CN110354384A - A kind of pulse signal control circuit, method and channels and collaterals let out therapeutic equipment along inverse benefit - Google Patents
A kind of pulse signal control circuit, method and channels and collaterals let out therapeutic equipment along inverse benefit Download PDFInfo
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- CN110354384A CN110354384A CN201910476188.XA CN201910476188A CN110354384A CN 110354384 A CN110354384 A CN 110354384A CN 201910476188 A CN201910476188 A CN 201910476188A CN 110354384 A CN110354384 A CN 110354384A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H39/00—Devices for locating or stimulating specific reflex points of the body for physical therapy, e.g. acupuncture
- A61H39/002—Using electric currents
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N1/00—Electrotherapy; Circuits therefor
- A61N1/18—Applying electric currents by contact electrodes
- A61N1/32—Applying electric currents by contact electrodes alternating or intermittent currents
- A61N1/36—Applying electric currents by contact electrodes alternating or intermittent currents for stimulation
- A61N1/36014—External stimulators, e.g. with patch electrodes
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N1/00—Electrotherapy; Circuits therefor
- A61N1/18—Applying electric currents by contact electrodes
- A61N1/32—Applying electric currents by contact electrodes alternating or intermittent currents
- A61N1/36—Applying electric currents by contact electrodes alternating or intermittent currents for stimulation
- A61N1/36014—External stimulators, e.g. with patch electrodes
- A61N1/3603—Control systems
- A61N1/36034—Control systems specified by the stimulation parameters
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- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03K—PULSE TECHNIQUE
- H03K7/00—Modulating pulses with a continuously-variable modulating signal
- H03K7/10—Combined modulation, e.g. rate modulation and amplitude modulation
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Abstract
The application is suitable for therapeutic equipment technical field, provides a kind of pulse signal control circuit, method and channels and collaterals along inverse benefit and lets out therapeutic equipment, the corresponding inceptive impulse signal of frequency Pulse Width regulating command generation input by pulse generating module according to user;Corresponding working pulse scanning signal is exported according to the operating mode selection instruction that user inputs by signal control module;Inceptive impulse signal is converted into m group working pulse signal by gating control module, and the output frequency, output pulse width and output timing of every group of working pulse signal are controlled according to working pulse scanning signal, so that m group working pulse signal is exported according to corresponding operating mode selection instruction, m group working pulse signal after being adjusted by impulse amplitude adjustment module is exported to corresponding m electrode pair, to export corresponding respective pulses signal according to user's different demands, it solves existing electric acupuncture apparatus and designs single, therapeutic modality simple question.
Description
Technical field
The application belongs to therapeutic equipment technical field more particularly to a kind of pulse signal control circuit, method and channels and collaterals along inverse
Benefit lets out therapeutic equipment.
Background technique
The traditional medicine in China thinks that inside of human body there is inside and outside in a kind of communication table, runs the specific group of qi and blood
Knit --- channels and collaterals, Chinese medicine think that channels and collaterals " in communication table, operation qi and blood, resist the disease, adjust internal organs, contact podomere, be to lead to
It is suitable ", channels and collaterals stop up, and generate disease, so-called " not general rule pain, pain are then obstructed ", " channels and collaterals person, so can determine life and death, place hundred
Disease, correcting the deficiency and excess, can not be obstructed ", " through fate row, along it to mend, it is inverse it to let out " etc. illustrate that channels and collaterals are lived in human life
Significance in dynamic.Modern science is this by biology studies have shown that all living things body of nature can generate electricity
The electricity that body generates is known as " bioelectricity ", and " bioelectricity " is mainly organ, tissue and the cell of biology during vital movement
The current potential and change in polarity of generation, therefore, " bioelectricity " are a kind of physical-chemical variations during vital movement, are normal
The performance of physiological activity and an essential characteristic of biopsy.What is generated in organism during vital movement is each
Kind current potential or electric current, including cell membrane potential, action potential, electrocardio, brain electricity etc..There is research theory to think that channel phenomenon is exactly
A kind of special bio-electric phenomenon that human body generates in vital movement utilizes channels and collaterals with meridian theory research gradually deepening
Theory and bioelectricity theoretical direction treatment disease have become one of the important means of medical profession, thereby produce with DC pulse
Electric needle therapeutic instrument based on electricity.
However, existing electric acupuncture apparatus designs single, therapeutic modality letter although based on physical pulse electric theory
It is single, significantly limit the use scope of electric acupuncture apparatus.
Summary of the invention
It lets out and controls along inverse benefit in view of this, the embodiment of the present application provides a kind of pulse signal control circuit, method and channels and collaterals
Instrument is treated, to solve existing electric acupuncture apparatus mainly based on physical pulse electric theory, design is single, and therapeutic modality is simple, greatly
The use scope for limiting electric acupuncture apparatus the problem of.
The embodiment of the present application provides a kind of pulse signal control circuit, is whole to connection, m >=2 and m with m electrode
Number, the pulse signal control circuit include:
Pulse generating module, for receiving the frequency Pulse Width regulating command of user's input, and according to the frequency Pulse Width tune
Section instruction generates corresponding inceptive impulse signal;
Signal control module for receiving the operating mode selection instruction of user's input, and is selected according to the operation mode
It selects instruction and exports corresponding working pulse scanning signal;
Control module is gated, is connect with the pulse generating module and the signal control module, the gating controls mould
Block is used to be converted to the inceptive impulse signal m group working pulse signal, and is controlled according to the working pulse scanning signal
The output frequency of working pulse signal, output pulse width and output timing described in every group, so that the m group working pulse signal
It is exported according to the corresponding operating mode selection instruction, wherein working pulse signal described in every group includes direct impulse
Signal and reverse impulse signal;
Impulse amplitude adjustment module is connect with the gating control module, and the impulse amplitude adjustment module is for receiving
The amplitude adjusted instruction of user's input, and carried out according to amplitude of the amplitude adjusted instruction to the m group working pulse signal
It adjusts, and the m group working pulse signal after being adjusted is exported to corresponding m electrode pair, wherein a electricity of m
Extremely to being corresponded respectively with the m group working pulse signal.
The embodiment of the present application also provides a kind of pulse signal control methods, comprising:
The frequency Pulse Width regulating command of user's input is received, and corresponding according to frequency Pulse Width regulating command generation
Inceptive impulse signal;
The operating mode selection instruction of user's input is received, and selection instruction output is corresponding according to the operation mode
Working pulse scanning signal;
The inceptive impulse signal is converted into m group working pulse signal, and according to the working pulse scanning signal control
The output frequency of working pulse signal, output pulse width and output timing described in making every group, so that the m group working pulse letter
It number is exported according to the corresponding operating mode selection instruction, wherein working pulse signal described in every group includes positive arteries and veins
Rush signal and reverse impulse signal;
The amplitude adjusted instruction of user's input is received, and the m group working pulse is believed according to amplitude adjusted instruction
Number amplitude be adjusted, and the m group working pulse signal after being adjusted is exported to corresponding m electrode pair,
In, m electrodes to respectively with the m group working pulse signal one-to-one correspondence.
