CN2375642Y - Hydrogen generator by electrolysis of water - Google Patents

Abstract

The utility model discloses the technology of an electrolysis water hydrogen generator. A liquid path device is connected through a water charging pump with a non-return valve, an alkali tank, a circulating pump, a flow switch, a filter and an electrolytic bath; the hydrogen path structure of a gas path device is composed of a hydrogen condenser which is connected with a differential pressure running regulator, a differential pressure shutting regulator, a back pressure valve, a safety valve, a hydrogen pressure gauge, a hydrogen pressure sensor, an oxygen-in-hydrogen detector, and a hydrogen purging valve; an oxygen path structure is composed of an oxygen condenser which is connected with a differential pressure running regulator, a differential pressure shutting regulator, an oxygen pressure gauge, an oxygen pressure sensor, a hydrogen-in-oxygen detector, and an oxygen delivery valve. The purity of hydrogen production is 99.99 percents, and water content is less than or equal to 1.7 g/m< 3 >H.

Description

Water-electrolyzing hydrogen generator

The present invention relates to a kind of efficient electrolysis water hydrogen generator that high-purity hydrogen is provided.

Using maximum water electrolysis hydrogen production devices in industrial production is to separate the hydrogen-oxygen 2 air chambers with woven asbesto as barrier film, and it requires the operating pressure of hydrogen-oxygen 2 air chambers to balance each other, and pressure reduction is controlled within the hundreds of millimeter water column.But because the porosity of woven asbesto is bigger, the gas in the 2 air chambers is string leakage mutually easily, causes the gaseous mass that is produced poor, and hydrogen purity has only 98%.Although some device for producing hydrogen adopts advanced pressure reduction control mode, hydrogen purity brings up to 99.7%, but still does not satisfy the requirement that some users use high-purity hydrogen.Owing to be subjected to the extremely not influence of anti-rush of current of asbestos film thickness, its running current density has only 1500-2100A/m simultaneously ², not only electrolytic efficiency is low, bulky, but also brings the inefficient shortcoming of main and auxiliaries.

Advanced at present technology (JAPPLELectrochem18 (1988) 1-4) is to adopt ion-exchange membrane or special membrane, and the inconsistent two kinds of perforation plates in employing aperture are electrode, to form zero pole span, can partly solve the problem of spacing, reduced energy consumption to a certain extent.But this device needs strict control condition, inconvenient operation, and this device does not still solve the electrolytic problem of common conduit simultaneously.Therefore, the gas purity that uses this technology and provided is not high.In addition, this device is difficult in the industrial production and adopts also because of the cost height.

The circulation of elecrolyte mode of the water electrolysis hydrogen production device employing in the industrial production is two circulations now, and promptly all there are circulation of elecrolyte in hydrogen, oxygen room, and the liquid-way system more complicated makes troubles for control and maintenance.And all do not have the flow of electrolyte controlling elements, and can not monitor the flow of electrolytic solution at any time, during not enough or zero flow, bring following shortcoming: the heat that electrolysis produced can not in time be taken away by electrolytic solution, easily causes electrolyzer temperature too high when flow of electrolyte; The too high bath voltage that makes of the concentration of electrolyte of electrode surface raises, and electrolytic efficiency descends simultaneously; Aspect pressure-controlling, pressure balance type water electrolysis hydrogen production device adopts pneumatic or electric membrane valve mostly, the complicated cost height of control circuit, failure rate height.

The objective of the invention is to overcome above technical deficiency, provide a kind of self-control strong efficient electrolysis water hydrogen generator, compare, have the following advantages with applied hydrogen production plant by water electrolysis in the present industrial production:

1, purity height: can produce high-purity hydrogen (gas purity 99.99%);

2, water content is low: water content≤1.7g/m ³H ₂

3, simple in structure: promptly single chamber circulation of elecrolyte;

4, safe: the high gas barrier property of microporous membrane has determined the security of device;

5, volume is little, in light weight: high current density is little, the lightweight effective assurance of this device volume.

