CN109307430A - A kind of ionization pole selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device - Google Patents

Abstract

A kind of ionization pole selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, belongs to air separation equipment technical field.It is characterized by comprising the negative electrode subnettings (1) set gradually, magnetization group (6) are divided in positive pole, supercharging device and reductive jar (10), multiple anode poles divide magnetization group (6) to be arranged in negative electrode subnetting (1), the input terminal of negative electrode subnetting (1) is provided with arc discharge plate (4), the output end of negative electrode subnetting (1) is connected with the input terminal of supercharging device, the inlet end of supercharging device is connected with reductive jar (10), the anode that positive pole divides the coil of magnetization group (6) and arc discharge plate (4) to be all connected with surge gap (5), negative electrode subnetting (1) connects the cathode of surge gap (5).This ionization pole, which selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, to attract the oxygen concentration improved in gas to the anion in the gas after ionization with positive affinity.

Description

A kind of ionization pole selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device

Technical field

A kind of ionization pole selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, belongs to air separation equipment technical field.

Background technique

Energy shortages, unusual weather conditions have become the hot spot of current governments at all levels of China and all trades and professions first concern, with The rapid growth of global economy, the demand to the energy is increasing, the energy have become restrict economic growth bottleneck.Traditional Gaseous pollutant control is that oxygen content using air as combustion-supporting medium, in air is 21%, and the content of nitrogen is 78%, with Air is in the combustion process of combustion-supporting medium, and the heat for generation of burning largely is used to heated nitrogen, and the thermal efficiency is low, and product yield is low, Energy consumption is high, and the air pollutants of discharge are more.

Summary of the invention

The technical problem to be solved by the present invention is overcoming the deficiencies of the prior art and provide one kind can promote to burn, improve Efficiency of combustion omits the pre- thermal release link of common combustion air, the ionization pole of reduction heat loss selects the pressurization reduction of mangneto small particle Oxygen-enriched combustion-helping device.

The technical solution adopted by the present invention to solve the technical problems is: the ionization pole selects the pressurization reduction of mangneto small particle rich Oxygen combustion-helping device, it is characterised in that: including the negative electrode subnetting that sets gradually, positive pole divide magnetization group, supercharging device and Reductive jar, negative electrode subnetting are the cylindrical shape of open at both ends, and positive pole divides magnetization group to be the cylindrical shape of open at both ends, Duo Gezheng Pole pole divides magnetization group to be arranged in negative electrode subnetting, and positive pole divides the axis of magnetization group and the axis of negative electrode subnetting to put down Row setting, the input terminal of negative electrode subnetting are provided with arc discharge plate, the output end of negative electrode subnetting and supercharging device Input terminal is connected, and the inlet end of supercharging device is connected with reductive jar, and the coil and arc discharge plate of magnetization group are divided in positive pole It is all connected with the anode of surge gap, negative electrode subnetting connects the cathode of surge gap.

Preferably, the positive pole divides magnetization group to include the magnet of coil and cylindrical shape, and magnet along axis by being arranged The permanent magnets of multiple annulars arrange, and opposite per two pieces of adjacent permanent magnet homopolarities and generate repulsion, coil is coaxial Annular in magnet is set.

Preferably, the input terminal of the negative electrode subnetting is provided with axial flow blower, in the output end of axial flow blower Heart line and the axis of negative electrode subnetting are arranged in parallel.

Preferably, the axial flow blower is provided with multiple, and the middle line of the output end of each axial flow blower is respectively positioned on adjacent Two positive poles divide between magnetization group.

Preferably, the input terminal of the negative electrode subnetting closes setting, and axial flow blower is arranged in negative electrode subnetting Input terminal and negative electrode subnetting is connected to outside air, arc discharge plate is arranged in the output end of axial flow blower and will be defeated Outlet closing.

Preferably, the output end of the negative electrode subnetting is provided with oxygen-enriched aggregation cylinder, and oxygen-enriched aggregation cylinder is along separate The output end of the taper that the orient diameter of negative electrode subnetting is gradually reduced, oxygen-enriched aggregation cylinder is connected with the input terminal of supercharging device It is logical.