The embodiment of the present application also provides a kind of channels and collaterals suitable for Chinese medicine meridian theory to let out therapeutic equipment along inverse benefit, comprising:
M electrode pair, the m electrodes with human acupoint to for contacting;
Pulse signal control circuit as described in any one of the above embodiments, the pulse signal control circuit is with m electrode to even
It connects, wherein m >=2 and m are integer;
Fm dial, for adjusting the frequency of the inceptive impulse signal;
Pulsewidth knob, for adjusting the pulsewidth of the inceptive impulse signal;
Cycle pulse knob for controlling the pulse signal control circuit circulation output, and adjusts the work of m group
The number of output of pulse signal is adjusted with the number for carrying out line stimulation to the human acupoint;
Pulse knob is exported, the pulse of every group of working pulse signal is exported for adjusting the pulse signal control circuit
Number is adjusted with carrying out a number for stimulation to the human acupoint;
Output is total to adjust knob, is adjusted for the amplitude to the m group working pulse signal;
Voltage always adjusts knob, is adjusted for the operating voltage to the pulse signal control circuit;
Operating mode selects knob, for selecting corresponding therapeutic equipment operating mode;
Reverser is sequentially exported for controlling the m group working pulse signal with the reverse sequence of preset order;
Power switch, for controlling the turn-on and turn-off of power supply signal.The embodiment of the present application provides a kind of pulse
Signal control circuit, method and channels and collaterals let out therapeutic equipment along inverse benefit, and the frequency Pulse Width of user's input is received by pulse generating module
Regulating command, and corresponding inceptive impulse signal is generated according to the frequency Pulse Width regulating command;It is connect by signal control module
The operating mode selection instruction of user's input is received, and the corresponding working pulse of selection instruction output is swept according to the operation mode
Retouch signal;The inceptive impulse signal is converted into m group working pulse signal by gating control module, and according to the work
Make pulse scanning signal control every group described in working pulse signal output frequency, output pulse width and output timing so that m
The group working pulse signal is exported according to the corresponding operating mode selection instruction, adjusts mould by impulse amplitude
Block receives the amplitude adjusted instruction of user's input, and is instructed according to the amplitude adjusted to the m group working pulse signal
Amplitude is adjusted, and the m group working pulse signal after being adjusted is exported to corresponding m electrode pair, thus root
Corresponding respective pulses signal is exported according to user's different demands, solves existing electric acupuncture apparatus although with physical pulse electric theory
Based on, but designing single, therapeutic modality is simple, the problem of significantly limiting the use scope of electric acupuncture apparatus.
Detailed description of the invention
In order to more clearly explain the technical solutions in the embodiments of the present application, embodiment or the prior art will be retouched below
Attached drawing needed in stating is briefly described, it should be apparent that, the accompanying drawings in the following description is only the one of the application
A little embodiments for those of ordinary skill in the art without any creative labor, can also basis
These attached drawings obtain other attached drawings.
Fig. 1 is the structural schematic diagram for the pulse signal control circuit that one embodiment of the application provides;
Fig. 2 is the structural schematic diagram for the pulse generating module that one embodiment of the application provides;
Fig. 3 is the structural schematic diagram for the signal control module that one embodiment of the application provides;
Fig. 4 is the time diagram for the m group working pulse signal that one embodiment of the application provides
Fig. 5 is the application schematic diagram for the pulse signal control circuit that one embodiment of the application provides;
Fig. 6 is the time diagram for the m group working pulse signal that one embodiment of the application provides;
Fig. 7 is the time diagram for the m group working pulse signal that another embodiment of the application provides;
Fig. 8 is the application schematic diagram for the pulse signal control circuit that another embodiment of the application provides;
Fig. 9 is the structural schematic diagram for the gating control module that one embodiment of the application provides;
Figure 10 is the structural schematic diagram for the pulse signal control circuit that another embodiment of the application provides;
Figure 11 is the structural schematic diagram for the pulse signal control circuit that another embodiment of the application provides;
Figure 12 is the structural schematic diagram for the pulse signal control circuit that another embodiment of the application provides;
Figure 13 is the structural schematic diagram that the channels and collaterals that one embodiment of the application provides let out therapeutic equipment along inverse benefit;
Figure 14 is the structural schematic diagram that the channels and collaterals that another embodiment of the application provides let out therapeutic equipment along inverse benefit.
Specific embodiment
In order to make those skilled in the art more fully understand application scheme, below in conjunction in the embodiment of the present application
Attached drawing, technical solutions in the embodiments of the present application is explicitly described, it is clear that described embodiment is the application
The embodiment of a part, instead of all the embodiments.Based on the embodiment in the application, those of ordinary skill in the art exist
Every other embodiment obtained under the premise of creative work is not made, shall fall within the protection scope of the present application.
The description and claims of this application and term " includes " and their any deformations in above-mentioned attached drawing,
It is intended to cover and non-exclusive includes.Such as it process, method or system, product comprising a series of steps or units or sets
It is standby to be not limited to listed step or unit, but optionally further comprising the step of not listing or unit, or optionally
It further include the other step or units intrinsic for these process, methods, product or equipment.In addition, term " first ", " the
Two " and " third " etc. are for distinguishing different objects, not for description particular order.In order to be suitable for existing therapeutic equipment
Chinese medicine meridian is theoretical, and the embodiment of the present application proposes a kind of impulse output circuit, to be needed according to user to output pulse signal
It is adjusted, to be suitable for output the pulse signal of Chinese medicine meridian theory, by multiple electrodes with the acupuncture point to patient
Electro photoluminescence is carried out, to reach the technical effect let out along inverse benefit.
Fig. 1 is the structural schematic diagram for the pulse signal control circuit that one embodiment of the application provides, referring to Fig. 1 institute
Show, the pulse signal control circuit in the present embodiment is integer to connection, m >=2 and m with m electrode, specifically, pulse signal
Control circuit includes:
Pulse generating module 10 for receiving the frequency Pulse Width regulating command of user's input, and is adjusted according to frequency Pulse Width
Instruction generates corresponding inceptive impulse signal;Specifically, pulse generating module 10 is connect with working power, working power is mentioned
The d. c. voltage signal of confession is converted to inceptive impulse signal, and the frequency and pulsewidth of the inceptive impulse signal can be defeated according to user
The frequency Pulse Width regulating command entered is adjusted;
Signal control module 20 for receiving the operating mode selection instruction of user's input, and is selected according to operating mode
Instruction exports corresponding working pulse scanning signal;
Control module 30 is gated, for inceptive impulse signal to be converted to m group working pulse signal, and according to work arteries and veins
Output frequency, output pulse width and output timing that scanning signal controls every group of working pulse signal are rushed, so that m group work arteries and veins
It rushes signal to be exported according to corresponding operating mode selection instruction, wherein every group of working pulse signal includes direct impulse letter
Number and reverse impulse signal;
Impulse amplitude adjustment module 40 for receiving the amplitude adjusted instruction of user's input, and is instructed according to amplitude adjusted
The amplitude of m group working pulse signal is adjusted, and the m group working pulse signal after being adjusted is exported to corresponding m
A electrode pair, wherein m electrode pair and m group working pulse signal correspond.
In the present embodiment, the frequency Pulse Width regulating command output that pulse generating module 10 is inputted according to user is corresponding
Inceptive impulse signal, is stored with preset working pulse scan data in signal control module 20, and user inputs pair as needed
After the operating mode selection instruction answered, signal control module 20 can be according to the operating mode selection instruction output pair received
The working pulse scanning signal answered, after inceptive impulse signal is converted to m group working pulse signal by gating control module 30, root
According to the working pulse scanning signal received to the output frequency, output pulse width and output timing of every group of working pulse signal
It is controlled, so that m group working pulse signal is exported according to corresponding operating mode selection instruction, impulse amplitude is adjusted
The amplitude of every group of working pulse signal is adjusted in the amplitude adjusted instruction that module 40 can be inputted according to user, and will
M group working pulse signal after being adjusted is exported to corresponding m electrode pair, to make pulse signal control circuit can be with
According to the current impulse that user needs output frequency, pulsewidth and amplitude adjustable, and when by pre-set scanning
Ordinal number evidence realizes the adjusting of the output sequence and output time interval of m group working pulse signal.
For example, in one application, above-mentioned pulse signal control circuit is applied to channels and collaterals and is let out in therapeutic equipment along inverse benefit,
It can be by m group working pulse signal output end respectively with m electrode to being correspondingly connected with, and as needed by electrode sequential
The working pulse signal of specific direction is exported according to ancient times channel course feature with the skin contact with human body, and according to need
Will output frequency, output pulse width and output timing to every group of working pulse signal control, meet middle ancient Chinese medical classics to reach
The twelve regular channels system circulation state of network theory and the purpose for treating disease.
In one embodiment, the output frequency of working pulse signal can be 1-3 hertz, working pulse signal it is defeated
Pulsewidth can be between -2 milliseconds of 10 microsecond out, and working pulse signal described in every group includes direct impulse signal and reverse impulse
Signal can be exported with square, and wherein the voltage range of the direct impulse in direct impulse signal can be 10 millivolts
To between 10 volts, the voltage range of the reverse impulse in reverse impulse signal can be between -10 volts extremely -10 millivolts.