For achieving the above object, electrolyzer in the device of liquid of the present invention road selects for use microporous membrane (mean pore size 50-100nm) to make the barrier film of air chamber, fit tightly two perforation plates as main electrode in the microporous membrane both sides, perforation plate and as adding thoroughly between the division plate of supporting electrode the liquid elastic conduction supports the hard supporting structure of formation.Improve traditional water common pipe of electrolytic bath structure simultaneously, make common conduit inner bushing ring and subchannel internal lining pipe or make frame with insulating material with shared duct with insulating material, constitute the common conduit and the subchannel of electrical isolation, like this can be between 2 air chambers at steady operation under the pressure reduction (0.4MPa), both solve 2 air chambers gas and gone here and there leakage problem mutually, prevented the generation of common conduit electrolysis phenomenon again, gaseous mass is improved.Fitting tightly of main electrode perforation plate and microporous membrane eliminated liquid phase pressure drop and formed zero pole span simultaneously, reduced direct current consumption.

Because the present invention adopts microporous membrane to separate hydrogen, oxygen room, and perforation plate fitted tightly with it, and the hard supporting structure that supports of saturating liquid elastic conduction, make this device can adopt single-cycle circulation of elecrolyte mode, promptly there is circulation of elecrolyte in oxygen room and hydrogen chamber does not have circulation of elecrolyte.Because hydrogen chamber's pressure is higher than oxygen room's pressure, do not see through microporous membrane at oxygen room's round-robin electrolytic solution and arrive hydrogen chamber, simplify the structure and reduced the water content (water content≤1.7g/m of hydrogen of hydrogen ³H ₂).

Be the operation that guarantees that dress can be efficient, stable, this device is provided with the flow valve of monitoring flow of electrolyte, come the minimum flow rate of assurance device operation, in flow of electrolyte just often, the float that the electrolytic solution kinetic head makes its inside have magnet floats, under the effect of magnet magnetic force, the contact of dry-reed tube inside disconnects to the outflow rate normal signal; When making flow of electrolyte be lower than minimum flow rate for a certain reason, because distance, magneticaction is less than on the dry-reed tube, and the contact adhesive provides a warning stopping signal.

This device adopts differential pressure regulator to control the pressure difference of hydrogen, two kinds of gases of oxygen, differential pressure regulator is divided into operation differential pressure regulator and shut off differential pressure setter, form by three chambers, top is the control air chamber, the bottom is the output air chamber, intermediate chamber and last lower chamber are isolated by the sealed rubber diaphragm, be provided with a transmission piece and connect lower chamber in intermediate chamber.Oxygen is controlled in the emptying of oxygen, hydrogen and hydrogen pressure is poor by two setters, when hydrogen, when oxygen pressure reduction is lower than set(ting)value, the action of operation differential pressure regulator, the unnecessary oxygen of emptying improves hydrogen, oxygen pressure reduction; When hydrogen, when oxygen pressure reduction is higher than set(ting)value, the action of shut off differential pressure setter, the unnecessary hydrogen of emptying reduces hydrogen, oxygen pressure reduction, thereby reaches the purpose of control pressure reduction, makes the pressure of hydrogen chamber in the electrolyzer be higher than the pressure 0.15-0.2MPa of oxygen room all the time.

Further describe with embodiment below in conjunction with accompanying drawing.

Fig. 1 is a structure diagram of the present invention.

Fig. 2 is an electrolyzer unit structural representation of the present invention.

Fig. 3 is a flow valve schematic diagram of the present invention.

Fig. 4 is an operation differential pressure regulator schematic diagram of the present invention.

Fig. 5 is a shut off differential pressure setter schematic diagram of the present invention.

Fig. 6 is an electrical installation schematic diagram of the present invention.

