CN206133239U - Hydrogen -rich water cup electrolysis controller - Google Patents
Hydrogen -rich water cup electrolysis controller Download PDFInfo
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- CN206133239U CN206133239U CN201621124133.0U CN201621124133U CN206133239U CN 206133239 U CN206133239 U CN 206133239U CN 201621124133 U CN201621124133 U CN 201621124133U CN 206133239 U CN206133239 U CN 206133239U
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Abstract
The utility model provides a hydrogen -rich water cup electrolysis controller for for positive and negative electrolysis electrode provides operating voltage, including power input circuit, DC DC boost circuit, the positive and negative converting circuit of voltage, MCU chip and ON -OFF control circuit, power input circuit exports the direct current, and including charging circuit and lithium cell, charging circuit accessible AC adapter power is lithium batteries, DC DC boost circuit is used for the DC voltage that the lithium cell the provided required voltage that risees, does the positive and negative converting circuit input of voltage meet DC respectively DC boost circuit and MCU chip, the positive and negative electrolysis electrode of output termination, the positive and negative converting circuit's of MCU chip control voltage timing break -make, ON -OFF control circuit is used for receiving user's operational information and giving the MCU chip data transmission. The utility model discloses an it is battery powered, need not external power supply and conveniently carry, be furnished with charging circuit, guaranteed ionized operating voltage of drinking cup and current stabilization nature, can adjust output according to different quality of water to save the electric energy.
Description
【Technical field】
This utility model belongs to electrolysis installation field, and in particular to a kind of hydrogen-rich water tumbler is electrolysed controller.
【Background technology】
Medical research shows, causes human body cell ill or aging main arch-criminal is superfluous oxygen-derived free radicals.Oxygen
Entered in vivo by the breathing of people, but the erythrocyte in menses liquid is transported in each cell, in order to allow it each intracellular
Energy is produced, the sugar and fat oxygen when burning is consumed also can burn in human body, wherein have 2% can become active oxygen,
In addition, because the reason such as food additive, the drinking water containing chlorine, gut microflora imbalance causes abnormal fermentation in the intestines and stomach
Active oxygen can in a large number be produced, in addition with, after vigorous exercise, in ultraviolet or electromagnetic radiation environment, smoking, drink,
Stress is big, when touching antibacterial, virus, atmospheric pollution, lonizing radiation, perspective, anticarcinogen, dyestuff etc., all can in human body
Produce a large amount of active oxygens.In order to reduce impact of the active oxygen to health, occurs a kind of richness for receiving significant attention on the market
Containing hydrionic water element water, also known as hydrogen rich water, it utilizes hydrion to be rich in what hydrionic water element aqueouss oxygen was neutralized with living
Characteristic, selectively neutralizes hydroxyl radical free radical, nitrous acid anion etc., reduces vivo oxidation thing.In order in daily life can
Hydrogen rich water is easily enjoyed, therefore is developed a kind of ionizing water and is produced hydrionic controller, it is adaptable to portable hydrogen-rich water tumbler.
【Utility model content】
In view of this, this utility model provides a kind of hydrogen-rich water tumbler and is electrolysed controller.
This utility model adopts the following technical scheme that, a kind of hydrogen-rich water tumbler is electrolysed controller, for for positive and negative electrolysis electrode
Running voltage, including the positive and negative change-over circuit of power supply input circuit, DC-DC booster circuit, voltage, MCU chip and switch control are provided
Circuit processed;Power supply input circuit exports unidirectional current, including charging circuit and lithium battery, and charging circuit can pass through AC adaptor power supplies
For lithium cell charging;The input termination lithium battery of DC-DC booster circuit, the DC voltage for lithium battery to be provided is increased to institute
Need voltage;The positive and negative change-over circuit of voltage, with five inputs and two outfans, five inputs connect respectively DC-DC liters
The outfan of volt circuit and the three of MCU chip I/O pins;Two outfans connect respectively positive and negative electrolysis electrode;MCU chip is distinguished
It is connected with power supply input circuit and the positive and negative change-over circuit of voltage;MCU chip judges electricity according to the voltage swing of power supply input circuit
Pressure condition, so as to carry out being protected from overcharging to lithium battery;MCU chip controls the break-make of the positive and negative change-over circuit of the voltage, makes
It drives electrolysis electrode that switching is timed between both positive and negative polarity;ON-OFF control circuit is connected with MCU chip, for receive user
Operation information and send data to MCU chip.
