CN201992627U

CN201992627U - Hydrogen energy boiler

Info

Publication number: CN201992627U
Application number: CN2010206504589U
Authority: CN
Inventors: 李宝伟; 李治; 韩桂霞
Original assignee: SHENYANG WEIDE NEW ENERGY CO Ltd
Current assignee: SHENYANG WEIDE NEW ENERGY CO Ltd
Priority date: 2010-12-09
Filing date: 2010-12-09
Publication date: 2011-09-28
Anticipated expiration: 2020-12-09

Abstract

The utility model relates to a hydrogen energy boiler, comprising a base with a shell and casters, a combustion machine, a hydrogen and oxygen generating tank, a circulating water pump, a high-low temperature heat exchanger and a high-frequency direct-current pulse power supply, wherein the combustion machine is assembled on the base and takes hydrogen and oxygen as fuel; the hydrogen and oxygen generating tank is provided with a floater liquid level meter, a water supplementing one-way valve and a safety valve; and the high-frequency direct-current pulse power supply is connected by wires. The hydrogen energy boiler is characterized in that the combustion machine adopts a heat-shock hydrogen making combustion machine; a heat-shock hydrogen making combustion machine shell is internally provided with a spiral heating pipe which is provided with a sheath and a heat-resisting ceramic bush; and a hot gas outflow port of the heat-shock hydrogen making combustion machine shell is communicated with a circulating heating pipeline formed by the high-low temperature heat exchanger. Compared with the traditional boiler, in the hydrogen energy boiler, heat exchange is carried out by heat generated in the hydrogen making process, and the heat value of the fuel is improved by utilizing combustion heat of the hydrogen and the oxygen to crack water and make the hydrogen and the oxygen and then deflagrating so as to improve the heat efficiency obviously and realize environmental protection, energy conservation and consumption reduction.

Description

The hydrogen energy source boiler

Technical field

The utility model relates to a kind ofly makes the boiler of fuel with clean energy resource hydrogen, particularly a kind ofly abandons the conventional boiler structure and makes full use of the high efficient heat exchanging type hydrogen energy source boiler of thermal cracking water generates heat energy.This boiler heat supplying mainly carry out heat exchange by the heat that produces in the hydrogen production process and utilize hydrogen that hydrogen, oxygen combustion thermal cracking water produces, oxygen again detonation improve fuel value, with remarkable increase heat exchange efficiency.

Background technology

At present, the development and use of new forms of energy have been the task of top priority, for the research and development that the development recyclable fuel carries out, generally carry out in various countries scientific and technological circle.In recent years, because of the sharpening of the energy and environmental problem, hydrogen economy more obtains vigorously advocating and subsidizing of some national government, and is widely paid attention to by people from all walks of life.We know that water is by being H ₂O forms, be made up of 1 oxygen atom of 2 hydrogen atoms, the rarest two or more method of water can be broken down into hydrogen, oxygen, and a kind of is electrolysis, a kind of is pyrolysis method, and water just can be cracked into hydrogen, oxygen participates in burning as long as water is heated to more than 900 ℃.Yet, hydrogen economy is become can replace a kind of utility fuel economy of present petroleum economics, still remain at the technical breakthrough development of some keys (as efficiently producing and accumulating of hydrogen).