In one embodiment, shown in Figure 2, pulse generating module 10 includes: timer U1, monostable flipflop
U2, first resistor R1, second resistance R2,3rd resistor R3, first capacitor C1, the second capacitor C2, first diode D1 and confession
Power supply 11;Wherein, the reset terminal Reset of timer U1, the power control terminal VC of timer U1, first resistor R1 first
End, the power end VCC of monostable flipflop U2, the first end of 3rd resistor R3, monostable flipflop U2 positive triggering input terminal
The removing end CLR of 1B and monostable flipflop U2 is connected to power supply 11, the charging end D of timer U1, first resistor altogether
The second end of R1, the control terminal of first resistor R1, the first end of second resistance R2 and first diode D1 anode connect altogether,
The low triggering end TR of timer U1, the high-triggering end TH of timer U1, the second end of second resistance R2, first diode D1
The first end of cathode and first capacitor C1 connect altogether, and the ground terminal of timer U1 and the second end of first capacitor C1 are connected to ground altogether,
The negative triggering input terminal 1A of the signal output end OUT and monostable flipflop U2 of timer U1 are connect, monostable flipflop U2
Ground terminal GND ground connection, the external resistance terminal Re of monostable flipflop U2, the second end of 3rd resistor R3,3rd resistor R3
Control terminal and the first end of the second capacitor C2 connect altogether, the external capacitor end Ce of monostable flipflop U2 and the second capacitor C2's
The positive pulse signal output end 1Q of second end connection, monostable flipflop U2 is connect with gating control module 30.
In one embodiment, first resistor R1 can be adjustable resistance, be adjusted by the resistance value to first resistor R1
The frequency of section, the inceptive impulse signal that can be exported to pulse generating module 10 is adjusted.In the present embodiment, Yong Huke
To input corresponding frequency Pulse Width regulating command by the resistance value for adjusting first resistor R1, to be exported to pulse generating module 10
The frequency of inceptive impulse signal be adjusted.
In one embodiment, 3rd resistor R3 can be adjustable resistance, be adjusted by the resistance value to 3rd resistor R3
The pulsewidth of section, the inceptive impulse signal that can be exported to pulse generating module 10 is adjusted.In the present embodiment, Yong Huke
To input corresponding frequency Pulse Width regulating command by the resistance value for adjusting 3rd resistor R3, to be exported to pulse generating module 10
The pulsewidth of inceptive impulse signal be adjusted.
In one embodiment, the model of timer U1 can be NE555.
In one embodiment, the model of monostable flipflop U2 can be 74LS221.
In one embodiment, pulse generating module 10 can be by sequence circuit and monostable that timer NE555 is formed
The monostable circuit of trigger 74LS221 composition is realized;Sequence circuit includes that voltage comparator circuit and R-S go out Power Generation Road, it passes through
The signal week that the charge-discharge circuit of the compositions such as first resistor R1, second resistance R2, first capacitor C1 in external circuit is generated
Change the voltage being added on internal comparator input terminal, phase so as to cause the punctuated turning over of internal trigger output level.
So being exported by the square wave that changeable frequency can be obtained in the size of the first resistor R1 outside adjusting.
In one embodiment, the compositions such as the first resistor R1 in external circuit, second resistance R2, first capacitor C1
The charge path of charge-discharge circuit is: 11 → first resistor of power supply R1 → first diode D1 → first capacitor C1 is put
Power path is: first capacitor C1 → second resistance R2 → timer U1 charging end D → ground.
In the present embodiment, the compositions such as the first resistor R1 in external circuit, second resistance R2, first capacitor C1 are filled
The charging time of discharge circuit: t1=R1*C1*ln2 ≈ 0.7*R1*C1;
Discharge time: t2=R2*C1*ln2 ≈ 0.7*R2*C1;
Period: T=t1+t2=(R1+R2) C1*ln2;
According to actual needs, 1~3Hz can be set by pulse frequency adjustable range.
In one embodiment, the resistance value R1=of capacitance C1=220 the μ F, first resistor R1 of first capacitor C1
The resistance value R2=1.3k Ω of 5.1k Ω, second resistance R2.
In one embodiment, shown in Figure 2, monostable flipflop 74LS221,3rd resistor R3 and the second electricity
Double single steady circuit can be formed by holding C2, which can be triggered by level signal edge, in the present embodiment, can
Its trigger signal is served as with the failing edge of the square wave exported by the signal output end of timer U1.Double single steady circuit output
Pulsewidth is determined by the 3rd resistor R3 connecting with monostable flipflop 74LS221 and the second capacitor C2.
Pulsewidth tW=R2*C2*ln2
According to actual requirement, output pulse width can be set adjustable between 100 μ s~2ms.Specifically, tune can be passed through
Output pulse width is adjusted in the resistance value of section 3rd resistor R3.
In one embodiment, the resistance value R3=8.7k of capacitance C2=0.33 the μ F, 3rd resistor R3 of the second capacitor C2
Ω。
In the present embodiment, it is adjusted, be can be obtained by the resistance value respectively to first resistor R1 and 3rd resistor R3
The pulse output that frequency and pulsewidth independently change in claimed range.
In one embodiment, the impulse amplitude that pulse generating module 10 exports can be normal TTL high level, example
Such as, the impulse amplitude that pulse generating module 10 exports can be+4.5V.In the present embodiment, pulse generating module 10 exports
Inceptive impulse signal can with gating control module 30 in selection signal be sent to together in door or NAND gate, with produce
Raw effective direct impulse signal or reverse impulse signal.
In one embodiment, shown in Figure 3, signal control module 20 includes:
Pulse scan data storage unit 21, for storing preset pulse scan data;
Working pulse scan data acquiring unit 22, for being deposited according to operating mode selection instruction from pulse scan data
Corresponding working pulse scan data is obtained in storage unit, and working pulse scan data is converted into corresponding working pulse
Scanning signal.
In the present embodiment, for pulse scan data storage unit 21 for storing preset pulse scan data, this is default
Pulse scan data may include multiple groups working pulse scan data, every group of working pulse scan data corresponds to a kind of arteries and veins
Signal output sequence is rushed, for example, the operating mode selection instruction in the present embodiment may include that the selection of the first operating mode refers to
It enables, the second operating mode selection instruction, third operating mode selection instruction and the 4th operating mode selection instruction, pulse are swept
It retouches data storage cell 21 and is stored with the first working pulse scan data, the second working pulse scan data, third working pulse
Scan data and the 4th working pulse scan data, working pulse scan data acquiring unit 22 is respectively according to the first work
Mode selection command, the second operating mode selection instruction, third operating mode selection instruction and the selection of the 4th operating mode refer to
It enables from pulse scan data storage unit 21 and obtains the first working pulse scan data, the second working pulse scan data, the
Three working pulse scan datas and the 4th working pulse scan data, and by a working pulse scan data, second work arteries and veins
It rushes scan data, third working pulse scan data and the 4th working pulse scan data and is converted into corresponding first work
Pulse scanning signal, the second working pulse scanning signal, third working pulse scanning signal and the 4th working pulse scanning letter
Number.
In one embodiment, when operating mode selection instruction is preset first operating mode selection instruction, signal control
Molding block 20 exports the first working pulse scanning signal corresponding with the first operating mode selection instruction;
Gating control module 30 controls m group working pulse signal and exports simultaneously;Wherein, in every group of working pulse signal
The output frequency of direct impulse signal and reverse impulse signal, output pulse width and output timing are all the same.
In the present embodiment, shown in Figure 4, due to the direct impulse signal in every group of working pulse signal and reversely
Pulse signal output frequency having the same, output pulse width and output timing are identical, at this point, the positive electricity of each electrode centering
Pole and negative electrode can receive pulse simultaneously, and positive electrode receives direct impulse, and negative electrode receives reverse impulse, example
Such as, for first group of working pulse signal with first electrode to being correspondingly connected with, positive electrode A1 receives direct impulse signal A1, bears
Electrode B 1 receives reverse impulse signal B1, m group working pulse signal with m-th of electrode to being correspondingly connected with, and positive electrode Am connects
Direct impulse signal Am is received, negative electrode Bm receives reverse impulse signal Bm, if each electrode pair and human skin is same
Position contact, the positive electrode and negative electrode of each electrode centering receive direct impulse and reverse impulse simultaneously, at this time can be with
Point stimulation is formed in human skin surface.