Preferably, also including buzzer circuit, the buzzer circuit is connected with MCU chip, for auditory tone cueses work
Complete or not enough power supply.
Preferably, the buzzer circuit includes buzzer BUZ1, audion Q2, diode D6, resistance R18, resistance R19
With resistance R48, the negative pole of a terminating diode D6 of buzzer BUZ1,20 feet of MCU chip are connect by resistance R18, by electricity
Resistance R48 connects respectively the colelctor electrode of audion Q2, connects the positive pole of diode D6 and connect the other end of buzzer BUZ1, the base of audion
Pole connects 14 feet of MCU chip, its grounded emitter by resistance R19.
Preferably, also including indicator light circuit, the indicator light circuit is connected with MCU chip, for light prompt work
State or charged state.
Preferably, the indicator light circuit includes resistance R28, resistance R15, resistance R16, resistance R17, light emitting diode
RG1, light emitting diode BG1 and light emitting diode GG1, the positive pole of light emitting diode RG1 and GG1 passes through respectively resistance R15 and R17
Connect 8 feet and 9 feet of MCU chip, the positive pole of light emitting diode BG1 passes sequentially through 6 feet that resistance R16 and R28 connect MCU chip, three
The minus earth of individual light emitting diode.
Preferably, the charging circuit includes charging management chip U2, resistance R9, resistance R31, resistance R32, three poles
7 feet of pipe Q11, field effect transistor Q12 and other peripheral circuits, wherein charging management chip U2 are grounded by resistance R9, and its 6 foot leads to
Cross resistance R31 to connect the base stage of audion Q11, pass sequentially through resistance R31 and resistance R32 connects the emitter stage of audion Q11, audion
The colelctor electrode of Q11 connects 10 feet of MCU chip, and the drain electrode of field effect transistor Q12 connects lithium battery anode.
Preferably, the DC-DC booster circuit includes boost chip U3, I-shaped inductance L2, diode D5, resistance R41, electricity
Resistance R42, resistance R43, resistance R47, electric capacity E3, electric capacity E4 and other peripheral circuits, one end of wherein I-shaped inductance L2 connects respectively
7 feet of boost chip U3,8 feet that boost chip U3 is connect by resistance R41, connect the 6 of boost chip U3 respectively by resistance R42
Foot, the BAT+ nodes for connecing charging circuit and the one end for meeting electric capacity E4, the other end of I-shaped inductance L2 connects respectively the 1 of boost chip U3
Foot and the positive pole for meeting diode D5, the negative pole of diode D5 connects respectively 34V voltage output nodes, passes sequentially through resistance R47 and electricity
Resistance R43 ground connection and one end of electric capacity E3 is connect, the other end of electric capacity E3, the other end of electric capacity E4,2 feet of boost chip U3 and 4 feet
It is grounded respectively.
