TWI637765B - Soothing device for attention deficit hyperactivity disorder - Google Patents

Abstract

The present invention discloses a soothing device for attention deficit hyperactivity syndrome, which comprises an energy wave generating module and an energy wave output module. The power wave generating module generates a power wave combination including a plurality of power waves; and the power wave output module is coupled to the power wave generating module to generate a special The power wave is combined and output, whereby the soothing device of the attention deficit hyperactivity syndrome of the present invention achieves the effect of relieving attention deficit hyperactivity syndrome by generating a combination of special electric energy waves.

Description

Soothing device for attention deficit hyperactivity disorder

The present invention relates to a soothing device, and more particularly to a soothing device that uses a resonant wave to soothe attention deficit hyperactivity disorder.

Attention deficit hyperactivity disorder (ADHD) is mainly a developmental disorder in cognitive activity such as inattention, hyperactivity and impulsiveness in school-age children. There are many clinical and animal studies that indicate the above three behavioral symptoms. The reason behind this is that the function of the brain suppression system is insufficient. The current main treatments for ADHD include drug therapy, behavioral intervention therapy, and educational therapy.

Furthermore, the application of resonance waves to animals or human bodies to cause specific physical or psychological relief and treatment by the applicator has been widely accepted and used in research, however, there is currently no market available. There is a device that relieves attention deficit hyperactivity syndrome by generating a specific resonance wave.

It is an object of the present invention to provide a soothing device that can generate specific electrical energy waves to relieve attention deficit hyperactivity syndrome.

To achieve the above and other objects, the present invention provides a soothing device for attention deficit hyperactivity syndrome, comprising an energy wave generating module and an energy wave output module. The power wave generating module generates a power wave combination including a plurality of power waves; and the power wave output module is coupled to the power wave generating module to generate the power wave generating module. The power wave combination output; wherein the power wave combination system is the energy wave generation module sequentially in a first frequency action period, a second frequency action period, a third frequency action period, and a fourth frequency action period The energy wave of the energy wave generated by the first frequency action period is between 2.51 and 6.87, and the energy density of the energy wave generated by the second frequency period is between 2.29 and 5.81. The energy density of the energy wave generated by the third frequency action period is between 2.00 and 6.73, and the energy density of the energy wave generated by the fourth frequency period is between 0.89 and 3.13.

In an embodiment of the present invention, the power wave generating module sequentially generates a first power wave having a first energy density and a second power wave having a second energy density during the first frequency action period. The first energy density is between 2.75 and 6.87, and the second energy density is between 2.51 and 6.28.

In an embodiment of the invention, the first energy density is 5.50 and the second energy density is 5.02.

In an embodiment of the present invention, the power wave generating module generates the first power wave and the second power wave in a single frequency scanning mode, wherein the frequency of the first power wave 10009.0Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0Hz, the action time (TT) is 45 seconds; and the second power wave frequency is 3009.6Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 50 seconds.

In an embodiment of the present invention, the power wave generating module sequentially generates a third power wave having a third energy density and a fourth power having a fourth energy density during the second frequency action period. And a fifth energy wave having a fifth energy density, the third energy density is between 2.32 and 5.81, the fourth energy density is between 2.30 and 5.75, and the fifth energy density is between 2.29 and 5.73. .

In an embodiment of the invention, the third energy density is 4.65, the fourth energy density is 4.60 and the fifth energy density is 4.59.

In an embodiment of the present invention, the power wave generating module generates the third power wave, the fourth power wave, and the fifth power wave in a single frequency scanning mode. The frequency of the third electric energy wave is 1067.4 Hz, the duty cycle emissivity (D%) is 70%, the scanning width (Width) is 0 Hz, the action time (TT) is 60 seconds; the frequency of the fourth electric energy wave is 882.2. Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 65 seconds; and the fifth power wave frequency is 792.0 Hz, the duty cycle emissivity (D) %) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 70 seconds.

In an embodiment of the present invention, the power wave generating module sequentially generates a sixth power wave having a sixth energy density and a seventh power energy having a seventh energy density during the third frequency action period. a wave, an eighth power wave having an eighth energy density, a ninth power wave having a ninth energy density, and a tenth power wave having a tenth energy density, the sixth energy density being 2.69~ 6.73, the seventh energy density is between 2.50 and 6.24, the eighth energy density is between 2.13 and 5.32, the ninth energy density is between 2.00 and 5.00, and the tenth energy density is between 2.22 and 5.54. .

