CN1101707C - A device for human health care - Google Patents

Abstract

The invention provides a human body medical health care device, which comprises a stimulation device, a detection device and a synchronization device, wherein the stimulation device can stimulate a human body by repeated power, the detection device can detect the heartbeat of the human body, and the synchronization device processes information output by the stimulation device and the detection device so as to adjust the stimulation speed and the heartbeat speed to be the same as each other and further enable the occurrence of the power and the heartbeat speed to be the same as each other.

Description

A device for human health care

The present invention is a device for human health care, which relates to a device for curing diseases by using power. Devices used to reduce pain are medical and health care products.

Since ancient times, Chinese people have used acupuncture to treat various diseases and relieve various ailments. Acupuncture is to stick a silver needle on various acupuncture points of the human body, and then rotate and twist it with hands to treat diseases. The basic principle of acupuncture is to stimulate and rejuvenate people's "Qi" (Qi is the natural healing energy) ), according to modern medical research, the reason why acupuncture can relieve the pain of patients is because acupuncture can release pain-relieving hormones in the brain, which is like a natural anesthetic. system to release renal hormones, which can fight against prostatitis and inflammation, so that wounds can heal quickly and recover. It is a recognized fact that acupuncture can relieve the pain of patients in pain. Regulators have recently announced that acupuncture needles are included in the same category of medical devices as enemas or surgical knives.

Traditionally, acupuncture needles are operated by rotating them. Recently, a newer method that is very popular is to conduct electric current through the needles instead of rotating the needles. The effect produced by the method of electric current is the same as that achieved by the rotation of the needle. There is another treatment method similar to electrical stimulation acupuncture, which is to use electric current to stimulate the skin nerves. This treatment method can greatly relieve the pain of patients with chronic diseases. By sending electric current to the spinal cord, it stimulates the brain nerves to release a A pain-relieving drive to the spine. This kind of treatment machine for electric current stimulation to skin nerves has been used in many hospitals.

Another current stimulation device has applied for a patent in the United States and obtained the patent right. The application number is 4,865,048. This device uses a pair of electrodes, which are placed behind the ears of the patient, and a special electromagnetic wave is applied to the two electrodes. , studies have shown that when patients use this device, the pain caused by drug or alcohol withdrawal can be greatly reduced.

To sum up, it is an effective way to stimulate the human body to relieve pain or treat diseases.

The object of the present invention is to provide a new device that stimulates the human body with a stimulating method to achieve the purpose of medical care. It is stimulated according to the rhythm of the heartbeat of the human body. The human heart controls the blood circulation everywhere on the human body. The parts and functions naturally move with the cycle of the heartbeat. Therefore, the device using this stimulation method stimulates the human body with repeated power to synchronize the heartbeat speed and control the human body stimulation speed, that is, to make the stimulation cycle beat. The same rate as the heartbeat, so as to achieve the effect of medical care.

The present invention is a device for human health care, characterized in that: the device comprises:

A stimulation device capable of stimulating the human body with repetitive dynamics;

A detection device, which can detect the heartbeat of the human body;

A synchronous device processes the information output by the stimulating device and the detecting device, so as to adjust the speed of the stimulation and the heartbeat to be at the same speed at the same time, so that the emergence of power is as fast as the heartbeat.

Wherein the stimulating device includes a sound generator (also called a sound generator or an audio generator), which can generate sound power audible to the human ear;

wherein the stimulating device comprises a neurostimulator, which sends electrical currents to different parts of the human body;

Wherein the stimulating device includes an acupuncture pulse generator, so that the electric current sent out is driven to the acupuncture needle and inserted into the human body;

Wherein the stimulation device includes a skin nerve current stimulation treatment machine (transcutaneous electrical nerve stimulator) through skin nerve stimulation, and the current signal output by the machine can be sent to the spinal cord of the human body with repeated power.

Wherein the detection device includes:

A heartbeat sensor (heart signal sensor and amplifier circuit), used to detect the cycle of human heartbeat, and

A detection circuit (detector), combined with the heartbeat sensor to detect the occurrence time of the highest point in the heartbeat;

Wherein the detection device includes:

an electrocardiogram (ECG) electrode attached to the body, and

A detection circuit is combined with the electrocardiogram electrodes to detect the highest point of the R wave of the electrocardiogram.