Preferably, mounting plate is provided between the negative electrode subnetting and oxygen-enriched aggregation cylinder, mounting plate is located at cathode The disk of electrode subnetting coaxial arrangement simultaneously closes negative electrode subnetting, is provided on mounting plate and divides magnetization group one by one with positive pole Corresponding ventilation hole, positive pole divide magnetization group and mounting plate removably to connect and be coaxially disposed with corresponding ventilation hole.

Preferably, muti-piece eddy flow leaf, axial direction of the eddy flow leaf along reductive jar are arranged at intervals on the inner wall of the reductive jar Setting, muti-piece eddy flow leaf are the identical helical form of rotation direction, and eddy flow leaf is arranged between the input terminal of reductive jar and output end.

Preferably, the output end of the reductive jar is connected with density regulator.

Preferably, the bottom of the reductive jar is connected with blowdown valve.

Compared with prior art, the present invention has the beneficial effects that

1, the positive pole that this ionization pole selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device divides magnetization group that can generate electromagnetism effect It answers, and forms positive and negative field effect in conjunction with negative electrode subnetting, it can be to the yin in the gas after ionization with positive affinity Ion attracts, and will have paramagnetism oxygen to attract, aggregation, and high-frequency impulse electric discharge is adequately utilized by air ionization, makes air Separation forms positive and negative ion and electron avalanche is detached from, and forms the 4th state of free electron, and will have pole with positive and negative electrode electric field The positive and negative electrode ion of phase affinity characteristic attracts separation, forms pole and divides effect, while positive electric field and strong magnetic permanent magnet combination, Magnetic field and electric field twin-stage effect are generated, by the oxygen in air and is taken off while positive electric field attracts cathode electronics, then by magnetic field It is produced from free electron in the attachment and oxysome of Rotating Magnetic Field after list and draws poly-, then made air-flow is cut by the magnetic line of force, is formed The oxygen-enriched anion air-flow of small particle for realizing " air fining burning " combustion-supporting and energy-saving, reduces discharge, by supercharging device with The cooperation of reductive jar improves the oxygen concentration in gas, has and promotes burning, improves efficiency, save fuel 3% ~ 15%, accelerates combustion It burns and flameholding, improves thermal conductivity with evaporation, raising burnout rate, diffusion combustion, reduce carbon distribution, coking, the service life extends, and reduces dirt Exhaust gas is contaminated, emission is reduced, the pre- thermal release link of common combustion air is omitted, reduces the advantages of heat loss.

2, the permanent magnet homopolarity of multiple annulars is opposite, and axial loop coil is formed in its annular, is capable of increasing electricity Magnetic effect further improves the oxygen concentration in gas.

3, axial flow blower can be such that raw air enters in negative electrode subnetting, improve the ionization of air and drawing for oxygen Poly- efficiency；Axial flow blower is provided with multiple groups, so as to guarantee to make full use of each group of anode pole to divide magnetization group, improves equipment Utilization rate, and then improve the capacity usage ratio of equipment.

4, the input terminal of negative electrode subnetting is connected to by axial flow blower with outside air, and the output end of each axial flow blower It is provided with arc discharge plate, guarantees that the air entered in negative electrode subnetting all by ionization, improves positive pole and divides magnetic It is high to further ensure oxygen concentration in gas for the working efficiency of change group.

5, it is oxygen-enriched aggregation cylinder can to negative electrode subnetting output end export oxygen rich gas assemble, and conveniently with pressurization The input terminal of device is connected to.

6, mounting plate had both facilitated the installation that magnetization group is divided in positive pole, and the gas after capable of also guaranteeing ionization can pass through Positive pole enters back into oxygen-enriched aggregation cylinder after dividing magnetization group, and it is high to guarantee to enter oxygen concentration in the gas in oxygen-enriched aggregation cylinder.

7, eddy flow leaf makes air-flow generate stream swirl, forms orderly swirling eddy, is rotating oxygen atom in gas, electronics There is time enough to collide with quantity, match reduction in air-flow.

8, density regulator facilitates the concentration of oxygen in the gas for adjusting and being exported by reductive jar, to adapt to the combustion of different fuel It burns, it is easy to use.

9, blowdown valve, which facilitates, is discharged reductive jar for condensed water, the sundries etc. in reductive jar, avoids to the gas in reductive jar Oxygen concentration counteract.