In an embodiment of the invention, the sixth energy density is 5.38, the seventh energy density is 5.00, the eighth energy density is 4.26, and the ninth energy density is 4.00 and the tenth energy density The system is 4.43.

In an embodiment of the present invention, the energy wave generating module generates the sixth power wave, the seventh power wave, and the tenth power wave in a scan decreasing mode during the third frequency action period, and The frequency sweep mode generates the eighth power wave and the ninth power wave, wherein the sixth power wave has a frequency of 606.6 Hz, a duty cycle emissivity (D%) of 70%, and a scan width (Width) of 7 Hz. The action time (TT) is 9 seconds; the frequency of the seventh power wave is 529.0 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 3 Hz, and the action time (TT) is 17 seconds; The frequency of the eighth power wave is 312.4 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 85 seconds; the frequency of the ninth power wave is 166.7. Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 90 seconds; and the tenth power wave frequency is 153.4 Hz, the duty cycle emissivity (D) %) is 70%, the scan width (Width) is 2 Hz, and the action time (TT) is 30 seconds.

In an embodiment of the present invention, the power wave generating module sequentially generates an eleventh electric energy wave having an eleventh energy density and one having a twelfth energy density in the fourth frequency acting period. a twelfth electric energy wave, a thirteenth electric energy wave having a thirteenth energy density, a fourteenth electric energy wave having a fourteenth energy density, and a fifteenth electric energy wave having a fifteenth energy density a sixteenth electric energy wave having a sixteenth energy density and a seventeenth electric energy wave having a seventeenth energy density, the eleventh energy density system being between 1.24 and 3.09, the twelfth energy density system Between 1.25 and 3.13, the thirteenth energy density is between 1.23 and 3.07, the fourteenth energy density is between 1.20 and 2.99, and the fifteenth energy density is between 1.15 and 2.88. The density is between 1.15 and 2.88 and the seventeenth energy density is between 0.89 and 2.23.

In an embodiment of the present invention, the eleventh energy density is 2.47, the twelfth energy density is 2.50, the thirteenth energy density is 2.46, and the fourteenth energy density is 2.39. The fifteenth energy density is 2.31, the sixteenth energy density is 2.31, and the seventeenth energy density is 1.78.

In an embodiment of the present invention, the energy wave generating module generates the eleventh electric energy wave, the twelfth electric energy wave, and the thirteenth electric energy in a single frequency scanning mode during the fourth frequency action period. Wave, the fourteenth electric energy wave, the fifteenth electric energy wave, the sixteenth electric energy wave, and the seventeenth electric energy wave, wherein the frequency of the eleventh electric energy wave is 14.7 Hz, and the duty cycle emissivity (D%) ) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 47 seconds; the twelfth power wave frequency is 15.8 Hz, the duty cycle emissivity (D%) is 70%, and the scan width is (Width) is 0 Hz, the action time (TT) is 65 seconds; the frequency of the thirteenth power wave is 15.7 Hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0 Hz. (TT) is 68 seconds; the frequency of the fourteenth power wave is 13.3 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 70 seconds; The frequency of the fifteenth power wave is 10.3 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 72 seconds; the frequency of the sixteenth power wave is 9.4Hz, working The emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 72 seconds, and the seventeenth power wave frequency is 8.6 Hz, and the duty cycle emissivity (D%) For 70%, the scan width (Width) is 0 Hz and the action time (TT) is 85 seconds.

In an embodiment of the invention, each of the energy densities is calculated by an energy density formula: energy density (ED) = log 10 [frequency (freq) x duty cycle emissivity (D%) )] x [2 scan width (Width) + 1] x [action time (TT) + 1].

In an embodiment of the present invention, three periods of no energy density action are further included, and the periods of non-energy density are respectively between two frequency effects adjacent to each other in the frequency action periods.

Thereby, the soothing device of the Attention Deficit Hyperactivity Syndrome of the present invention achieves the effect of relieving the attention deficit hyperactivity syndrome by generating a combination of special electric energy waves.

In order to fully understand the objects, features and advantages of the present invention, the present invention will be described in detail by the following specific embodiments and the accompanying drawings.

