CN1420791A

CN1420791A - Sterilization method, ion generating element, ion generating device, and air conditioning device

Info

Publication number: CN1420791A
Application number: CN01802724A
Authority: CN
Inventors: 竹田康坚; 世古口美德; 古川猛; 守川守; 高野利明; 野口克利; 野岛秀雄; 西川和男; 宫田昭雄
Original assignee: Sharp Corp
Current assignee: Sharp Corp
Priority date: 2000-05-18
Filing date: 2001-05-17
Publication date: 2003-05-28
Anticipated expiration: 2021-05-17
Also published as: CN100579585C

Abstract

A method for sterilization, characterized in that it comprises generating O2<->(H2O)n as a negative ion, wherein n is an arbitrary natural number, and H<+>(H2O)m as a positive ion, wherein m is an arbitrary natural number, and feeding the ions into air, to thereby kill bacteria floating in the air through oxidation reactions by hydrogen peroxide H2O2 or a radical OH which is an active species formed by chemical reactions caused by the above ions; and an ion generating element which generates the above negative and positive ions. A satisfactory sterilization effect can be achieved by generating the above negative and positive ions in respective amounts of 10,000 pieces/cc or more at positions 10 cm apart from the places for generation of the ions.

Description

Method for disinfection, ion generating device, ion generating device and conditioner

Technical field

The present invention relates to a kind of anion and cation of producing to carry out germ-resistant method for disinfection, to produce ion generating device, ion generating device and the conditioner of anion and cation (for a kind of rerum natura of air that makes changes, produce the device under the desirable atmosphere, for example the heating equipment of air purifier, air conditioner, dehydrating unit, damping device, tape drum blower fan (comprising) with oil and electric heating equipment, refrigerator etc. as pyrotoxin.

Background technology

In recent years, along with the highly denseization of living environment, planktonic bacteria harmful in the air is removed in strong hope, to bring healthy comfortable life.In order to realize this hope, developed air purifier with various filters.

But, in such air purifier, owing to be by the filter absorption that absorbs air in the space or the mode of decomposing pollutant matter, life-time service is the maintenance activities such as replacing that will carry out filter indispensablely, and, insufficient because of the characteristic of filter, can not obtain satisfied performance.

To this, also developed and used air purifier or the air conditioner of ion generating device to increase airborne ion concentration, but at present commercially available can only produce anion, though anion can obtain certain desired relaxation effect to the people, yet work hardly for removing airborne planktonic bacteria effectively.

And, ion generating device in the past is that the mode by the mode of dc high voltage or pulse high-voltage makes anion produce ionic from spray point, applied voltage must reach the above high voltage of 5kV, for this reason, exists the problem that can adhere to dust on the machine etc. of goods or periphery.In addition,, consider the safety of machine, therefore the countermeasure that safety return circuit is set must be arranged because of using high voltage.

Disclosure of an invention

The present invention proposes just in view of the above-mentioned problems, and it is a kind of by the anion sent in air and the effect of cation that its purpose is to provide, and can kill the method for disinfection of planktonic bacteria in the air effectively.Another purpose provides a kind of ion generating device that is used to implement this method for disinfection.Another purpose provides a kind of by having such ion generating device, can realize the ion generating device and the conditioner of the living environment of comfortable and cleaning.

To achieve these goals, method for disinfection of the present invention is characterised in that, sends anion and cation in air, under these ionic effects, with the killing bacteria that swims in the air.

At this moment, produce O as anion ₂ ^-(H ₂O) _n(n for natural number) arbitrarily and produce H as cation ⁺(H ₂O) _mIn the time of (m be natural number) arbitrarily, by these ions are sent in air, the hydrogen peroxide H that is produced by these ion generation chemical reactions as spike ₂O ₂Or the oxidation reaction that causes of free radical OH, with the killing bacteria that swims in the air.

And, of the present invention being characterized as, the concentration of these anion and cation apart from its origination point 10cm place all 10,000/more than the cc.In order to obtain sufficient bactericidal effect, confirm the ion that required this concentration is above by experiment.

In addition, ion generating device of the present invention is a kind of ion generating device that produces anion and cation, it is characterized by, and kills the antibacterial that swims in the air under these ionic effects.

At this moment, produce O as anion ₂ ^-(H ₂O) _n(n for natural number) arbitrarily, produce H as cation ⁺(H ₂O) _mIn the time of (m be natural number) arbitrarily, by these ions are sent in air, by the hydrogen peroxide H as spike that further chemical reaction generated of these ions after it takes place ₂O ₂Or the oxidation reaction of free radical OH, can kill the antibacterial that swims in the air.

Be specially, have the 1st electrode and the 2nd electrode that this dielectric opposite disposed in dielectric and clamping, by between aforementioned the 1st electrode and aforementioned the 2nd electrode, applying alternating voltage, to produce anion and cation.

At this moment, by applying the lower alternating voltage of virtual value below 2.0kV, can guarantee the concentration of effective germ-resistant anion and cation.Be specially, its arbitrary concentration apart from its origination point 10cm place all 10,000/more than the cc.

More specifically be, ion generating device of the present invention has columnar dielectric, the netted interior electrode of this dielectric opposite disposed and netted external electrode in clamping, by applying alternating voltage between electrode in aforementioned and the external electrode, to produce anion and cation.