Preferably, the positive and negative change-over circuit of the voltage include audion Q3, audion Q4, audion Q5, audion Q6, three
Pole pipe Q7, audion Q8, audion Q9, diode D2, diode D3, diode D4, resistance R1, resistance R7, resistance R10, electricity
Resistance R20, resistance R21, resistance R22, resistance R34, resistance R35, resistance R40, the wherein emitter stage of audion Q7, Q8 meets respectively institute
The 34V voltage output nodes of DC-DC booster circuit are stated, the colelctor electrode of audion Q8, the emitter stage of audion Q9 connect respectively electrolysis
One pole of electrode, the colelctor electrode of audion Q7, the emitter stage of audion Q6 connect respectively another pole of electrolysis electrode, audion Q5's
Colelctor electrode connects 7 feet of MCU chip, 12 feet of one end MCU chip of resistance R40, the base stage of another termination audion Q3, resistance 21
11 feet of one termination MCU chip, the base stage of another termination audion Q4, the colelctor electrode of audion Q3 connects respectively the negative of diode D3
Pole, the base stage that audion Q6 is met by resistance R34 and the base stage of diode Q8, the colelctor electrode of audion Q4 are connect by resistance R20
The negative pole that meets diode D4 respectively, the base stage that audion Q7 is met by resistance R22 and the base of diode Q9 is connect by resistance R2035
Pole, the positive pole of diode D3, the positive pole of diode D4 connect respectively the BAT ON nodes of charging circuit, the colelctor electrode point of audion Q6
The colelctor electrode for not meeting audion Q9, the base stage that audion Q5 is met by resistance R10, the positive pole that diode D2 is met by resistance R1 and
Pass sequentially through resistance R1 and resistance R7 and connect the emitter stage of audion Q5, the emitter stage of audion Q3, the emitter stage of audion Q4, three
The emitter stage of pole pipe Q5 and the negative pole of diode D2 are grounded respectively.
Preferably, the ON-OFF control circuit includes switch SW1, resistance R44 and resistance R53, switchs a termination of SW1
Ground, the other end connects respectively 15 feet and 20 feet of MCU chip by resistance R44 and resistance R53.
Advantageous Effects of the present utility model are:
1. powered using battery, without the need for external power supply, be convenient for carrying, and the charging of battery is furnished with charging circuit, it is ensured that
The running voltage and current stability of water tumbler ionization under wide cell voltage input condition.
2. according to the difference of water quality, DC-DC booster circuit by automatically adjusting output voltage come controlled output power, so as to
Saving electric energy reduces power consumption, it is adaptable to the ionization of multiple-quality water.
【Description of the drawings】
Hydrogen-rich water tumbler in Fig. 1 embodiments one is electrolysed the structural representation of controller.
Hydrogen-rich water tumbler in Fig. 2 embodiments one is electrolysed the charging circuit schematic diagram of controller.
Hydrogen-rich water tumbler in Fig. 3 embodiments one is electrolysed the DC-DC booster circuit schematic diagram of controller.
Hydrogen-rich water tumbler in Fig. 4 embodiments one is electrolysed the MCU chip circuit diagram of controller.
Hydrogen-rich water tumbler in Fig. 5 embodiments one is electrolysed the positive and negative change-over circuit schematic diagram of voltage of controller.
Hydrogen-rich water tumbler in Fig. 6 embodiments one is electrolysed the buzzer circuit schematic diagram of controller.
Hydrogen-rich water tumbler in Fig. 7 embodiments one is electrolysed the indicator light circuit schematic diagram of controller.
Hydrogen-rich water tumbler in Fig. 8 embodiments one is electrolysed the ON-OFF control circuit schematic diagram of controller.
【Specific embodiment】
In order that the technical scheme and technique effect of this patent are clearer, with reference to the accompanying drawings and examples to this patent
Specific embodiment be described in detail.
Embodiment one:
As shown in figure 1, the hydrogen-rich water tumbler electrolysis controller in the present embodiment, for providing work electricity for positive and negative electrolysis electrode
Pressure so as under the forceful electric power field action between both positive and negative polarity, hydrone is forced to be ionized into hydrion and hydroxide ion, the electrolysis
Controller includes power supply input circuit, DC-DC booster circuit, the positive and negative change-over circuit of voltage, MCU chip, ON-OFF control circuit, honeybee
Ring device circuit and indicator light circuit.Preferably, MCU chip model MC96F8216D encapsulation (SOP20).