Please refer to FIG. 1 , which is a functional block diagram of a soothing device for attention deficit hyperactivity syndrome according to an embodiment of the present invention. The soothing device 1 includes an energy wave generating module 12 and an energy wave output module 14.

The power wave generating module 12 is an energy wave generator that emits light waves, sound waves or electromagnetic waves of a specific frequency, and the power wave generating module 12 can pass a setting module for setting parameters of a plurality of power waves. The setting is to generate an energy wave combination including the set of the electric energy waves.

The power wave output module 14 is coupled to the power wave generating module 12 to output the power wave generated by the power wave generating module 12, for example, to a human body 2, wherein the power wave output The module 14 can output the power wave combination to the human body 2 in a contact or non-contact manner. In this embodiment, the power wave output module 14 can be an electrode chip group, which is in a contact manner. The electric energy wave is combined and outputted to the human body 2, and a circulation loop of electric energy waves is formed between the soothing device 1 and the human body 2.

Please refer to FIG. 2a and FIG. 2b, which are comparison tables of electric energy wave combinations according to an embodiment of the present invention. In this embodiment, the power wave generating module 12 is sequentially generated in a first frequency action period T1, a second frequency action period T2, a third frequency action period T3, and a fourth frequency action period T4. At least one electric energy wave to form the electric energy wave combination, that is, the electric energy wave generating module 12 can respectively generate one or more electric energy waves in each frequency active period, and the plurality of electric energy generated by each frequency acting period Waves form a specific combination of energy waves. The energy density of the electric energy wave generated by the first frequency action period is between 2.51 and 6.87, and the energy density of the electric energy wave generated by the second frequency active period is between 2.29 and 5.81, and the third frequency acting period The energy density of the generated electric energy wave is between 2.00 and 6.73, and the energy density of the electric energy wave generated by the fourth frequency acting period is between 0.89 and 3.13. By combining this electric energy wave with the human body or the animal body to produce a resonance effect, thereby relieving the symptoms of the attention deficit hyperactivity syndrome.

It is noted that the power wave generating module 12 generates power waves respectively according to the first frequency action period T1, the second frequency action period T2, the third frequency action period T3, and the fourth frequency action period T4. The composition of the electric energy wave may be referred to as (1). There is no other frequency action period between the adjacent frequency action periods T1~T4; or (2). The frequency action periods T1~T4 phase There are other periods of frequency action between the two neighbors; or (3) in the present embodiment, it means that there is no energy density frequency action period T0, T0' between the two adjacent frequency periods T1~T4, T0", the electric energy wave generating module 12 generates different frequencies according to the non-energy density frequency action periods T0, T0', T0", and filters the frequencies to make the non-energy density frequency action periods T0, T0 In 'T0', there is no energy density. That is, all combinations of energy waves that can be sequentially generated during the period of time T1~T4 are the scope of protection of the present invention.

Furthermore, the energy density of the energy waves generated by the frequency action periods T1 to T4 is calculated according to an energy density formula: energy density (ED) = log 10 [frequency (freq) x operation Periodic emissivity (D%)] x [2 scan width (Width) + 1] x [action time (TT) + 1]. For example, suppose the frequency of the energy wave is 18048 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 1 second, then ED=log10 [18048 x 70%) ]x[2 x 0 + 1]x[1 + 1] = 4.10. Although the energy density ED has no unit, it represents the meaning of "total emission energy". For example, the higher the frequency of the energy wave or the longer the action time, the more the ED value will be affected. When one of the parameters changes, the ED will follow. If the frequency of the electric energy wave or the excessively long action time is likely to cause discomfort to the human body or the animal body, the magnitude of the energy density ED can be used to determine whether the combination of the electric energy waves output by the soothing device 1 is appropriate.

Please refer to FIG. 3 and FIG. 4 , which are waveform diagrams of a single frequency scan mode and a scan decrement mode, respectively, of an embodiment of the soothing device of the present invention. In this embodiment, the output power wave is a square wave, wherein D is a duty cycle, T is a single-frequency action time, and D% is a duty cycle emissivity. The D% set by the present invention is 70% as an example. That is, the U portion of the positive-potential square wave output representing the open state occupies 70% of the total time, and the V portion representing the closed state occupies 30% of the total time. In addition, P represents an action frequency Pluse Rate, P = 1 / (U + V), T represents the action time of one frequency, and TT is the sum of a plurality of frequency action times.