At this moment, the electrode rolling and processing becomes cylindric in described, along the inner peripheral surface setting-in of described one-tenth dielectric cylindraceous the time, the in a single day stacked coincidence of the both side ends of its rolling face, just can be with interior electrode convenient and reliably driving fit to the inner peripheral surface of dielectric cylindraceous.

And, at the external diameter of aforementioned dielectric be below the 20mm, thickness is below the 1.6mm, the mesh count of electrode is 40 orders in aforementioned, when the mesh count of aforementioned external electrode is 16 orders, by applying virtual value is lower alternating voltage below the 2.0kV, can suppress the generation of ozone and guarantee the concentration of effective germ-resistant anion and cation.Be specially, its arbitrary concentration apart from its origination point 10cm place all 10,000/more than the cc.

In addition, the both ends of aforementioned electric amboceptor are by rubber-like rubber bodies sealing, by this rubber bodies, described in electrode or described external electrode described dielectric axially on can not misplace, thereby the stable performance of ion generating device, reproducibility produce anion and cation well.

At this moment, the material of aforementioned rubber bodies is preferably the ethylene propylene rubber that relative ozone has durability.

In addition, as the lead that links to each other with described electrode, use the stainless steel silk that coats by ozone proof polyfluoroethylene resin.

At this moment, in aforementioned the thickness of slab of electrode be necessary at least can bonding aforementioned wire thickness.

In addition, when in described, being provided with the mechanism that improves with the closed state of described dielectric on electrode or the described external electrode, the further performance of stabilizing ion generating device.

In addition, when the surperficial mounting of described dielectric promotes catalyst that ozone decomposes, can reduce the concentration that produces by ion generating device as the ozone of ion derivatives.

In addition, but in aforementioned on electrode or the aforementioned external electrode mounting promote the catalyst that ozone decomposes.

Have again, can with described dielectric devices spaced apart be provided with the ozone decomposition catalyst mounting parts that mounting promotes the catalyst that ozone decomposes.At this moment, the virtual value of aforementioned alternating voltage can be set in below the 2.5kV.

In addition, the 2nd structure of ion generating device of the present invention is, have columnar dielectric, the tabular interior electrode of this dielectric opposite disposed and netted external electrode in clamping, by applying alternating voltage between electrode in described and the described external electrode, to produce anion and cation.

Adopt this structure, the discharge that takes place between electrode becomes the line opposite, can stably generate anion and cation.And,, can obtain same effect by adding and the same modification of above-mentioned the 1st structure.

At this moment, aforementioned in the flat shape of flat board of electrode be when having the polygon on a plurality of summits, when the dull and stereotyped rolling and processing of electrode in aforementioned is become cylindric, at least one end face portion from cylinder on aforementioned summit bloats.Thus, at the electric field that the easy generation of the apex portion that bloats of interior electrode is concentrated, the cylinder compared with the end face portion alignment can more stably discharge.

And, in described, be provided with a plurality of holes on the electrode, when the periphery in these holes forms to the side-prominent projection of described dielectric one, because the part that electric field is easily concentrated is because of also enlarging on the side of cylinder, so on the whole side of interior electrode, can realize evenly and stably discharge.

And, being characterized as of ion generating device of the present invention, being provided with the alternating voltage that will produce anion and cation gives the high-voltage ac power of described ion generating device and the anion that will be produced by described ion generating device and cation and forces the pressure fan sent.

Adopt this ion generating device, can give ion generating device with alternating voltage, and send in the scope broad in the atmosphere by pressure fan by anion and cation that ion generating device produces by high-voltage ac power.And, under these ionizations, can kill the antibacterial that swims in the air.

In addition, conditioner of the present invention is characterised in that, this conditioner is provided with the high-voltage ac power that the alternating voltage that will produce anion and cation gives described ion generating device, anion that will be produced by described ion generating device and cation are forced the pressure fan sent, suck the suction inlet of air, anion that will produce by described ion generating device and cation and the blow-off outlet that together blows out by described pressure fan from described suction inlet inhaled air and be configured in the air-supply path from described suction inlet to described blow-off outlet, the filter that foreign body contained in the air is removed.

Adopt this conditioner, can give ion generating device with alternating voltage, and send in the scope broad in the air by pressure fan by anion and cation that ion generating device produces by high-voltage ac power.And, under these ionizations, can kill the antibacterial that swims in the air.In addition, by air circulation, filter can be removed the dust that comprises in the air or dust, smelly composition.Thus, can realize living environment comfortable and cleaning.

Have again, conditioner of the present invention is characterised in that, this conditioner is provided with the high-voltage ac power that the alternating voltage that will produce anion and cation gives described ion generating device, anion that will be produced by described ion generating device and cation are forced the pressure fan sent, suck the suction inlet of air, anion that will produce by described ion generating device and cation and the blow-off outlet that together blows out from described suction inlet inhaled air by described pressure fan, be configured in the air-supply path from described suction inlet to described blow-off outlet, the filter that foreign body contained in the air is removed and be configured in heat exchanger on the described air-supply path.

Adopt this conditioner, can give ion generating device with alternating voltage, and send in the scope broad in the air by pressure fan by anion and cation that ion generating device produces by high-voltage ac power.And, under these ionizations, can kill the antibacterial that swims in the air.In addition, by air circulation, when the temperature of air is regulated by heat exchanger, can remove the dust that comprises in the air or dust, smelly composition by filter.Thus, can realize living environment comfortable and cleaning.

