CN105056365B

CN105056365B - Electronic hypnotic device

Info

Publication number: CN105056365B
Application number: CN201510480208.2A
Authority: CN
Inventors: 潘秀兰
Original assignee: Individual
Current assignee: Taizhou Tianyi Medical Devices Co ltd
Priority date: 2015-08-08
Filing date: 2015-08-08
Publication date: 2018-03-06
Anticipated expiration: 2035-08-08
Also published as: CN105056365A

Abstract

A kind of electronic hypnotic device, triangular-wave generator, frequency of oscillation including generation triangular wave are controlled by the voltage controlled oscillator of triangular wave, the loudspeaker as voltage controlled oscillator load, it is characterized in that described voltage controlled oscillator output signal frequency changes and changed with triangular-wave generator amplitude output signal；Voltage controlled oscillator output signal frequency changes between 0.7~10Hz, and the change of voltage controlled oscillator output signal frequency is repeatable to be occurred, and the signal is converted to sound wave, and inducible hearer is calm, and then sleepiness is dim, it is fallen asleep as soon as possible.

Description

Electronic hypnotic device

Technical field

The present invention relates to a kind of electronic hypnotic device, and it is made up of electronic component, can send the sound of certain frequency, induces people Fall asleep.

Background technology

People such as hears raindrop sound in sleep, can be easy to fall asleep because the frequency of raindrop sound 0.7~ Change in the range of 10Hz, scientific research is found, brain wave when calm（Referred to as α ripples）Frequency be 7~14Hz, sleepiness is dim Brain wave during moon bright（Referred to as θ ripples）Frequency be 3.5~7Hz, brain wave during deep sleep（Referred to as δ ripples）Frequency be 0.5 ~3.5Hz.If in sleep, people hears the sound of this frequency cycle change, can induce hearer and enters sleep state.Therefore have Necessity develops a kind of device that can send frequency cycle change sound, and guiding hearer falls asleep as early as possible.

The content of the invention

The technical problem to be solved in the present invention is to provide a kind of electronic hypnotic device, the electronic hypnotic device can send frequency cycle The sound of change, make one to fall asleep as early as possible in sleep.

This electronic hypnotic device, including the triangular-wave generator of generation triangular wave, frequency of oscillation are controlled by the voltage-controlled of triangular wave Oscillator, the loudspeaker as voltage controlled oscillator load, it is characterized in that, described voltage controlled oscillator output signal frequency is with triangle Wave producer amplitude output signal changes and changed；Described triangular-wave generator includes the first time-base integrated circuit IC1, and first The pin 8,4 of time-base integrated circuit connects power supply VCC positive poles, and the pin 1 of the first time-base integrated circuit is grounded, and basis set is into electricity when first The pin 5 on road is grounded by electric capacity C11, and resistance R11 connects power supply VCC positive poles, passed through the pin 7 of the first time-base integrated circuit respectively Resistance R12 connects the pin 6,2 of the first time-base integrated circuit, and resistance R12 is in parallel with diode D1, diode D1 negative pole and first The pin 6,2 of time-base integrated circuit is connected, and diode D1 negative pole is grounded by electric capacity C12, and the cycle of oscillation of triangular wave is 60 Selected between~120 seconds；Described voltage controlled oscillator includes operational amplifier A 2, the inverting input of operational amplifier and output Resistance R21 is connected between end, the inverting input of operational amplifier is grounded by electric capacity C21, the homophase input of operational amplifier End passes through FET VT1 drain electrode, source ground, and FET VT1 drain electrode, sources connected in parallel have resistance R22, operation amplifier Resistance R23 is connected between the in-phase input end and output end of device, FET VT1 grid connects drawing for the first time-base integrated circuit Pin 2, voltage controlled oscillator output signal frequency range is between 0.7~10Hz；Between the output end and ground of operational amplifier It is serially connected with electric capacity C22, loudspeaker YD.

As an improvement described electronic hypnotic device also includes the timing controller of a delay switching-off, described timing Controller includes the second time-base integrated circuit IC3, optocoupler GR1, and the emitter stage of optocoupler GR1 triode, collector series connection are in electricity In the VCC loops of source, the colelctor electrode of optocoupler GR1 triode connects power supply VCC positive pole, emitter stage, the collection of optocoupler GR1 triode It is parallel with button K1 on electrode, the pin 8,4 of the second time-base integrated circuit connects the emitter stage of optocoupler GR1 triode, when second The pin 1 of base integrated circuit is grounded, and the pin 5 of the second time-base integrated circuit is grounded by electric capacity C32, the second time-base integrated circuit Pin 7 connect by variable resistor R31 optocoupler GR1 triode emitter stage, the pin 7 of the second time-base integrated circuit passes through electricity Resistance R32 connects the pin 6,2 of the second time-base integrated circuit, and the pin 2 of the second time-base integrated circuit is grounded by electric capacity C31；Regularly The timing of controller is 5~10 minutes.