According to the home and abroad reported in literature, though existing all multiple as the manufacturing technology of clean energy resource hydrogen energy source boiler, the hydrogen energy source boiler that truly can form batch process and extensive use is really few.Existing hydrogen energy source boiler mainly contains: be CN101650071A " oxyhydrogen liquid fuel gasification boiler " as publication number, " a kind of combustion supporting boiler " that as publication number is CN2913854Y is that " the vertical coal gasify three Room gas fired-boilers " of CN2864469Y is CN201104009Y " hydrogen-oxygen combustion-supporting horizontal boiler " etc. as Granted publication number as publication number, the content of these patent disclosures mainly is by injection water steam in the stove of fire coal, make steam pyrolysis Cheng Qing, oxygen participate in burning, reach the purpose that energization reduces discharging.But above patent is subjected to its structure and fuel limit, is difficult to form stable high temperature heat source more than 2000 ℃ steam pyrolysis Cheng Qing, oxygen are participated in burning.As can not be with steam pyrolysis Cheng Qing, oxygen, then the water vapour of Jia Ruing be harmful to, can with the sulfuration synthesizing sulfide in the coal, corrosion body of heater, contaminated air.As publication number is CN145318A " hydrogen energy boiler ", it adopts the battery lead plate power supply of High Voltage pulse current in water, moment water vapor is produced simultaneously that hydrogen, oxygen participate in burning, its idea is good, but the hydrogen, the oxygen that add a large amount of water vapours, can't light, just let alone made fuel at all.As Granted publication number is CN2376575Y " combustion hydrogen hot-water boiler ", discloses the employing water electrolysis hydrogen production, the method for hydrogen burning heating boiler.Its water electrolysis hydrogen production fires the hydrogen heating boiler again, and its process does not have energy to amplify, and not as good as using electric boiler security effectiveness height, does not also exist energy-conservation.As publication number is CN1587801 " apparatus and method of water raw material hydrogen burning boiler ", its initial stage of adopting is magnetized to active water to water, electricity consumption in advance or natural gas heat 1000 ℃ of cellular titanium steel plates, to titanium steel plate water spray steam the further refinement of water vapour being heated again is thermally cracked to hydrogen, oxygen participation burning, attempts to reach the not purpose of oil firing realization energy-saving and emission-reduction of heating up water.But because of the condition of its thermal cracking hydrogen is not enough, water vapour is difficult to be thermally cracked to hydrogen, oxygen.Learn that through calculating if the titanium plate is 1000 ℃, water vapour is 350 ℃, 1350 ℃ of its temperature additions etc., 675 ℃ of 1350 ℃ of ÷ 2 ﹦, the thermal cracking temperature of water is more than 900 ℃, it is not equipped with high temperature heat source, thermal cracking is difficult to continue carry out.

The utility model content

The purpose of this utility model provides a kind of hydrogen energy source boiler, the hydrogen production efficiency that it has overcome existing combustion hydrogen or the existence of hydrogen combustion supporting boiler is low, water vapour does not reach defectives such as thermal cracking hydrogen manufacturing condition, it is compared with conventional boiler, reasonable in design, compact conformation, volume is little, by the heat that produces in the hydrogen production process carry out heat exchange and utilize hydrogen that hydrogen, oxygen combustion thermal cracking water produces, oxygen again detonation improve fuel value, with remarkable increase heat exchange efficiency, environmental protection, energy-conservation, consumption reduction have been realized effectively.

The technical scheme that the utility model adopted is: this hydrogen energy source boiler comprises the base that has shell and castor, be assembled in the hydrogen on the base, oxygen is the combustor of fuel, have float level meter, the hydrogen of moisturizing check valve and safety valve, the oxygen generation tank, water circulating pump, high, cryogenic heat exchanger and the high frequency direct current pulse power source that connects by lead, it is characterized in that: described combustor adopts heat shock hydrogen manufacturing combustor, be provided with the helical heating pipe of sheath and heat-stable ceramic lining in the heat shock hydrogen manufacturing combustor housing, be assembled in heat-stable ceramic heat island intracardiac in the described helical heating pipe coil pipe and be fixed on gas nozzle on the base of described housing; Described hydrogen, oxygen generation tank are connected described heat shock hydrogen manufacturing combustor by knockout drum with the anti-backfire jar, the circulation heating pipeline connection that the thermal current outlet and the described high and low temperature heat exchanger of described heat shock hydrogen manufacturing combustor housing formed.