As shown in Fig. 2 power supply input circuit includes lithium battery and charging circuit.Because of the architectural characteristic of lithium battery, highest is filled
Electric blanking voltage is 4.2V, the palpus constant-voltage charge when cell voltage is near protection voltage, and otherwise easily overcharging causes battery failure,
Therefore the charging requirement of lithium battery is higher, the charging circuit include charging management chip U2, resistance R9, resistance R31, resistance R32, three
7 feet of pole pipe Q11, field effect transistor Q12 and other peripheral circuits, wherein charging management chip U2 are grounded by resistance R9, its 6 foot
The base stage of audion Q11 is connect by resistance R31, resistance R31 and resistance R32 is passed sequentially through and is connect the emitter stage of audion Q11, three poles
The colelctor electrode of pipe Q11 connects 10 feet of MCU chip, and the drain electrode of field effect transistor Q12 connects lithium battery anode, and charging management chip can pass through
AC adaptor power supplies are lithium cell charging, by being connected the voltage swing for alloing it according to power supply input circuit with MCU chip,
Judge the voltage status of lithium battery, so as to the break-make for passing through control field effect transistor Q12 realizes the charge protection to lithium battery, prevent
Overcharge.Preferably, charging management chip U2 models SC9017 encapsulation (SOP8).
As shown in figure 3, DC-DC booster circuit includes boost chip U3, I-shaped inductance L2, diode D5, resistance R41, electricity
Resistance R42, resistance R43, resistance R47, electric capacity E3, electric capacity E4 and other peripheral circuits, one end of wherein I-shaped inductance L2 connects respectively
7 feet of boost chip U3,8 feet that boost chip U3 is connect by resistance R41, connect the 6 of boost chip U3 respectively by resistance R42
Foot, the BAT+ nodes for connecing charging circuit and the one end for meeting electric capacity E4, the other end of I-shaped inductance L2 connects respectively the 1 of boost chip U3
Foot and the positive pole for meeting diode D5, the negative pole of diode D5 connects respectively 34V voltage output nodes, passes sequentially through resistance R47 and electricity
Resistance R43 ground connection and one end of electric capacity E3 is connect, the other end of electric capacity E3, the other end of electric capacity E4,2 feet of boost chip U3 and 4 feet
It is grounded respectively.The input termination lithium battery of DC-DC booster circuit energy, boost chip is opened according to the frequency cycle of setting, power supply
Loop is formed via I-shaped inductance L2- boost chips U3, electric current is converted into electrical power storage, all secondary closures of boost chip in inductance
Afterwards, L2 produces reverse induction voltage, and the electric energy of storage is discharged in output capacitance E3 by diode D5, and this voltage superposition exists
Power end, completes boost function.Ionization to adapt to different quality requires that be truly realized reducing energy consumption, the DC-DC rises piezoelectricity
Road maximum can export 34V DC voltages.Preferably, boost chip U3 model MC34063 encapsulation (DIP8).
As shown in figure 4, MCU chip MC96F8216D includes 20 pins, respectively with positive and negative turn of power supply input circuit, voltage
Change the connection of circuit, ON-OFF control circuit, buzzer circuit and indicator light circuit.
As shown in figure 5, the positive and negative change-over circuit of voltage include audion Q3, audion Q4, audion Q5, audion Q6, three
Pole pipe Q7, audion Q8, audion Q9, diode D2, diode D3, diode D4, resistance R1, resistance R7, resistance R10, electricity
Resistance R20, resistance R21, resistance R22, resistance R34, resistance R35, resistance R40, the wherein emitter stage of audion Q7, Q8 meets respectively institute
The 34V voltage output nodes of DC-DC booster circuit are stated, the colelctor electrode of audion Q8, the emitter stage of audion Q9 connect respectively electrolysis
One pole of electrode, the colelctor electrode of audion Q7, the emitter stage of audion Q6 connect respectively another pole of electrolysis electrode, audion Q5's
Colelctor electrode connects 7 feet of MCU chip, 12 feet of one end MCU chip of resistance R40, the base stage of another termination audion Q3, resistance 21
11 feet of one termination MCU chip, the base stage of another termination audion Q4, the colelctor electrode of audion Q3 connects respectively the negative of diode D3
Pole, the base stage that audion Q6 is met by resistance R34 and the base stage of diode Q8, the colelctor electrode of audion Q4 are connect by resistance R20
The negative pole that meets diode D4 respectively, the base stage that audion Q7 is met by resistance R22 and the base of diode Q9 is connect by resistance R2035
Pole, the positive pole of diode D3, the positive pole of diode D4 connect respectively the BAT ON nodes of charging circuit, the colelctor electrode point of audion Q6
The colelctor electrode for not meeting audion Q9, the base stage that audion Q5 is met by resistance R10, the positive pole that diode D2 is met by resistance R1 and
Pass sequentially through resistance R1 and resistance R7 and connect the emitter stage of audion Q5, the emitter stage of audion Q3, the emitter stage of audion Q4, three
The emitter stage of pole pipe Q5 and the negative pole of diode D2 are grounded respectively.The positive and negative change-over circuit of voltage is defeated with five inputs and two
Go out end, five inputs connect respectively the outfan of DC-DC booster circuit and three I/O pins of MCU chip, two outfans
Positive and negative electrolysis electrode, the break-make of the positive and negative change-over circuit of MCU chip control voltage so as to drive electrolysis electrode in both positive and negative polarity are connect respectively
Between be timed switching, so as to complete be electrolysed work.
