CN101530647A - Transcranial magnetoelectric depression therapeutic apparatus - Google Patents

Abstract

The invention provides a trabscranial magnetoelectric depression therapeutic apparatus, comprising a pair of earphones, a beam connected between the earphones, at least a magnet, at least a pair of electrodes and an internal circuit; wherein, the earphones and the electrodes are connected with the internal circuit. The technical proposal is as follows: trabscranial magnetoelectricity and audio signals directly act on heads and auditory systems of human; stereo superposition electric field formed in certain parts of brain by trabscranial magnet can ensure the parts to generate weak induced current so as to self stimulate the parts to secrete dopamine and restore the function of self secreting neurotransmitter such as dopamine by the parts; the trabscranial magnet directly stimulates neutral clusters of basal ganglia of thalamus, thus strengthening the effects of the trabscranial magnet; the audio signals with special rhythm act on the auditory systems of human, which can promote human to enter into meditation and tempt secretion of the neurotransmitter such as dopamine in the brain, thus further strengthening the effects of the trabscranial magnet. The trabscranial magnetoelectricity and audio signals integrate three effects into one, supplement and complement each other and promote each other, and the therapeutic effect on depression and insomnia is unreachable for any single function.

Description

Transcranial magnetoelectric depression therapeutic apparatus

One, technical field

The present invention relates to a kind of transcranial magnetoelectric depression therapeutic apparatus, specifically is treatment of diseases instruments such as a kind of control depression, insomnia, neurasthenia.

Two, background technology

Depression is meant the dysfunction of certain offending mental state and certain organ, its degree can be from slight sorrow to severe despair, suicidal attempt etc., be a kind of common spiritual pathological state or syndrome, the main diseases of its initiation is multiple because of having, as society and environmental factors, inherited genetic factors, the medicine factor, physical disease and personality quality etc., owing to these inducements have caused maincenter norepinephrine (noradrenaline, NA) and 5-hydroxy tryptamine, the level of these monoamine neurotransmitters of dopamine cross low and function of receptors low, thereby show foregoing many clinical symptoms, depression has sickness rate height and age of onset characteristics widely, having caused for people's work and life seriously influences. and depression has become the important spiritual mental illness that the whole world is paid close attention at present, the early discovery of depression, the early treatment can prevent the irreversible infringement of central nervous system, at present clinical mainly is to adopt Drug therapy and psychotherapy, when depression very serious, when life-threatening or patient can't take medicine, can also adopt electric shock treatment, and Drug therapy has it to take medicine for a long time and medicine has the deficiency of side effect, electric shock treatment also has its physiology side reaction, the psychotherapy is owing to the more high restriction that is subjected to economic condition of its expense, and these problems also do not have better effective solution at present.

Three, summary of the invention

The object of the present invention is to provide a kind of stable performance, safe and reliable, easy to operate, can in hospital clinic, use, be more suitable for promoting in the family, diseases such as depression, insomnia, neurasthenia had the transcranial magnetoelectric depression therapeutic apparatus of excellent curative.

The purpose on the present invention ground is achieved in that it comprises at least one Magnet J, at least one pair of electrode B, a pair of earphone A and is connected in crossbeam I between the earphone A, and it also comprises internal circuit n, and earphone A, electrode B link to each other with internal circuit n.

The present invention can also comprise some architectural features like this:

1, described Magnet J is at least one, and Magnet J places the bottom surface of crossbeam (I), and crossbeam I can the bi-telephone A line of centres be the axle center rotation, and rotating range is to be minimum point with head front end Yintang acupoint, by counterclockwise rotatable 180 degree.

2, described electrode B is at least a pair ofly, places the outside of a pair of earphone A respectively by flexible pipe, and the connected mode of electrode B and earphone A is that rotating shaft is connected, thereby guarantees that the electrode B on the earphone of the left and right sides can contact any point of head left and right region territory skin respectively.

3, be respectively arranged with audio-frequency function on the described a pair of earphone A and start display lamp E, volume enhancing button H, the weak button F of volume down, pulse current function on switch S 1, pulse current function on display lamp D3.