In FIG. 3, when the soothing device 1 uses the single-frequency scanning mode, each of the operating frequencies is a fixed frequency, the value reaches the end of the action time, then enters the next active frequency, and so on. Since the single-frequency scan mode has no range of frequency variation, it is therefore. The scan width is 0 Hz. In FIG. 4, when the relaxation device 1 uses the scan decrement mode, 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 To demodulate a variable (for example, 1 Hz), when the next output frequency is equal to the base Fn, it is the last output frequency.

5 and FIG. 6 are schematic diagrams showing the distribution of energy density on a linear time axis and the distribution on a ring time axis, respectively, according to an embodiment of the present invention obtained in accordance with FIGS. 2a and 2b.

The electric energy wave generating module 12 sequentially generates a first electric energy wave having a first energy density and a second electric energy wave having a second energy density in the first frequency acting period T1, the first energy density system It is between 2.75 and 6.87, and the second energy density is between 2.51 and 6.28. Preferably, the first energy density is 5.50 and the second energy density is 5.02. The power wave generating module 12 generates the first power wave and the second power wave in a single frequency scanning mode, and the frequency of the first power wave may be 10000.0 Hz to 1000 9.0 Hz, where 10009.0 Hz is taken as an example. The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 45 seconds, and the second power wave frequency can be 3000.0 Hz to 3009.6 Hz, here 3009.6 Hz. As an example, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 50 seconds.

The electric energy wave generating module 12 sequentially generates a third electric energy wave having a third energy density, a fourth electric energy wave having a fourth energy density, and a fifth energy density in the second frequency acting period T2. A fifth energy wave, the third energy density is between 2.32 and 5.81, the fourth energy density is between 2.30 and 5.75, and the fifth energy density is between 2.29 and 5.73. Preferably, the third energy density is 4.65, the fourth energy density is 4.60 and the fifth energy density is 4.59. The power wave generating module 12 generates the third power wave, the fourth power wave, and the fifth power wave in a single frequency scanning mode, and the frequency of the third power wave may be 1062.0 Hz to 1067.4 Hz. Taking 1067.4 Hz as an example, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 60 seconds; the fourth power wave frequency can be 880.0 Hz to 882.2 Hz. Here, taking 882.2 Hz as an example, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 65 seconds, and the fifth power wave frequency can be 787.0 Hz. ~792.0 Hz, here taking 792.0 Hz as an example, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 70 seconds.

The electric energy wave generating module 12 sequentially generates a sixth electric energy wave having a sixth energy density, a seventh electric energy wave having a seventh energy density, and an eighth energy in the third frequency acting period T3. a eighth electric energy wave of density, a ninth electric energy wave having a ninth energy density, and a tenth electric energy wave having a tenth energy density, the sixth energy density system being between 2.69 and 6.73, the seventh energy density The system is between 2.50 and 6.24, and the eighth energy density is between 2.13 and 5.32. The ninth energy density is between 2.00 and 5.00, and the tenth energy density is between 2.22 and 5.54. Preferably, the sixth energy density is 5.38, the seventh energy density is 5.00, the eighth energy density is 4.26, the ninth energy density is 4.00 and the tenth energy density is 4.43. The power wave generating module 12 generates the sixth power wave, the seventh power wave, and the tenth power wave in a scan decreasing mode, and generates the eighth power wave and the ninth power in a single frequency scanning mode. Wave, the frequency of the sixth power wave can be 600.0 Hz~606.6 Hz, here taking 606.6 Hz as an example, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 7 Hz, and the action time (TT) 9 seconds; the frequency of the seventh power wave can be 520.0 Hz ~ 529.0 Hz, here 529.0 Hz as an example, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 3 Hz, the action time ( TT) is 17 seconds; the frequency of the eighth power wave can be 304.0 Hz to 312.4 Hz, where 312.4 Hz is taken as an example, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0 Hz. The time (TT) is 85 seconds; the frequency of the ninth power wave can be 160.0 Hz~166.7 Hz, where 166.7 Hz is taken as an example, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0 Hz. The action time (TT) is 90 seconds; and the frequency of the tenth power wave can be 144.0 Hz~153.4 Hz, where 153.4 Hz is taken as an example, the duty cycle emissivity (D%) is 70%, and the scan width (Width) ) is 2Hz, The action time (TT) is 30 seconds.