Detailed description of the invention

Fig. 1 is the main view schematic cross-sectional view that ionization pole selects the oxygen-enriched combustion-helping device of mangneto small particle pressurization reduction.

Fig. 2 is the partial enlarged view in Fig. 1 at A.

In figure: 1, negative electrode subnetting 2, blower hood 3, axial flow blower 4, arc discharge plate 5, pulsed discharge Magnetization group 7, mounting plate 701, ventilation hole 8, roots blower 9, pedestal 10, reductive jar are divided in device 6, positive pole 11, blowdown valve 12, oxygen-enriched aggregation cylinder 13, eddy flow leaf 14, density regulator 15, oxygen analyser 16, digital display manometer 17, PLC controller 18, magnet 19, coil.

Specific embodiment

Fig. 1 ~ 2 are highly preferred embodiment of the present invention, and 1 ~ 2 the present invention will be further described with reference to the accompanying drawing.

A kind of ionization pole selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, including the negative electrode subnetting set gradually 1, magnetization group 6, supercharging device and reductive jar 10 are divided in positive pole, and negative electrode subnetting 1 is the cylindrical shape of open at both ends, positive pole Dividing magnetization group 6 is the cylindrical shape of open at both ends, and multiple anode poles divide magnetization group 6 to be arranged in negative electrode subnetting 1, positive pole The axis of the axis and negative electrode subnetting 1 of magnetization group 6 is divided to be arranged in parallel, the input terminal of negative electrode subnetting 1 is provided with electric arc Discharge electrode 4, the output end of negative electrode subnetting 1 are connected with the input terminal of supercharging device, the inlet end of supercharging device and reduction Tank 10 is connected, the anode that positive pole divides the coil of magnetization group 6 and arc discharge plate 4 to be all connected with surge gap 5, negative electrode The cathode of the connection surge gap 5 of subnetting 1.The positive pole that this ionization pole selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device is divided Magnetization group 6 can generate galvanomagnetic-effect, and form positive and negative field effect in conjunction with negative electrode subnetting 1, can be to the gas after ionization There is the anion of positive affinity to attract in body, and there will be paramagnetism oxygen to attract, aggregation, high-frequency impulse is adequately utilized Air ionization is made air separation form positive and negative ion and electron avalanche disengaging, forms the 4th state of free electron by electric discharge, and It will be attracted with the positive and negative electrode ion of pole phase affinity characteristic with positive and negative electrode electric field and separated, formed pole and divide effect, while anode Electric field and strong magnetic permanent magnet combination generate magnetic field and electric field twin-stage effect, while positive electric field attracts cathode electronics, then by Magnetic field will be produced from after the oxygen and de- list in air free electron in the attachment and oxysome of Rotating Magnetic Field draw it is poly-, then by the magnetic line of force to institute Air-flow processed is cut, and the oxygen-enriched anion air-flow of small particle is formed, for realizing " air fining burning " combustion-supporting and energy-saving, reduction Discharge, by the cooperation of supercharging device and reductive jar 10, improves the oxygen concentration in gas, has and promotes burning, improves efficiency, Fuel 3% ~ 15% to be saved, accelerates burning and evaporates, improve burnout rate, diffusion combustion, improves thermal conductivity at flameholding, carbon distribution is reduced, Coking, service life extend, and reduce pollution exhaust gas, reduce emission, omit the pre- thermal release link of common combustion air, reduce heat loss The advantages of.

The present invention will be further described combined with specific embodiments below, however persons familiar with the art it is to be appreciated that Here in connection with the detailed description that attached drawing provides be in order to preferably explain, structure of the invention necessarily have exceeded it is limited these Embodiment, and for some equivalents or common approach, it is no longer described in detail herein, but still fall within the guarantor of the application Protect range.

Specific: as shown in Figure 1 and 2: negative electrode subnetting 1 is horizontally disposed cylinder, the right end of negative electrode subnetting 1 Closing is arranged, and is provided with multiple through-holes on the barrel of the left end of negative electrode subnetting 1, the right side of negative electrode subnetting 1 is provided with Surge gap 5, surge gap 5 are mounted on 9 right side of pedestal.The left end of negative electrode subnetting 1 is that output is single, negative electrode point The output end of net 1 is connected with oxygen-enriched aggregation cylinder 12, and oxygen-enriched aggregation cylinder 12 is horizontally disposed, and oxygen-enriched aggregation cylinder 12 is diameter from right to left The conically shaped being gradually reduced, oxygen-enriched aggregation cylinder 12 are coaxially disposed with negative electrode subnetting 1, and the input terminal of oxygen-enriched aggregation cylinder 12 with The output end of negative electrode subnetting 1 is tightly connected.

