 seconds; the control of the fourteenth and fifteenth base frequencies are Single-frequency scanning control mode, the scanning width (Width) is 0hz, the control action time (TT) is 75 and 60 seconds respectively; the fourth frequency control period of the sixteenth and eighteenth base frequency control respectively It is a single-frequency scanning control mode, the scanning width (Width) is 0hz, and the control action time (TT) is 90 seconds; the seventeenth base frequency control is a scanning convergence control mode, scanning width (Width ) Is 2hz, and the control action time (TT) is 90 seconds; the control of the nineteenth and third base frequencies in the fifth frequency control period is a single-frequency scanning control mode, and the scanning widths (Width) are At 0hz, the control action time (TT) is 45 seconds. The edema soothing and conditioning system according to claim 6, wherein the single-frequency scan control mode is a fixed frequency, that is, the scan width (Width) is 0hz; the scan convergence control mode includes a plurality of output frequencies, and the complex number The calculation method of the change of the output frequency values is: a first output frequency is the base frequency plus one scan width, a second output frequency is the base frequency minus one scan width, and a third output frequency Subtract a modulation bandwidth from the first output frequency, a fourth output frequency adds a modulation bandwidth from the second output frequency, and when the next output frequency is equal to the base frequency, the next output frequency is Is the last output frequency; the scan-decreasing control mode includes a plurality of output frequencies. The complex output frequency is calculated as: a first output frequency is the base frequency plus one scan width, and a second output frequency is The first output frequency is subtracted by a variable frequency bandwidth. When the next output frequency is equal to the base frequency, the next output frequency is the last output frequency. The edema soothing and conditioning system according to claim 6, wherein the duty cycle emissivity (D%) of the control of the first to third frequencies is 70%, respectively. The edema soothing conditioning system according to claim 5, wherein the edema and pain relief conditioning resonance wave frequency control mode further includes four periods of energy-free wave distribution density control, and the four periods of energy-free wave density distribution control are interposed respectively Between two adjacent five frequency control periods, the electric wave generator generates different frequencies according to each of the energy-free wave distribution density control periods, and filters out their frequencies to make each energy-free wave distribution The density is the energy-free wave distribution density in the density control period.