Described hydrogen, the tank body of oxygen generation tank is composited by tank body in outer tank body of metal and the nonmetal insulation, form circulating water line by the connecting tube of described tank body top water inlet and the water circulating pump and the heat exchanger of bottom discharge mouth, described hydrogen, the hydrogen of oxygen generation tank, oxygen output tube connects the knockout drum and the anti-backfire jar of built-in froth breaking stainless (steel) wire and float needle valve, and through the hydrogen of described anti-backfire jar, oxygen outlet connects air supply pipe, described hydrogen, in the tank body of oxygen generation tank, by being fixed on the moon of tank body both sides, anode terminal hangs by the outer surface coating and releases the screen formula battery lead plate that the electrolysis copper plate of hydrogen alloy-layer is made, the moon, anode terminal is connected with described high frequency direct current pulse power source.

Described heat shock hydrogen manufacturing combustor comprises and has emptying solenoid valve, the fire probe, the housing of thermocouple and thermal current outlet and spark plug, wherein in described housing, be provided with the helical heating pipe of sheath and heat-stable ceramic lining and be assembled in heat-stable ceramic heat island intracardiac in the described helical heating pipe coil pipe, the sheath bottom of described helical heating pipe and the bottom of heat-stable ceramic lining and described gas nozzle top all are fixed on the base of described combustor housing, and make the center of described gas nozzle and being centered close on the same axis of described helical heating pipe coil pipe center and heat-stable ceramic heat island, the inlet pipe connection that is assembled in the gas electromagnetic valve on the described gas nozzle is communicated with described gas nozzle one end, the combustor housing sidewall end that stretches out of described helical heating pipe passes through No. one, No. two the water spray reset valve connects described supply channel respectively, and the base end of stretching out described sheath of described helical heating pipe is communicated with the other end of described gas nozzle.

Described gas nozzle mainly is made of pedestal, the mouth core that has blast tube, chute and water vapour vapor opening, mouth core adapter sleeve and gas diversion cover, one end of the described gas electromagnetic valve of connection of described pedestal is communicated with blast tube, the chute of the mouth core of described gas nozzle, and an end of the described helical heating pipe of connection of described pedestal is communicated with the water vapour vapor opening of the mouth core of described gas nozzle.

Advantage and the good effect that the utlity model has are; Because the hydrogen that hydrogen energy boiler of the present utility model adopts, oxygen generator tank body are composited by tank body in outer tank body of metal and the nonmetal insulation, interior tank body adopts insulation technology, tank body is not re-used as resistive element during electrolysis, so solved the many problems of electrolytic cell power consumption.In addition, because of its structure and layout to battery lead plate redesigns, not only traditional corrosion resistant plate material is replaced with superconductor electrolysis copper plate and make screen formula battery lead plate, but also release the hydrogen alloy-layer at copper plate outer surface coating, the power consumption of battery lead plate resistance is significantly reduced, release the characteristics that the hydrogen amount increases, improved electric hydrogen ratio; The knockout drum of built-in froth breaking stainless (steel) wire and float needle valve can move automatically continuously, has also solved the problem that hydrogen, oxygen are taken water, for the utilization of Hydrogen Energy provides desirable equipment and strong technical support.Simultaneously by being fixed on the moon that is connected with the high frequency direct current pulse power source of tank body both sides, anode terminal hangs screen formula battery lead plate, adopt open electrolysis, make on the electrolyte in the tank body, current downflow freely, more meet hydromechanical requirement, thereby help hydrogen, electrolyte in the oxygen generation tank all participates in the heat radiation of flowing, realization does not have immobilising dead angle, this can not only improve the utilization rate of electricity, and can further improve electrolytic efficiency, can also fundamentally solve electrolyte in the generation tank because of the bad problem that can't continuous operation of dispelling the heat, the hydrogen production efficiency that has overcome the prior art existence is low, electrolyte circulation is not smooth, can't in time dispel the heat, defectives such as it is too fast to heat up, it is compared with same category of device, it is simple in structure, reasonable in design, volume is little, good heat dissipation is convenient to industrialized mass production, can enhance productivity significantly and the aerogenesis quality, realize the economize on electricity consumption reduction effectively.By the oxygen generator jar and and cryogenic heat exchanger between install the forced circulation coolant pump additional, thoroughly solved the bad problem of generator heat radiation, for the powerful application of the utility model provides technical guarantee.Show that through practice examining every technical indicator of hydrogen oxygen generator of the present utility model obviously is better than same category of device, wherein electric hydrogen enhances productivity 40 than for 3:1, economize on electricity 40,