In one application, shown in Figure 5, m electrode contacts the m acupuncture point respectively with human body, when user passes through
When the operating mode selection instruction that signal control module 20 inputs is preset first operating mode selection instruction, signal control
Module 20 exports corresponding first working pulse scanning signal, at this point, gating control module 30 controls m group working pulse signal
It exports simultaneously, m acupuncture point of human body is under the synchronous effect of direct impulse signal and reverse impulse signal simultaneously by pricking method
Swash.Due to the corresponding reverse impulse signal of the high level signal of the direct impulse signal in every group of working pulse signal
Output timing, the output pulse width of low level signal are all the same, so that in the direct impulse signal in each pulse period
Low level signal in the corresponding reverse impulse signal of high level signal reaches corresponding electrode simultaneously, at this point, each electricity
The positive electrode and negative electrode of pole centering can receive pulse simultaneously, and positive electrode receives direct impulse, and negative electrode receives
To reverse impulse, direct impulse and reverse impulse reach same acupuncture point simultaneously to form a stimulation.
It is shown in Figure 4, in one embodiment, during m group working pulse signal sequentially exports, every group of work
Direct impulse signal and reverse impulse signal in pulse signal export simultaneously, and keep the first preset time period of output, this
One preset time period can be the sum of for multiple pulse periods, to reach first group of working pulse signal to first default at this
In period, by first electrode to the multiple impulse stimulations of output.
In one embodiment, the voltage of the high level signal in direct impulse signal can be+4.5V, direct impulse
The voltage of low level signal in signal can be 0V, and the voltage of the high level signal in reverse impulse signal can be 0V, instead
The voltage of low level signal into pulse signal can be -4.5V.
In one embodiment, when operating mode selection instruction is preset second operating mode selection instruction, signal control
Molding block 20 exports the second working pulse scanning signal corresponding with the second operating mode selection instruction;
Gating control module 30 controls m group working pulse signal and sequentially exports.
In the present embodiment, shown in Figure 6, after gating control module 30 receives the second working pulse scanning signal,
Control m group working pulse signal sequentially exports.
In one application, m electrode contacts the m acupuncture point respectively with human body, when user passes through signal control module
When the operating mode selection instruction of 20 inputs is preset second operating mode selection instruction, the output pair of signal control module 20
The the second working pulse scanning signal answered sequentially exports at this point, gating control module 30 controls m group working pulse signal, referring to
Shown in Fig. 6, there is the time interval of setting between two groups of adjacent working pulse signals, m acupuncture point of human body is in direct impulse
It is sequentially stimulated by under the synchronous effect of signal and reverse impulse signal.
In one embodiment, when operating mode selection instruction is preset third operating mode selection instruction, signal control
Molding block exports third working pulse scanning signal corresponding with the third operating mode selection instruction;
It gates control module 30 and m group working pulse signal is controlled according to following step according to third working pulse scanning signal
Suddenly it is sequentially output:
Working pulse letter described in reverse impulse signal in working pulse signal described in A1: the first group of step and second group
Direct impulse signal in number exports simultaneously, and the reverse impulse signal and second in working pulse signal described in first group
Direct impulse signal in the group working pulse signal includes the pulse of the first predetermined number;
The letter of working pulse described in reverse impulse signal and third group in working pulse signal described in A2: the second group of step
Direct impulse signal in number exports simultaneously, and reverse impulse signal and third in working pulse signal described in second group
Direct impulse signal in the group working pulse signal includes the pulse of the first predetermined number;
And so on;Until reverse impulse signal and m group in the Am-1: the m-1 of step group working pulse signal
Direct impulse signal in the working pulse signal exports simultaneously, and reversed in the m-1 group working pulse signal
Direct impulse signal in pulse signal and the m group working pulse signal includes the pulse of the first predetermined number.
In the present embodiment, it works described in the reverse impulse signal in working pulse signal described in first group and second group
Direct impulse signal in pulse signal exports simultaneously, other group of working pulse signal does not export, and works described in first group
Direct impulse signal in working pulse signal described in reverse impulse signal in pulse signal and second group includes first pre-
If the pulse of number, at this point, the direct impulse in reverse impulse and direct impulse signal in reverse impulse signal exports simultaneously
To electrode, specifically, the direct impulse in second group of working pulse signal is exported to the positive electrode A2 of second electrode centering,
Reverse impulse in first group of working pulse signal is exported to the negative electrode B1 of first electrode centering.
In one application, each electrode can be determined a skin contact point, the skin contact point is corresponded to for user
The acupuncture point of justice, at this point, first electrode is to the acupuncture point 1 of contact and second electrode to formation line thorn between the acupuncture point 2 of contact
Swash, it is shown in Figure 8, negative electrode B1 receive reverse impulse, positive electrode A2 receive direct impulse, the two skin contact points it
Between blood in ion flowed under the action of potential difference, to achieve the purpose that let out along inverse benefit.When in step A1
Direct impulse letter in working pulse signal described in reverse impulse signal in working pulse signal described in first group and second group
After the pulse for number exporting the first predetermined number respectively, reverse impulse signal and third in working pulse signal described in second group
Direct impulse signal in the group working pulse signal exports simultaneously, and anti-in working pulse signal described in second group
Direct impulse signal into working pulse signal described in pulse signal and third group includes the pulse of the first predetermined number,
And so on;Until reverse impulse signal and the work of m group in the Am-1: the m-1 of step group working pulse signal
Direct impulse signal in pulse signal exports simultaneously, and the reverse impulse signal in the m-1 group working pulse signal
It include the pulse of the first predetermined number with the direct impulse signal in the m group working pulse signal.In step Am-1
In, the positive arteries and veins in reverse impulse signal and the m group working pulse signal in the m-1 group working pulse signal
It rushes signal while exporting, working principle is identical as step A1.
Shown in Figure 7, step A1 can also include: in the second preset time period, and gating control module 30 is according to the
Three working pulse scanning signals control the reverse impulse signal and second group of working pulse signal in first group of working pulse signal
In direct impulse signal be simultaneously stopped output, which can need to be set as multiple pulses according to user
In the sum of period, within each pulse period, direct impulse signal exports a direct impulse, and reverse impulse signal exports one
Reverse impulse, at this point, only exporting direct impulse signal in first group of working pulse signal, in second group of working pulse signal only
Reverse impulse signal is exported, positive electrode A1 receives direct impulse signal, and the level of negative electrode B1 is 0V, the electricity of positive electrode A2
It puts down and receives reverse impulse signal for 0V, negative electrode B2, so that a line stimulation is formed, and so on, m-1 group working pulse
Signal only exports direct impulse signal and m group working pulse signal only exports reverse impulse signal, and working principle is identical.
In one application, acupuncture point 1 is adjacent with acupuncture point 2, and in the second preset time period, positive electrode A1 exports positive arteries and veins
Signal is rushed, negative electrode B2 exports reverse impulse signal simultaneously, at this point, forming potential difference between positive electrode A1 and negative electrode B2, leads to
It crosses adjacent acupuncture point while receiving the electro photoluminescence synchronous with reverse impulse signal of direct impulse signal, between adjacent acupuncture point
Bioelectricity controlled, to realize the effect let out along inverse benefit.
In one embodiment, before the step A1 further include:
Direct impulse signal and reverse impulse signal in working pulse signal described in B1: the first group of step export simultaneously,
And the direct impulse signal and reverse impulse signal in working pulse signal described in first group include the second predetermined number
Pulse;
Before the step A2 further include:
Direct impulse signal and reverse impulse signal in working pulse signal described in B2: the second group of step export simultaneously,
And the direct impulse signal and reverse impulse signal in working pulse signal described in second group include the second predetermined number
Pulse;
And so on;Before the step Am-1 further include:
Direct impulse signal and reverse impulse signal in step the Bm-1: the m-1 group working pulse signal is defeated simultaneously
Out, and the direct impulse signal in the m-1 group working pulse signal and reverse impulse signal include second default
Several pulses.
In the present embodiment, before step A1, direct impulse signal in working pulse signal described in first group and reversed
Pulse signal exports simultaneously, and direct impulse signal in working pulse signal described in first group and reverse impulse signal are equal
Pulse including the second predetermined number, and so on, before the step Am-1, in the m-1 group working pulse signal
Direct impulse signal and reverse impulse signal export simultaneously, and the direct impulse letter in the m-1 group working pulse signal
Number and reverse impulse signal include the second predetermined number pulse.In the present embodiment, first electrode to and second electricity
It is formed extremely between before line stimulation, pulse of first electrode to the second predetermined number of continuous output can also be made, thus right
The point for carrying out the second predetermined number with skin contact point of first electrode to contact stimulates, and so on, the m-1 electrode
When to forming line stimulation between m-th of electrode pair, the m-1 electrode can also be made to the second predetermined number of continuous output
Pulse, so that the point for carrying out the second predetermined number to skin contact point of the m-1 electrode to contact stimulates.