The accompanying drawing summary

Fig. 1 is for schematically illustrating the pie graph of the ion generating device of the 1st embodiment of the present invention.

Fig. 2 is the vertical view that the used ion generating electrodes body of this ion generating device is shown.

Fig. 3 is for schematically illustrating the cutaway view of the air purifier of the ion generating device with the 2nd embodiment of the present invention.

Fig. 4 is for schematically illustrating the cutaway view of the air conditioner of the ion generating device with the 3rd embodiment of the present invention.

Fig. 5 is for schematically illustrating the pie graph of the ion generating device of the 4th embodiment of the present invention.

Fig. 6 is for schematically illustrating the cutaway view of the air purifier of the ion generating device with the 5th embodiment of the present invention.

Fig. 7 is for schematically illustrating the cutaway view of the air conditioner of the ion generating device with the 6th embodiment of the present invention.

Fig. 8 is for schematically illustrating the pie graph of the ion generating device of the 7th embodiment of the present invention.

Fig. 9 is the cutaway view that the used ion generating electrodes body of this ion generating device is shown.

Figure 10 is the perspective view of the manufacture method of netted external electrode one example that is used to illustrate that driving fit is provided with on the glass tubing outer peripheral face of this ion generating electrodes body.

Figure 11 illustrates another routine perspective view of this external electrode.

Figure 12 is used to illustrate the perspective view of the manufacture method of electrode one example in netted that driving fit is provided with on the glass tubing inner peripheral surface of this ion generating electrodes body.

Figure 13 is the perspective view of this interior another routine manufacture method of electrode of explanation.

Figure 14 the vertical view that staggers in the position of the interior electrode of glass tubing opposite disposed of this ion generating electrodes body and external electrode for explanation with clamping.

Figure 15 illustrates the external electrode of this ion generating device as earthing potential, by high-voltage ac power, internally electrode apply virtual value be 1.3～1.8kv, frequency when being the alternating voltage of 22kHz, apart from the anion at the 10cm place, side of glass tubing and the chart of cation concentration.

Figure 16 be illustrate that this ion generating device is arranged on lengthwise is 2.0m, behind the inside of growing crosswise into 2.5m, high subject area for 2.7m, the coliform that to cultivate on pre-culture is that the degree of 500～1500/cc spreads in the zone with concentration, make ion generating device action time, by blowing fan during with the air stirring in the zone, apart from the concentration of the anion at the 10cm place, side of glass tubing and cation and through the chart of the relation of the survival rate of the coliform after 1 hour.

Figure 17 illustrates the not time dependent chart of the survival rate of coliform simultaneously of ion concentration.

Figure 18 A is that the glass tubing that illustrates as this ion generating device uses internal diameter to be 10mm, thickness is 1.0mm, length is the cylindrical shape pyrex pipe of 100mm, use plain weave silk footpath to be 80mm as interior electrode as the length of rustless steel 304 steel wires of 0.15mm, mesh count is 60 purpose metal gauzes, and use plain weave silk footpath to be 80mm as the length of rustless steel 304 steel wires of 0.22mm as external electrode, mesh count is 30 purpose metal gauzes, external electrode 205 is as earthing potential, adding virtual value on interior electrode is 1.1kV or 1.4kV, when frequency is the alternating voltage of 15kHz, the concentration of the anion that is generated and chart apart from the relation of the lateral distance of glass tubing.

When Figure 18 B makes the action of this ion generating device under the same conditions for illustrating, the concentration of the cation that is generated and chart apart from the relation of the lateral distance of glass tubing.

Figure 19 is that the external diameter that is illustrated in the glass tubing of this ion generating device is that 20mm, length are that 63mm, thickness are that the length of 1.6mm, interior electrode is that the silk footpath of 60mm, external electrode is that 60mm, order number are 16 orders for 0.4mm, length, when counting with the order of electrode 204 in changing, when on ion generating electrodes body, applying virtual value and being about the alternating voltage of 1.8kV, apart from the chart of the relation of the anion at the 10cm place, side of glass tubing and cation and ozone concentration.

Figure 20 is that the external diameter that is illustrated in the glass tubing of this ion generating device is that 20mm, length are that 63mm, thickness are that the silk footpath of 1.6mm, interior electrode is that 60mm, order number are that the length of 40 orders, external electrode is 60mm for 0.18mm, length, when counting with the order that changes external electrode, when on ion generating electrodes body, applying virtual value and being about the alternating voltage of 1.8kV, apart from the chart of the relation of the anion at the 10cm place, side of glass tubing and cation and ozone concentration.

Figure 21 is that the silk footpath that is illustrated in the interior electrode of this ion generating device is that 60mm, mesh count are that the silk footpath of 40 orders, external electrode is that 60mm, mesh count are that the length of 16 orders, glass tubing is that 63mm, thickness are 1.2mm for 0.4mm, length for 0.18mm, length, when becoming 17mm, 20mm, 24mm, at the chart of the relation of the virtual value of the concentration of the anion at 10cm place, the side of distance glass tubing and applied voltage with external diameter with glass tubing.