The output end of oxygen-enriched aggregation cylinder 12 is connected by pipeline with the input terminal of supercharging device, and supercharging device can be increasing Press pump or booster fan, in the present embodiment, supercharging device are roots blower 8.The input terminal of roots blower 8 and oxygen-enriched aggregation cylinder 12 output end is connected, and the output end of roots blower 8 is connected with the lower part of reductive jar 10.Roots blower 8 is mounted on pedestal 9 Middle part, the left side of the vertical mounting seat 9 of reductive jar 10, the downside of roots blower 8 is provided with backing plate, to guarantee roots blower Connection of the input terminal of 8 output end and reductive jar 10 to roots blower 8 Yu reductive jar 10 just, is facilitated.

It is provided with bellows between oxygen-enriched aggregation cylinder 12 and roots blower 8 and between roots blower 8 and reductive jar 10, To facilitate it is oxygen-enriched aggregation cylinder 12 and the connection and roots blower 8 and reductive jar 10 of roots blower 8 between connection, avoid by Cause not connecting between oxygen-enriched aggregation cylinder 12 and roots blower 8 and roots blower 8 and reductive jar 10 in installation error.

The top of reductive jar 10 is arranged in the output end of reductive jar 10, and the output end of reductive jar 10 is connected with Auto-regulating System of Density of Heavy Medium Required density or pressure will be adjusted after being calculated by data and are set by device 14, density regulator 14, it is ensured that needed in reductive jar 10 Density parameter and airflow stability.Density regulator 14 can be valve or flow regulator.

The upside of reductive jar 10 is additionally provided with oxygen analyser 15 and digital display manometer 16.This ionization pole selects mangneto small particle to be pressurized Restoring oxygen-enriched combustion-helping device further includes PLC controller 17, and PLC controller 17 is connected with oxygen analyser 15 with digital display manometer 16, from And oxygen concentration and pressure in real-time monitoring reductive jar 10, PLC controller 17 with roots blower 8 by being connected, to control The work of roots blower 8 is to adjust the pressure in reductive jar 10.

The middle part of reductive jar 10 is provided with eddy flow leaf 13, eddy flow leaf 13 be arranged in reductive jar 10 input terminal and output end it Between, eddy flow leaf 13 is arranged at intervals with muti-piece around the inner wall of reductive jar 10, and eddy flow leaf 13 is arranged along the axial direction of reductive jar 10, and more Block eddy flow leaf 13 is the identical helical form of rotation direction, and eddy flow leaf 13 makes air-flow form stream swirl, forms orderly swirling eddy, make gas Oxygen atom, electronics have time enough to collide with quantity, match reduction in swirling eddy in body.

The lower end of reductive jar 10 is provided with blowdown valve 11, and 11 upper end of blowdown valve is connected with the bottom of reductive jar 10, blowdown The lower end of valve 11 passes through pedestal 9 and extends downwardly.

The closed end of negative electrode subnetting 1 is arranged at intervals with multiple axial flow blowers 3, and axial flow blower 3 passes through cylindric wind Machine outer cover 2 is mounted on outside negative electrode subnetting 1, and the axis of the axis and negative electrode subnetting 1 of blower hood 2 is arranged in parallel, axis Flow fan 3 is mounted in blower hood 2 correspondingly and is coaxially disposed with corresponding blower hood 2, and blower hood 2 is mounted on The closed end of negative electrode subnetting 1, and negative electrode subnetting 1 is connected to by blower hood 2 with outside air.Axial flow blower 3 and PLC Controller 17 is connected, and can be controlled axial flow blower 3 by PLC controller 17, easy to control.

In the present embodiment, magnetization group 6 is divided uniformly at intervals in positive pole multiple, the equal position of center line of each axial flow blower 3 Divide between magnetization group 6 in adjacent two positive poles, so that each positive pole be made full use of to divide magnetization group 6.