In one embodiment, the working pulse mode signal output in the present embodiment can also include: default second
Direct impulse signal and reverse impulse letter in third preset time period after period, in second group of working pulse signal
It number exports simultaneously, which can need to be set as the sum of multiple pulse periods according to user, at this point, second
Direct impulse signal and reverse impulse signal synchronism output in group working pulse signal, and by second electrode to output
Multiple impulse stimulations.And so on, direct impulse signal and reverse impulse signal in m-1 group working pulse signal are simultaneously
Output, and keep the first preset time period of output;Reverse impulse signal and m group work in m-1 group working pulse signal
Direct impulse signal in pulse signal is simultaneously stopped output, and keeps the second preset time period;M group working pulse signal
In direct impulse signal and reverse impulse signal export simultaneously, and keep output third preset time period.According to above-mentioned m group
The output sequence of working pulse signal is sequentially output, the stimulation by m electrode to realizing to m contact point of skin.
In one embodiment, when the operating mode selection instruction is preset 4th operating mode selection instruction, institute
It states signal control module 20 and sequentially exports the k third working pulse scanning signals, k >=2 and k are integer;Wherein, adjacent
The third working pulse scanning signal between time interval be the first prefixed time interval.
In the present embodiment, when operating mode selection instruction is preset 4th operating mode selection instruction, signal control
Module 20 sequentially exports the k third working pulse scanning signals.At this point, one third of every output of signal control module 20
Working pulse scanning signal, gating control module 30 control m group working pulse signal according to third working pulse scanning signal
It is sequentially output according to the following steps:
Working pulse letter described in reverse impulse signal in working pulse signal described in A1: the first group of step and second group
Direct impulse signal in number exports simultaneously, and the reverse impulse signal and second in working pulse signal described in first group
Direct impulse signal in the group working pulse signal includes the pulse of the first predetermined number;
The letter of working pulse described in reverse impulse signal and third group in working pulse signal described in A2: the second group of step
Direct impulse signal in number exports simultaneously, and reverse impulse signal and third in working pulse signal described in second group
Direct impulse signal in the group working pulse signal includes the pulse of the first predetermined number;
And so on;Until reverse impulse signal and m group in the Am-1: the m-1 of step group working pulse signal
Direct impulse signal in the working pulse signal exports simultaneously, and reversed in the m-1 group working pulse signal
Direct impulse signal in pulse signal and the m group working pulse signal includes the pulse of the first predetermined number.
In the present embodiment, it by the gating circulation output m group working pulse signal of control module 30, may be implemented to reinforce
The effect of overall stimulation, for example, gating control module when gating control module 30 receives third working pulse scanning signal
30 according to step A1, step A2 ... the Sequential output working pulse signal of Am-1, after the first prefixed time interval, choosing
Logical control module 30 according to step A4 output services pulse signal, the 4th electrode to and the 5th electrode to forming line stimulation,
At this point, gating control module receives a third working pulse scanning signal again, and according to step A1, step A2 ...
The Sequential output working pulse signal of Am-1, after undergoing the first prefixed time interval again, gating control module connects again
Receive a third working pulse scanning signal, and according to step A1, step A2 ... the Sequential output working pulse of Am-1
Signal, at this point, first electrode to and second electrode to formed line stimulation, the 4th electrode to and the 5th electrode to shape
Stimulated at line, the 7th electrode to and the 8th electrode to formed line stimulation, and so on, to lead treatment being applied to channels and collaterals
The effect for reinforcing overall stimulation is realized in instrument.
In one embodiment, shown in Figure 9, gate control module 30 further include:
Electrode detection unit 31, for detecting the access state of m electrode pair, and it is corresponding according to access state output
Electrode accesses feedback signal;
Pulse passage control unit 32, for according to electrode access feedback signal to the conducting of m group working pulse signal with
Shutdown is controlled.
In one embodiment, shown in Figure 10, pulse signal control circuit further include:
Display module 50, display module 50 include m luminescence unit pair, and m is to luminescence unit for receiving m group work arteries and veins
Rush signal, wherein 2m luminescence unit is corresponded with 2m pulse signal, and each luminescence unit is believed according to corresponding pulse
Number issue corresponding brightness.
In one embodiment, each luminescence unit may include at least one light emitting diode, and each luminescence unit is used
It is connected in corresponding electrode, to show the state of the received pulse signal of the electrode.
In one embodiment, shown in Figure 11, pulse signal control circuit further include:
The output of Reverse Turning Control module 60, the reverse instruction control m group working pulse signal for being inputted according to user is suitable
Sequence is reversed.
In one embodiment, shown in Figure 12, impulse amplitude adjustment module 40 includes m to signal amplification unit, m
To signal amplification unit with m electrode to connecting one to one, for carrying out amplitude adjusted to working pulse signal to m, and will
Pulse signal after amplitude adjusted is respectively sent to corresponding electrode, wherein each pair of signal amplification unit is by the first amplifying unit
41 and second amplifying unit 42 form, for the amplitude of direct impulse signal to be adjusted, second puts the first amplifying unit 41
Big unit 42 is for being adjusted the amplitude of reverse impulse signal.
In one embodiment, impulse amplitude adjustment module 40 further includes exporting total tune unit, for the m group work
The amplitude for making pulse signal is adjusted;In the present embodiment, it may be implemented by exporting total tune unit to m group working pulse
The amplitude of signal is adjusted synchronously, and each electrode is equal to the amplitude of the working pulse signal of output at this time, for example, with
Family, which can according to need, sets the amplitudes such as 0V, 0.5V, 2V for the amplitude of m group working pulse signal by exporting total tune unit
Value.
In one embodiment, impulse amplitude adjustment module 40 further includes that unit is adjusted in m output point, for respectively to m group
The amplitude of working pulse signal is adjusted, wherein the corresponding width for adjusting one group of working pulse signal of unit is adjusted in each output point
Degree.In the present embodiment, adjust unit and output are total to adjust unit that can carry out individually to every group of working pulse signal by output point
Control makes user can be adjusted according to the needs the width of every group of working pulse signal to be detached from the total control for adjusting knob of output
Degree realizes the purpose that the stimulus intensity at certain acupuncture point of channels and collaterals is adjusted, and meets the suitable inverse of Chinese medicine meridian theory to reach
Mend the effect let out.
In one embodiment, impulse amplitude adjustment module 40 further includes that m divides tune switch, for respectively to m group work
The output state of pulse signal is controlled, for example, dividing tune switch corresponding defeated with this if opening the first point of tune switch
Divide tune unit starting out, at this point, the output point adjusts the working pulse signal of unit control to be detached from the total control for adjusting unit of output,
User can adjust unit to be configured the amplitude of this group of working pulse signal by the output point, specifically, user can lead to
Crossing to output point adjusts unit to send corresponding instruction to achieve the purpose that the amplitude that this group of working pulse signal is arranged, for example,
When the received instruction of output point tune unit is " adjust and arrive scale 1V ", at this point, the group exports point tune unit for this work arteries and veins
The amplitude for rushing signal is set as 1V, and the amplitude of other group of working pulse signal remains unchanged, still by the total tune unit of output
It controls, when the received instruction of output point tune unit is " adjust and arrive scale 5V ", the group exports point tune unit for this group of work at this time
The amplitude for making pulse signal is set as 5V, and the working pulse signal of other groups is unaffected, still by the total tune knob control of output
System.
The embodiment of the present application also provides a kind of output of pulse signal devices, comprising:
M electrode pair;
Pulse signal control circuit as described in any of the above-described embodiment, pulse signal control circuit and m electrode pair
Connection, wherein m >=2 and m are integer.