When Figure 22 makes the action of this ion generating device under the same conditions for illustrating, apart from the chart of the relation of the virtual value of the concentration of the anion at the 10cm place, side of glass tubing and applied voltage.

When Figure 23 makes the action of this ion generating device under the same conditions for illustrating, apart from the chart of the relation of the virtual value of the ozone concentration at the 10cm place, side of glass tubing and applied voltage.

Figure 24 is that the external diameter that is illustrated in the glass tubing of this ion generating device is that 20mm, length are that the silk footpath of 63mm, interior electrode is that 60mm, mesh count are that the silk footpath of 40 orders, external electrode is that 60mm, mesh count are the thickness of 16 orders, glass tubing when being 1.2mm for 0.4mm, length for 0.18mm, length, apart from the chart of the relation of anion, cation, ozone concentration and the applied voltage at the 10cm place, side of glass tubing.

Figure 25 is that the external diameter that is illustrated in the glass tubing of this ion generating device is that 20mm, length are that the silk footpath of 63mm, interior electrode is that 60mm, mesh count are that the silk footpath of 40 orders, external electrode is that 60mm, mesh count are the thickness of 16 orders, glass tubing when being 1.6mm for 0.4mm, length for 0.18mm, length, apart from the chart of the relation of anion, cation, ozone concentration and the applied voltage at the 10cm place, side of glass tubing.

Figure 26 A illustrates the perspective view that ion generating electrodes body is provided with catalyst mounting parts one example of mounting ozone decomposition catalyst.

Figure 26 B is the cutaway view that this ion generating electrodes body is shown.

Figure 27 for the explanation driving fit the glass tubing inner peripheral surface of this ion generating electrodes body be provided with tabular in the perspective view of manufacture method of electrode one example.

Figure 28 for the explanation driving fit the glass tubing inner peripheral surface of this ion generating electrodes body be provided with tabular in the perspective view of another routine manufacture method of electrode.

Figure 29 for the explanation driving fit the glass tubing inner peripheral surface of this ion generating electrodes body be provided with tabular in the perspective view of manufacture method of the another example of electrode.

Figure 30 is that the external diameter that the glass tubing of this ion generating device is shown is that 20mm, length are that 63mm, thickness are 1.6mm, in the external electrode 205 of the interior electrode of plate electrode and mesh electrode, interior electrode is cylindric, its length is that 45mm, thickness are 0.08mm, the length of external electrode is 60mm, when the order that changes external electrode is counted, when on ion generating electrodes body, applying virtual value and being about the alternating voltage of 1.8kV, apart from the chart of the generating capacity of the anion at the 10cm place, side of glass tubing and cation.

Figure 31 is that the external diameter that the glass tubing of this ion generating device is shown is that 20mm, length are that 63mm, thickness are 1.6mm, under the relation of the external electrode of the interior electrode of plate electrode and mesh electrode, interior electrode is cylindric, its thickness is 0.08mm, the silk footpath of external electrode is that 60mm, mesh count are 16 orders for 0.22mm, length, in changing during the length of electrode, when on ion generating electrodes body, applying virtual value and being about the alternating voltage of 1.8kV, apart from the chart of the concentration of the anion at the 10cm place, side of glass tubing and cation.

Figure 32 is that the external diameter that the glass tubing of this ion generating device is shown is that 20mm, length are that 63mm, thickness are 1.6mm, under the relation of the external electrode of the interior electrode of plate electrode and mesh electrode, interior electrode is cylindric, its thickness is that 0.08mm, length are 50mm, the silk footpath of external electrode is 16 orders for 0.22mm, mesh count, when changing the length of external electrode, when on ion generating electrodes body, applying virtual value and being about the alternating voltage of 1.8kV, apart from the chart of the generating capacity of the anion at the 10cm place, side of glass tubing and cation.

Figure 33 A is that vertical view cuts open in the office that netted external electrode one example that driving fit is provided with on the glass tubing outer peripheral face of this ion generating electrodes body is shown.

Figure 33 B illustrates the cutaway view that this external electrode driving fit of making is arranged on state on the glass tubing.

Figure 34 A is that vertical view cuts open in the office that netted another example of external electrode that driving fit is provided with on the glass tubing outer peripheral face of this ion generating electrodes body is shown.

Figure 34 B illustrates the cutaway view that this external electrode driving fit of making is arranged on state on the glass tubing.

Figure 35 is the cutaway view that ion generating device one example of the 8th embodiment of the present invention is shown.

Figure 36 is the perspective view of decomposition that air purifier one example of the ion generating device that the 9th embodiment of the present invention is housed is shown.

Figure 37 is the perspective view that this air purifier body is shown.

Figure 38 is the sectional view that this air purifier is shown.

Figure 39 is the rear view that this air purifier is shown.

Figure 40 is formed at the concept map in the air-supply path of this air purifier inside for explanation.

Figure 41 illustrates the bypass of this air purifier and the partial enlarged drawing of ion generating electrodes body.

Figure 42 A is when being illustrated in when to apply virtual value on the ion generating electrodes body of this air purifier be the alternating voltage of 1.1kV the blowing fan operation, ozone concentration that is generated by ion generating electrodes body and chart apart from the relation of the distance of blow-off outlet.

Figure 42 B is when being illustrated in when to apply virtual value on the ion generating electrodes body of this air purifier be the alternating voltage of 1.4kV the blowing fan operation, ozone concentration that is generated by ion generating electrodes body and chart apart from the relation of the distance of blow-off outlet.