Arc discharge plate 4 and blower hood 2 correspond, and the defeated of corresponding blower hood 2 is arranged in arc discharge plate 4 Outlet, and the output end of corresponding blower hood 2 is closed, multiple gas vents are arranged at intervals on each arc discharge plate 4, And arc discharge plate 4 is arranged at intervals with multiple spray points far from the side of blower hood 2.Each arc discharge plate 4 is and pulse The anode of discharger 5 is connected.

Mounting plate 7 is provided between oxygen-enriched aggregation cylinder 12 and negative electrode subnetting 1, mounting plate 7 is discoid, mounting plate 7 close the output end of negative electrode subnetting 1.It is provided on mounting plate 7 and divides magnetization group 6 one-to-one ventilation hole with positive pole 701, positive pole divides magnetization group 6 to be detachably arranged on mounting plate 7 by bolt, and coaxially sets with corresponding ventilation hole 701 It sets.

Positive pole divides magnetization group 6 to include coil 19 and magnet 18, the cylinder that magnet 18 is arranged for open at both ends, and magnetic The axis of iron 18 and the axis of negative electrode subnetting 1 are arranged in parallel.Each magnet 18 is by the axis direction along negative electrode subnetting 1 The permanent magnet for the multiple annulars being arranged successively arranges, and every two pieces of adjacent permanent magnet homopolarities are opposite and generate repulsion, permanent magnetism Body is coaxially disposed with corresponding ventilation hole 701, and coil 19 is annular, and coil 19 is co-axially located in magnet 18.Coil 19 and arteries and veins The anode of impulse electricity device 5 is connected.

PLC controller 17 also divides magnetization group 6 and negative electrode subnetting 1 to be connected with surge gap 5, positive pole.

The application method that this ionization pole selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device is as follows: raw air is passed through Axial flow blower 3 is persistently fed in negative electrode subnetting 1, the arc discharge ionized region that raw air is formed in arc discharge plate 4 into Row ionization, gas will form plasma state (the 4th state) after being ionized, and ionizes and is contaminated with oxygen point in post plasma state gas Minority rare gas such as son, oxygen atom, positive electricity daughter nucleus, negative electricity daughter nucleus etc., since oxygen has paramagnetism physical characteristic, ionizes simultaneously Negative electron and oxygen coincide with nature in gas afterwards, and cathode electrons are produced from Rotating Magnetic Field after the list of lost property, to increase oxygen The paramagnetism of atom and oxygen molecule makes the institutes such as the oxygen with negative electron in conjunction with having phase affinity effect in pole after being electrically separated Need gas to be divided the attraction of the electric field and high-intensity magnetic field of magnetization group 6 by positive pole, be gathered in positive pole divide magnetization group 6 periphery magnetic field, In electric field region and in oxygen-enriched aggregation cylinder 12, by roots blower 8 by 3 ~ 5kpa negative-pressure adsorption export into reductive jar 10 into Row encryption pressurization reduction, due to being equipped with eddy flow leaf 13 in reductive jar 10, the choked flow that will receive eddy flow leaf into air-flow shunts effect It answers, so that air-flow is formed vortex, eddy flow state in reductive jar 10, there is the preparing gas such as the oxygen atom in gas, electronics enough Collision, matched quantity and time carry out reduction and pressure stabilizing, read and monitor for oxygen analyser 15, are answered by the output of density regulator 14 With.

Positive pole ion after being ionized by arc discharge plate 4 in gas by positive pole point due to not magnetized with diamagnetism 6 magnetic fields of group influence, while positive electron has cathode electric field affinity physical characteristic, and the cathode electric field by negative electrode subnetting 1 is inhaled Draw, the motive force by feeding gas below is discharged from the through-hole of negative electrode subnetting 1 to be mixed with atmosphere.

This equipment divides magnetization group 6, negative electrode subnetting 1, pulse to roots blower 8, positive pole by PLC controller 17 Discharger 5, oxygen analyser 15 and digital display manometer 16 connect, and complete open and close and variable frequency adjustment control, and receive signal, pass through place Reason is conveyed to middle control center, completes complete intelligent control system.

The above described is only a preferred embodiment of the present invention, being not that the invention has other forms of limitations, appoint What those skilled in the art changed or be modified as possibly also with the technology contents of the disclosure above equivalent variations etc. Imitate embodiment.But without departing from the technical solutions of the present invention, according to the technical essence of the invention to above embodiments institute Any simple modification, equivalent variations and the remodeling made, still fall within the protection scope of technical solution of the present invention.