One embodiment of the application additionally provides a kind of pulse signal control method, the pulse signal control method packet
It includes:
Step S101: the frequency Pulse Width regulating command of user's input is received, and raw according to the frequency Pulse Width regulating command
At corresponding inceptive impulse signal;
Step S102: the operating mode selection instruction of user's input is received, and selection instruction is defeated according to the operation mode
Corresponding working pulse scanning signal out;
Step S103: the inceptive impulse signal is converted into m group working pulse signal, and according to the working pulse
Scanning signal control every group described in working pulse signal output frequency, output pulse width and output timing so that described in m group
Working pulse signal is exported according to the corresponding operating mode selection instruction, wherein working pulse signal described in every group
Including direct impulse signal and reverse impulse signal;
Step S104: the amplitude adjusted instruction of user's input is received, and according to amplitude adjusted instruction described in m group
The amplitude of working pulse signal is adjusted, and the m group working pulse signal after being adjusted is exported to corresponding m
A electrode pair, wherein m electrodes to respectively with the m group working pulse signal one-to-one correspondence.
In the present embodiment, selection instruction exports corresponding working pulse scanning signal according to the operation mode,
In, each working pulse scanning signal corresponds to a kind of working pulse signal scanning way of output, if working pulse signal export to
M electrode pair, then working pulse scanning signal then controls the m group working pulse signal according to the corresponding operating mode
Selection instruction is exported, wherein working pulse signal described in every group includes direct impulse signal and reverse impulse signal, often
The corresponding electrode pair of group working pulse signal, if two electrodes of an electrode centering receive direct impulse signal simultaneously
With reverse impulse signal, then a point stimulation is formed, if the positive electrode of an electrode centering receives direct impulse signal, separately
The negative electrode of one electrode centering receives reverse impulse signal or the negative electrode of an electrode centering receives reversed arteries and veins
Signal is rushed, the positive electrode of another electrode centering receives direct impulse signal, then can form one to output end in electrode
Line stimulation.
For example, in one application, above-mentioned pulse signal control method is applied to channels and collaterals and is let out in therapeutic equipment along inverse benefit,
It can be by m group working pulse signal output end respectively with m electrode to being correspondingly connected with, and as needed by electrode sequential
With the skin contact with human body, different working pulse scanning signals, each work arteries and veins are set according to ancient times channel course feature
It rushes scanning signal and can control m group working pulse and be scanned output according to a kind of way of output, each operating mode selection refers to
Order can choose one or more working pulse scanning signal and be exported according to the preset way of output, to control m group
Working pulse is scanned output according to a kind of combination way of output.Further, user can also be as needed to every group of work
The output frequency, output pulse width and output timing for making pulse signal are controlled, to reach meet Chinese medicine meridian theory ten
Two passages through which vital energy circulates system circulation states and the purpose for treating disease.In the present embodiment, operating mode selection instruction may include
One operating mode selection instruction, the second operating mode selection instruction, third operating mode selection instruction and the 4th operating mode
Selection instruction.
In one embodiment, the pulse signal control method in the present embodiment can not only be controlled by pulse signal
The mode of circuit is realized, the realization of a stimulation and line stimulation can also be carried out by way of laser pulse, fiber pulse, this
Field technical staff can be described herein to be realized using different Implementation Technologies to each specific application
Function, but this realization is it is not considered that exceed scope of the present application.
The embodiment of the present application also provides a kind of channels and collaterals to let out therapeutic equipment along inverse benefit, comprising:
M electrode pair, m electrode with human acupoint to for contacting;
Such as the pulse signal control circuit of any of the above-described, pulse signal control circuit and m electrode are to connection, wherein
M >=2 and m are integer;
Fm dial, for adjusting the frequency of inceptive impulse signal;It in the present embodiment, can by rotating fm dial
To adjust the output frequency of inceptive impulse signal, to reach the mesh that the output frequency of m group working pulse signal is adjusted
's.
In one embodiment, fm dial can be used for adjusting the resistance value of first resistor R1, so that it is initial to reach adjusting
The effect of the frequency of pulse signal.
Pulsewidth knob, for adjusting the pulsewidth of inceptive impulse signal;It in the present embodiment, can by rotating pulsewidth knob
It is adjusted with the pulsewidth to inceptive impulse signal, the output pulse width of m group working pulse signal is adjusted to reach
Purpose.
In the present embodiment, user can input corresponding frequency Pulse Width tune by adjusting fm dial and pulsewidth knob
Section instruction, at this point, frequency Pulse Width regulating command described in pulse generating module 10 generates corresponding inceptive impulse signal.
In one embodiment, pulsewidth knob can be used for adjusting the resistance value of 3rd resistor R3, so that it is initial to reach adjusting
The effect of the pulsewidth of pulse signal.
Cycle pulse knob for controlling the pulse signal control circuit circulation output, and adjusts the work of m group
The number of output of pulse signal is adjusted with the number for carrying out line stimulation to the human acupoint;
In the present embodiment, by adjusting cycle pulse knob, the circulation output of signal control module 20 can be made to correspond to
Working pulse scanning signal, thus make gate control module 30 according to working pulse scanning signal repeat according to setting time
Sequence output services pulse signal.Specifically, the cycle-index for being located at setting by adjusting cycle pulse knob, control gating control
The number of molding block output services pulse scanning signal.
Pulse knob is exported, the pulse of every group of working pulse signal is exported for adjusting the pulse signal control circuit
Number is adjusted with carrying out a number for stimulation to the human acupoint;
Output is total to adjust knob, is adjusted for the amplitude to the m group working pulse signal;In the present embodiment, lead to
The total tune knob of output is overregulated, may be implemented to be adjusted synchronously the amplitude of m group working pulse signal, at this time each electricity
The amplitude of the working pulse signal of pole output is equal, for example, if output is total when knob being adjusted to adjust to scale " 0 " or " OFF ",
The amplitude of m group working pulse signal is 0V at this time, in the present embodiment, exports total tune knob and is provided with pulse voltage scale
Value, user can be by adjusting knob to carry out rotation to reach while be arranged the amplitude of all working pulse signal to output is total
Purpose, for example, when output is total adjust knob to adjust to scale " 0.5V " when, at this point, therapeutic equipment is by all working pulse of output
The amplitude of signal is disposed as 0.5V, adjusts knob to adjust to scale " 2V " when output is total, and therapeutic equipment is by all of output at this time
The amplitude of working pulse signal is set as 2V.
Voltage always adjusts knob, is adjusted for the operating voltage to pulse signal control circuit;In the present embodiment,
Being adjusted by the operating voltage to pulse signal control circuit, which may be implemented, is adjusted the amplitude of inceptive impulse signal
Purpose.
Operating mode selects knob, for selecting corresponding therapeutic equipment operating mode;In the present embodiment, operating mode
Selection knob can need to be arranged according to user operating mode selection type, for example, the channels and collaterals in the present embodiment are let out along inverse benefit and controlled
Instrument tool is treated there are four types of operating mode, four kinds of operating modes pass through input the first operating mode selection instruction, the second Working mould respectively
Formula selection instruction, third operating mode selection instruction and the 4th operating mode selection instruction are configured, when user's needs are defeated
When entering preset first operating mode selection instruction, then operating mode selection knob is rotated into the instruction of the first operating mode, when
When user needs to input preset second operating mode selection instruction, then operating mode selection knob is rotated into the second work
Mode instruction, when user needs to input preset third operating mode selection instruction, then by operating mode selection knob rotation
It is indicated to third operating mode, when user needs to input preset 4th operating mode selection instruction, then by operating mode
Selection knob rotates to the instruction of the 4th operating mode.In the present embodiment, user can select knob by adjusting working mode
Corresponding operating mode selection instruction is inputted, at this point, the selection instruction output pair according to the operation mode of signal control module 20
The working pulse scanning signal answered, specific working mode referring to the pulse signal control circuit in above-described embodiment work
Principle.
Reverser is sequentially exported for controlling m group working pulse signal with the reverse sequence of preset order;
Power switch, for controlling the turn-on and turn-off of power supply signal.Shown in Figure 13, channels and collaterals are let out along inverse benefit
Therapeutic equipment includes therapeutic equipment ontology, and the back side of therapeutic equipment ontology is equipped with 10 electrode interfaces, wherein each electrode interface includes
Two electrode pins, two electrode pins in each electrode interface export direct impulse signal and reverse impulse signal respectively,
At this point, 10 electrode interfaces are respectively with 10 electrodes to connection, each electrode interface is used to export one group of working pulse signal,
The front of therapeutic equipment is equipped with 10 luminescence units of sequential, and 10 luminescence units are corresponding with 10 electrode interfaces, for showing
Show the state of the pulse of corresponding 10 electrode interfaces.
