CN208170578U - A kind of cooling system with ionic decontamination devices - Google Patents

Abstract

The utility model discloses a kind of cooling system with ionic decontamination devices, the cooling system includes radiant panel, heat-transfer pipe, fin and at least one ion cleaning unit, setting ionization pole, collector and repeller in the ion cleaning unit.System is heated or cooled indoor environment by radiant panel, heat-transfer pipe and fin, to adjust room temperature；Ion cleaning dedusting is carried out by the air that ion cleaning cellular convection crosses system.The utility model realizes the combination that temperature adjusting and air-cleaning function are carried out to room air；In addition, the ion wind generated in ion cleaning unit can also promote the free convection in heating cooling, heat transfer efficiency is improved.

Description

A kind of cooling system with ionic decontamination devices

Technical field

The present invention relates to Heating,Ventilating and Air Conditioning and plasma field more particularly to a kind of heat dissipation systems with ionic decontamination devices System.

Background technique

With the improvement of living standards, people are for indoor (further include in means of transport, such as automobile, train, aircraft) Environment more stringent requirements are proposed, should have suitable temperature, also require comfortable air humidity, while must also Guarantee the clean-up performance of air, reduces bacterium, virus, pellet (such as PM10, PM2.5) quantity or concentration in air. In addition, (free convection, forced convertion or radiation pass for the adjustment speed (cooling rate, heating rate) and mode of air themperature Heat), the factors such as speed of air flowing, also can largely influence human comfort.

A kind of patent of invention " close-coupled cooling fin system " (application number：201711207284.1) propose a kind of outer surface The cooling fin system design scheme for covering porous media, solves condensation water problems when cooling fin refrigeration, enables the system to Room temperature is adjusted in a manner of free convection and radiation heat transfer, such cooling fin system comfort level is higher, and the summer in winter can make With.

Patent of invention " a kind of gas cleaning plant and system " (application number 201210586328.7) and US 7077890B2 Be respectively adopted repeller or insulation driving stage (insulated driver electrode) scheme, push electrification gas particles to Collector is mobile, improves the purification efficiency of purification device.

Using same set of system equipment, room temperature is adjusted in a manner of free convection and radiation heat transfer, while can be passed through again Plasma technique purifies air, can effectively improve the integrated level of system, save the space occupied of equipment.

Summary of the invention

To overcome disadvantages mentioned above, the purpose of the present invention is to provide a kind of cooling system with ionic decontamination devices, benefits Cooling and warming is carried out to adjust temperature to space environment with radiant panel and radiating fin, and ion cleaning is set in fin and is filled It sets, purification is dusted to air.The ion wind of ionic decontamination devices can also promote free convection, improve heat transfer efficiency.

In order to reach the goals above, the technical solution adopted by the present invention is that：A kind of heat dissipation system with ionic decontamination devices System, including radiant panel, heat-transfer pipe, fin, the radiant panel are process by porous media material, are existed in porous media material A large amount of hole, can absorption refrigeration when condensed water；The entirety or main part of the heat-transfer pipe are arranged in radiant panel； One end of the fin is at least contacted with one in the heat-transfer pipe and the radiant panel, it is characterised in that：It further include at least One ion cleaning unit, the ion cleaning unit include at least one ionization pole and at least one collector.Ionization pole pair Neighbouring air carries out ionization and forms charged particle, and charged particle is between ionization pole and collector to collection under the driving of electric field After dust and germ collision in polar motion, with air, so that dust and virus are charged, are moved by electric field driven and finally received Collector capture.

Further, the collector with zero potential or with the ionization pole it is opposite with potential positive-negative polarity Potential.Electric field is formed between collector and ionization pole.

Further, the ion cleaning unit further includes at least one repeller, and the repeller has and the electricity From pole positive-negative polarity same potential or the repeller with identical as the collector positive-negative polarity but potential is of different sizes Potential.Repeller is used to pushing charged particle into collector to, improves purification efficiency.