4, described internal circuit n is made of DC power supply circuit 1, digital audio-frequency player circuit 2, pulse signal generation circuit 3, booster circuit 4 and pulse current output circuit 5; The output termination digital audio-frequency player circuit 2 of described DC power supply circuit 1, pulse signal generation circuit 3 and booster circuit 4, another input of an output termination booster circuit 4 of pulse signal generation circuit 3,5 one inputs of output termination pulse current output circuit of booster circuit 4, two outfans of pulse signal generation circuit 3 connect two inputs of pulse current output circuit 5 respectively, pulse current output circuit 5 carries out this two pulse signals to connect the utmost point 1 of point electrode B and another utmost point 2 of point electrode B after the power amplification, the utmost point 1 of point electrode B and another utmost point 2 of point electrode B act on head, two a pair of earphone A of output termination of digital audio-frequency player circuit 2.

5, described DC power supply circuit 1 is by rechargeable battery circuit U 2, reserve battery DC1, the first diode D1, the second diode D2 forms, the cathode output end of rechargeable battery circuit U 2 connects the positive pole of the first diode D1, the positive pole of reserve battery DC1 connects the positive pole of the second diode D2, the first diode D1, the negative pole connection of the second diode D2 also connects the power input positive pole of digital audio-frequency player circuit 2 and the moved end of pulse current function on switch S 1, the negative pole of the cathode output end of rechargeable battery circuit U 2 and reserve battery DC1 is connected and ground connection, the unidirectional current of DC power supply circuit 1 output 3V～4V.

6, described digital audio-frequency player circuit 2 is the digital circuits with digital audio file download, storage, playing function.

7, described pulse signal generation circuit 3 is by pulse current function on switch S 1, chip U1, first to fourth capacitor C 1-C4, first resistance R 1, the 2nd R2, light emitting diode D3, crystal oscillator Y1 forms, the moved end of pulse current function on switch S 1 connects the cathode output end of DC power supply circuit 1, one end of quiet termination first resistance R 1 of pulse current function on switch S 1, one end of the 9th resistance R 9 of booster circuit 4, one end of the inductance L 1 of booster circuit 4, the positive pole of the other end sending and receiving optical diode D3 of first resistance R 1, the minus earth of light emitting diode D3, the foot 4 of chip U1 connects the end of crystal oscillator Y1 and an end of the 3rd capacitor C 3, the foot 5 of chip U1 connects the other end of crystal oscillator Y1 and an end of the 4th capacitor C 4, the other end of the 3rd capacitor C 3 and the 5th capacitor C 5 connects together and ground connection, the foot 11 of chip U1 connects an end of the 3rd resistance R 3 of pulse current output circuit 5, the foot 9 of chip U1 connects an end of the 4th resistance R 4 of pulse current output circuit 5, the foot 14 of chip U1 connects an end of the tenth resistance R 10 of booster circuit 4, the foot 20 of chip U1 connects an end of first capacitor C 1, the positive pole of second capacitor C 2 and power supply VCC, the foot 1 of chip U1 connects an end of second resistance R 2 and the negative pole of second capacitor C 2, the other end of the other end of second resistance R 2 and first capacitor C 1 is connected and ground connection, foot 10 ground connection of chip U1, other foot of chip is unsettled; Chip U1 is 89C2051, storage program among the chip U1, and first capacitor C 1, second capacitor C 2 and second resistance R 2 are formed the reset circuit of U1, and crystal oscillator Y1, the 3rd capacitor C 3 and the 4th capacitor C 4 are formed the clock circuit of U1.

8, described pulse current output circuit 5 is by the 3rd to the 6th resistance R 3-R6, first to the 6th audion Q1-Q6 forms, the foot 11 of the chip U1 of one termination pulse signal generation circuit 3 of the 3rd resistance R 3, the base stage of another termination first audion Q1 of the 3rd resistance R 3, the colelctor electrode of the first audion Q1 connects an end of the 5th resistance R 5, the base stage of the base stage of the 3rd audion Q3 and the 5th audion Q5, the emitter stage of the first audion Q1 connects emitter stage and the ground connection of the second audion Q2, one end of another termination the 6th resistance R 6 of the 5th resistance R 5, the colelctor electrode of the 3rd audion Q3, the slider of the potentiometer W1 of the colelctor electrode of the 4th audion Q4 and booster circuit 4, the colelctor electrode of another termination second audion Q2 of the 6th resistance R 6, the base stage of the base stage of the 4th audion Q4 and the 6th audion Q6, the colelctor electrode of the colelctor electrode of the 5th audion Q5 and the 6th audion Q6 is connected and ground connection, the base stage of one termination, the second audion Q2 of the 4th resistance R 4, the foot 9 of the chip U1 of another termination pulse signal generation circuit 3 of the 4th resistance R 4, the emitter stage of the 3rd audion Q3 connects the emitter stage of the 5th audion Q5 and is connected with the utmost point 1 of right point electrode B, and the emitter stage of the 4th audion Q4 connects the emitter stage of the 6th audion Q6 and is connected with another utmost point 2 of left point electrode B.