Wherein the synchronizing device controls the stimulating device after receiving the moment of the highest point of the R wave to control the timing of its dynamic emergence.

Wherein the detection device includes:

an auditory detector for listening to the sound of a heartbeat, and

A detection circuit, combined with the auditory detector to detect the appearance moment of the loudest heartbeat;

The synchronization device controls the stimulation device to control the timing of its power onset after receiving the loudest heartbeat.

Wherein the detection device includes:

a blood pressure detector, which is used to obtain changes in human blood pressure, and

A detection circuit, in combination with the blood pressure detector, detects the occurrence of the highest point in the blood pressure variation.

The synchronizing device, after receiving the result of the highest point in the blood pressure variation, can control the stimulating device to control the timing of the dynamics.

Wherein the synchronization device includes:

A circuit to control whether the stimulation device is activated or not by producing and generating repetitive control signals;

A delay circuit, according to the highest point in the heartbeat cycle, to determine the position of the control signal,

A timing circuit to determine the duration of the control signal.

Wherein the detection device includes:

a heartbeat detector for detecting the circulation of the heartbeat; and

A detection circuit, in conjunction with the heartbeat detector, detects the occurrence of a particular high point in the heartbeat cycle and generates a detection signal.

Wherein the synchronization device includes:

A delay circuit, after receiving the detection signal, generates different delay signals according to the received detection signal; and

A time circuit generates different control signals to control the activation of the stimulation device after receiving the delay signal, and the time circuit can adjust the time length of the control signals.

Wherein the delay circuit includes:

A signal generating circuit, used to generate a predetermined number of timing signals in each heartbeat cycle;

a signal counter for counting the timing signal;

a decoder circuit, in conjunction with the signal counter, to detect the different amount of the selected signal and output it through the decoder;

a circuit, responsive to the signal output by the decoder, sent to the stimulation device to control the activation of the stimulation device; and

A selection decision circuit, that is, the delay time selection circuit, selects the quantity (number) of the delayed pulse signals by the output signal of the decoder, that is, selects the delay time.

The invention has the advantages of novel equipment, simple device structure, safe and convenient use, good clinical application effect and no side effect.

The present invention has the following drawings:

Fig. 1. is the general schematic diagram of the present invention.

Fig. 2. is the circuit diagram of the delay circuit in Fig. 1.

Figure 3. A circuit diagram of the timing circuit and some stimulation devices in Figure 1.

Figure 4. A portion of an electrocardiogram showing the cycle of different normal heartbeats.

Fig. 5 is the circuit diagram selected when the timing circuit in Fig. 3 is in use.

The numbers in the figure are as follows:

10. Human body 11. Sound maker (sound generator)

12. Sound signal amplifier 13. Loudspeaker

14. Medical equipment 15. Acupuncture pulse generator

16. Transcutaneous electrical nerve stimulator 17. Cable

18. Heartbeat sensor 20. Detection circuit (detector)

21. Voltage comparator 22. Negative output line (also called negative output line)

23. Input line 24. Potentiometer

25. Light-emitting diodes 26. Resistors

27. Delay circuit 28. Time circuit (stimulation time circuit)

30. Input line (R wave input line) 31. Multivibrator

32. Output line (output detection line) 33. Adjustable resistance

34. Capacitor 35. AND gate

36. Hertz oscillator 37. Counter

38. Decoder (also called decoder) 39. Decoder 40. Inverter

41. Multiplexer 42. Multiplexer

43. Hexadecimal method switch 44. OR gate

45. Multivibrator 46. Adjustable resistor

47. Capacitor 48. Output line

49. Stimulating mechanical circuits (excitation circuits) 50. Stimulating mechanical circuits

51. Output line 52. Resistance

53. Capacitor 54. AND gate

54a. Output line 55. Oscillating circuit (oscillator, also called stimulus signal generator)