Owing to be provided with the helical heating pipe of sheath and heat-stable ceramic lining and be assembled in heat-stable ceramic heat island intracardiac in the helical heating pipe coil pipe in the housing of the heat shock hydrogen manufacturing combustor that hydrogen energy boiler of the present utility model adopts, on the same axis at the center of helical heating pipe coil pipe center and heat-stable ceramic heat island, gas nozzle is set, connect the helical heating pipe of water-supply-pipe respectively by No. one, No. two water spray reset valves, so its reasonable in design is arranged compact.It adopts the spray cooling technology, the burning of high pressure sealing formula, biggest advantage is the amplification that has realized heat energy, make the utilization of the energy more reasonable, provide favourable equipment to guarantee to energy-saving and emission-reduction, for the applications expanding of hydrogen energy source a new road, the energy enlarging function of the utility model heat shock hydrogen manufacturing combustor is to realize like this, splash into distillation water by trace in combustor inside spin heating tube, the water of trace flows to the flame-thrower nozzle place along helix tube, helix tube is by hydrogen flame heat to 400 ℃, the water that splashes into also is heated to 400 ℃, we know that oxyhydrogen burned flame temperature can be up to 2700 ℃, and our mesopore of utilizing gas nozzle is sprayed onto the center of oxyhydrogen flame with 400 ℃ water vapour like this, and moment is heated to 400 ℃ water vapour more than 950 ℃.Water vapour is become hydrogen, oxygen by thermal cracking, and the instantaneous detonation under 950 ℃ condition of hydrogen, oxygen discharges heat, produces the heat energy enlarging function, and the amount that its energy amplifies is 3-6 a times of input fuel value.

Description of drawings

Below in conjunction with accompanying drawing the utility model is elaborated.

Fig. 1 is a kind of concrete structure schematic diagram of the present utility model.

Fig. 2 is the vertical view of Fig. 1.

Fig. 3 is a kind of structural representation of the heat shock hydrogen manufacturing combustor among Fig. 1.

Fig. 4 is a kind of structural representation of the hydrogen-oxygen power generator among Fig. 1.

Fig. 5 is the cutaway view of Fig. 4 along the A-A line.

Fig. 6 is a kind of structural representation of the gas-liquid separator among Fig. 1.

Fig. 7 is a kind of structural representation of the heat-stable ceramic heat island among Fig. 3.

Fig. 8 is the cutaway view of Fig. 7 along the B-B line.

Fig. 9 is a kind of structural representation of the gas nozzle among Fig. 3.

Sequence number explanation among the figure: 1 castor, 2 bases, 3 blowoff valves, 4 threeways, 5 water circulating pumps, 6 knockout drums, 7 high-temperature heat-exchangings, 8 cryogenic heat exchangers, 9 anode terminals, 10 hydrogen, the oxygen generation tank, 11 float level meters, 12 safety valves, 13 moisturizing ball-and-seats, 14 communicating pipes, 15 gas passages, 16 anti-backfire jars, 17 circulating water pipes, 18 connect movable joint, 19 heat shock hydrogen manufacturing combustors, 20 emptying solenoid valves, 21 fire probes, 22 coolant outlets, 23 water spray control valves, No. 24 water spray reset valves, 25 cooling water inlets, 26 No. two water spray reset valves, 27 spark plugs, 28 gas nozzles, 29 fuel gas pipelines, 30 gas electromagnetic valves, 31 hot water outlets, 32 shells, 33 backwater inlet, 34 cathode terminals, 35 pressure switches, 36 five-ways, 37 high cryogenic heat exchanger communicating pipes, 38 float needle valves, 39 hydrogen, oxygen outlet, 40 froth breaking stainless (steel) wires, 41 isolate support set, 42 battery lead plates, 43 pole plate reference columns, tank body in the 44 nonmetal insulation, the outer tank body of 45 metals, 46 ceramic heat-resisting linings, 47 helical heating pipes, 48 sheaths, 49 heat-stable ceramic heat islands, 50 pedestals, 51 mouth cores, 52 adapter sleeves, 53 blast tubes, 54 gas diversion covers.