9, described booster circuit 4 is by the 7th to the tenth resistance R 7～R10, the 8th audion Q8, the 7th audion Q7, the 6th capacitor C 6, the 5th capacitor C 5, first inductance L 1, the 4th diode D4 and potentiometer W1 form, the foot 14 of the chip U1 of one termination pulse signal generation circuit 3 of the tenth resistance R 10, the base stage of another termination the 8th audion Q8 of the tenth resistance R 10, the colelctor electrode of the 8th audion Q8 connects the base stage of an end and the 7th audion Q7 of the 9th resistance R 9, one end of the other end of the 9th resistance R 9 and first inductance L 1 is connected and connects power supply, the colelctor electrode of the 7th audion Q7 connects the other end of first inductance L 1 and the positive pole of the 4th diode D4, the emitter stage of the 7th audion Q7 connects the emitter stage of the 8th audion Q8, one end of the 6th capacitor C 6, the negative pole of the 5th capacitor C 5, one end and the ground connection of the 7th resistance R 7, the 4th diode (D4) negative pole connects the other end of the 6th capacitor C 6, the positive pole of the 5th capacitor C 5, one end of the 8th resistance R 8, the end of another termination potentiometer W1 of the 8th resistance R 8, another termination of potentiometer W1 connects the other end of the 7th resistance R 7, and the slider of potentiometer W1 connects the other end of the 5th resistance R 5 of pulse current output circuit 5, one end of the 6th resistance R 6, the colelctor electrode of the 3rd audion Q3, the colelctor electrode of the 4th audion Q4.

The invention provides a kind of depression (insomnia) therapeutic instrument.This therapeutic instrument is to be the basis according to modern neurological, neural electrophysiology, psychology, biophysics, magnetobiology and clinical encephalopathy therapeutics, transcranial magnetoelectric and audio signal are directly acted on people's head and auditory system, can make this position produce faint faradic current through the formed three-dimensional superposition of electric field of cranium magnetic specific part in brain, can play the function of neurotransmitteies such as this position secretion dopamine of self-excitation and this position autocrine dopamine of recovery; 8-13Hz directly stimulates the neural group at basal nuclei position, thalamus position through the cranium electricity, has strengthened the effect through cranium magnetic; And the audio signal of the special rhythm and pace of moving things acts on people's auditory system, can impel the people to enter the meditation state, lures the secretion of neurotransmitteies such as the interior dopamine of brain into, has further strengthened the effect through the cranium electricity again.Triple effect unification supplements and complements each other, mutually promote, the effect of diseases such as its Comprehensive Treatment depression, insomnia, neurasthenia be any simple function can't reach.Stable performance of the present invention, safe and reliable, easy to operate can be used in hospital clinic, is more suitable for promoting in the family.

The guiding theory of the technical scheme that the present invention provides is: can make this position produce faint faradic current through the formed three-dimensional superposition of electric field of cranium magnetic specific part in brain, can play the function of neurotransmitteies such as this position secretion dopamine of self-excitation and this position autocrine dopamine of recovery; 8-13Hz directly stimulates the neural group at basal nuclei position, thalamus position through the cranium electricity, has strengthened the effect through cranium magnetic; And the audio signal of the special rhythm and pace of moving things acts on people's auditory system, can impel the people to enter the meditation state, lures the secretion of neurotransmitteies such as the interior dopamine of brain into, has further strengthened the effect through the cranium electricity again.The triple effect unification, supplement and complement each other, mutually promote, its Comprehensive Treatment depression, insomnia, the effect of diseases such as neurasthenia be any simple function can't reach, can improve the metabolism of cerebral tissue, quicken the Biochemical processes of brain cell, change neurotransmitter secretion and enzyme system activity, make Na+ in the brain, K+, Cl-wait the mobility of charged ion to strengthen, changed transmembrane potential, strengthen the permeability of cell membrane, promote the exchange of the inside and outside material of cell membrane, synthetic and decomposition waits biochemical reaction, the synthetic and release of accelerator nerve system monoamine neurotransmitter, bring out and strengthen the α E.E.G, activation is in the brain cell of inhibitory state, disturbs and suppresses unusual brain, the generation of brain magnetic and propagation improve the blood supply and the anaerobic condition of cerebral tissue, regulate central nervous system's level of activation, relieve muscle spasms, improve the immunity of human body, distend the blood vessels and reduce Peripheral resistance, and then reach calm, calm the nerves, hypnotic and antidepressant, purpose antianxity.