Figure 43 schematically illustrates the cutaway view of the air conditioner of the ion generating device with the 10th embodiment of the present invention.

Figure 44 is the block diagram of basic comprising of control device that the air conditioner of the ion generating device with the 11st embodiment of the present invention is shown.

Figure 45 is the block diagram of basic comprising of control device that the air conditioner of the ion generating device with the 12nd embodiment of the present invention is shown.

Figure 46 is the block diagram of basic comprising of control device that the air conditioner of the ion generating device with the 13rd embodiment of the present invention is shown.

Figure 47 is the decomposition diagram that the ion generating device assembly of the 14th embodiment of the present invention is shown.

Figure 48 is the forward perspective view of component body that this ion generating device assembly is shown.

Figure 49 A is the cutaway view that the ion generating electrodes body installment state of this ion generating device assembly is shown.

Figure 49 B is the decomposition front view that identical ion generating electrodes body installment state is shown.

Figure 50 is the perspective view that left half after the component body of this ion generating device assembly is shown.

Figure 51 is the perspective view that right half after the component body of this ion generating device assembly is shown.

Figure 52 is the perspective view that the auxiliary blower assembly of this ion generating device assembly is shown.

Figure 53 is the front perspective view that the air conditioner of the ion generating device assembly that the 15th embodiment of the present invention is housed is shown.

Figure 54 is the front perspective view under the header board opening of this air conditioner.

Figure 55 is for illustrating the front view of the body display device of this air conditioner enlargedly.

Figure 56 is the perspective view that the remote controller of this air conditioner is shown.

Figure 57 is the sectional view that the indoor set of this air conditioner is shown.

Figure 58 is the sectional view of this indoor set on the allocation position of ion generating electrodes body.

Figure 59 is that the allocation position of ion generating device assembly of this indoor set is at the sectional view of left.

Figure 60 is that the allocation position of ion generating device assembly of this indoor set is at right-hand sectional view.

Figure 61 is for schematically illustrating all pie graphs of this air conditioner.

Figure 62 is the perspective view of indoor set that the air conditioner of the ion generating device assembly with the 16th embodiment of the present invention is shown.

Figure 63 is the perspective view that illustrates under the header board opening of this indoor set.

Figure 64 is for illustrating the front view of the liquid crystal indicator of this air conditioner enlargedly.

Figure 65 is the enlarged drawing that the remote controller of this air conditioner is shown.

Figure 66 is the sectional view that the indoor set of this air conditioner is shown.

Figure 67 is for schematically illustrating all pie graphs of this air conditioner.

Figure 68 is the cutaway view that the ion generating device assembly that is contained on this air conditioner is shown.

Figure 69 A illustrates the 1st blow-off outlet of this ion generating device assembly to be closed and cutaway view under the 2nd blow-off outlet opening.

Figure 69 B illustrates the 1st blow-off outlet of this ion generating device assembly to be opened and cutaway view under the 2nd blow-off outlet closed condition.

Figure 70 is the block diagram of the control device of this air conditioner.

Figure 71 is the cutaway view that the another example of this ion generating device assembly is shown.

Figure 72 illustrates this ion generating device assembly cutaway view of an example again.

Figure 73 illustrates the perspective view under the header board opening on the indoor set of air conditioner of the splicing ear that this ion generating device assembly uses.

Figure 74 is for schematically illustrating the pie graph of the ion generating device of the 17th embodiment of the present invention.

Figure 75 uses this ion generating device for illustrating, and is in the atmosphere below the 0.001ppm on and off switch to be connected to keep 6 minutes in the initial stage of ozone concentration, switches to the chart of the variation of the ozone concentration when disconnecting afterwards.

Figure 76 is for schematically illustrating the sectional view of the air purifier of the 18th embodiment of the present invention.

Figure 77 is for schematically illustrating the sectional view of the air conditioner of the 19th embodiment of the present invention.

Figure 78 is for schematically illustrating the sectional view of the air purifier of the 20th embodiment of the present invention.

Figure 79 is the glass tubing that illustrates as the ion generating electrodes body of this air purifier, use external diameter to be 12mm, thickness is 1.0mm, length is the cylindrical shape pyrex pipe of 150mm, use plain weave silk footpath to be 80mm as interior electrode as the length of rustless steel 304 steel wires of 0.23mm, mesh count is 48 purpose metal gauzes, and using the plain weave silk as external electrode directly is that the length of rustless steel 304 steel wires of 0.15～0.22mm is 80mm, mesh count is 9～100 purpose metal gauzes, with external electrode as earthing potential, applying virtual value on interior electrode is 1.1～1.4kV, frequency is under the situation of alternating voltage of 15kHz, apart from the chart of the concentration of the anion at 20cm place, glass tubing side and cation.

Figure 80 is illustrated on the ion generating electrodes body of this air purifier when applying alternating voltage with same condition, apart from the chart of the ozone concentration at 20cm place, glass tubing side.

Figure 81 is for schematically illustrating the sectional view of the air conditioner of the 21st embodiment of the present invention.

The ideograph of the anion that Figure 82 is generated by the action of ion generating device of the present invention for explanation and the structure of cation.