56. Amplifier 57. Triode

58. Potentiometer 59. Resistor

60. Transformer 61. Transformer second winding (transformer secondary coil)

62. Output terminal 63. Output terminal

64. Cable 70. Signal wave state

Hereby give embodiment and cooperate accompanying drawing to describe in detail as follows:

See also shown in Fig. 1, a kind of device of human health care of the present invention, this device comprises a stimulation device, stimulates a human body 10 with repeated power, Fig. 1 has shown four kinds of different stimulation devices, wherein any one can Stimulation to the human body can be provided. The first stimulating device is a sound maker 11, which produces auditory power within the hearing range of the human body 10. The hearing maker or sound maker 11 includes a sound signal amplifier 12 and a Loudspeaker 13, the position of loudspeaker 13 is to place the sound wave that the human body can hear from loudspeaker 13, and these sound waves are sound beats per second, and the speed of sound beats is the same as The heart rate of the human body 10 is the same, as the user likes, the loudspeaker 13 can also be replaced by earphones.

The second type of stimulation device is a medical device 14. Its neurostimulator is the same as the above-mentioned U.S. Patent No. 4,865,048 invented by Mr. Eckerson. On the nipple-shaped framework on both sides of the head clip, the repetitive current power supplied to the electrode according to the present invention has the same speed as the heartbeat of the human body. As in Mr. Eckerson's patent, nerve stimulation is very effective and can deal with drug or alcohol withdrawal The pain caused by the time, the stimulation of the present invention has the same speed as the heartbeat, so as to enhance the effect of medical treatment.

Another stimulating device is an acupuncture pulse generator 15, whose output point is connected to an acupuncture needle inserted into the human body 10. The acupuncture pulse generator 15 can effectively provide power at the same speed as the heartbeat to the acupuncture needle.

There is also a stimulating device that transmits current to the spinal cord of the human body 10 through electrodes. The stimulating device has a rhythmic mechanism, so that the current transmitted to the spinal cord is a repetitive current, and has the same speed as the heartbeat of the human body 10 .

There is also a stimulating device, which is not shown in Fig. 1. It includes a light generator to produce light power within the range that the human body 10 can feel. Selecting a light power with a certain brightness and wavelength can make the human body calm. Feel.

In addition to the above, there is also a stimulating device that further includes tactile pressure or pressing mechanical devices, so that a moderate pressure is applied to the human body 10, and it is repeated at the same speed as the heartbeat. The pressure can be repeated on the back of the person up, and the speed of flapping is the same as the heartbeat.

In most cases, only one stimulation device will be used to medically treat the human body 10 at a predetermined time, as shown in FIG. At the same time, the output of the stimulation device is inserted into a connection port of the cable 17, and its cable 17 extends to the human body 10. The only exception is that when the stimulation device is a sound maker 11, there is no need to be connected with the cable 17. , is replaced by a loudspeaker 13, which is located within the hearing range of the human body 10. In this case, sound power is input into the human body 10 in the form of a sound wave without any current connection . Another device that does not require a cable connection is a photodynamic mechanical stimulation device, wherein the photodynamic force is delivered to the eyes of a person for photodynamic stimulation, and does not need any electric current to be connected to the human body 10 .

The device of the present invention further includes a sensing device to sense the heart rate of the human body. According to the preferred embodiment shown in FIG. 20 is combined with the heartbeat sensor 18 to check out the special place in the circulation. The heartbeat sensor 18 includes an electrode electrocardiogram attached to the human body 10 to check out the current induced by the heartbeat, or includes a stethoscope to obtain the heartbeat The sound, or a sphygmomanometer is used to know the changes in blood pressure in the human body.

The detection circuit 20 of Fig. 1 comprises a voltage comparator 21, produces a negative direction output line 22, when the signal at the input line 23 is higher than the threshold value predetermined by a potentiometer 24, a light emitting diode (LED) 25 passes through A resistor 26 is connected on the negative output line 22. When it is lit, the LED 25 lets the user know that the heartbeat signal is being checked.

When the sensing device uses an electrode electrocardiograph, the detection circuit 20 can detect the occurrence of the R wave climax of the electrocardiogram signal. When the hearing sensor is used, the detection circuit 20 can detect the climax of the heartbeat sound. When the blood pressure sensor is used , the detection circuit 20 can detect the occurrence of the climax of the blood pressure fluctuation.