In order to inquire into the clinical efficacy of transcranial magnetoelectric depression therapeutic apparatus to depression, insomnia, the Asia-Europe brain science academy in Heilongjiang Province is with reference to CCMD-2-R depression diagnostic criteria, according to including standard, exclusion standard, rejecting case standard in, select 60 routine patients with depression (wherein 45 people suffer from serious insomnia) to carry out clinical preliminary observation.Wherein 30 examples are organized in treatment, adopt the therapeutic instrument treatment that combines with oral fluoxetine; Matched group 30 examples adopt oral fluoxetine to treat.The clinical observation data are as follows:

Curative effect relatively before and after table 1 treatment group and the treatment of control group

	The example number	Recovery from illness	Marked improvement	Progressive	Invalid	Total effective rate (%)
							Treatment group matched group	30 30	19 7	7 8	3 9	1 6.	96.67 80.00

HAMD scoring comparison before and after table 2 treatment group and the treatment of control group (x ± s)

	The example number	Before the treatment	Treatment	2 weeks of back	4 weeks	6 weeks	Subtract the branch rate
								And group	30	34.77±5.61	21.59±5.40*	15.32±5.63	8.14±5.91	0.7703±0.1486

The acusector group	30	32.18±5.36	25.27±4.90*	14.41±3.20	7.45±2.87	0.7689±0.0853
							t		1.57	2.37	0.66	0.49	0.0383
P		>0.05	<0.05	>0.05	>0.05	>0.05

* with before the treatment compare P＜0.01

SDS scoring comparison before and after table 3 treatment group and the treatment of control group (x ± s)

	The example number	Before the treatment	Treatment	2 weeks of back	4 weeks	6 weeks	Subtract the branch rate
								And group	30	68.58±6.88	55.42±6.19*	46.82±5.49	34.38±6.70	0.7918±0.1366
The acusector group	30	71.65±7.81	59.26±4.19*	46.82±4.19	32.67±3.56	0.8245±0.0883
							t		1.38	2.26	0	1.06	0.95
P		>0.05	<0.05	>0.05	>0.05	>0.05

* with before the treatment compare P＜0.01

The SAS scoring relatively before and after table 4 treatment group and the treatment of control group

	The example number	Before the treatment	Treatment	2 weeks of back	4 weeks	6 weeks	Subtract the branch rate
								And group	30	58.41±4.26	46.83±4.39*	36.48±4.34	30.40±4.09	0.843±0.0913
The acusector group	30	61.02±11.09	51.01±9.90*	40.28±5.39	30.20±2.27	0.8363±0.1028
							t		0.92	2.22	2.56	0.17	0.23
P		>0.05	<0.05	<0.05	>0.05	>0.05

* with before the treatment compare P＜0.01

Untoward reaction: the nauseating symptom of 1 example appears in the treatment group, disappears after 1 day; 12 routine malaise symptoms appear in matched group, and wherein the symptom of feeling sick appears in 3 examples, and headache, anxiety, insomnia appear in 7 examples, and trembling appears in 2 examples, dizzy symptom, and drug withdrawal disappeared after 1-3 days.

Conclusion: above clinical data shows that treatment group curative effect is better than matched group.This shows that transcranial magnetoelectric depression therapeutic apparatus all has notable therapeutic effect to depression, insomnia, the untoward reaction that has alleviated Drug therapy simultaneously is a kind of safer, effective treatment means.

Four, description of drawings

Fig. 1, Fig. 2 form sketch map for transcranial magnetoelectric depression therapeutic apparatus external structure of the present invention;

Fig. 3 is a transcranial magnetoelectric depression therapeutic apparatus crossbeam rotating range sketch map of the present invention;

Fig. 4 is a transcranial magnetoelectric depression therapeutic apparatus electrode rotating range sketch map of the present invention;

Fig. 5 is transcranial magnetoelectric depression therapeutic apparatus internal structure sketch map of the present invention and schematic block circuit diagram;

Fig. 6 is the circuit diagram of transcranial magnetoelectric depression therapeutic apparatus of the present invention;

Five, the specific embodiment

The invention will be further described below in conjunction with the drawings and specific embodiments, is not limitation of the invention.