Further, the fin is set as segmentation fin, the ionization pole, the collector and repeller setting On the fin.

Further, the porous media material include metal foam, metallic fiber, fired brick, blue bricks, molding sand mold, One of porous ceramics, active carbon, cement, zirconia ceramics, silicide are a variety of.

Further, at least one described ionization pole and at least one described collector are arranged in series.Multiple ionization poles, receipts Collector or repeller are combined, and are carried out Step-ionization or are collected charged particle step by step, and according to the flowing side of free convection To adjustment ion wind direction, using synergistic effect augmentation of heat transfer, purification efficiency is improved.

Further, the ion cleaning unit is provided with potential manager, and the potential manager is net to the ion Change the positive-negative polarity of all electrodes and potential size in unit and carries out control management.

Further, the cooling system further includes having magnet.Magnet generates magnetic field, so that charged ion is in magnetic fields Motion profile of the lower extension in electric field is conducive to charged particle and is collected pole capture.

Further, the ionization pole surface is coated with low work function coating or oxidation catalyst coating, excellent to reduce ozone It is selected as Au.

Further, the fin, the repeller and the collection pole surface coat ozone catalyst coating, to ionization The ozone of generation is catalyzed, preferably manganese dioxide.

The present invention has the advantages that：Radiant panel and radiating fin pass through free convection and radiation heat transfer to environment temperature Degree is adjusted, while being dusted purification to air using ionic decontamination devices；The ion wind that ionic decontamination devices generate is also It can promote free convection, improve heat transfer efficiency.

Detailed description of the invention

Fig. 1 is cooling system scheme of installation of the invention；

Fig. 2 (a) is cooling system structure schematic diagram of the invention；

Fig. 2 (b) is cooling system structure view in transverse section of the invention；

Fig. 2 (c) is cooling system structure longitdinal cross-section diagram of the invention；

Fig. 3 is that ion cleaning cell schematics are arranged in fin；

Fig. 4 (a) is ion cleaning unit setting repeller and ionization pole is located at lower part schematic diagram；

Fig. 4 (b) is ion cleaning unit setting repeller and ionization pole is located at top schematic diagram；

Fig. 5 is repeller, collector setting schematic diagram on fin；

Fig. 6 is that schematic diagram is arranged on fin in ionization pole；

Fig. 7 (a) is the schematic diagram that an ion cleaning unit includes a set of ionization pole and two sets of collectors；

Fig. 7 (b) is the schematic diagram that an ion cleaning unit includes a set of fin ionization pole and two sets of collecting fins poles；

Fig. 8 (a) is the schematic diagram for being arranged in series multiple ion cleaning units；

Fig. 8 (b) is series connection ion cleaning unit setting potential manager schematic diagram；

Fig. 9 is the schematic diagram that magnet is arranged outside cooling system；

Figure 10 is the schematic diagram that catalytic domain is arranged on fin.

Specific embodiment

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawing, so that advantages and features of the invention energy It is easier to be readily appreciated by one skilled in the art, so as to make a clearer definition of the protection scope of the present invention.

Attached drawing 1 show a kind of cooling system scheme of installation with ionic decontamination devices of the invention.As shown, Cooling system of the invention is similar with conventional radiator installation form.Cooling system is vertically arranged along gravity direction, passes through bracket It is fixed on indoor wall.On the whole, cooling system of the invention includes radiant panel 13 and multiple fins 11.The fin 11 is set It sets between wall surface and the radiant panel 13.One end of fin 11 and radiant panel 13 are in close contact, or in insertion radiant panel 13 Portion；The main body of fin 11 is contacted with surrounding air.There are certain intervals between fin 11 and wall, or directly contact with wall.Institute The side for stating radiant panel 13 is contacted with fin 11, and another side passes through free convection and radiation directly facing indoor environment space Heat transfer exchanges cold and hot energy with environment space.