The preferred embodiment of Fig. 1 further comprises a synchronizing device and stimulating device (as one of 11, 14, 15 or 16) and detecting device (as one of 18 and 20) to make the physical stimulation with the same speed of the heartbeat by means of The power generated by the stimulation is synchronized with the heartbeat speed detected by the detection device. This synchronization device includes a circuit to generate repeated control signals to control the activation of the stimulation device. The delay circuit 27 is used to determine the correct position of the control signal. According to the detection output And time circuit to determine the time length of the control signal.

Please refer to shown in Fig. 2, it is the representative expression of delay circuit 27 of Fig. 1, the detection output that detection circuit 20 produces is connected by an input line 30, and the input method is to start a monostable multivibrator 31, this The signal on the input line 30 activates the multivibrator 31 to make it produce a positive output signal. On the output line 32, the length of each output signal is controlled by an adjustable resistor 33 and a capacitor 34. Depending on the capacity, according to this example the output signal is about 0.775 seconds.

The output line 32 of the multivibrator 31 signal is to connect an input end of the AND gate 35, and the second input end of the AND gate 35 is to be connected with the 20 Hz oscillator 36, and the oscillator signal period is 0.05 seconds, so that each The length of the multivibrator MV on the output line 32, the AND gate 35 can make the signal of 20 Hz pass from the oscillator 36 to the input end of a 4-bit binary counter 37, each output signal width on the output line 32 Determines the number of oscillator output signals, therefore, the counter 37 can count up to 16, so that each multivibrator MV output signal is synchronized with each heartbeat cycle.

The binary code output QA-QD of counter 37 is to be connected in the input end of 4-16 decoder that two 3-8 decoders 38 and 39 form, when counter 37 counts from 0 to its maximum value, by decoder The 4-16 decoding output lines synthesized by the output terminals Y0-Y7 of 38 and the output terminals Y0-Y7 of the decoder 39 are started one by one in order, and each different value can start a different decoder output value, for example, when When the value in the counter 37 is "0", the output terminal of Y0 of the decoder 38 will be activated; when the value is "1", the output terminal of Y1 of the decoder 38 will be activated; when the value is "2", , the output of Y2 of the decoder 38 will be enabled, and so on, only one output of the decoder will be enabled at any one time, and the activated output is relative to the output that appears in the counter 37. value.

The output terminal Y7 of the decoder 39 is connected back to the “clear” or “reset” input terminal of the counter 37 through an inverter 40, and the counter 37 will return to zero after the start signal output by Y7 of the decoder 39 is completed.

The selection of a specific delay value is determined by one of the 16 output lines of the decoder. Two 8-to-1 multiplexers (i.e., selectors) 41 and 42 are used to jointly form a 16-to-1 multiplexer. Modulator (i.e. selector). The joint decoders 38 and 39 with 16 output lines are respectively connected to the input ends of the multiplexers 41 and 42 correspondingly. The selection of the control input line of the 16-to-1 multiplexer is controlled by a group of four-bit binary address switches A, B, C, and D, which are respectively connected to the selection control connectors A, B of the multiplexers 41, 42 , C, D and ST. The strobe (ST) input is used to select one of the multiplexers 41 and 42, and the four-bit binary address switch 43 is manually adjustable, as shown in FIG. 1 and FIG. 2 .

The output line W of multiplexer 41 and 42 is to be connected on two input ends of an OR gate 44, and the output end of this OR gate 44 is to be connected to an input end of a monostable multivibrator 45, when The multivibrator (MV) 45 is triggered when the leading edge of the multiplexer output signal appears on the OR gate 44 output line. The width of each signal generated by the multivibrator 45 is determined by an adjustable resistor 46 and a capacitor 47 connected thereto. Adjusting the resistance can adjust the time of the output signal of the multivibrator 45 to reach a value between 0.001 second and 0.05 second. The output signal is output by the multivibrator 45 on the output line 48. The detector output signal is related.