As shown in Figure 1 and Figure 2, this transcranial magnetoelectric depression therapeutic apparatus structure is formed and is comprised at least one Magnet J, at least one pair of electrode B, a pair of earphone A and be connected in crossbeam I between the earphone A, it also comprises internal circuit n, and earphone A, electrode B link to each other with internal circuit n.

As shown in Figure 3, described Magnet J is at least one, and Magnet J places the bottom surface of crossbeam (I), and crossbeam I can the bi-telephone A line of centres be the axle center rotation, and rotating range is to be minimum point with head front end Yintang acupoint, by counterclockwise rotatable 180 degree.

As shown in Figure 4, described electrode B is at least a pair of, place the outside of a pair of earphone A respectively by flexible pipe, and the connected mode of electrode B and earphone A is that rotating shaft is connected, thereby guarantees that the electrode B on the earphone of the left and right sides can contact any point of head left and right region territory skin respectively.

As shown in Figure 5 and Figure 6, internal circuit n is made of DC power supply circuit 1, digital audio-frequency player circuit 2, pulse signal generation circuit 3, booster circuit 4 and pulse current output circuit 5.

The output termination digital audio-frequency player circuit 2 of DC power supply circuit 1, pulse signal generation circuit 3 and booster circuit 4, dc source is provided for these circuit, another input of an output termination booster circuit 4 of pulse signal generation circuit 3, high frequency voltage boosting pulse signal is provided for booster circuit 4,5 one inputs of output termination pulse current output circuit of booster circuit 4, for pulse current output circuit 5 provides dc high voltage, two outfans of pulse signal generation circuit 3 connect two inputs of pulse current output circuit 5 respectively, for pulse current output circuit 5 provides two pulse signals, pulse current output circuit 5 carries out this two pulse signals to connect after the power amplification utmost point 1 and the B-2 of a pair of point electrode B, the utmost point 1 of point electrode B and B-2 act on head and play the treatment of diseases effect, export two earphone A1 of termination and A2, particular audio signal is acted on user ear play the corresponding treatment effect for two of digital audio-frequency player circuit 2.

As shown in Figure 6, DC power supply circuit 1 is made up of rechargeable battery circuit U 2, reserve battery DC1, diode D1, diode D2, the cathode output end of rechargeable battery circuit U 2 connects the positive pole of diode D1, the positive pole of reserve battery DC1 connects the positive pole of diode D2, the negative pole connection of diode DC1, DC2 also connects the power input positive pole of digital audio-frequency player circuit 2 and the moved end of pulse current function on switch S 1, the negative pole of the cathode output end of rechargeable battery circuit U 2 and reserve battery DC1 is connected and ground connection, the unidirectional current of DC power supply circuit 1 output 3V～4V.

As shown in Figure 6, digital audio-frequency player circuit 2 is meant the digital circuit with digital audio file download, storage, playing function, as MP3 player circuit etc.

As shown in Figure 6, pulse signal generation circuit 3 is by pulse current function on switch S 1, chip U1, four capacitor C 1-C4, resistance R 1, R2, light emitting diode D3, crystal oscillator Y1 forms, the moved end of pulse current function on switch S 1 connects the cathode output end of DC power supply circuit 1, the end of the quiet terminating resistor R1 of pulse current function on switch S 1, one end of the resistance R 9 of booster circuit 4, one end of the inductance L 1 of booster circuit 4, the positive pole of the other end sending and receiving optical diode D3 of resistance R 1, the minus earth of light emitting diode D3, the foot 4 of chip U1 connects the end of crystal oscillator Y1 and an end of capacitor C 3, the foot 5 of chip U1 connects the other end of crystal oscillator Y1 and an end of capacitor C 4, the other end of capacitor C 3 and capacitor C 5 connects together and ground connection, the foot 11 of chip U1 connects an end of the resistance R 3 of pulse current output circuit 5, the foot 9 of chip U1 connects an end of the resistance R 4 of pulse current output circuit 5, the foot 14 of chip U1 connects an end of the resistance R 10 of booster circuit 4, the foot 20 of chip U1 connects an end of capacitor C 1, the positive pole of capacitor C 2 and power supply VCC, the end of the foot 1 connecting resistance R2 of chip U1 and the negative pole of capacitor C 2, the other end of the other end of resistance R 2 and capacitor C 1 is connected and ground connection, foot 10 ground connection of chip U1, other foot of chip is unsettled.The model of chip U1 is 89C2051, storage program among the chip U1, C1, C2 and R2 form the reset circuit of U1, Y1, C3 and C4 form the clock circuit of U1, when pulse current function on switch S 1 closure, the pulse current function on, light emitting diode D3 lights, the pulse signal of the foot 11 of chip U1 and two groups of opposite each other low amplitude value of foot 9 outputs, chip U1 is by the voltage boosting pulse signal of foot 14 to booster circuit 4 output high frequencies.