As shown in Fig. 2 (a)-(b), cooling system of the invention further includes heat-transfer pipe 12.The heat-transfer pipe 12 and the spoke The contact of plate 13 is penetrated, heat-transfer pipe 12 can be set inside the radiant panel 13, and in addition to reserved inlet and outlet, radiant panel 13 will conduct heat The whole package of pipe 12 gets up.As shown in Fig. 2 (b), in one end insertion radiant panel 13 of fin 11, other end is prolonged from radiant panel 13 It stretches and is contacted with surrounding air, air is heated or cooled.In radiant panel 13, the heat-transfer pipe 12 passes through fin 11 One end, and be in close contact by expansion tube process or welding procedure and fin 11, to reduce thermal contact resistance, preferably connect Touching.

The heat-transfer pipe 12 is connect with external cold source or heat source, cold fluid and hot fluid working medium is imported in cooling system, then By it is thermally conductive by cold and hot energy transmission to radiant panel 13, and further by the surface in the outside of radiant panel 13 131 with radiate and from Right convection current is by cold and hot energy transmission to indoor environment.Under cooling condition, when indoor air humidity is higher than 13 outside 131 of radiant panel When the corresponding saturated humidity of surface temperature, the water vapour in air will be precipitated in 13 131 surface condensations of outside of radiant panel, and by The porous media of radiant panel 13 absorbs.On 132 one side of the inside of radiant panel 13, cold and hot energy is passed to fin 11 by heat-transfer pipe 12, And the air near fin 11 is further passed to, after air is cooled or heats, density changes therewith, in the driving of density contrast Lower formation free convection.Air is between fin 11 along fin 11 upward (under heating condition) or downward (under cooling condition) Flowing, from cooling system upper and lower side outflow system, and further drives circulating internal air.

The radiant panel 13 is made of porous media material, and the porous media material should select have certain wettability power And the good porous media material of heat transfer property.The porous media material of radiant panel 13 includes but is not limited to fired brick, blue bricks, mould One of casting sand type, porous ceramics, glass fibre, active carbon, cement, zirconia ceramics, silication species etc. are a variety of, and Other new materials with above-mentioned porous media performance.Preferably silicon compound, such as atlapulgite, silica, zeolite, more Hole matter glass, apatite, diatomite, kaolinite, sepiolite, allophane, imogolite, silica-zirconium oxide, titanium dioxide Silicon-alumina composite oxide, silica-titania composite oxide, silica-alumina composite oxides, two Silica-titania composite oxides, silica-zirconia barium, silica-zirconium oxide, silica-magnesia, two Metal composite oxides such as silica-lanthana, silica-zirconia strontium etc..Wherein as the preferred silica of silicon compound, Sepiolite, zeolite etc. can also use one or more combinations of above-mentioned material.Metal powder can also be mixed into porous media End, as gold, silver, copper, aluminium, iron perhaps alloy to further increase heat exchange efficiency or anti-corrosion.

As shown in figure 3, ion cleaning unit 10 is arranged between adjacent fins 11.Each ion cleaning unit includes at least One ionization pole 20 and at least one collector 21.The ionization pole 20 is set side by side along the vertical direction with the collector 21, The side of collector 21 is arranged in ionization pole 20.The ionization pole 20 and the collector 21 connect respectively with a certain size and Polar potential corresponds respectively to ionization electrode potential and collects electrode potential.The collector 21 has with the ionization pole 20 just The opposite potential of negative polarity or the collector 21 are grounded and have zero potential.After applying high potential to ionization pole 20, in electricity From just will form electric field between pole 20 and collector 21, the air between fin 11 passes through the ionization pole 20, is ionized pole 20 Neighbouring strong electric field ionization, when electric field strength is higher than bloom potential, corona discharge starts, and forms " electron avalanche ".Ionization Cation, anion and the electronics of formation are between ionization pole 20 and collector 21 under the driving of electric field, respectively to ionization pole 20 Particulate matter such as dust, virus and bacterium mobile with collector 21, being formed so-called " ion wind ", and charged after colliding on the way Equal drives move together, and are collected the collection of pole 21, to purify to air, i.e., so-called ionization purification.