The specific embodiment

Be described further below in conjunction with Fig. 1～9 pair concrete structure of the present utility model.This hydrogen energy source boiler, comprise the base 2 that has shell 32 and castor 1, be assembled in the hydrogen on the base, oxygen is the combustor 19 of fuel, have float level meter 11, the hydrogen of moisturizing check valve 13 and safety valve 12, oxygen generation tank 10, water circulating pump 5, high,

cryogenic heat exchanger

7,8 and the high frequency direct current pulse power source that connects by lead, wherein combustor adopts heat shock hydrogen manufacturing combustor, be provided with the helical heating pipe 47 of sheath 48 and heat-stable ceramic lining 46 in heat shock hydrogen manufacturing combustor 19 housings, be assembled in heat-stable ceramic heat island 49 intracardiac in helical heating pipe 47 coil pipes and be fixed on gas nozzle 28 on the base of housing; Hydrogen, oxygen generation tank logical 10 are crossed knockout drum 6 and are connected heat shock hydrogen manufacturing combustor 19 with anti-backfire jar 16, the thermal current outlet of heat shock hydrogen manufacturing combustor 19 housings and the circulation heating pipeline connection of described high and low

temperature heat exchanger

7,8 compositions.

Hydrogen, the tank body of oxygen generation tank 10 is composited by tank body 44 in outer tank body 45 of metal and the nonmetal insulation, form circulating water line by the connecting tube of tank body top water inlet and the water circulating pump 5 of bottom discharge mouth with heat exchanger, hydrogen, the hydrogen of oxygen generation tank 10, oxygen output tube 14 connects the knockout drum 6 and the anti-backfire jar 16 of built-in froth breaking stainless (steel) wire and float needle valve, and through the hydrogen of anti-backfire jar 16, oxygen outlet 39 connects air supply pipe 29, hydrogen, in the tank body of oxygen generation tank 10, by being fixed on the moon of tank body both sides,

anode terminal

9,34 hang by the outer surface coating and release the screen formula battery lead plate 42 that the electrolysis copper plate of hydrogen alloy-layer is made, the moon,

anode terminal

9,34 are connected with the high frequency direct current pulse power source.

Heat shock hydrogen manufacturing combustor 19 comprises and has emptying solenoid valve 20, fire probe 21, housing with thermal current outlet 18 and spark plug 27, wherein in housing, be provided with the helical heating pipe 47 of sheath 48 and heat-stable ceramic lining 46 and be assembled in heat-stable ceramic heat island 49 intracardiac in helical heating pipe 47 coil pipes, the sheath bottom of helical heating pipe 47 and the bottom of heat-stable ceramic lining 46 and gas nozzle 28 tops all are fixed on the base of combustor housing, and make the center of gas nozzle 28 and being centered close on the same axis of helical heating pipe 47 coil pipe centers and heat-stable ceramic heat island 49, the inlet pipe connection that is assembled in the gas electromagnetic valve 30 on the gas nozzle 28 is communicated with gas nozzle 28 1 ends, the combustor housing sidewall end that stretches out of helical heating pipe 47 passes through No. one, No. two water

spray reset valves

21,26 connect water lines respectively, and the base end of stretching out sheath of helical heating pipe is communicated with the other end of gas nozzle 28.