The electric energy wave generating module 12 sequentially generates an eleventh electric energy wave having an eleventh energy density and a twelfth electric energy wave having a twelfth energy density in the fourth frequency acting period T4. a thirteenth energy wave of a thirteenth energy density, a fourteenth electric energy wave having a fourteenth energy density, a fifteenth electric energy wave having a fifteenth energy density, and a sixteenth energy wave a sixteenth electric energy wave having a density and a seventeenth electric energy wave having a seventeenth energy density, wherein the eleventh energy density is between 1.24 and 3.09, and the twelfth energy density is between 1.25 and 3.13. The thirteenth energy density system is between 1.23 and 3.07, the fourteenth energy density is between 1.20 and 2.99, and the fifteenth energy density is between 1.15 and 2.88. The sixteenth energy density is between 1.15 and 2.88. The seventeenth energy density is between 0.89 and 2.23. Preferably, the eleventh energy density is 2.47, the twelfth energy density is 2.50, the thirteenth energy density is 2.46, and the fourteenth energy density is 2.39, the fifteenth energy The density system was 2.31, the sixteenth energy density was 2.31, and the seventeenth energy density was 1.78. The power wave generating module 12 generates the eleventh electric energy wave, the twelfth electric energy wave, the thirteenth electric energy wave, the fourteenth electric energy wave, and the fifteenth electric energy in a single frequency scanning mode. The wave, the sixteenth power wave and the seventeenth power wave, the frequency of the eleventh power wave may be 9.0 Hz to 14.7 Hz, where 14.7 Hz is taken as an example, and the duty cycle emissivity (D%) is 70%. The scan width (Width) is 0 Hz, and the action time (TT) is 47 seconds. The frequency of the twelfth power wave can be 7.0 Hz to 15.8 Hz. Here, for example, 15.8 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 65 seconds; the frequency of the thirteenth power wave can be 6.0 Hz 15.7 Hz, here the case of 15.7 Hz, the duty cycle emissivity (D% ) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 68 seconds; the frequency of the fourteenth power wave can be 5.0 Hz to 13.3 Hz, where 13.3 Hz is taken as an example, the duty cycle emissivity is (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 70 seconds. The frequency of the fifteenth power wave can be 4.0 Hz to 10.3 Hz. Here, 10.3 Hz is taken as an example to work. The periodic emissivity (D%) is 70%, sweep The Width is 0 Hz, and the action time (TT) is 72 seconds. The frequency of the 16th power wave can be 4.0 Hz to 9.4 Hz. Here, 9.4 Hz is taken as an example, and the duty cycle emissivity (D%) is 70. %, the scan width (Width) is 0 Hz, the action time (TT) is 72 seconds; and the frequency of the seventeenth power wave can be 1.0 Hz to 8.6 Hz, where 8.6 Hz is taken as an example, the duty cycle emissivity (D) %) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 85 seconds.

Please refer to FIG. 7 and FIG. 8 , which are schematic diagrams of an experimental environment and an experimental process according to an embodiment of the present invention. In order to verify the efficacy of the above-mentioned combination of electric energy waves outputted by the soothing device 1 of the present invention, this experimental example is to accommodate a plurality of spontaneously hypertensive rats in a box 3 provided with a plurality of metal dots 30 on the bottom plate (spontaneously The hypertensive rat (SHR) performs an experiment in which the metal dot 30 of the casing 3 can be connected to the electric energy wave generating module 12 as the electric energy wave output module 14, and the electric energy generating module 12 can be The generated complex electric energy waves are transmitted to the SHR thereon. In this experiment, the SHR is divided into three groups: control group, C1 group and C2 group. The SHR in the control group will not receive any power wave manipulation. The SHR of the C1 group receives another energy wave in the upper and the afternoon respectively. The combination (different from the power wave combination in this case) is manipulated, and the SHR of the C2 group receives the power wave combination operation of the case in the upper and the afternoon respectively.