The time delay circuit 27 shown in Figure 2 is used to detect the output signal from the detection circuit 20 to produce a time delay signal. According to the detected signal, each of its time delay signals has a selected time delay. Therefore, the repetitive power When placed on the human body 10, it is not necessary to stimulate the human body at the peak of the heartbeat signal. By choosing a suitable time delay, the stimulation power can be applied to the human body at any time during the heartbeat cycle. In other words, each heartbeat cycle has a stimulating power, but this power does not need to appear at the highest point of the heartbeat, and can be delayed to any time in the heartbeat cycle by the delay circuit 27, but the frequency of stimulating power still remains the same as The heartbeat frequency of the detected person is the same.

The part comprising 31-44 shown in Fig. 2 is referred to as the first part of the delay circuit hereinafter, the adjustable time delay is between 0-0.05 seconds, and its segmentation is controlled by the hexadecimal switch 43. The part represented by the multivibrator 45 is called the rear part of the time delay circuit 27, which provides an adjustable accurate and precise time adjustment accordingly. By increasing the value of the adjustable resistor 46, the adjusted time delay distance can be It varies from 0 to 0.05 seconds, where 0.05 seconds is relative to the selected value in hexadecimal notation.

The approximately delayed signal selected at the output of OR gate 44 causes multivibrator 45 and the finely delayed signal produced by multivibrator 45 is delivered to output line 48 of multivibrator 45 .

Please refer to shown in 3, the structure of time circuit 28 is as shown in Figure 1, and this time circuit 28 is to control any stimulation device selected from the delay signal that time delay circuit 27 produces, from time delay circuit 27 The delayed signal is transmitted to the output line 48, and the timing circuit 28 generates a control signal or controls the power to be transmitted to the stimulation device after receiving the above signal.

As shown in Figure 3, the delayed signal on the output line 48 is electrically connected to the input line of another monostable multivibrator 50, each delayed signal on the output line 48 causes the multivibrator 50 to use To produce a signal with a predetermined stimulus time length at the output line 51 of the multivibrator 50, the length is based on the value of the adjustable resistor 52 and the capacitance value of the capacitor 53 connected to the input terminal of the multivibrator 50 Depending on the length of time that can be varied between 0.001 and 0.01 or more points by adjusting the resistors, the multivibrator 50 is activated by the trailing edge of the delayed signal on input line 48 .

The signal controlling time on the output line 51 of the multivibrator 50 is electrically connected to the first input terminal of the AND gate 54, and the second input terminal of the AND gate 54 is electrically connected to an oscillating circuit 55, which produces an oscillating signal, the The oscillation frequency of the oscillation circuit 55 is adjustable within a limited time, for example:

When the time control signal appears on the output line 51 every time, the AND gate 54 can make the oscillation signal pass to the output line 54a of the AND gate 54 from the oscillation circuit 55, as no time control signal appears on the output line 51, the output line 51 is In a low state, the output line of AND gate 54 is disabled so that no oscillating signal is applied to output line 54a.

Fig. 3 has shown the representative circuit diagram of stimulating device more, and it can represent stimulating unit 14,15,16 of Fig. 1, and this stimulating mechanical circuit 49 comprises an amplifier 56, and it has a triode 57, and the electrode part of triode 57 is connected to a On the potentiometer 58, it receives the oscillating signal from the AND gate 54 in a resistive manner. The potentiometer 58 is used to control the amplitude of the signal and is connected to the electrodes of the body stimulator. The output circuit of the amplifier 56 includes a strengthening transformer 60, the transformer The second winding (secondary coil) 61 is connected to the output terminals 62 and 63, and then connected to the cable 17 (as shown in Figure 1), which is connected to the human body 10, for the stimulation combination 14 and 16, The cables are connected to the electrodes, which are located in the part that is in contact with the body 10, for the stimulation unit 15, the cables 17 are connected to the acupuncture needles inserted into the body and a current return electrode in contact with the body.

According to the above, there are multiple options to provide stimulation signals to the human body. The selection decision is which stimulation device will be used. The first choice is to omit the function of the oscillator circuit 55 and the amplifier 56. The timing control signal is directly provided in The oscillator output line 51 is connected to the input line of one of the special stimulation components 11, 14, 15 or 16 by connecting the connecting cable 64 shown in Fig. 1. In some cases, the signal of the oscillator output line 51 can be directly Receive cable 17 and receive human body.