Gas nozzle 28 mainly is made of pedestal 50, the mouth core 51 that has blast tube, chute and water vapour vapor opening, mouth core 51 adapter sleeves 52 and gas diversion cover 54, the end that pedestal connects gas electromagnetic valve is communicated with blast tube, the chute of the mouth core 51 of gas nozzle 28, and an end of the described helical heating pipe 47 of the connection of pedestal is communicated with the water vapour vapor opening of the mouth core 51 of gas nozzle 28.

The course of work: on request hydrogen energy boiler is assembled, after suppressing pass the test, open the gas electromagnetic valve 30 with hydrogen, oxygen supply air line 29, connect the pipeline of the conveying electrolyte of moisturizing check valve 13.Add satisfactory water or add the electrolyte of electrolyte or activator in hydrogen, oxygen generation tank 10 in water, when liquid level arrived the higher limit of setting, float limnimeter 11 was reported to the police, and stops to add electrolyte.After hydrogen, oxygen generation tank 10 add electrolyte, start the high frequency direct current pulse power source that is connected with cathode and

anode binding post

34,9, hydrogen, oxygen generation tank 10 are started working, hydrogen, the oxygen that can produce requirement supply outward.Electrolyte in the tank body of hydrogen, oxygen generation tank 10 is upper and lower to flow freely, electrolyte all participates in the heat radiation of flowing, meanwhile, electrolyte enters heat exchanger by the water circulating pump 5 of circulating water pipe route tank base discharge outlet, behind the forced circulation heat exchanger, the connecting tube from tank body top water inlet flows back in the tank body of hydrogen, oxygen generation tank 10 again.If in the time of aerogenesis this hydrogen, oxygen are acted as a fuel, then the hydrogen that produces continuously in hydrogen, the oxygen generation tank 10, the pressure of oxygen can raise.When pressure was elevated to 2.5KG, pressure switch 35 will be closed the power supply to hydrogen, 10 power supplies of oxygen generation tank automatically, and hydrogen, oxygen generation tank 4 quit work at once.As hydrogen under unexpected situation, when the pressure in the oxygen generation tank 10 surpasses 4KG, safety valve 1 meeting automatically unloading, thereby guarantee the safe in utilization of tank body, hydrogen, after oxygen generator 10 is working properly, hydrogen making machine is started working, when Hydrogen Vapor Pressure satisfies heat shock hydrogen manufacturing combustor needs, start hydrogen energy boiler managed by micro computer system, the managed by micro computer system starts working, the managed by micro computer system opens emptying solenoid valve 20, after emptying solenoid valve 20 opened for 20 seconds, the managed by micro computer system is to spark plug 27 power supplies, spark plug 27 was powered after 5 seconds, the managed by micro computer system opens gas electromagnetic valve 30, to combustor 19 hydrogen supply oxygen, oxyhydrogen enters combustor 19 through gas nozzle 28, lighted by spark plug 27, combustor 19 is started working, fire probe 10 is started working simultaneously, records bright back managed by micro computer and closes emptying solenoid valve 20.Combustor 19 is started working, and combustion gas enters high-temperature heat-exchanging 7 through movable joint 18, high-temperature heat-exchanging 7 beginning heat exchange.When combustor work after 1 minute, open water spray reset valve 24 No. one, distillation water enters combustor heating tube 47 through a reset valve 24, further enters combustor after the heating.Spray into distillation water by trace in combustor inside spin heating tube 47, the distillation water of trace flows to the flame-thrower nozzle place along helical heating pipe, and helix tube is by hydrogen flame heat to 700 ℃, and the distillation water that sprays into also is heated to 700 ℃.We know that oxyhydrogen burned flame temperature can be up to 2700 ℃, and we utilize the mesopore of gas nozzle 28 like this, and 700 ℃ water vapours are sprayed onto the center of oxyhydrogen flame, and moment is heated to 700 ℃ water vapour more than 950 ℃.Steam enters combustor heating tube 47 through No. two water spray reset valves 26 and further enters combustor after the heating, spray into distillation water by trace in combustor inside spin heating tube 47, the trace distillation water along helix tube to ceramic heat island center flow, helix tube is by hydrogen flame heat to 700 ℃, and the distillation water that sprays into also is heated to 700 ℃.Water vapour is become hydrogen, oxygen by thermal cracking, the instantaneous detonation under 950 ℃ condition of hydrogen, oxygen discharges heat, produce the heat energy enlarging function, the amount that its energy amplifies be the input fuel value 2-6 doubly, the steam that adds is cracked into hydrogen, oxygen participates in instancy of combustion and discharges high temperature heat, thereby has finished the course of work and the heat energy amplification process of hydrogen energy boiler.