The radius of curvature of the ionization pole 20 is smaller to be more conducive to that electronics is generated and discharged on ionization pole, and causes ionization pole The ionization of attachment gas molecule.Common ionization pole 20 includes filament type, sawtooth pattern, needle-like.20 ionization pole of ionization pole can be by Tungsten, carbon tungsten, nitrogen tungsten, molybdenum, stainless steel, nickel metal and nickel metal alloy, thermo-electric metal and thermocouple metal, rare metal and dilute There are one or more of metal alloy, refractory metal and refractory metal alloy to be made.It, can be in gold in order to reduce bloom potential The surface for belonging to ionization pole 20 is coated with oxidation catalyst coating or the low material of energy is overflowed on surface, is acted on reducing ionization pole in high pressure It is lower to generate the by-product of plasma simultaneously, such as ozone.For example, can be coated on the surface for the ionization pole that filament is made into low Energy coating, such as gold Au are overflowed in surface, so that the charge density of the ion of ionization pole ionization is higher, improve the electricity of ionization pole From efficiency.Pole surface coating oxidation catalyst coating, such as manganese dioxide, silver etc. can also be ionized in metal, reduced because of ionization The ozone of pole ionization and generation.

As shown in figure 4, at least one repeller 22, the repulsion is arranged in 21 side of collector in ion cleaning unit 10 Pole 22 is parallel with collector 21.External repulsion electrode potential on the repeller 22, potential can be with ionization on the repeller 22 Electrode potential polarity is identical, can also be with ionization pole polarities of potentials on the contrary, still on repeller 22 in potential size and collector 21 Potential is of different sizes.The repeller 22 is used to push the charged particle after the ionization pole 20 ionization to the collector 21, To improve purification efficiency.

Preferably, positive potential is arranged in the ionization pole 20, negative potential or zero potential, the repulsion is arranged in the collector 21 Pole 22 be arranged positive potential, at this time the advantages of be gas ionization generate ozone and nitrogen oxides amount it is relatively low.Optionally, described Negative potential is arranged in ionization pole 20, positive potential is arranged in the collector 21 or negative potential is arranged in zero potential, the repeller 22, at this time The advantages of be ionization stability it is stronger, available higher operation potential and electric current ionization pole.

The specific structure of the collector 21 and the repeller 22 and composition are not limited, optionally, the receipts Collector 21 and the repeller 22 can be using forms such as plate, cylinder, cylinders.Further, it is also possible in the collector 21 Arc-shaped protrusion is arranged in face of 20 side of ionization pole with the repeller 22 also can in favor of the collection and cleaning of dust Increase the disturbance of gas and charged particle, improve heat exchange efficiency and is conducive to the collection of charged particle.The collector 21 and institute Smooth, the not sharp protrusion in 22 surface of repeller is stated, electric arc is formed to prevent, be unfavorable for the cleaning of dust.

On the position of vertical direction, the repeller 22 is consistent with the height and position of the collector 21, it is preferred that row Denounce pole 22 in the vertical direction without departing from collector 21, to push charged particle to collector 21 using repeller 22.Ionization pole 20 are not limited with the vertical position of collector 21 and repeller 22.Optionally, as shown in Fig. 3 and Fig. 4 (a), electricity It is located at 22 lower section of collector 21 and repeller from pole 20, can also be as shown in Fig. 4 (b), ionization pole 20 is located at collector 21 and row Denounce 22 top of pole.Refer to the opposite height of position on vertical direction above and below described here.