Another option is to use an oscillating circuit and electrically connect the oscillating signal to the output line 54a of the AND gate to directly connect to the input end of the stimulation combination or connect to the cable and connect to the human body 10. For example, the oscillating signal can be electrically connected to the output line 54a. The sound maker 11 is connected via the connecting cable 64 .

Another option is to use the amplifier 56 shown in Figure 3 to connect the output terminals 62 and 63 directly to the cable 17, which is connected to the human body 10. This option is suitable for acupuncture needles, and the acupuncturist has no special tools except acupuncture Used.

Figure 4 shows a portion of an electrocardiogram showing a complete heart cycle from the first R-wave high to the next R-wave high. It can be seen from the chart that the time from the high point to the next high point takes 0.98 seconds, which is equal to a heart rate of 67.4 beats per minute.

The human heartbeat cycle includes two phases, which are systole and diastole. In the systole stage, the left and right myocardium near the right ventricle will contract and the left and right ventricles will also contract. The contraction of the right ventricle causes blood to pass through the pulmonary artery and enter the capillaries of the lungs. The contraction of the heart causes blood to pass through the aorta and from there That flows to different arterioles throughout the body, during diastole, when the heart muscle relaxes and blood flows from the veins back to the left and right ventricles.

The regular contraction and relaxation of the myocardium can also produce regular changes in blood pressure, which can be felt when measuring the human pulse. The heart can maintain a regular beating due to a regular current from the ventricular node of the right atrium and Neuromuscular fibers passing through the ventricular segment to the structure of human muscle. If the electrode is applied to an appropriate position of the body, the record of the current can be obtained from it. This record is called an electrocardiogram and Figure 4 is a part of the electrocardiogram. It can be seen from the figure that the first high point appears in the electrocardiogram The beginning of systole is usually called R wave. When electrocardiogram equipment is used to sense the beating, these R waves are detected by the detection circuit 20 shown in FIG. The voltage supply comparator 21 is located at the beginning of the R wave and can just produce the wave detection signal on the output line 30 of the detection circuit. This amplitude prevents other signals of the electrocardiogram from making a detection output signal.

As shown in FIG. 5, the signal waveforms 70 produced by the timing circuit 28 of FIG. One point of the control time signal is when the highest point of the R wave appears at the same time, the time between the two R waves and the relationship between the time control signal of wave state 70 is equal to the time delay provided by the delay circuit in Fig. 2 Finally, since the time delay is adjustable, the leading edge signal of wave state 70 can start at any time during the heartbeat cycle.

The occurrence of the trailing edge of the time control signal of the wave state 70 is determined by the multivibrator when RC is constant, in other words, the resistance value of the adjustable resistor 52 is set, as shown in Figure 5, the trailing edge The onset time can be adjusted to provide the desired length of power to the stimulation device.

The wave state 71 shown in FIG. 5, the period of the signal passing to the wave state 71 appearing on the output line 54a of the AND gate 54 of FIG. 3 is opposite to the period control signal of the wave state 70. The up and down signal seen by the wave state 71 has a frequency determined by the oscillator 55 shown in FIG. 3 . In this embodiment, the frequency range is 5000-20000 Hz.

The signal represented by wave state 71 is amplified from amplifier 56 shown in Figure 3 and electrically connected to amplifier output terminal 62 or 63 to any stimulation device. For example, using an acupuncture needle, the signal of wave state 71 is electrically connected to the cable 17 to the acupuncture needle, which is inserted into the human body 10 .

Since the electric power transmitted to the acupuncture needles is manufactured at the same speed as the heartbeat, the stimulation on the human body is in harmony with the natural rhythm of the heartbeat, so that the stimulation power at the same speed as the heartbeat has a visible improvement, only when the current is continuously applied for comparison , This is like an adult pushing a child on a swing. When swinging is a natural back and forth swing, the result will be more comfortable.