Fig. 7 is a schematic circuit of the present invention

Among the figure, the 1-feeding engine; The 2-reverse checkvalve; 3-alkali jar; The 4-NaOH solution circulating pump; The 5-flow valve; The 5-1-dry-reed tube; The 5-2-transverse tube; The 5-3-float; The 5-4-pipe; 5-5-adjusts nut; The 5-6-lock nut; The 6-strainer; The 7-electrolyzer; 7-1-common conduit dead ring; The 7-2-common conduit; 7-3-subchannel insulation tube; The 7-4-subchannel; 7-5-bipolarity division plate; The saturating liquid elastic conduction of 7-6-supports; The 7-7-perforation plate; The 7-8-microporous membrane; 7-9-hydrogen chamber; 7-10-oxygen room; 8-oxygen condenser; The hydrogen-cooled condenser of 9-; The saturating liquid device of 10-choke; 11-moves differential pressure regulator; The 11-1-air outlet; The 11-2-spring; 11-3-exports air chamber; The 11-4-valve body; The 11-5-rubber diaphragm; 11-6-controls inlet mouth; The 11-7-loam cake; 11-8-controls air chamber; 11-9-transmits piece; The 11-10-inlet mouth; 12-shut off differential pressure setter; The 12-1-air outlet; 12-2-exports air chamber; The 12-3-valve body; The 12-4-rubber diaphragm; 12-5-transmits piece; 12-6-controls inlet mouth; The 12-7-loam cake; 12-8-controls air chamber; The 12-9-spring; The 12-10-inlet mouth; 13-hydrogen output back pressure valve; The 14-safety valve; 15-hydrogen contact force table; The 16-oxygen manometer; 17-oxygen pressure transmitter; The 18-mentioned hydrogen pressure sensor; Hydrogen detector in the 19-oxygen; The 20-temperature sensor; 21-electrolysis control power supply; Oxygen detection in the 22-hydrogen

Water-electrolyzing hydrogen generator is made up of liquid road device, gas path device, and liquid road device connects reverse checkvalve 2 by feeding engine 1 and connects alkali jars 3 and connect recycle pump 1 and connect flow valve 5 and take over filter 6 and connect electrolyzer 7 to alkali jar 3; Gas path device is made up of hydrogen channel structure, oygen channel structure, wherein hydrogen channel structure connects operation differential pressure regulator 11 by hydrogen gas condenser 9, and oxygen detection 22, hydrogen blow down valve are formed in shut off differential pressure setter 12, back pressure valve 13, safety valve 11, hydrogen pressure gauge 15, mentioned hydrogen pressure sensor 18, the hydrogen; Oygen channel structure is made up of hydrogen detector 19, oxygen delivery valve in oxygen condenser 8 connection operation differential pressure regulators 11, shut off differential pressure setter 12, oxygen manometer 16, oxygen pressure transmitter 17, the oxygen.

Electrolyzer 7 in the device of liquid road, reach the perforation plate 7-7 that fits tightly with it with microporous membrane 7-8 and be divided into the 7-9 of hydrogen chamber, the 7-10 of oxygen room 2 air chambers, the elastic conduction of two perforation plate 7-7 by liquid thoroughly supports 7-6 and links to each other with bipolarity division plate 7-5 respectively, and the subchannel 7-1 inwall of twin-stage division plate 7-5 is inlayed insulation tube 7-3.Operation differential pressure regulator 11 in the gas path device, in valve body 11-4, be provided with transmission piece 11-9 connection double-layer rubber film 11-5 and be divided into control air chamber 11-8 and output air chamber 11-3, control air chamber 11-8 is provided with control inlet mouth 11-6, in the output air chamber 11-3 pressure spring 11-2 is installed, be provided with inlet mouth 11-10 at the output air chamber, air outlet 11-1, shut off differential pressure setter 12 in the gas path device, in valve body 12-3, be provided with and transmit piece 12-5 and connect double-deck rubber diaphragm 12-4 and be divided into control air chamber 12-8 and output air chamber 12-2, pressure spring 12-9 is installed in the 2 air chambers, at control air chamber 12-8 and output air chamber 12-2, pressure spring 12-9 is installed in the 2 air chambers, be provided with control inlet mouth 12-6 at control air chamber 12-8,12-2 is provided with inlet mouth 12-10 at the output air chamber, air outlet 12-1, flow valve 5 in the device of liquid road, the titanium system that is equipped with in stainless pipe 5-4 has the float 5-3 of magnet, the stainless steel transverse tube 5-2 of one built-in dry-reed tube 5-1 is arranged at top, and the bottom is provided with adjusts nut 5-5 and lock nut 5-6.