As described above, fin 11 is heated and cooled down to neighbouring air, the density of air is changed correspondingly, in density contrast Driving under, the air between fin 11 flows upward or downward, formed free convection.Specifically, under heating condition, wing Nearby air is heated piece 11, and density reduces, and hot-air flows up；Under cooling condition, nearby air is cooled for fin 11, Density increases, and cold air flows downward.The temperature on 11 surface of fin and the temperature difference of environment temperature are bigger, and air density change is got over Greatly, driving force is also bigger, and the free convection flow velocity of formation is higher, and heat transfer effect is better.On the other hand, in collector and ionization pole Between electric field driving under, charged particle is mobile to collector, and air is driven to flow with the same direction, forms so-called " ion Wind ".Ion wind flow direction is to flow to collector and repeller from ionization pole.Preferably, between fin 11 heat transfer formed from Right convective wind flow direction is consistent with the ion wind flow direction that gas ionization is formed, and two kinds of mechanism form synergistic effect, is mentioning While high heat exchange efficiency, purification efficiency is improved.Specifically, under heating condition, ionization pole 20 as shown in Fig. 4 (a) The lower section of collector 21 and repeller 22 is set；Under cooling condition, the ionization pole 20 as shown in Fig. 4 (b) is arranged in collector 21 and repeller 22 lower section.

It is another example of the invention below.

As shown in figure 5, fin 11 uses metal material, and it is arranged to several sections in vertical direction, wherein at least one section The external collection electrode potential of upper fin 11 repels electrode potential, in this way by the ash of the heat transmission function of fin 11 and repeller, collector Dirt collecting function gathers together, and increases the integrated level of system, improves system effectiveness.Two sections of fins 11 are in the vertical direction Stand away space, and ionization pole 20 is arranged in this space, and the ionization pole 20 can use wire, increase air Disturbance, improve heat transfer and purification efficiency.

As shown in fig. 6, ionization pole 20 can also be integrated with the function of fin 11, ionize at this time external on section fin 11 Electrode potential is ionized, fin ionization pole 11 (20) is formd.It, can be in the fin ionization pole 11 (20) in order to increase ionizing efficiency The sharp protrusion 201 of upper setting, the protrusion 201 have lesser radius of curvature, can be thin using serration or metal Line.

Other aspects are consistent with examples detailed above.

It is another example of the invention below.

Fin 11 is connect with external Cooling and Heat Source, is heated under the different operating conditions with cooling in summer in winter, empty between fin 11 The free convection of gas is contrary.It is corresponding as shown in Fig. 7 (a), a set of electricity can be set in an ion cleaning unit From pole 20 and two sets of collector/repellers 211,212, it is provided in a set of collector/repeller 211 and 212 parallel At least one collector 21 and at least one repeller 22, ionization pole 20 are arranged in 211 He of upper and lower two sets of collector/repellers Among 212.

Specifically, the natural convection air between fin 11 is to flow up, at this time ionization pole 20 under heating condition Connection ionizes electrode potential, and the collector 21 in 20 upper collection pole of ionization pole/repeller 211 is connected and 20 opposite potential of ionization pole Or zero potential, ion wind flow upwardly toward collector 21 from ionization pole 20；Optionally, it is collected in collector/repeller 212 of lower part Pole 21 and repeller 22 all connect the potential with 20 identical polar of ionization pole, further to push charged particle to upper flow. Under cooling condition, the natural convection air between fin 11 is to flow downward, the ionization electrode potential of the connection of ionization pole 20 at this time, electricity From 20 collective low pole of pole/repeller 212 collector 21 connect with 20 opposite potential of ionization pole or zero potential, ion wind is from electricity Collector 21 is downwardly towards from pole 20；Collector 21 and repeller 22 all connect in the collector/repeller 211 on optional top With the potential of 20 identical polar of ionization pole, further charged ion to be pushed to flow to the lower part.

It is the example that collector, repeller and ionization pole are set up directly on fin 11 as shown in Fig. 7 (b).Other aspects It is consistent with above-mentioned Fig. 7 (a) example.

It is another example of the invention below.

An ion cleaning unit 10 is all contained only in above example, between adjacent fins 11, actually in fin 11 The multiple ion cleaning units 10 of setting can be serially connected.As shown in Fig. 8 (a), two are arranged in series among adjacent fin 11 A or multiple ion cleaning units 101 and 102.Each ion cleaning unit 101 and 102 is comprising a set of ionization pole 20 and extremely At least one repeller can also be arranged in parallel in the identical height and position of collector 21 as needed in a few collector 21.