In Figure 1-Figure 3, some devices can be purchased as integrated circuits on the market. The following chart lists the different integrated circuit models on the market:

Circuit Circuit Model of Integrated Circuit Manufacturer

Voltage Comparator 74LM193 International Brand

Binary Counter 74HC193 Toshiba

Decoder (Decoder) 74HC138 Toshiba

Multivibrator 74HC151 Toshiba

Monostable Multivibrator 74HC221 Toshiba

AND Gate 74LS08 Signefics

OR Gate 74HC32 Signefics

Phase Shifter 74LS04 Signefics

Claims (12)

1. the device of medical-therapeutic treatment of human body health care, it is characterized in that: this device includes:

One stimulating apparatus can stimulate human body with multiple power;

One checkout gear can detect the heart beating of human body;

One device is synchronously handled the information of stimulating apparatus and checkout gear output, reaches the speed that will stimulate with heart beating and is adjusted into simultaneously with fast, and the appearance that mat makes power and the speed of heart beating are together soon.

2. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this stimulating apparatus comprises audition manufacturing device, and this manufacturing device can produce the audio power that people's ear can be heard.

3. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this stimulating apparatus comprises a nerve stimulator, makes the electric current power the sent different piece in the human body.

4. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this stimulating apparatus comprises an acupuncture pulse generator, makes the electric current power sent to the acupuncture syringe needle and be inserted in the human body.

5. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this stimulating apparatus comprises a cutaneous nerve galvanism therapy apparatus, and the current signal that this machine is exported can be delivered to the spinal cord of human body with multiple power.

6. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this checkout gear comprises:

One heart beating induction apparatus is used for the circulation of human body heart beating, and

One detecting circuit is united to detect the peak time of occurrence in the heart beating with the heart beating induction apparatus.

7. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this checkout gear comprises:

One electrocardiogram electrode, this electrode is attached on the human body, and

One detecting circuit is united the peak of the R ripple that detects electrocardiogram with ECG electrode;

Wherein this synchronizer is controlled this stimulating apparatus to control the time that its power occurs after the moment of receiving R ripple peak.

8. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this checkout gear comprises:

One audition detector is used for listening to the sound of people's heart beating, and

One detecting circuit is united the most loud the going out now that detects people's heartbeat with hearing detector;

This synchronizer is receiving that this stimulating apparatus of the most loud back control of heart beating is to control the time that its power occurs.

9. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this checkout gear comprises:

One blood pressure detector is used for obtaining the variation of human blood-pressure, and

One detecting circuit is united the appearance that detects the peak in the blood pressure with the blood pressure detector;

Behind the result of the peak of this synchronizer in receiving this blood pressure, can control the time that this stimulating apparatus occurs with control power.

10. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this synchronizer comprises:

One circuit is controlled stimulating apparatus with the control signal of making the generation repetition and whether is started;

One delay circuit according to the peak in people's heart beating circulation, to determine the position of control signal, reaches

One time circuit is to determine the time span of control signal.

11. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 1, it is characterized in that: wherein this checkout gear comprises:

One heart beating detector is used for detecting the circulation of people's heart beating; And

One detecting circuit is united the appearance that detects the high especially point in the heart beating circulation and is made the generation detection signal with beat detector;

Wherein this synchronizer comprises:

One delay circuit produces different time delayed signals according to the detection signal manufacturing of being received after receiving this detection signal; And

One time circuit is made the startup that different control signals is controlled stimulating apparatus after receiving time delayed signal, it is permanent that this time circuit can be adjusted time of control signal.

12. according to the device of the described a kind of medical-therapeutic treatment of human body health care of claim 11, it is characterized in that: wherein the input of this delay circuit is connected with detecting circuit, outfan connect hours circuit; This delay circuit includes:

One signal is made circuit, in each heart beating circulation, is used for making the timing signal of a predetermined number;

One event counter is used for calculating this timing signal;

One decoder circuit, with this event counter unite detect selected signal sum on enumerator appearance and pass through decoder output signal;

One circuit is delivered to the startup of stimulating apparatus with the control stimulating apparatus to the signal reaction of decoder output; And

One selects decision-making circuit, and just delay time is selected circuit, through output signal of decoder, selects the quantity of its delay pulse signal, promptly selects the time of time-delay.

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