The front of therapeutic equipment is additionally provided with: fm dial, pulsewidth knob, cycle pulse knob, output pulse knob, output
It is total that knob, voltage is adjusted always to adjust knob, operating mode selection knob, reverser and power switch.
In one embodiment, it further includes that rotation is adjusted in m output point that channels and collaterals provided in this embodiment, which let out therapeutic equipment along inverse benefit,
Button is adjusted for the amplitude respectively to m group working pulse signal, wherein each output point adjusts knob is corresponding to adjust one group
The amplitude of working pulse signal.
In one embodiment, it further includes that m divides tune switch that channels and collaterals provided in this embodiment, which let out therapeutic equipment along inverse benefit, is used
It is controlled in the output state respectively to m group working pulse signal, in the present embodiment, by dividing tune switch and output point
It adjusts knob that can individually be controlled every group of working pulse signal, to be detached from the total control for adjusting knob of output, makes user can
To adjust the amplitude of every group of working pulse signal as needed, what the stimulus intensity at certain acupuncture point of channels and collaterals was adjusted in realization
Purpose, to achieve the effect that meeting the theoretical suitable inverse benefit of Chinese medicine meridian lets out.For example, if opening the first point of tune switch, with
This divides tune switch corresponding output point tune knob starting, at this point, the output point adjusts the working pulse signal disengaging of knob control defeated
The control of knob is always adjusted out, and user can adjust knob to carry out the amplitude of this group of working pulse signal by adjusting the output point
Setting, specifically, each output point adjusts knob to be provided with pulse voltage scale value, user can be by adjusting knob to output point
Rotation is carried out to achieve the purpose that the amplitude that this group of working pulse signal is arranged, for example, when output point adjusts knob to adjust to quarter
When spending " 1V ", at this point, the amplitude of this group of working pulse signal is set 1V by therapeutic equipment, the width of other group of working pulse signal
Degree remains unchanged, and the amplitude of other group of working pulse signal is still controlled by the total tune knob of output, when knob is adjusted in output point
Scale " 5V " is adjusted, the amplitude of this group of working pulse signal is set 5V by therapeutic equipment at this time, the working pulse letter of other groups
It is number unaffected, still adjusted knob to be controlled by output is total.
In one embodiment, it further includes being used to indicate working pulse that the channels and collaterals in the present embodiment, which let out therapeutic equipment along inverse benefit,
The pulse indicator light of the output frequency of signal, wherein the corresponding one group of working pulse signal of each pulse indicator light passes through the arteries and veins
The work state information of this group of working pulse signal can be directly acquired by rushing indicator light, for example, if pulse indicator light does not work,
It can be determined that this group of working pulse signal is not exported to corresponding electrode pair, it, can if pulse indicator light flicker frequency is higher
Point frequency of stimulation to determine the output of this group of working pulse signal is very fast, alternatively, can be determined that if pulse indicator light is brighter
The amplitude of this group of working pulse signal is higher.
Shown in Figure 14, it can also include that rotation is adjusted in 10 outputs point that the channels and collaterals in the present embodiment, which let out therapeutic equipment along inverse benefit,
Button, 10 outputs point adjust knob to be correspondingly connected with respectively with 10 electrode interfaces, and user can adjust knob pair by each output point
The amplitude of the working pulse signal of corresponding electrode interface output is adjusted, for example, if user adjusts knob will by the way that output is total
The amplitude of every group of working pulse signal is set as 1V, when user needs to adjust the wherein amplitude of one group of working pulse signal, then
Knob can be adjusted to adjust the amplitude of this group of working pulse signal by corresponding output point, the adjusting model of knob is adjusted in the output point
Enclosing can be 0.1V between 10V.
Shown in Figure 14, it can also include 10 points of tune switches that the channels and collaterals in the present embodiment, which let out therapeutic equipment along inverse benefit, use
It is controlled in the output state respectively to 10 groups of working pulse signals.
Shown in Figure 14, the channels and collaterals in the present embodiment, which let out therapeutic equipment along inverse benefit, to be used to indicate work including 10
Make the pulse indicator light of the output frequency of pulse signal, wherein the corresponding one group of working pulse signal of each pulse indicator light.
In this application, alleged signal control module 20 or gating control module 30 can be central processing unit
(Central Processing Unit, CPU), can also be other general processors, digital signal processor (Digital
Signal Processor, DSP), specific integrated circuit (Application Specific Integrated Circuit,
ASIC), ready-made programmable gate array (Field-Programmable Gate Array, FPGA) or other programmable logic
Device, discrete gate or transistor logic, discrete hardware components etc..General processor can be microprocessor or should
Processor is also possible to any conventional processor etc..
Pulse scan data storage unit 21 can be the internal storage unit of signal control module 20, such as signal control
Hard disk or memory inside molding block 20.Pulse scan data storage unit 21 is also possible to external storage equipment, such as through
Network lets out the plug-in type hard disk being equipped on therapeutic equipment, intelligent memory card (Smart media Card, SmC), secure digital along inverse benefit
(Secure Digital, SD) card, flash card (Flash Card) etc..Pulse scan data storage unit 21 is based on storing
Other programs and data needed for calculation machine program and display device have exported or will be defeated for temporarily storing
Data out.
It is apparent to those skilled in the art that for convenience of description and succinctly, only with above-mentioned each function
Can unit, module division progress for example, in practical application, can according to need and by above-mentioned function distribution by difference
Functional unit, module complete, i.e., the internal structure of described device is divided into different functional unit or module, with complete
All or part of function described above.Each functional unit in embodiment, module can integrate in a processing unit
In, it is also possible to each unit and physically exists alone, can also be integrated in one unit with two or more units, on
It states integrated unit both and can take the form of hardware realization, can also realize in the form of software functional units.In addition,
Each functional unit, module specific name be also only for convenience of distinguishing each other, the protection model being not intended to limit this application
It encloses.The specific work process of unit in above system, module, can refer to corresponding processes in the foregoing method embodiment,
This is repeated no more.
In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, is not described in detail or remembers in some embodiment
The part of load may refer to the associated description of other embodiments.
Those of ordinary skill in the art may be aware that described in conjunction with the examples disclosed in the embodiments of the present disclosure
Unit and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions
It is implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Professional technique
Personnel can use different methods to achieve the described function each specific application, but this realization should not be recognized
For beyond scope of the present application.
In embodiment provided herein, it should be understood that disclosed device/terminal device and method, it can be with
It realizes by another way.For example, device described above/terminal device embodiment is only schematical, for example,
The division of the module or unit, only a kind of logical function partition, there may be another division manner in actual implementation,
Such as m unit or assembly can be combined or can be integrated into another system, or some features can be ignored, or not hold
Row.Another point, shown or discussed mutual coupling or direct-coupling or communication connection can be to be connect by some
Mouthful, the INDIRECT COUPLING or communication connection of device or unit can be electrical property, mechanical or other forms.
The unit as illustrated by the separation member may or may not be physically separated, as unit
The component of display may or may not be physical unit, it can and it is in one place, or may be distributed over m
In a network unit.Some or all of unit therein can be selected to realize this embodiment scheme according to the actual needs
Purpose.
It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit
It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list
Member both can take the form of hardware realization, can also realize in the form of software functional units.
If the integrated module/unit is realized in the form of SFU software functional unit and sells as independent product
Or it in use, can store in a computer readable storage medium.Based on this understanding, the application realizes above-mentioned
All or part of the process in embodiment method can also instruct relevant hardware to complete by computer program, described
Computer program can be stored in a computer readable storage medium, which, can be real when being executed by processor
The step of existing above-mentioned each embodiment of the method.Wherein, the computer program includes computer program code, the computer
Program code can be source code form, object identification code form, executable file or certain intermediate forms etc..The computer
Readable medium may include: any entity or device, recording medium, USB flash disk, the shifting that can carry the computer program code
Dynamic hard disk, magnetic disk, CD, computer storage, read-only memory (ROM, Read-Only Memory), random access memory
Device (RAm, Random Access memory), electric carrier signal, telecommunication signal and software distribution medium etc..It needs to illustrate
, content that the computer-readable medium includes can according to make laws in jurisdiction and the requirement of patent practice into
Row increase and decrease appropriate, such as do not include electricity according to legislation and patent practice, computer-readable medium in certain jurisdictions
Carrier signal and telecommunication signal.