Claims

1. hydrogen energy source boiler, comprise the base that has shell and castor, be assembled in the hydrogen on the base, oxygen is the combustor of fuel, have float level meter, the hydrogen of moisturizing check valve and safety valve, the oxygen generation tank, water circulating pump, high, cryogenic heat exchanger and the high frequency direct current pulse power source that connects by lead, it is characterized in that: described combustor adopts heat shock hydrogen manufacturing combustor, be provided with the helical heating pipe of sheath and heat-stable ceramic lining in the heat shock hydrogen manufacturing combustor housing, be assembled in heat-stable ceramic heat island intracardiac in the described helical heating pipe coil pipe and be fixed on gas nozzle on the base of described housing; Described hydrogen, oxygen generation tank are connected described heat shock hydrogen manufacturing combustor by knockout drum with the anti-backfire jar, the circulation heating pipeline connection that the thermal current outlet and the described high and low temperature heat exchanger of described heat shock hydrogen manufacturing combustor housing formed.

2. hydrogen energy source boiler according to claim 1, it is characterized in that: described hydrogen, the tank body of oxygen generation tank is composited by tank body in outer tank body of metal and the nonmetal insulation, form circulating water line by the connecting tube of described tank body top water inlet and the water circulating pump and the heat exchanger of bottom discharge mouth, described hydrogen, the hydrogen of oxygen generation tank, oxygen output tube connects the knockout drum and the anti-backfire jar of built-in froth breaking stainless (steel) wire and float needle valve, and through the hydrogen of described anti-backfire jar, oxygen outlet connects air supply pipe, described hydrogen, in the tank body of oxygen generation tank, by being fixed on the moon of tank body both sides, anode terminal hangs by the outer surface coating and releases the screen formula battery lead plate that the electrolysis copper plate of hydrogen alloy-layer is made, the moon, anode terminal is connected with described high frequency direct current pulse power source.

3. hydrogen energy source boiler according to claim 1, it is characterized in that: described heat shock hydrogen manufacturing combustor comprises and has emptying solenoid valve, the fire probe, the housing of thermocouple and thermal current outlet and spark plug, wherein in described housing, be provided with the helical heating pipe of sheath and heat-stable ceramic lining and be assembled in heat-stable ceramic heat island intracardiac in the described helical heating pipe coil pipe, the sheath bottom of described helical heating pipe and the bottom of heat-stable ceramic lining and described gas nozzle top all are fixed on the base of described combustor housing, and make the center of described gas nozzle and being centered close on the same axis of described helical heating pipe coil pipe center and heat-stable ceramic heat island, the inlet pipe connection that is assembled in the gas electromagnetic valve on the described gas nozzle is communicated with described gas nozzle one end, the combustor housing sidewall end that stretches out of described helical heating pipe passes through No. one, No. two the water spray reset valve connects described supply channel respectively, and the base end of stretching out described sheath of described helical heating pipe is communicated with the other end of described gas nozzle.

4. hydrogen energy source boiler according to claim 3, it is characterized in that: described gas nozzle mainly is made of pedestal, the mouth core that has blast tube, chute and water vapour vapor opening, mouth core adapter sleeve and gas diversion cover, one end of the described gas electromagnetic valve of connection of described pedestal is communicated with blast tube, the chute of the mouth core of described gas nozzle, and an end of the described helical heating pipe of connection of described pedestal is communicated with the water vapour vapor opening of the mouth core of described gas nozzle.