As shown in Figure 6, pulse current output circuit 5 is by four resistance R 3-R6, six audion Q1-Q6 form, the foot 11 of the chip U1 of one termination pulse signal generation circuit 3 of resistance R 3, the base stage of another termination audion Q1 of resistance R 3, the end of the colelctor electrode connecting resistance R5 of audion Q1, the base stage of the base stage of audion Q3 and audion Q5, the emitter stage of audion Q1 connects emitter stage and the ground connection of audion Q2, the end of the other end connecting resistance R6 of resistance R 5, the colelctor electrode of audion Q3, the slider of the potentiometer W1 of the colelctor electrode of audion Q4 and booster circuit 4, the colelctor electrode of another termination audion Q2 of resistance R 6, the base stage of the base stage of audion Q4 and audion Q6, the colelctor electrode of the colelctor electrode of audion Q5 and audion Q6 is connected and ground connection, the base stage of one termination audion Q2 of resistance R 4, the foot 9 of the chip U1 of another termination pulse signal generation circuit 3 of resistance R 4, the emitter stage of audion Q3 connects the emitter stage of audion Q5 and is connected with the utmost point 1 of point electrode B, the emitter stage of audion Q4 connects the emitter stage of audion Q6 and is connected with another utmost point 2 of point electrode B, when make pulse function of current starting switch S1, the pulse signal of the foot 11 of chip U1 and two groups of opposite each other low amplitude value of foot 9 outputs, when foot 9 output high level feet 11 output low levels, the Q2 conducting, Q1 ends, thereby Q4, Q5 ends, Q3, the Q6 conducting, make the pulse signal that produces a reverse high amplitude between the utmost point 1 of point electrode B and the B-2, when foot 9 output low level feet 11 output high level, Q2 ends, the Q1 conducting, thereby Q4, the Q5 conducting, Q3, Q6 ends, make the pulse signal that produces the high amplitude of a forward between the utmost point 1 of point electrode B and the B-2, under the control of chip U1, produce the pulse current of a high amplitude between the utmost point 1 of point electrode B and another utmost point 2 of point electrode B, this pulse current acts on the corresponding acupuncture point of people's head by point electrode p, thereby activate the brain cell that is in inhibitory state, adjust corticocerebral excitement and process of inhibition, regulate neuro function, the raising cerebral tissue is to the synthetic of material and utilize ability.

As shown in Figure 6, booster circuit 4 is by resistance R 7～R10, audion Q8, Q7, capacitor C 6, C5, inductance L 1, diode D4, form with potentiometer W1, the foot 14 of the chip U1 of one termination pulse signal generation circuit 3D of resistance R 10, the base stage of another termination audion Q8 of resistance R 10, the end of the colelctor electrode connecting resistance R9 of audion Q8 and the base stage of audion Q7, one end of the other end of resistance R 9 and inductance L 1 is connected and connects power supply, the colelctor electrode of audion Q7 connects the other end of inductance L 1 and the positive pole of diode D4, the emitter stage of audion Q7 connects the emitter stage of audion Q8, one end of capacitor C 6, the negative pole of capacitor C 5, one end and the ground connection of resistance R 7, the negative pole of diode connects the other end of capacitor C 6, the positive pole of capacitor C 5, one end of resistance R 8, the end of another termination potentiometer W1 of resistance R 8, the other end of another termination connecting resistance R7 of potentiometer W1, the slider of potentiometer W1 connects the other end of the resistance R 5 of pulse current output circuit 5, one end of resistance R 6, the colelctor electrode of audion Q3, the colelctor electrode of audion Q4, the inductance nominal value of inductance L 1 is 2.2 milihenries, pulse signal generation circuit 3 passes through audion Q8 by the foot 14 output high frequency voltage boosting pulse signals of chip U1, the on-off action of Q7 makes inductance L 1 energy storage form high frequency, high-voltage pulse, through capacitor C 6, the filtering of C5 and energy storage effect produce high voltage direct current stably, and the adjusting of process potentiometer W1 makes booster circuit 4 output amplitudes continuously adjustable DC voltage between 0-100v.