Claims (10)

1. a kind of ionization pole selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, it is characterised in that: negative including what is set gradually Pole electrode subnetting (1), positive pole divide magnetization group (6), supercharging device and reductive jar (10), and negative electrode subnetting (1) is both ends Open cylindrical shape, positive pole divide magnetization group (6) to be the cylindrical shape of open at both ends, and multiple anode poles divide magnetization group (6) to be respectively provided with In negative electrode subnetting (1), positive pole divides the axis of magnetization group (6) and the axis of negative electrode subnetting (1) to be arranged in parallel, and bears The input terminal of pole electrode subnetting (1) is provided with arc discharge plate (4), the output end of negative electrode subnetting (1) and supercharging device Input terminal is connected, and the inlet end of supercharging device is connected with reductive jar (10), and the coil and electric arc of magnetization group (6) are divided in positive pole Discharge electrode (4) is all connected with the anode of surge gap (5), and negative electrode subnetting (1) connects the cathode of surge gap (5).

2. ionization pole according to claim 1 selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, it is characterised in that: institute The positive pole stated divides magnetization group (6) to include the magnet (18) of coil (19) and cylindrical shape, and magnet (18) along axis by what is be arranged The permanent magnet of multiple annulars arranges, and the homopolarity of the magnetic pole per two pieces of adjacent permanent magnets is opposite and generate repulsion, coil (19) annular to be co-axially located in magnet (18).

3. ionization pole according to claim 1 selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, it is characterised in that: institute The input terminal for the negative electrode subnetting (1) stated is provided with axial flow blower (3), the center line of the output end of axial flow blower (3) and negative The axis of pole electrode subnetting (1) is arranged in parallel.

4. ionization pole according to claim 3 selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, it is characterised in that: institute The axial flow blower (3) stated is provided with multiple, and the middle line of the output end of each axial flow blower (3) is respectively positioned on adjacent two positive poles point Between magnetization group (6).

5. ionization pole according to claim 3 selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, it is characterised in that: institute The input terminal for the negative electrode subnetting (1) stated closes setting, and the input terminal in negative electrode subnetting (1) is arranged in axial flow blower (3) And be connected to negative electrode subnetting (1) with outside air, arc discharge plate (4) is arranged the output end in axial flow blower (3) and incites somebody to action Output end closing.

6. ionization pole according to claim 1 selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, it is characterised in that: institute The output end for the negative electrode subnetting (1) stated is provided with oxygen-enriched aggregation cylinder (12), and oxygen-enriched aggregation cylinder (12) is along far from negative electricity The taper that the orient diameter of pole subnetting (1) is gradually reduced, the input terminal phase of the output end and supercharging device of oxygen-enriched aggregation cylinder (12) Connection.

7. ionization pole according to claim 6 selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, it is characterised in that: institute It is provided with mounting plate (7) between the negative electrode subnetting (1) stated and oxygen-enriched aggregation cylinder (12), mounting plate (7) is located at negative electrode The disk of subnetting (1) coaxial arrangement simultaneously closes negative electrode subnetting (1), is provided on mounting plate (7) and positive pole point magnetization The one-to-one ventilation hole (701) of group (6), positive pole divide magnetization group (6) removably connected with mounting plate (7) and with it is corresponding Ventilation hole (701) coaxial arrangement.

8. ionization pole according to claim 1 selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, it is characterised in that: institute Muti-piece eddy flow leaf (13) is arranged at intervals on the inner wall for the reductive jar (10) stated, eddy flow leaf (13) is set along the axial direction of reductive jar (10) It sets, muti-piece eddy flow leaf (13) is the identical helical form of rotation direction, and input terminal and output in reductive jar (10) is arranged in eddy flow leaf (13) Between end.

9. ionization pole according to claim 1 or 8 selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, feature exists In: the output end of the reductive jar (10) is connected with density regulator (14).

10. ionization pole according to claim 1 selects the pressurization of mangneto small particle to restore oxygen-enriched combustion-helping device, it is characterised in that: The bottom of the reductive jar (10) is connected with blowdown valve (11).