Water-electrolyzing hydrogen generator supply unit setter by the two-stage proportional amplifier form amplifying circuit, pressure protect circuit, dam circuit and current foldback circuit affact amplifier relevant portion setting pulse; also comprise temperature-control circuit, gas production rate tracking circuit, switching circuit and soft starting circuit; the output point of switching circuit acts on amplifier input terminal; temperature-control circuit links to each other with the input terminus of switching circuit with the gas production rate tracking circuit, and soft starting circuit is formed the control power supply of each element circuit.

The temperature-control circuit of water-electrolyzing hydrogen generator supply unit is by zero-base utmost point field effect transistor V202, the grid of V203 respectively with diode VD211, VD213 connects, and diode VD211, VD213 is controlled by the temperature switching circuit, the source electrode of zero-base utmost point field effect transistor V202 is by resistance R 207, potentiometer RP202 links to each other with temperature signal, the drain electrode of zero-base utmost point field effect transistor V202 connects the two-stage amplifying circuit makes the bath voltage output signal be controlled by temperature signal, the source electrode of zero-base utmost point field effect transistor V203 connects by resistance R 220 and adjusts potentiometer RP205, the drain electrode of zero-base utmost point field effect transistor V203 connects the two poles of the earth amplifying circuit, makes the bath voltage output signal be controlled by the setting valve of potentiometer RP205.

The gas production rate tracking circuit of supply unit by resistance R 219, meets potentiometer RP207 by amplifier A221 the 6th pin, and two joints are respectively by resistance R 226 in addition for RP207, and R229 connects-15V and pressure signal.

The soft starting circuit of supply unit connects integrated voltage stabilizer 7812 crus secundas by triode V205 collector electrode, emitter grounding, and base stage connects integrated voltage stabilizer 7812 tripods by resistance R 201, and base stage connects capacitor C 201.

The Controlling System principle of work is described below:

A. flow through the galvanic current I of electric groove _Fz, when electric groove temperature below 50 ℃ the time, strengthen gradually with the rising of electric groove temperature, when electric groove temperature more than 50 ℃ the time, electric current I _Fz≤ 300A.The structure of circuit is as follows:

Zero-base utmost point field effect transistor V202 and V203 are controlled by the temperature switching circuit, when electric groove temperature below 50 ℃ the time, zero-base utmost point field effect transistor V202 conducting, zero-base utmost point field effect transistor V203 ends.At this moment, temperature signal from detecting unit affacts the two poles of the earth amplifying circuit through resistance R 242, potentiometer RP202, resistance R 207, zero-base utmost point field effect transistor V202, output signal increases with the increase of temperature signal, and output signal is the input signal of phase shifting angle trigger element, be that output signal increases, the conduction angle reach, rectifier output voltage increases, and promptly increases outward current.When electric groove temperature is raised to more than 50 ℃, zero-base utmost point field effect transistor V202 ends, zero-base utmost point field effect transistor V203 conducting, potentiometer RP205 mid-point voltage directly is added to the two-stage amplifying circuit through R220, zero-base utmost point field effect transistor V203, make output signal be controlled by potentiometer RP205, be specified output this moment.