Claims (10)

1, a kind of transcranial magnetoelectric depression therapeutic apparatus, it comprises a pair of earphone (A) and is connected in crossbeam (I) between the earphone (A), it is characterized in that: also comprise at least one Magnet (J), at least one pair of electrode (B), internal circuit (n), earphone (A), electrode (B) link to each other with internal circuit (n).

2, according to the described transcranial magnetoelectric depression therapeutic apparatus of claim 1, it is characterized in that: described Magnet (J) places the bottom surface of crossbeam (I), be rotatable the connection between crossbeam (I) and the bi-telephone (A), crossbeam (I) and bi-telephone (A) line of centres be the rotating range in axle center be with head front end Yintang acupoint be minimum point, by counterclockwise rotatable 180 degree.

3, according to the described transcranial magnetoelectric depression therapeutic apparatus of claim 2, it is characterized in that: described electrode (B) places the outside of a pair of earphone (A) by flexible pipe, and the connected mode of electrode (B) and earphone (A) is that rotating shaft is connected.

4, transcranial magnetoelectric depression therapeutic apparatus according to claim 3 is characterized in that: also be respectively arranged with audio-frequency function on the described a pair of earphone (A) and start display lamp (E), volume enhancing button (H), the weak button (F) of volume down, pulse current function on switch (S1), pulse current function on display lamp (D3).

5, transcranial magnetoelectric depression therapeutic apparatus according to claim 4 is characterized in that: described internal circuit (n) is to be made of DC power supply circuit (1), digital audio-frequency player circuit (2), pulse signal generation circuit (3), booster circuit (4) and pulse current output circuit (5); The output termination digital audio-frequency player circuit (2) of described DC power supply circuit (1), pulse signal generation circuit (3) and booster circuit (4), another input of an output termination booster circuit (4) of pulse signal generation circuit (3), (5) inputs of output termination pulse current output circuit of booster circuit (4), two outfans of pulse signal generation circuit (3) connect two inputs of pulse current output circuit (5) respectively, pulse current output circuit (5) carries out this two pulse signals to connect right point electrode (B-1) and left potential electrode (B-2) after the power amplification, right point electrode (B-1) and left potential electrode (B-2) act on head, export two right earphone of termination (A1) and left earphone (A2) for two of digital audio-frequency player circuit (2).

6, transcranial magnetoelectric depression therapeutic apparatus according to claim 5, it is characterized in that: described DC power supply circuit (1) is by rechargeable battery circuit (U2), reserve battery (DC1), first diode (D1), second diode (D2) is formed, the cathode output end of rechargeable battery circuit (U2) connects the positive pole of first diode (D1), the positive pole of reserve battery (DC1) connects the positive pole of second diode (D2), first diode (D1), the negative pole connection of second diode (D2) also connects the power input positive pole of digital audio-frequency player circuit (2) and the moved end of pulse current function on switch (S1), the negative pole of the cathode output end of rechargeable battery circuit (U2) and reserve battery (DC1) is connected and ground connection, the unidirectional current of DC power supply circuit (1) output 3V～4V.

7, transcranial magnetoelectric depression therapeutic apparatus according to claim 6 is characterized in that: described digital audio-frequency player circuit (2) is the digital circuit with digital audio file download, storage, playing function.