Further, a set of ionization pole 20 being arranged in series in examples detailed above is configured with a set of collector 21 and a set of row The bottom and upper segment of reprimand pole 22 or a set of ionization pole 20 is each configured with a set of collector 21 and a set of repeller 22.It is practical On, ionization pole 20 and collector 21, repeller 22 can be with flexible configurations.Such as two sets of continuous setting or more set ionization poles 20, pass through It adjusts ionization potential and continuously carries out electricity again to gas ionization or to the charged particle gas ionized by a set of ionization pole 20 From；Or purification efficiency is improved to collect charged particle step by step in continuous configuration two sets or multiple sets of collection pole 21, repeller 22.

Cooling system uses according to the present invention refrigeration and heating condition condition, adjacent ions clean unit 101 and 102 it Between spacing and the design of air purification ability and efficiency need, can be to each in concatenated multiple ion cleaning units 10 Ionization pole, collector and repeller polarities of potentials and size carry out integrated management, to the collector of 20 upper and lower part of ionization pole It is adjusted with repeller polarities of potentials, the function for undertaking the collection of charged particle respectively and pushing excessive ion to collector Energy.For example, under heating condition, ionization pole 20 is set as negative potential, ionizes to air near ionization pole, described in this The collector 21 on 20 top of ionization pole is set as positive potential, repeller is set as negative potential, carries out the collection of charged particle, together When, the collector 21 of 20 lower part of ionization pole is set as negative potential, so as to by excessive charged ion to the ionization pole 20 The collector on top is pushed.As needed, repeller can also be arranged in parallel along collector 21.

As shown in Fig. 8 (a), optionally, when distance is farther out or adjacent ions between adjacent ions clean unit 101 and 102 It is provided with zero potential strainer 103 between clean unit 101 and 102, eliminates the mutual shadow of electric field between adjacent ions clean unit It rings, the collection of gas ionization and charged particle can be individually carried out inside each ion cleaning unit 101 and 102.

Further, as shown in Fig. 8 (b), by the ionization pole 20 inside concatenated ion cleaning unit 101,102, receipts The power supply of collector 21, repeller 22 and zero potential strainer 103 is managed concentratedly, by potential manager 30 to all power supplies Positive-negative polarity, potential size carry out unified allocation of resources and management.Specifically, can to coordinate single ion net for the potential manager 30 Change ionization pole 20, the polarities of potentials of collector 21 and repeller 22 and potential size in unit 10, it is net with better optimization ionization Change efficiency, collaboration free convection improves exchange capability of heat, and reduces the generation of ozone.In addition, the potential manager 30 can assist All ionization poles 20 being arranged in series, 22 potential of collector 21 and repeller are adjusted, to adjust direction and the wind speed, adjusting of ion wind Gas ionization intensity.Further, the potential manager 30 can generate high-voltage pulse potential in ionization pole 20, so that electric The high-energy that son is obtained in high-frequency discharge moment is enough to open the chemical bond of certain pernicious gas molecules, it is made to resolve into simple substance Atom or molecule, to remove the pernicious gas such as formaldehyde, volatile organic compounds VOCs, SO in air₂Deng.

It is another example of the invention below.

As shown in figure 9, magnet 40 has can be set in the outside of collector 21, the magnet 40 is to the band between collector 21 Electron ion applies magnetic field.The charged particle that the ionization of ionization pole 20 generates is between ionization pole 20 and collector 21 under the driving of electric field Into collector 21, while the effect by electric field force and magnetic field force.Under the collective effect of electric field force and magnetic field force, band electrochondria Son can increase the length of charged particle motion profile between collector 21 at circumnutation, this movement, so that with electrochondria It is sub significantly more efficient to be collected the capture of pole 21, improve the detergent power of system.