As described in Figure 6, buzzer circuit includes buzzer BUZ1, audion Q2, diode D6, resistance R18, resistance R19
With resistance R48, the negative pole of a terminating diode D6 of buzzer BUZ1,20 feet of MCU chip are connect by resistance R18, by electricity
Resistance R48 connects respectively the colelctor electrode of audion Q2, connects the positive pole of diode D6 and connect the other end of buzzer BUZ1, the base of audion
Pole connects 14 feet of MCU chip, its grounded emitter by resistance R19.When hydrogen-rich water tumbler work at present complete or battery electric quantity not
When sufficient, MCU chip control buzzer sends auditory tone cueses.
As shown in fig. 7, indicator light circuit includes resistance R28, resistance R15, resistance R16, resistance R17, light emitting diode
RG1, light emitting diode BG1 and light emitting diode GG1, the positive pole of light emitting diode RG1 and GG1 passes through respectively resistance R15 and R17
Connect 8 feet and 9 feet of MCU chip, the positive pole of light emitting diode BG1 passes sequentially through 6 feet that resistance R16 and R28 connect MCU chip, three
The minus earth of individual light emitting diode.With reference to the control of MCU chip, LED is used for pointing out the working condition of hydrogen-rich water tumbler or fills
Electricity condition.
As shown in figure 8, ON-OFF control circuit includes switch SW1, resistance R44 and resistance R53, one end ground connection of SW1 is switched,
The other end connects respectively 15 feet and 20 feet of MCU chip by resistance R44 and resistance R53.MCU chip controlling switch control circuit,
Determine whether to start working by receiving from the operation information of user and select one of which pattern to start working, hydrogen rich water
The mode of operation of cup includes opening, and closes and cleans.
The course of work of the present utility model is as follows:
Mode of operation is opened in activate switch, the bright prompting of LED, and hydrogen-rich water tumbler is by loading water, MCU in lithium battery power supply, cup
Chip is adjusted by DC-DC booster circuit according to water quality to voltage, is brought the voltage up and exported after the condition for reaching ionizing water
Give voltage positive and negative change-over circuit, the break-make of the positive and negative change-over circuit of MCU chip control voltage so as to drive electrolysis electrode in both positive and negative polarity
Between be timed switching according to the time of setting water be fully electrolysed, electrolytically generated hydrogen and oxygen, so that cup
Interior water becomes hydrogen rich water.When battery electric quantity is not enough, buzzer can send auditory tone cueses user charging, and external power source is accessed
Charging circuit is charged to lithium battery, when charging is complete buzzer rings prompting charging complete.When needing to clean water tumbler,
It is long to press switch 10 seconds, the bright prompting cleaning pattern of LED.After the completion of work, closing switch, LED is gone out and points out to close work
Pattern.
The preferred embodiment of this patent is the foregoing is only, this patent is not limited to, for the skill of this area
For art personnel, this patent can have various modifications and variations.It is all within the spirit and principle of this patent, made any repair
Change, equivalent, improvement etc., should be included within the protection domain of this patent.