The characteristics of this electronic hypnotic device, which is that described voltage controlled oscillator output signal frequency exports with triangular-wave generator, believes Number changes in amplitude and change, voltage controlled oscillator output signal frequency changes between 0.7~10Hz, voltage controlled oscillator output signal The change of frequency is repeatable to be occurred, and the signal is converted to sound wave, and inducible hearer is calm, and then sleepiness is dim, makes it most Fast sleep.

Brief description of the drawings

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

Embodiment

In conjunction with the embodiment of the brief description of the drawings present invention.

This electronic hypnotic device, including triangular-wave generator, voltage controlled oscillator, the loudspeaker as voltage controlled oscillator load. Described voltage controlled oscillator output signal frequency changes and changed with triangular-wave generator amplitude output signal, and voltage controlled oscillator is defeated Go out signal frequency excursion between 0.7~10Hz.

Described triangular-wave generator includes the first time-base integrated circuit IC1, and the pin 8,4 of the first time-base integrated circuit connects Power supply VCC positive poles, the pin 1 of the first time-base integrated circuit are grounded, and the pin 5 of the first time-base integrated circuit is connect by electric capacity C11 Ground, the pin 7 of the first time-base integrated circuit when resistance R11 connects power supply VCC positive poles, connects first by resistance R12 respectively basis set into The pin 6,2 of circuit, resistance R12 is in parallel with diode D1, the pin 6,2 of diode D1 negative pole and the first time-base integrated circuit Connection, diode D1 negative pole are grounded by electric capacity C12.

First time-base integrated circuit and its peripheral resistance, electric capacity, diode form an oscillator,

Its frequency of oscillation f₁=1.44 /（R₁₁+ R₁₂）C₁₂；

Make resistance R11 equal with resistance R12 resistance, it is three that can make the waveform on the first time-base integrated circuit pin 2 or 6 Angle ripple ui, resistance R11, R12 resistance and electric capacity C12 capacitance are selected, the cycle of oscillation of the oscillator, cycle of oscillation can be set Selected between 60~120 seconds.

Described voltage controlled oscillator includes operational amplifier A 2, and the inverting input and output end of operational amplifier are indirectly There is resistance R21, the inverting input of operational amplifier is grounded by electric capacity C21, and the in-phase input end of operational amplifier passes through field Effect pipe VT1 drain electrode, source ground, FET VT1 drain electrode, sources connected in parallel have resistance R22, the same phase of operational amplifier Resistance R23 is connected between input and output end, FET VT1 grid connects the pin 2 of the first time-base integrated circuit.

An equivalent resistance R, described equivalent resistance are can be considered after FET VT1 drain electrode, source electrode are in parallel with resistance R22 Change with the voltage change in fet gate, it is triangular wave ui that fet gate, which receives signal, as triangular wave ui Amplitude increase when, described equivalent resistance reduce, vice versa.The waveform of voltage controlled oscillator output is square wave, its oscillation frequency Rate and resistance R21, R23, electric capacity C21 and equivalent resistance R are related：

Its frequency of oscillation f₂ = 1 / [2R₂₁C₂₁Ln(1+2R/R₂₃)]；

After resistance R21, R23 resistance and electric capacity C21 capacity determine, the frequency of voltage controlled oscillator output signal by etc. Effect resistance R is determined that equivalent resistance R resistance increase, the frequency of voltage controlled oscillator output signal reduces, and vice versa.Selection Resistance R21, R22, R23 resistance and electric capacity C21 capacity, can make the frequency of oscillation of voltage controlled oscillator between 0.7~10Hz Change.

Electric capacity C22, loudspeaker YD are serially connected between the output end and ground of operational amplifier, loudspeaker is defeated by operational amplifier Go out signal and be converted into sound.

The power supply VCC of this electronic hypnotic device voltage is 9V.

Described electronic hypnotic device also includes the timing controller of a delay switching-off, and described timing controller includes second Time-base integrated circuit IC3, optocoupler GR1, the emitter stage of optocoupler GR1 triode, collector series connection are in power supply VCC loops, light The colelctor electrode of coupling GR1 triode connects power supply VCC positive pole, be parallel with the emitter stage of optocoupler GR1 triode, colelctor electrode by Key K1, the pin 8,4 of the second time-base integrated circuit connect the emitter stage of optocoupler GR1 triode, and the second time-base integrated circuit draws Pin 1 is grounded, and the pin 5 of the second time-base integrated circuit is grounded by electric capacity C32, and the pin 7 of the second time-base integrated circuit is by can Become the emitter stage that resistance R31 connects optocoupler GR1 triode, when the pin 7 of the second time-base integrated circuit connects second by resistance R32 The pin 6,2 of base integrated circuit, the pin 2 of the second time-base integrated circuit are grounded by electric capacity C31；Selection variable resistor R31, The capacity of R32 resistances and electric capacity C31, the timing of timing controller can be set as 5~10 minutes.