Figure 83 is the effect of explanation by this anion and cation, the ideograph of the structure that airborne planktonic bacteria, virus, smelly molecule etc. are decomposed.

The optimal way that carries out an invention

Below, with reference to description of drawings specific embodiment of the present invention.Fig. 1 is for schematically illustrating the pie graph of the ion generating device 1 of the 1st embodiment of the present invention, and Fig. 2 is the vertical view that the used ion generating electrodes body 2 of this ion generating device 1 is shown.

The ion generating device 1 of present embodiment as shown in Figure 1, by having that clamping as the glass plate 3 of dielectric and the ion generating electrodes body 2 of the 1st, the 2nd electrode 4,5 of opposite disposed, and the 1st electrode 4 is applied the high-voltage ac power 6 that when being connected with electrode the 2nd electrode 5 is connected as earthy electrode as voltage constitute.

Ion generating electrodes body 2 has plate glass plate 3 as depicted in figs. 1 and 2,1st electrode 4 and driving fit 2nd electrode 5 on this glass plate 3 another sides of driving fit on these glass plate 3 one sides.

In addition, in the ion generating electrodes body 2 of Fig. 2, what use as dielectric is glass plate 3, but is not limited to this, so long as the plate of insulating properties gets final product.And, its shape is also limited especially, can be suitably definite according to the shape of the machine of want mounting, structure etc.

As glass plate 3, for example can use plate pyrex plate.And, for example can use the metal gauze of plain weave rustless steel 316 or 304 steel wires as the 1st, the 2nd electrode 4,5.

In addition, from improving the viewpoint of ion luminous efficiency, with the 1st electrode 4 and 5 driving fits of the 2nd electrode to glass plate 3.For with the method for the 1st, the 2nd electrode 4,5 driving fits to the glass plate 3, except bonding, can adopt the known method of crimping, silk screen printings etc. such as Wound wire to carry out easily.

Action to the ion generating device 1 of above-mentioned formation illustrates below, but the ion generating device 1 of present embodiment is not limited to following example, can suitably change operation condition etc. and moves.

Example 1

As glass plate 3, use 55mm * 55mm, thickness plate pyrex plate as 1.0mm, as the 1st, the 2nd electrode 4,5, using plain weave silk footpath is 48 purpose metal gauzes as 33mm * 33mm, the mesh count of rustless steel 304 steel wires of 0.23mm.In addition, " order " meaning is 1 inch hole count for length.Therefore, the big more then mesh of order number is thin more.

As earthing potential, by high-voltage ac power 6, it is that 3.0kV, frequency are the alternating voltage of 20kHz that the 1st electrode 4 is applied virtual value with the 2nd electrode 5.And, the measuring point at the surperficial 10cm place that is provided with the 1st electrode 4 one sides of distance glass plate 3, measuring degree of excursion with the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section is 1cm ²The anion that/Vsec is above and the concentration of cation.Its result is to detect the anion and the cation of 60,000～70,000/cc degree.In addition, ozone concentration is below 0.01～0.06ppm.

Thereby applying virtual value is the lower alternating voltage of 3.0kV, makes ion generating device 1 action, can produce competent anion and cation in the space.

Example 2

As glass plate 3, use 55mm * 55mm, thickness plate pyrex plate as 0.23mm, as the 1st, the 2nd electrode 4,5, using plain weave silk footpath is 48 purpose metal gauzes as 33mm * 33mm, the mesh count of rustless steel 304 steel wires of 0.23mm.

As earthing potential, by high-voltage ac power 6, it is that 1.5kV, frequency are the alternating voltage of 30kHz that the 2nd electrode 5 is applied virtual value with the 1st electrode 4.And, the measuring point at the surperficial 10cm place that is provided with the 1st electrode 4 one sides of distance glass plate 3, measuring degree of excursion with the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section is 1cm ²The anion that/Vsec is above and the concentration of cation.Its result is, the concentration of anion is 14,998/cc, and the concentration of cation is 19,686/cc.In addition, ozone concentration is 0.05ppm.

Thereby applying virtual value is the lower alternating voltage of 1.5kV, makes ion generating device 1 action, can produce competent anion and cation in the space.And, when the frequency that applies voltage is 30kHz, owing to outside the scope for the human frequency band zone that can hear, in ion generating device 1 action, do not have by the noise due to the discharge of 4,5 generations of the 1st, the 2nd electrode, can be quiet.

Below, with reference to description of drawings the 2nd embodiment of the present invention.Fig. 3 is for schematically illustrating the cutaway view of the air purifier 300 of the ion generating device 1 with the 2nd embodiment of the present invention.

Inboard, inside at the body 301 of air purifier 300 is provided with blowing fan 302.Front at body 301 forms the air suction inlet 303 that is made of a plurality of holes or slit.And, be provided with the various filters 304 that dedusting or deodorize are used in the downstream of suction inlet 303.In addition, form the air blow-off outlet 305 that constitutes by a plurality of holes or slit on the top of body 301.Thus, form the air-supply path that arrives blow-off outlet 305 from suction inlet 303 by filter 304 in the inside of body 301.