B. when the user uses amounts of hydrogen to reduce, cell current I _FzCorresponding minimizing.When user's gas consumption is big, the corresponding increase of electrolytic cell currents.As user during without hydrogen, electrolytic cell currents becomes 0, and producer does not produce hydrogen.The structure of this part circuit is as follows:

When the user with amounts of hydrogen for a long time, pressure signal reduces, when the user with amounts of hydrogen after a little while, this signal becomes maximum (5V).Be added in the input terminus of amplifier A221 after pressure signal and setter operating voltage-15V stack, when system pressure when 0.95MPa is following, amplifier A221 be output as on the occasion of, amplifier A222 is an emitter follower, because the effect of diode VD216, the positive signal value of its output does not have influence to output.When system pressure＞0.95MPa, amplifier A222 is output as negative value, and the positive voltage stack with potentiometer RP205 reduces output, thereby reduced bath voltage, has promptly reduced cell current I _FzAs user during without gas, when system pressure was increased to 1.0MPa, the negative voltage of amplifier A222 output had been offset the positive voltage on the potentiometer RP205 fully, and making system power is zero.

The soft starting circuit structure of C, complete machine is as follows:

Integrated voltage stabilizer 7812 is formed constant-current source circuits with triode V205, resistance R 201, capacitor C 201, make on the capacitor C 201 current potential in time increase and increase, it is changed to linear the rising, the time is 20 seconds.Its output voltage is the positive pole of capacitor C 201, and capacitor C 201 and ground are connected on the normally closed contact of main contactor, during shutdown capacitor C 201 by main contactor normally closed contact and join, guaranteed just very ground potential of capacitor C 201.When the main contactor adhesive, capacitor C 201 positive poles rose to 12V through 20 second time from zero volt, thereby had realized the soft start-up process of complete machine.

The water-electrolyzing hydrogen generator working process: the deionized water that electrolytic process consumed is by feeding engine 1, and the electrical signal given according to float level meter in the alkali jar 3 regularly replenishes, and reverse checkvalve 2 has stoped the backflow of the deionized water of adding alkali jar 3.Include float level meter and spiral coil cooling tube in alkali jar 3, float level meter converts liquid level signal to electrical signal, and spiral coil cooling tube cools off electrolytic solution in the alkali jar, has guaranteed the temperature rating of device operation.NaOH solution circulating pump 4 electrolytic solution from 3 sucking-offs of alkali jar, be transported to the 7-10 of oxygen room of electrolyzer 7 after greater than the 0.1mm impurity particle through filter 6 filtering diameters, electrolytic solution just soaks into the both sides of microporous membrane 7-8 in the 7-10 of oxygen room, pasting and generating oxygen and hydrogen respectively on the perforation plate 7-7 surface of microporous membrane 7-8 both sides.The hydrogen that generates is transported to the hydrogen gas circuit; The oxygen that generates flows through the liquid elastic conduction with electrolytic solution and supports 7-6, is pooled to common conduit 7-2 through subchannel 7-4 and flows back to alkali jar 3, and finish gas-liquid separation in alkali jar 3, and the oxygen of separating is transported to the oxygen gas circuit.The oxygen oxygen condenser 8 of at first flowing through in the oxygen gas circuit, here oxygen institute entrained water vapor is condensed into current and returns alkali jar 3, condensed oxygen enters the oxygen main pipe rail, from dividing the output air chamber 11-3 of a branch road here, keep pressure reduction with the hydrogen gas circuit by emptying to operation differential pressure regulator 11; Another road connects the emptying of the control air chamber 12-8 control hydrogen of shut off differential pressure setter 12; Another road connects oxygen manometer 16 and shows oxygen pressure; Another road connects oxygen pressure transmitter 17 and transmits the pressure signal of oxygen to electrolysis control power supply 21; Another road connects hydrogen detector 19 in the oxygen, detects the hydrogen content in the oxygen there at any time, provides guard signal when the hydrogen content in the oxygen surpasses set(ting)value; Last oxygen is exported from the oxygen delivery valve.In the hydrogen gas circuit, hydrogen at first is transported to hydrogen-cooled condenser 9, the water vapour carried secretly of hydrogen is condensed into to water and flows back to the alkali jar through the saturating liquid device 10 of choke there, condensed hydrogen enters the hydrogen main pipe rail, from dividing one road control air chamber 11-18 here, the output of control oxygen to operation differential pressure regulator 11; Another road meets the output air chamber 12-2 of shut off differential pressure setter 12, keeps pressure difference with the oxygen gas circuit by emptying; Another road connects safety valve 14, carries out safety vent during the hydrogen superpressure; Another road connects hydrogen contact force table 15 and comes the signify hydrogen atmospheric pressure; Another road connects mentioned hydrogen pressure sensor 18 and transmits the pressure signal of hydrogen to electrolysis control power supply 21; Another road connects oxygen detection 22 in the hydrogen, detects the oxygen content in the hydrogen there at any time, provides guard signal when the oxygen content in the hydrogen surpasses set(ting)value; Another road connects hydrogen and purges inlet, before the device operation gas displacement is carried out on the hydrogen road of device; Another road connects the minimum pressure that back pressure valve 13 keeps hydrogen, is exported by the hydrogen delivery valve at last.The hydrogen road links to each other with control air chamber 11-8, the output air chamber 12-2 of shut off differential pressure setter 12 of operation differential pressure regulator 11, and the oxygen road links to each other with output air chamber 11-3, the control air chamber 12-8 of shut off differential pressure setter 12 of operation differential pressure regulator 11.When hydrogen, when oxygen pressure reduction is lower than set(ting)value, 11 actions of operation differential pressure regulator, the unnecessary oxygen of emptying improves hydrogen, oxygen pressure reduction.When hydrogen, when oxygen pressure reduction is higher than set(ting)value, 12 actions of shut off differential pressure setter, the unnecessary hydrogen of emptying reduces hydrogen, oxygen pressure reduction, thereby reaches the purpose of control pressure reduction, makes the pressure of hydrogen chamber in the electric groove be higher than the pressure 0.15～0.2MPa of oxygen room all the time.