Embodiment described above is only to illustrate the technical solution of the application, rather than its limitations;Although referring to aforementioned reality
Example is applied the application is described in detail, those skilled in the art should understand that: it still can be to aforementioned each
Technical solution documented by embodiment is modified or equivalent replacement of some of the technical features;And these are modified
Or replacement, the spirit and scope of each embodiment technical solution of the application that it does not separate the essence of the corresponding technical solution should all
Comprising within the scope of protection of this application.
Claims (10)
1. a kind of pulse signal control circuit, which is characterized in that with m electrode to connection, m >=2 and m is integer are each described
Electrode is to including that a positive electrode and a negative electrode, the pulse signal control circuit include:
Pulse generating module refers to for receiving the frequency Pulse Width regulating command of user's input, and according to frequency Pulse Width adjusting
It enables and generates corresponding inceptive impulse signal;
Signal control module, for receiving the operating mode selection instruction of user's input, and according to the operation mode, selection refers to
It enables and exports corresponding working pulse scanning signal;
Control module is gated, is connect with the pulse generating module and the signal control module, the gating control module is used
In the inceptive impulse signal is converted to m group working pulse signal, and every group is controlled according to the working pulse scanning signal
Output frequency, output pulse width and the output timing of the working pulse signal, so that the m group working pulse signal is according to right
The operating mode selection instruction answered is exported, wherein working pulse signal described in every group include direct impulse signal and
Reverse impulse signal;
Impulse amplitude adjustment module is connect with the gating control module, and the impulse amplitude adjustment module is for receiving user
The amplitude adjusted of input instructs, and the amplitude of the m group working pulse signal is adjusted according to amplitude adjusted instruction,
And the m group working pulse signal after being adjusted is exported to corresponding m electrode pair, wherein m electrodes to point
It is not corresponded with the m group working pulse signal.
2. pulse signal control circuit as described in claim 1, which is characterized in that the operating mode selection instruction is default
The first operating mode selection instruction when, signal control module output is corresponding with the first operating mode selection instruction
First working pulse scanning signal;
The gating control module is defeated simultaneously according to the first working pulse scanning signal control m group working pulse signal
Out;
Wherein, the output frequency of the direct impulse signal in working pulse signal described in every group and reverse impulse signal, output arteries and veins
Wide and output timing is all the same.
3. pulse signal control circuit as claimed in claim 2, which is characterized in that the operating mode selection instruction is default
The second operating mode selection instruction when, signal control module output is corresponding with the second operating mode selection instruction
Second working pulse scanning signal;
The gating control module is successively defeated according to the second working pulse scanning signal control m group working pulse signal
Out.
4. pulse signal control circuit as claimed in claim 3, which is characterized in that the operating mode selection instruction is default
Third operating mode selection instruction when, signal control module output is corresponding with the third operating mode selection instruction
Third working pulse scanning signal;
The gating control module according to the third working pulse scanning signal control the m group working pulse signal according to
Lower step is sequentially output:
In working pulse signal described in reverse impulse signal in working pulse signal described in A1: the first group of step and second group
Direct impulse signal exports simultaneously, and work described in reverse impulse signal in working pulse signal described in first group and second group
Make the pulse that the direct impulse signal in pulse signal includes the first predetermined number;
In working pulse signal described in reverse impulse signal and third group in working pulse signal described in A2: the second group of step
Direct impulse signal exports simultaneously, and work described in reverse impulse signal in working pulse signal described in second group and third group
Make the pulse that the direct impulse signal in pulse signal includes the first predetermined number;
And so on;Until the Am-1: the m-1 of step group working pulse signal in reverse impulse signal and m group described in
Direct impulse signal in working pulse signal exports simultaneously, and the reverse impulse in the m-1 group working pulse signal
Direct impulse signal in signal and the m group working pulse signal includes the pulse of the first predetermined number.
5. pulse signal control circuit as claimed in claim 4, which is characterized in that before the step A1 further include:
Direct impulse signal and reverse impulse signal in working pulse signal described in B1: the first group of step export simultaneously, and
Direct impulse signal and reverse impulse signal in working pulse signal described in first group include the pulse of the second predetermined number;
Before the step A2 further include:
Direct impulse signal and reverse impulse signal in working pulse signal described in B2: the second group of step export simultaneously, and
Direct impulse signal and reverse impulse signal in working pulse signal described in second group include the pulse of the second predetermined number;
And so on;Before the step Am-1 further include:
Direct impulse signal and reverse impulse signal in step the Bm-1: the m-1 group working pulse signal export simultaneously, and
And direct impulse signal in the m-1 group working pulse signal and reverse impulse signal include the arteries and veins of the second predetermined number
Punching.
6. pulse signal control circuit as claimed in claim 4, which is characterized in that the operating mode selection instruction is default
The 4th operating mode selection instruction when, the signal control module sequentially exports k third working pulse scanning signals,
K >=2 and k are integer;
Wherein, the time interval between the adjacent third working pulse scanning signal is the first prefixed time interval.
7. pulse signal control circuit as described in claim 1, which is characterized in that the gating control module further include:
Electrode detection unit, for detecting the access state of the m electrodes pair, and it is corresponding according to access state output
Electrode accesses feedback signal;
Pulse passage control unit, for accessing conducting of the feedback signal to the m group working pulse signal according to the electrode
It is controlled with shutdown.
8. a kind of pulse signal control method characterized by comprising
The frequency Pulse Width regulating command of user's input is received, and corresponding initial arteries and veins is generated according to the frequency Pulse Width regulating command
Rush signal;
The operating mode selection instruction of user's input is received, and selection instruction exports corresponding work arteries and veins according to the operation mode
Rush scanning signal;
The inceptive impulse signal is converted into m group working pulse signal, and is controlled often according to the working pulse scanning signal
Output frequency, output pulse width and the output timing of the group working pulse signal so that the m group working pulse signal according to
The corresponding operating mode selection instruction is exported, wherein working pulse signal described in every group includes direct impulse signal
With reverse impulse signal;
The amplitude adjusted instruction of user's input is received, and is instructed according to the amplitude adjusted to the m group working pulse signal
Amplitude is adjusted, and the m group working pulse signal after being adjusted is exported to corresponding m electrode pair, wherein m
A electrode with the m group working pulse signal to corresponding respectively.
9. a kind of channels and collaterals suitable for Chinese medicine meridian theory let out therapeutic equipment along inverse benefit characterized by comprising
M electrode pair, the m electrodes with human acupoint to for contacting;
Pulse signal control circuit as described in any one of claims 1 to 8, the pulse signal control circuit and m electrode
To connection, wherein m >=2 and m are integer;
Fm dial, for adjusting the frequency of the inceptive impulse signal;
Pulsewidth knob, for adjusting the pulsewidth of the inceptive impulse signal;
Cycle pulse knob for controlling the pulse signal control circuit circulation output, and adjusts the m group working pulse letter
Number output number, with to the human acupoint carry out line stimulation number be adjusted;
Pulse knob is exported, the pulse number of every group of working pulse signal is exported for adjusting the pulse signal control circuit,
It is adjusted with carrying out a number for stimulation to the human acupoint;
Output is total to adjust knob, is adjusted for the amplitude to the m group working pulse signal;
Voltage always adjusts knob, is adjusted for the operating voltage to the pulse signal control circuit;
Operating mode selects knob, for selecting corresponding therapeutic equipment operating mode;
Reverser is sequentially exported for controlling the m group working pulse signal with the reverse sequence of preset order;
Power switch, for controlling the turn-on and turn-off of power supply signal.
10. as claimed in claim 9 let out therapeutic equipment along inverse benefit, which is characterized in that the suitable inverse benefit lets out therapeutic equipment further include:
M points are adjusted knob, are adjusted for the amplitude respectively to m group working pulse signal, wherein knob is adjusted in each output point
The corresponding amplitude for adjusting one group of working pulse signal.
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CN112057739A (en) * | 2020-08-10 | 2020-12-11 | 未来穿戴技术有限公司 | Pulse output control method, pulse output control device, electronic device, and computer storage medium |
CN114362727A (en) * | 2021-12-31 | 2022-04-15 | 广州星际悦动股份有限公司 | Pulse signal adjusting method and device, storage medium and electronic equipment |
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