In addition, near the blow-off outlet 305 in this air-supply path, be provided with the ion generating electrodes body 2 of the ion generating device 1 (with reference to Fig. 1) of above-mentioned the 1st embodiment.At this moment, ac high voltage source 6 (with reference to Fig. 1) can be different with the power supply that drives blowing fan 302, also can be shared power supply.When being shared power supply, when controlling the action of the driving of blowing fan 302 and ion generating device 1 respectively, during air purifier 300 operations, can make the action ON/OFF of ion generating device 1 as required by the control part (not shown), very easy to use.

Operation makes blowing fan 302 revolutions when having the air purifier 300 of said structure, from the air in suction inlet 303 suction draft paths by the process of filter 304, remove dust or smelly composition after, blow out from blow-off outlet 305.At this moment, when the action of ion generating device 1 was ON, anion that near the space ion generating electrodes body 2 produces and cation also together blew out with the air that cleans.Thereby, under the effect of this anion and cation, can kill and remove airborne planktonic bacteria.

At this, the action kill by anion and cation is carried out simple explanation with the structure of removing airborne planktonic bacteria.By the action of ion generating device 1, the 1st electrode 4 and 5 at the 2nd electrode that glass plate 3 opposite disposed in clamping produce plasma discharge, make the water vapour molecule that comprises in the air be ionized into anion and cation.

At this moment, shown in Figure 82,, generate hydrion hydrate H as cation ⁺(H ₂O) _m,, generate oxonium ion hydrate O as anion ₂ ^-(H ₂O) _nAt this, m, n are natural number arbitrarily.

When these ions are attached to airborne bacterium surface, shown in Figure 83, directly generate hydroxide base (OH) as spike, from the cell of antibacterial, pull out hydrogen atom with sterilization.In addition, this chemical reaction is an oxidation reaction, not only to above-mentioned free radical OH sterilization but also can will be included in the airborne effect that becomes the various molecular oxidations of stink with odorlessization.

Below, illustrate the bactericidal property of planktonic bacteria in 300 pairs of air of air purifier of present embodiment, but the air purifier 300 of present embodiment is not limited to following example, can suitably change under the situations such as operation condition and move.

Example 3

The air purifier 300 that above-mentioned example 1 employed ion generating device 1 is housed is arranged on lengthwise is 2.0m, growing crosswise is the inside of 2.5m, high subject area for 2.7m.And general living bacterium and the fungus that will cultivate on pre-culture intersperse among in the zone.Simultaneously, under the same condition of above-mentioned example 1, when making ion generating device 1 action, drive blowing fan 302, the operation of beginning air purifier 300.

Then, whenever through official hour, just make RCS radiant detector with the air in the speed extraction area of 40L/min, by carrying out 4 minutes sampling, the airborne bacterial population of instrumentation with German Biotest society.Its result is by table 1 illustrate.

Air purifier 300 operation beginnings are after 3 hours, and general living bacterium is removed 72% in the zone, and fungus is removed 75%.Thereby, when adopting the air purifier 300 of ion generating device 1, confirm under the effect of anion of sending and cation, can kill and remove the major part of the antibacterial that swims in the air well with present embodiment.

Below, with reference to description of drawings the 3rd embodiment of the present invention.Fig. 4 is for schematically illustrating the cutaway view of the air conditioner 400 of the ion generating device 1 with the 3rd embodiment of the present invention.

Inboard, inside at the body 401 of air conditioner 400 is provided with blowing fan 402.In addition, the front of body 401 and above form the air suction inlet 403 that constitutes by a plurality of holes or slit.And, be provided with the various filters 404 that dedusting or deodorize are used in the downstream of suction inlet 403.Have again, be provided with heat exchanger 406 in the downstream of filter 404.And, below the suction inlet 403 of body 401, form the blow-off outlet 405 of wind direction baffle plate with wind direction adjustment usefulness.Thus, form in the inside of body 401 from suction inlet 403 through filters 404 and heat exchanger 406, arrive the air-supply path of blow-off outlet 405.

Near the blow-off outlet 405 in this air-supply path, be provided with the ion generating electrodes body 2 of the ion generating device 1 (with reference to figure) of above-mentioned the 1st embodiment.At this moment, ac high voltage source 6 (with reference to Fig. 1) can be different with the power supply that drives blowing fan 402, also can be shared power supply.When being shared power supply, when driving blowing fan 402 or air compressor (not shown) by the control part (not shown), when controlling the action of ion generating device 1 respectively, when air conditioner 400 operations, can make the action ON/OFF of ion generating device 1 as required easily.

When having air conditioner 400 operations of said structure; make blowing fan 402 revolution, from the air in suction inlet 403 suction draft paths by the process of filter 404, remove dust or smelly composition after; carry out heat exchange by heat exchanger 406 and cold-producing medium, blow out to blow-off outlet 405.At this moment, when the action of ion generating device 1 was ON, anion that near the space ion generating electrodes body 2 takes place and cation also together blew out with the air that cleans.Thereby, under the effect of this anion and cation, can kill and remove the antibacterial that swims in the air.

Below, illustrate the bactericidal properties of 400 pairs of airborne planktonic bacterias of air conditioner of present embodiment, but the air conditioner 400 of present embodiment is not limited to following example, can suitably change actions such as operation condition.

Example 4

The air conditioner 400 that above-mentioned example 1 employed ion generating device 1 is housed is arranged on lengthwise is 2.0m, growing crosswise is the inside of 2.5m, high subject area for 2.7m.And general living bacterium and the fungus that will cultivate on pre-culture intersperse among in the zone.Simultaneously, with the same condition of above-mentioned example 1 under, when making ion generating device 1 action, drive blowing fan 402, the operation of beginning air conditioner 400.