The invention provides the strong efficient hydrogen generator of a kind of self-control, have that to produce hydrogen pure Degree is high, water content is low, volume is little, in light weight, automaticity is high, security is high Characteristics can not add purifying and dehydration is directly used, reduce cost. Can be made into normal pressure, in Press serial generator, specification 1-10m³/h、30m ³/h、60m ³/ h etc., be applicable to electronics, Control the industries such as gold, electric power, light industry, food, medicine, building materials and fine chemistry industry, for passing The regeneration product of system water-electrolytic hydrogen making equipment.

Claims (9)

1. water-electrolyzing hydrogen generator of being made up of liquid road device, gas path device is characterized in that:

1) liquid road device connects reverse checkvalve 2 by feeding engine 1 and connects alkali jars 3 and connect recycle pump 4 and connect flow valve 5 and take over filter 6 and connect electrolyzer 7 to alkali jar 3;

2) gas path device is made up of hydrogen channel structure, oygen channel structure, and wherein hydrogen channel structure is made up of oxygen detection 22, hydrogen blow down valve in hydrogen gas condenser 9 connection operation differential pressure regulators 11, shut off differential pressure setter 12, back pressure valve 13, safety valve 14, hydrogen pressure gauge 15, mentioned hydrogen pressure sensor 18, the hydrogen; Oygen channel structure is made up of hydrogen detector 19, oxygen delivery valve in oxygen condenser 8 connection operation differential pressure regulators 11, shut off differential pressure setter 12, oxygen manometer 16, oxygen pressure transmitter 17, the oxygen.