Claims (9)
1. a kind of hydrogen-rich water tumbler is electrolysed controller, for providing running voltage for positive and negative electrolysis electrode, it is characterised in that including electricity
The positive and negative change-over circuit of source input circuit, DC-DC booster circuit, voltage, MCU chip and ON-OFF control circuit;
Power supply input circuit exports unidirectional current, including charging circuit and lithium battery, and charging circuit can be by AC adaptor power supplies
Lithium cell charging;
The input termination lithium battery of DC-DC booster circuit, the DC voltage for lithium battery to be provided is increased to required voltage;
The positive and negative change-over circuit of voltage, with five inputs and two outfans, five inputs connect respectively DC-DC and rise piezoelectricity
The outfan on road and the three of MCU chip I/O pins;Two outfans connect respectively positive and negative electrolysis electrode;
MCU chip is connected respectively with power supply input circuit and the positive and negative change-over circuit of voltage;MCU chip is according to power supply input circuit
Voltage swing, judges voltage status, so as to carry out being protected from overcharging to lithium battery;MCU chip controls positive and negative turn of the voltage
Change the break-make of circuit so as to drive electrolysis electrode that switching is timed between both positive and negative polarity;
ON-OFF control circuit is connected with MCU chip, and the operation information for receive user simultaneously sends data to MCU chip.
2. hydrogen-rich water tumbler as claimed in claim 1 is electrolysed controller, it is characterised in that also including buzzer circuit, the honeybee
Ring device circuit is connected with MCU chip, completes or not enough power supply for auditory tone cueses work.
3. hydrogen-rich water tumbler as claimed in claim 2 is electrolysed controller, it is characterised in that the buzzer circuit includes buzzer
BUZ1, audion Q2, diode D6, resistance R18, resistance R19 and resistance R48, a terminating diode D6's of buzzer BUZ1
Negative pole, 20 feet that MCU chip is connect by resistance R18, the colelctor electrode for meeting audion Q2 respectively by resistance R48, meet diode D6
Positive pole and connect the other end of buzzer BUZ1, the base stage of audion connects 14 feet of MCU chip, its emitter stage by resistance R19
Ground connection.
4. hydrogen-rich water tumbler as claimed in claim 1 is electrolysed controller, it is characterised in that also including indicator light circuit, the finger
Indication lamp circuit is connected with MCU chip, for light prompt working condition or charged state.
5. hydrogen-rich water tumbler as claimed in claim 4 is electrolysed controller, it is characterised in that the indicator light circuit includes resistance
R28, resistance R15, resistance R16, resistance R17, light emitting diode RG1, light emitting diode BG1 and light emitting diode GG1, luminous two
The positive pole of pole pipe RG1 and GG1 connects respectively 8 feet and 9 feet of MCU chip, the positive pole of light emitting diode BG1 by resistance R15 and R17
Pass sequentially through 6 feet that resistance R16 and R28 connect MCU chip, the minus earth of three light emitting diodes.
6. hydrogen-rich water tumbler as claimed in claim 1 is electrolysed controller, it is characterised in that the charging circuit includes charging
Managing chip U2, resistance R9, resistance R31, resistance R32, audion Q11, field effect transistor Q12 and other peripheral circuits, wherein filling
7 feet of electric managing chip U2 are grounded by resistance R9, and its 6 foot connects the base stage of audion Q11, passes sequentially through electricity by resistance R31
Resistance R31 and resistance R32 connects the emitter stage of audion Q11, and the colelctor electrode of audion Q11 connects 10 feet of MCU chip, field effect transistor
The drain electrode of Q12 connects lithium battery anode.
7. hydrogen-rich water tumbler as claimed in claim 6 is electrolysed controller, it is characterised in that the DC-DC booster circuit includes rising
Pressure chip U3, I-shaped inductance L2, diode D5, resistance R41, resistance R42, resistance R43, resistance R47, electric capacity E3, electric capacity E4 and
Other peripheral circuits, wherein one end of I-shaped inductance L2 connect respectively 7 feet of boost chip U3, connect boost chip by resistance R41
8 feet of U3,6 feet for connecing boost chip U3 respectively by resistance R42, the BAT+ nodes for connecing charging circuit and connect the one of electric capacity E4
End, the other end of I-shaped inductance L2 connects respectively 1 foot of boost chip U3 and connects the positive pole of diode D5, the negative pole point of diode D5
34V voltage output nodes are not connect, resistance R47 is passed sequentially through and resistance R43 ground connection and connects one end of electric capacity E3, electric capacity E3's is another
End, 2 feet of the other end of electric capacity E4, boost chip U3 and 4 feet are grounded respectively.