Furthermore, this experiment evaluates the effects of application and energy wave combinations on SHR through (1) open field behavior observation operations and (2) attentional set-shifting tasks (ASST). . Among them, the open field behavior observation operation refers to the record of the spontaneous behavior of the animal, and measures how long the animal needs to explore to become habitualized. This experiment is to remove the SHR from the cage and place it on the uniform illumination of the black acrylic. The box, to avoid unnecessary interference, and then record the total number of crossings and the total path length through the imaging system. The main point of observation is whether the SHR can be manipulated by a specific combination of electric energy waves. Get lesson with less exploration time. The attention shifting operation is used to assess the degree of concentration. This experiment is to let the SHR select a correct bowl according to the smell or litter clue to find the food, and verify the animal's attention conversion ability by gradually increasing the difficulty of the area. Including SD, simple discrimination, CD (compound discrimination), reverse learning (Rev1-2, reversal learning), intrinsic dimension shift (ID, intra-dimensional shift), experimentally set A pass criteria is used to assess the level of concentration of each SHR by counting the number of times each SHR meets the required criteria for passing the criteria.

Please refer to FIG. 9a and FIG. 9b, which are statistical diagrams of the total number of crossings and the total moving path length of the SHR in the open field in the verification experiment according to an embodiment of the present invention. It is understood by those of ordinary skill in the art that the SHR of the combined power wave combination is compared to the SHR that is not manipulated by the power wave combination, regardless of the total number of crossings and The total moving path length can stably reduce the exploration path, and the SHR of the C2 group (accepting the power wave combination proposed in this case) is more effective than the SHR of the C1 group (accepting the power wave combination proposed by the present case).

Please refer to FIG. 10 , which is a statistical diagram of the SHR in the attention conversion operation in the verification experiment according to an embodiment of the present invention. It is understood by those of ordinary skill in the art that the SHR of the combined power wave combination is compared to the SHR that is not manipulated by the power wave combination, regardless of the simple zone discrimination ( SD), Complex Area Discrimination (CD), Reverse Learning (Rev1, Rev2), and Intrinsic Dimensional Transfer (ID) can all pass through with fewer attempts, and the overall assessment is based on the SHR of the C2 group (accepted by the case) The proposed combination of power waves) is better than the SHR of the C1 group (accepting the combination of power waves proposed in this case).

Therefore, through the verification of the above experiment, the soothing device of the attention deficit hyperactivity syndrome of the present invention can effectively achieve the effect of relieving attention deficit hyperactivity syndrome by generating a combination of special electric energy waves.

The invention has been described above in terms of the preferred embodiments, and it should be understood by those skilled in the art that the present invention is not intended to limit the scope of the invention. It should be noted that variations and permutations equivalent to those of the embodiments are intended to be included within the scope of the present invention. Therefore, the scope of protection of the present invention is defined by the scope of the patent application.

1‧‧‧Slowing device

12‧‧‧Power wave generation module

14‧‧‧Power Wave Output Module

2‧‧‧ human body

T0, T0’, T0”‧‧‧No energy density frequency action period

T1‧‧‧First frequency action period

T2‧‧‧second frequency action period

T3‧‧‧ third frequency action period

T4‧‧‧fourth frequency action period

Fig. 1 is a functional block diagram of a soothing device for attention deficit hyperactivity syndrome according to an embodiment of the present invention. [Fig. 2a] and [Fig. 2b] are a comparison table of electric energy wave combinations according to an embodiment of the present invention. FIG. 3 is a waveform diagram of a single frequency scanning mode used as an embodiment of the soothing device of the present invention. FIG. Fig. 4 is a waveform diagram showing the use of the scan decrement mode in an embodiment of the soothing device of the present invention. Fig. 5 is a schematic view showing the distribution of energy density on a linear time axis according to an embodiment of the present invention. Fig. 6 is a schematic view showing the distribution of energy density on a ring time axis according to an embodiment of the present invention. Fig. 7 is a diagram showing an experimental environment of an embodiment of the present invention. FIG. 8 is a schematic diagram of an experimental course of an embodiment of the present invention. [Fig. 9a] is a statistical diagram of the total number of crossings of the SHR in the open field in the verification experiment according to an embodiment of the present invention. [Fig. 9b] is a statistical diagram of the total moving path length of the SHR in the open field in the verification experiment according to an embodiment of the present invention. FIG. 10 is a statistical diagram of an SHR in a attention conversion operation in a verification experiment according to an embodiment of the present invention. FIG.