2. water-electrolyzing hydrogen generator of forming by liquid road device, gas path device; the supply unit setter by the two-stage proportional amplifier form amplifying circuit, pressure protect circuit, dam circuit and current foldback circuit affact amplifier relevant portion setting pulse; it is characterized in that also comprising temperature-control circuit, gas production rate tracking circuit, switching circuit and soft starting circuit; the output point of switching circuit acts on amplifier input terminal; temperature-control circuit links to each other with the input terminus of gas production rate tracking circuit, and soft starting circuit is formed the control power supply of each element circuit.

3. water-electrolyzing hydrogen generator according to claim 1, it is characterized in that the electrolyzer 7 in the device of liquid road, reach the perforation plate 7-7 that fits tightly with it with microporous membrane 7-8 and be divided into the 7-9 of hydrogen chamber, the 7-10 of oxygen room 2 air chambers, the elastic conduction of two perforation plate 7-7 by liquid thoroughly supports 7-6 and links to each other with bipolarity division plate 7-5 respectively, and the subchannel 7-4 inwall of twin-stage division plate 7-5 is inlayed insulation tube 7-3.

4. water-electrolyzing hydrogen generator according to claim 1, it is characterized in that the operation differential pressure regulator 11 in the gas path device, in valve body 11-4, be provided with and transmit piece 11-9 and connect double-deck diaphragm 11-5 and be divided into control air chamber 11-8 and output air chamber 11-3, control air chamber 11-8 is provided with control inlet mouth 11-6, in the output air chamber 11-3 pressure spring 11-2 is installed, is provided with inlet mouth 11-10, air outlet 11-1 at the output air chamber.

5. water-electrolyzing hydrogen generator according to claim 1, it is characterized in that the shut off differential pressure setter 12 in the gas path device, in valve body 12-3, be provided with and transmit piece 12-5 and connect double-deck diaphragm 12-4 and be divided into control air chamber 12-8 and output air chamber 12-2, pressure spring 12-9 is installed in the 2 air chambers, be provided with control inlet mouth 12-6 at control air chamber 12-8,12-2 is provided with inlet mouth 12-10, air outlet 12-1 at the output air chamber.

6. water-electrolyzing hydrogen generator according to claim 1, it is characterized in that the flow valve 5 in the device of liquid road, the titanium system that is equipped with in stainless pipe 5-4 has the float 5-3 of magnet, the stainless steel transverse tube 5-2 of one built-in dry-reed tube 5-1 is arranged at top, and the bottom is provided with adjusts nut 5-5 and lock nut 5-6.

7. water-electrolyzing hydrogen generator according to claim 2, the temperature-control circuit that it is characterized in that supply unit is by zero-base utmost point field effect transistor V202, the grid of V203 respectively with diode VD211, VD213 connects, and diode VD211, VD213 is controlled by the temperature switching circuit, the source electrode of zero-base utmost point field effect transistor V202 is by resistance R 207, potentiometer RP202 links to each other with temperature signal, the drain electrode of zero-base utmost point field effect transistor V202 connects the two-stage amplifying circuit makes the bath voltage output signal be controlled by temperature signal, the source electrode of zero-base utmost point field effect transistor V203 connects by resistance R 220 and adjusts potentiometer RP205, the drain electrode of zero-base utmost point field effect transistor V203 connects the two poles of the earth amplifying circuit, makes the bath voltage output signal be controlled by the setting valve of potentiometer RP205.

8. water-electrolyzing hydrogen generator according to claim 2, the gas production rate tracking circuit that it is characterized in that supply unit passes through resistance R 219 by amplifier A221 the 6th pin, meet potentiometer RP207, two joints are respectively by resistance R 226 in addition for RP207, and R229 connects-15V and pressure signal.

9. water-electrolyzing hydrogen generator according to claim 2, the soft starting circuit that it is characterized in that supply unit connects integrated voltage stabilizer 7812 crus secundas by triode V205 collector electrode, emitter grounding, base stage connects integrated voltage stabilizer 7812 tripods by resistance R 201, and base stage connects capacitor C 201.

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