8. hydrogen-rich water tumbler as claimed in claim 7 is electrolysed controller, it is characterised in that the positive and negative change-over circuit of the voltage includes
Audion Q3, audion Q4, audion Q5, audion Q6, audion Q7, audion Q8, audion Q9, diode D2, two poles
Pipe D3, diode D4, resistance R1, resistance R7, resistance R10, resistance R20, resistance R21, resistance R22, resistance R34, resistance R35,
Resistance R40, the wherein emitter stage of audion Q7, Q8 connect respectively the 34V voltage output nodes of the DC-DC booster circuit, three poles
The colelctor electrode of pipe Q8, the emitter stage of audion Q9 connect respectively a pole of electrolysis electrode, the colelctor electrode of audion Q7, audion Q6
Emitter stage connects respectively another pole of electrolysis electrode, and the colelctor electrode of audion Q5 meets 7 feet of MCU chip, one end MCU of resistance R40
12 feet of chip, the base stage of another termination audion Q3, resistance 21 1 terminates 11 feet of MCU chip, another termination audion Q4
Base stage, the colelctor electrode of audion Q3 connect respectively the negative pole of diode D3, the base stage of audion Q6 connect by resistance R34 and is passed through
Resistance R20 connects the base stage of diode Q8, and the colelctor electrode of audion Q4 connects respectively the negative pole of diode D4, connects three by resistance R22
The base stage of pole pipe Q7 and the base stage of diode Q9 is connect by resistance R2035, the positive pole of diode D3, the positive pole difference of diode D4
The BAT ON nodes of charging circuit are connect, the colelctor electrode of audion Q6 connects respectively the colelctor electrode of audion Q9, connects three by resistance R10
The base stage of pole pipe Q5, the positive pole that diode D2 is met by resistance R1 and pass sequentially through resistance R1 and resistance R7 connect audion Q5 send out
Emitter-base bandgap grading, the negative pole of the emitter stage of audion Q3, the emitter stage of audion Q4, the emitter stage of audion Q5 and diode D2 connects respectively
Ground.
9. hydrogen-rich water tumbler as claimed in claim 1 is electrolysed controller, it is characterised in that the ON-OFF control circuit includes switch
SW1, resistance R44 and resistance R53, switch one end ground connection of SW1, and the other end connects MCU core by resistance R44 and resistance R53 respectively
15 feet and 20 feet of piece.
Priority Applications (1)
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CN201621124133.0U CN206133239U (en) | 2016-10-14 | 2016-10-14 | Hydrogen -rich water cup electrolysis controller |
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CN201621124133.0U CN206133239U (en) | 2016-10-14 | 2016-10-14 | Hydrogen -rich water cup electrolysis controller |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108539829A (en) * | 2018-06-12 | 2018-09-14 | 深圳市瑞晶实业有限公司 | A kind of more mouthfuls of charging circuits |
CN109004819A (en) * | 2018-07-27 | 2018-12-14 | 深圳市太美亚电子科技有限公司 | A kind of electrolysis polarity switching control circuit |
-
2016
- 2016-10-14 CN CN201621124133.0U patent/CN206133239U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108539829A (en) * | 2018-06-12 | 2018-09-14 | 深圳市瑞晶实业有限公司 | A kind of more mouthfuls of charging circuits |
CN108539829B (en) * | 2018-06-12 | 2024-04-05 | 深圳市瑞晶实业有限公司 | Multi-port charging circuit |
CN109004819A (en) * | 2018-07-27 | 2018-12-14 | 深圳市太美亚电子科技有限公司 | A kind of electrolysis polarity switching control circuit |
CN109004819B (en) * | 2018-07-27 | 2024-03-26 | 深圳市太美亚电子科技有限公司 | Electrolysis polarity switching control circuit |
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