The magnet 40 can use permanent magnet, can also use electromagnet；The magnet 40, which can be, specially additionally to be set The magnet set also can use fin 11, make fin 11 form electromagnet after applying coil to metal fin 11.

As shown in figure 9, a pair of magnets can be arranged for two adjacent fins 11, multiple continuous fins can be directed to 11 setting a pair of magnets, can also be arranged a pair of magnets in the outside of entire cooling system, apply one to entire cooling system Magnetic field.

It is another example of the invention below.

The ionization of room air inevitably generates ozone, and ozone has penetrating odor, is more than certain density Ozone can also have an impact human health.As shown in Figure 10, along the direction of ion wind, collector 21, repeller 22 and 11 surface of fin coats oxidation catalyst, forms ozone catalytic area 50, carries out catalysis oxidation to ozone, reduces ozone concentration.Choosing Catalyst may include transition metal class catalyst, such as Mn oxide, ferriferous oxide, cobalt/cobalt oxide, nickel oxide are again Supported catalyst is closed, can also use noble metal catalyst, such as Ag, Au, Pt, Pd and its composite load catalyst can be with Select photochemical catalysts and the active carbons and its modified catalyst such as ultraviolet light.

For a person skilled in the art, can technical solution and design as described above, further adjustment electricity From pole, the catalysis and absorption of collector, the position of repeller and shape, polarities of potentials and size, ozone, and all these change Become and deformation all should belong within the scope of protection of the claims of the present invention.

Claims (10)

1. a kind of cooling system with ionic decontamination devices, it includes radiant panel, heat-transfer pipe and fin, and the radiant panel is by more Hole dielectric material is process, and the heat-transfer pipe is arranged in the radiant panel or is in contact with the radiant panel, the wing One end of piece is at least contacted with one in the heat-transfer pipe and the radiant panel, it is characterised in that：Further include at least one from Sub- clean unit, the ion cleaning unit include at least one ionization pole and at least one collector.

2. a kind of cooling system with ionic decontamination devices according to claim 1, it is characterised in that：At least one institute Collector is stated with zero potential, or with ionization pole described at least one with the opposite potential of positive-negative polarity.

3. a kind of cooling system with ionic decontamination devices according to claim 1 or 2, it is characterised in that：It is described from Sub- clean unit further includes at least one repeller, and the repeller is with identical as ionization pole positive-negative polarity described at least one Potential or the repeller have the potential identical but of different sizes as collector positive-negative polarity described at least one.

4. a kind of cooling system with ionic decontamination devices according to claim 3, it is characterised in that：The ionization Pole, the collector and the repeller are arranged on the fin.

5. a kind of cooling system with ionic decontamination devices according to claim 1, it is characterised in that：Porous Jie Material includes metal foam, metallic fiber, fired brick, blue bricks, molding sand mold, porous ceramics, active carbon, cement, zirconium oxide One of ceramics, silicide are a variety of.

6. a kind of cooling system with ionic decontamination devices according to claim 1, it is characterised in that：At least one institute It states ionization pole and at least one described collector is arranged in series in the vertical direction.

7. a kind of cooling system with ionic decontamination devices according to claim 3, it is characterised in that：The ion is net Change unit and be provided with potential manager, the potential manager is to the ionization pole all in the ion cleaning unit, institute The potential positive-negative polarity and potential size for stating collector and the repeller carry out control management.

8. a kind of cooling system with ionic decontamination devices according to claim 1, it is characterised in that：The heat dissipation system System further includes having magnet, and the magnet generates magnetic field and applies Lorentz force to charged particle, improves charged particle road in electric field The length of diameter.

9. a kind of cooling system with ionic decontamination devices according to claim 1, it is characterised in that：The ionization pole Surface is coated with low work function coating or oxidation catalyst coating, to reduce ozone.

10. a kind of cooling system with ionic decontamination devices according to claim 3, it is characterised in that：The fin, The repeller and the collection pole surface coat ozone catalyst coating.