Claims (10)

A soothing device for attention deficit hyperactivity syndrome, comprising: an electric energy wave generating module, which generates an electric energy wave combination including a plurality of electric energy waves; and an electric energy wave output module, and the electric energy wave generating module The group is coupled to output the electric energy wave generated by the electric energy wave generating module; wherein the electric energy wave combination is that the electric energy wave generating module sequentially acts on a first frequency action period and a second frequency a combination of energy waves generated by the time period, a third frequency action period, and a fourth frequency action period, wherein the energy density of the energy wave generated by the first frequency action period is between 2.51 and 6.87, and the power wave generation mode Forming, in the first frequency action period, a first electric energy wave and a second electric energy wave, wherein the first electric energy wave has a first energy density (ED) continuously generated by the frequency of the first electric energy wave, The second electric energy wave has a second energy density (ED) continuously generated by the frequency of the second electric energy wave, and the frequency of the first electric energy wave to the second electric energy wave is between 3009.6 and 10009.0 Hz, the first energy density Jie Between 2.75 and 6.87, the second energy density is between 2.51 and 6.28; the energy density of the energy wave generated by the second frequency action period is between 2.29 and 5.81, and the power wave generating module is in the second The frequency action period sequentially generates a third electric energy wave, a fourth electric energy wave and a fifth electric energy wave, the third electric energy wave having a third energy density (ED) continuously generated by the frequency of the third electric energy wave, The fourth electric energy wave has a fourth energy density (ED) continuously generated by the frequency of the fourth electric energy wave, the fifth electric energy wave having a fifth energy density continuously generated by the frequency of the fifth electric energy wave (ED) The frequency of the third power wave to the fifth power wave is between 792.0 and 1067.4 Hz, the third energy density is between 2.32 and 5.81, and the fourth energy density is between 2.30 and 5.75. The energy density of the energy wave is between 2.29 and 5.73; the energy density of the energy wave generated by the third frequency action period is between 2.00~6.73, the electric energy wave generating module sequentially generates a sixth electric energy wave, a seventh electric energy wave, an eighth electric energy wave, a ninth electric energy wave and a tenth electric energy wave in the third frequency action period. The sixth electric energy wave has a sixth energy density (ED) continuously generated by the frequency of the sixth electric energy wave, the seventh electric energy wave having a seventh energy density continuously generated by the frequency of the seventh electric energy wave (ED) The eighth electric energy wave has an eighth energy density (ED) continuously generated by the frequency of the eighth electric energy wave, the ninth electric energy wave having a ninth energy density continuously generated by the frequency of the ninth electric energy wave (ED), the tenth electric energy wave has a tenth energy density (ED) continuously generated by the frequency of the tenth electric energy wave, and the frequency of the sixth electric energy wave to the tenth electric energy wave is between 153.4 and 606.6 Hz, The sixth energy density is between 2.69 and 6.73, the seventh energy density is between 2.50 and 6.24, the eighth energy density is between 2.13 and 5.32, and the ninth energy density is between 2.00 and 5.00. The tenth energy density is between 2.22 and 5.54; and the electricity generated by the fourth frequency period The energy density of the wave is between 0.89 and 3.13, and the power wave generating module sequentially generates an eleventh electric energy wave, a twelfth electric energy wave, a thirteenth electric energy wave, and one in the fourth frequency acting period. a fourteenth electric energy wave, a fifteenth electric energy wave, a sixteenth electric energy wave, and a seventeenth electric energy wave, the eleventh electric energy wave having an eleventh energy continuously generated by the frequency of the eleventh electric energy wave Density (ED), the twelfth electric energy wave has a twelfth energy density (ED) continuously generated by the frequency of the twelfth electric energy wave, and the thirteenth electric energy wave has a thirteenth electric energy wave a thirteenth energy density (ED) continuously generated by the frequency, the fourteenth electric energy wave having a fourteenth energy density (ED) continuously generated by the frequency of the fourteenth electric energy wave, the fifteenth electric energy wave having one a fifteenth energy density (ED) continuously generated by the frequency of the fifteenth electric energy wave, the sixteenth electric energy wave having a sixteenth energy density (ED) continuously generated by the frequency of the sixteenth electric energy wave, The seventeenth electric energy wave has a tenth continuously generated by the frequency of