8, transcranial magnetoelectric depression therapeutic apparatus according to claim 7, it is characterized in that: described pulse signal generation circuit (3) is by pulse current function on switch (S1), chip (U1), first to fourth electric capacity (C1-C4), first resistance (R1), second (R2), light emitting diode (D3), crystal oscillator (Y1) is formed, the moved end of pulse current function on switch (S1) connects the cathode output end of DC power supply circuit (1), one end of quiet termination first resistance (R1) of pulse current function on switch (S1), one end of the 9th resistance (R9) of booster circuit (4), one end of the inductance (L1) of booster circuit (4), the positive pole of the other end sending and receiving optical diode (D3) of first resistance (R1), the minus earth of light emitting diode (D3), the foot (4) of chip (U1) connects an end of crystal oscillator (Y1) and an end of the 3rd electric capacity (C3), the foot (5) of chip (U1) connects the other end of crystal oscillator (Y1) and an end of the 4th electric capacity (C4), the other end of the 3rd electric capacity (C3) and the 5th electric capacity (C5) connects together and ground connection, the foot (11) of chip (U1) connects an end of the 3rd resistance (R3) of pulse current output circuit (5), the foot (9) of chip (U1) connects an end of the 4th resistance (R4) of pulse current output circuit (5), the foot (14) of chip (U1) connects an end of the tenth resistance (R10) of booster circuit (4), the foot (20) of chip (U1) connects an end of first electric capacity (C1), the positive pole of second electric capacity (C2) and power supply (VCC), the foot (1) of chip (U1) connects an end of second resistance (R2) and the negative pole of second electric capacity (C2), the other end of the other end of second resistance (R2) and first electric capacity (C1) is connected and ground connection, foot (10) ground connection of chip (U1), other foot of chip is unsettled; Chip (U1) is 89C2051, storage program in the chip (U1), first electric capacity (C1), second electric capacity (C2) and second resistance (R2) are formed the reset circuit of (U1), and crystal oscillator (Y1), the 3rd electric capacity (C3) and the 4th electric capacity (C4) are formed the clock circuit of (U1).

9, transcranial magnetoelectric depression therapeutic apparatus according to claim 8, it is characterized in that: described pulse current output circuit (5) is by the 3rd to the 6th resistance (R3-R6), first to the 6th audion (Q1-Q6) is formed, the foot (11) of the chip (U1) of one termination pulse signal generation circuit (3) of the 3rd resistance (R3), the base stage of another termination first audion (Q1) of the 3rd resistance (R3), the colelctor electrode of first audion (Q1) connects an end of the 5th resistance (R5), the base stage of the base stage of the 3rd audion (Q3) and the 5th audion (Q5), the emitter stage of first audion (Q1) connects the emitter stage and the ground connection of second audion (Q2), one end of another termination the 6th resistance (R6) of the 5th resistance (R5), the colelctor electrode of the 3rd audion (Q3), the slider of the potentiometer (W1) of the colelctor electrode of the 4th audion (Q4) and booster circuit (4), the colelctor electrode of another termination second audion (Q2) of the 6th resistance (R6), the base stage of the base stage of the 4th audion (Q4) and the 6th audion (Q6), the colelctor electrode of the colelctor electrode of the 5th audion (Q5) and the 6th audion (Q6) is connected and ground connection, the base stage of one termination, second audion (Q2) of the 4th resistance (R4), the foot (9) of the chip (U1) of another termination pulse signal generation circuit (3) of the 4th resistance (R4), the emitter stage of the 3rd audion (Q3) connects the emitter stage of the 5th audion (Q5) and is connected with right point electrode (B-1), and the emitter stage of the 4th audion (Q4) connects the emitter stage of the 6th audion (Q6) and is connected with left point electrode (B-2).

10, transcranial magnetoelectric depression therapeutic apparatus according to claim 9, it is characterized in that: described booster circuit (4) is by the 7th to the tenth resistance (R7～R10), the 8th audion (Q8), the 7th audion (Q7), the 6th electric capacity (C6), the 5th electric capacity (C5), first inductance (L1), the 4th diode (D4) and potentiometer (W1) are formed, the foot (14) of the chip (U1) of one termination pulse signal generation circuit (3) of the tenth resistance (R10), the base stage of another termination the 8th audion (Q8) of the tenth resistance (R10), the colelctor electrode of the 8th audion (Q8) connects the base stage of an end and the 7th audion (Q7) of the 9th resistance (R9), one end of the other end of the 9th resistance (R9) and first inductance (L1) is connected and connects power supply, the colelctor electrode of the 7th audion (Q7) connects the other end of first inductance (L1) and the positive pole of the 4th diode (D4), the emitter stage of the 7th audion (Q7) connects the emitter stage of the 8th audion (Q8), one end of the 6th electric capacity (C6), the negative pole of the 5th electric capacity (C5), one end and the ground connection of the 7th resistance (R7), the negative pole of the 4th diode (D4) connects the other end of the 6th electric capacity (C6), the positive pole of the 5th electric capacity (C5), one end of the 8th resistance (R8), one end of another termination potentiometer (W1) of the 8th resistance (R8), another termination of potentiometer (W1) connects the other end of the 7th resistance (R7), and the slider of potentiometer (W1) connects the other end of the 5th resistance (R5) of pulse current output circuit (5), one end of the 6th resistance (R6), the colelctor electrode of the 3rd audion (Q3), the colelctor electrode of the 4th audion (Q4).

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