The operation principle of timing controller is that the second time-base integrated circuit and resistance R31, R32 and electric capacity C31 are formed One square-wave oscillator, cycle of oscillation are 5~10 minutes, and the pin 3 of the second time-base integrated circuit is the output end of square-wave signal, electricity After button K1 is pressed, the pin 3 of the second time-base integrated circuit is high level, and optocoupler GR1 light emitting diode has electric current to lead to for resistance Cross, make optocoupler GR1 triode ON, itself working power is provided for square-wave generator, voltage controlled oscillator and timing controller； When the pin 3 of the second time-base integrated circuit is low level, optocoupler GR1 light emitting diode no current is by making optocoupler GR1's Triode ends, and cuts off the electricity supply.

The model NE555 of first time-base integrated circuit, the second time-base integrated circuit, the model of operational amplifier OP07, the model KWP03N40 of FET.

For electronic hypnotic device in use, push button, loudspeaker sends several ripples, the frequency of the sound wave 0.7~10Hz it Between circulation change, can induce that hearer is calm, and then sleepiness is dim, it is fallen asleep as soon as possible.It is on probation to show that hearer typically exists It can just be fallen asleep in 10 minutes, timing controller automatically cuts off power supply after hearer falls asleep.Such as hearer can't within the time of setting Sleep can push button again, continue electronic hypnotic device work.

Claims

1. a kind of electronic hypnotic device, including the triangular-wave generator of generation triangular wave, frequency of oscillation are controlled by the voltage-controlled of triangular wave Oscillator, the loudspeaker as voltage controlled oscillator load, it is characterized in that, described voltage controlled oscillator output signal frequency is with triangle Wave producer amplitude output signal changes and changed, and described triangular-wave generator includes the first time-base integrated circuit IC1, and first The pin 8,4 of time-base integrated circuit connects power supply VCC positive poles, and the pin 1 of the first time-base integrated circuit is grounded, and basis set is into electricity when first The pin 5 on road is grounded by electric capacity C11, the pin 7 of the first time-base integrated circuit respectively by resistance R11 connect power supply VCC positive poles, The pin 6,2 of the first time-base integrated circuit is connect by resistance R12, resistance R12 is in parallel with diode D1, diode D1 negative pole with The pin 6,2 of first time-base integrated circuit is connected, and diode D1 negative pole is grounded by electric capacity C12, the cycle of oscillation of triangular wave Selected between 60~120 seconds；Described voltage controlled oscillator includes operational amplifier A 2, the inverting input of operational amplifier with Resistance R21 is connected between output end, the inverting input of operational amplifier is grounded by electric capacity C21, the same phase of operational amplifier Drain electrode of the input by FET VT1, source ground, FET VT1 drain electrode, sources connected in parallel have resistance R22, computing Resistance R23 is connected between the in-phase input end and output end of amplifier, FET VT1 grid connects the first time-base integrated circuit Pin 2, voltage controlled oscillator output signal frequency range is between 0.7~10Hz；The output end of operational amplifier and ground Between be serially connected with electric capacity C22, loudspeaker YD.

2. electronic hypnotic device according to claim 1, it is characterized in that electronic hypnotic device also includes the timing of a delay switching-off Controller, described timing controller include the second time-base integrated circuit IC3, optocoupler GR1, the transmitting of optocoupler GR1 triode Pole, collector series connection are in power supply VCC loops, and the colelctor electrode of optocoupler GR1 triode connects power supply VCC positive pole, optocoupler GR1's Button K1 is parallel with the emitter stage of triode, colelctor electrode, the pin 8,4 of the second time-base integrated circuit connects optocoupler GR1 three poles The emitter stage of pipe, the pin 1 of the second time-base integrated circuit are grounded, and the pin 5 of the second time-base integrated circuit is connect by electric capacity C32 Ground, the pin 7 of the second time-base integrated circuit connect the emitter stage of optocoupler GR1 triode by variable resistor R31, basis set when second Pin 7 into circuit connects by resistance R32 the pin 6,2 of the second time-base integrated circuit, and the pin 2 of the second time-base integrated circuit is logical Cross electric capacity C31 ground connection；The timing of timing controller is 5~10 minutes.