the seventeenth electric energy wave Energy density (ED), the frequency of the eleventh to seventeenth wave energy wave energy of between 8.6 ~ 14.7Hz, energy density of the eleventh line between 1.24 ~ 3.09, the energy density of the twelfth line between 1.25~3.13, the thirteenth energy density system is between 1.23 and 3.07, the fourteenth energy density is between 1.20 and 2.99, and the fifteenth energy density is between 1.15 and 2.88. Between 1.15 and 2.88, the seventeenth energy density is between 0.89 and 2.23; wherein the energy density is calculated by an energy density formula: energy density (ED) = log 10 [frequency (freq) × duty cycle emissivity (D%)] × [2 scan width (Width) + 1] × [action time (TT) + 1]. The soothing device of claim 1, wherein the first energy density is 5.50 and the second energy density is 5.02. The soothing device of claim 1, wherein the power wave generating module generates the first power wave and the second power wave in a single frequency scanning mode during the first frequency action period, wherein the first power wave The frequency of the wave is 10009.0 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 45 seconds, and the second power wave frequency is 3009.6 Hz, working. The period emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 50 seconds. The soothing device of claim 1, wherein the third energy density is 4.65, the fourth energy density is 4.60 and the fifth energy density is 4.59. The soothing device of claim 1, wherein the power wave generating module generates the third power wave, the fourth power wave, and the fifth power wave in a single frequency scanning mode during the second frequency action period, Wherein, the frequency of the third electric energy wave is 1067.4 Hz, the working period emissivity (D%) is 70%, the scanning width (Width) is 0 Hz, and the action time (TT) is 60 seconds; The frequency of the fourth electric energy wave is 882.2 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 65 seconds; and the frequency of the fifth electric energy wave is 792.0 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 70 seconds. The soothing device according to claim 1, wherein the sixth energy density is 5.38, the seventh energy density is 5.00, the eighth energy density is 4.26, and the ninth energy density is 4.00 and the tenth The energy density is 4.43. The soothing device of claim 1, wherein the energy wave generating module generates the sixth power wave, the seventh power wave, and the tenth power wave in a scan decreasing mode during the third frequency action period, and A single frequency scanning mode generates the eighth power wave and the ninth power wave, wherein the sixth power wave has a frequency of 606.6 Hz, a duty cycle emissivity (D%) is 70%, and a scan width (Width) is 7Hz, the action time (TT) is 9 seconds; the frequency of the seventh power wave is 529.0Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 3Hz, and the action time (TT) is 17 Second; the frequency of the eighth power wave is 312.4 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 85 seconds; the frequency of the ninth power wave 166.7Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0Hz, the action time (TT) is 90 seconds; and the tenth power wave frequency is 153.4Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 2 Hz, and the action time (TT) is 30 seconds. The soothing device of claim 1, wherein the eleventh energy density is 2.47. The twelfth energy density is 2.50, the thirteenth energy density is 2.46, the fourteenth energy density is 2.39, the fifteenth energy density is 2.31, and the sixteenth energy density is 2.31. The seventeenth energy density is 1.78. The soothing device of claim 1, wherein the energy wave generating module generates the eleventh electric energy wave, the twelfth electric energy wave, and the tenth in a single frequency scanning mode during the fourth frequency acting period a third electric energy wave, the fourteenth electric energy wave, the fifteenth electric energy wave, the sixteenth electric energy wave, and the seventeenth electric energy wave, wherein the eleventh electric energy wave has a frequency of 14.7 Hz and a duty cycle emissivity ( D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 47 seconds; the twelfth power wave frequency is 15.8 Hz, and the duty cycle emissivity (D%) is 70%. The Width is 0 Hz, the action time (TT) is 65 seconds; the frequency of the thirteenth power wave is 15.7 Hz, the duty cycle emissivity (D%) is 70%, and the scan width (Width) is 0 Hz. The action time (TT) is 68 seconds; the frequency of the fourteenth power wave is 13.3 Hz, the duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 70 seconds. The fifteenth power wave has a frequency of 10.3 Hz, a duty cycle emissivity (D%) of 70%, a scan width (Width) of 0 Hz, and a duration of action (TT) of 72 seconds; Frequency is 9.4Hz The duty cycle emissivity (D%) is 70%, the scan width (Width) is 0 Hz, the action time (TT) is 72 seconds, and the seventeenth power wave frequency is 8.6 Hz, and the duty cycle emissivity (D) %) is 70%, the scan width (Width) is 0 Hz, and the action time (TT) is 85 seconds. The soothing device of claim 1, which further comprises three non-energy density effects In the segment, the periods of non-energy density action are respectively between two frequency effects adjacent to each other in the frequency action periods.