Then, whenever through official hour, just make RCS radiant detector with the air in the speed extraction area of 40L/min, by carrying out 4 minutes sampling, the airborne bacterial population of instrumentation with German Biotest society.Its result is by table 2 illustrate.

Air conditioner 400 operation beginnings are after 3 hours, and general living bacterium is removed 75% in the zone, and fungus is removed 78%.Thereby, when adopting the air conditioner 400 of ion generating device 1, confirm under the effect of anion of sending and cation, can kill and remove the major part of airborne planktonic bacteria well with present embodiment.

Below, with reference to description of drawings the 4th embodiment of the present invention.Fig. 5 is for schematically illustrating the cutaway view of the ion generating device 101 of the 4th embodiment of the present invention.

The ion generating device 101 of present embodiment as shown in Figure 5, by ion generating electrodes body 102, and the 1st electrode 104 is applied the high-voltage ac power 106 that when being connected with electrode the 2nd electrode 105 is connected as earthy electrode as voltage constitute with oppositely disposed the 1st, the 2nd electrode 104,105.

Ion generating electrodes body 102 has the plate glass plate 103 as dielectric as shown in Figure 5, is embedded in the 1st electrode 104 and 2nd electrode 105 of driving fit on these glass plate 3 one sides of these glass plate 103 inside.

In addition, in the ion generating electrodes body 102 of Fig. 5, what use as dielectric is glass plate 103, but is not limited to this, so long as the plate of insulating properties gets final product.And, its shape is also limited especially, can be suitably definite according to the shape of the machine of want mounting, structure etc.

As glass plate 103, for example can use plate pyrex plate.And, for example can use the metal gauze of plain weave rustless steel 316 or 304 steel wires as the 1st, the 2nd electrode 104,105.

Can adopt known method that the 1st electrode 104 is embedded in the inside of glass plate 103, for example, can easily in the mold of given size,, cool off and solidify glass plate with netted the 1st electrode 104 dippings and after being positioned in the tabular fused glass plate.

In addition, from improving the viewpoint of ion luminous efficiency, be to glass plate 103 with 105 driving fits of the 2nd electrode.For with the method for the 2nd electrode 105 driving fits to the glass plate 103, except bonding, can adopt the known method of crimping, silk screen printings etc. such as Wound wire to carry out easily.

Action to the ion generating device 101 of said structure illustrates below, but ion generating device of the present invention 101 is not limited to following example, can suitably change operation condition etc. and moves.

Example 5

As glass plate 103, use 35mm * 35mm, thickness plate pyrex plate as 3.0mm, as the 1st, the 2nd electrode 104,105, using plain weave silk footpath is 48 purpose metal gauzes as 33mm * 33mm, the mesh count of rustless steel 304 steel wires of 0.23mm.In addition, mutually the interval (d among Fig. 5) of 104,105 at opposed the 1st, the 2nd electrode is set at the distance of 1.0mm.

As earthing potential, by high-voltage ac power 106, it is that 3.0kV, frequency are the alternating voltage of 20kHz that the 1st electrode 104 is applied virtual value with the 2nd electrode 105.And, the measuring point at the surperficial 10cm place that the 1st electrode 104 1 sides are set of distance glass plate 103, measuring degree of excursion with the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section is 1cm ²The anion that/Vsec is above and the concentration of cation.Its result is to detect anion and cation about 50,000/cc.In addition, ozone concentration is below 0.05ppm.

Thereby applying virtual value is the lower alternating voltage of 3.0kV, makes ion generating device 101 actions, can produce competent anion and cation in the space.Particularly, during the ion generating device 101 of present embodiment, owing to the 1st electrode 104 is embedded in the glass plate 103, thereby the 1st electrode 104 can not expose in air.For this reason, dust or dirty can not being attached on the 1st electrode 104 can be not contaminated, can save cleaning significantly and wait the man-hour of safeguarding.

Below, with reference to description of drawings the 5th embodiment of the present invention.Fig. 6 is for schematically illustrating the cutaway view of the air purifier 300 of the ion generating device 101 with the 5th embodiment of the present invention.

Inboard, inside at the body 301 of air purifier 300 is provided with blowing fan 302.Front at body 301 forms the air suction inlet 303 that is made of a plurality of holes or slit.And, be provided with the various filters 304 that dedusting or deodorize are used in the downstream of suction inlet 303.In addition, form the air blow-off outlet 305 that constitutes by a plurality of holes or slit on the top of body 301.Thus, form the air-supply path that arrives blow-off outlet 305 from suction inlet 303 through filter 304 in the inside of body 301.

In addition, near the blow-off outlet 305 in this air-supply path, be provided with the ion generating electrodes body 102 of the ion generating device 101 (with reference to Fig. 5) of above-mentioned the 4th embodiment.At this moment, ac high voltage source 106 (with reference to Fig. 5) can be different with the power supply that drives blowing fan 302, also can be shared power supply.When being shared power supply, by control part (when (not shown) is controlled the action of the driving of blowing fan 302 and ion generating device 101 respectively, during air purifier 300 operations, can make the action ON/OFF of ion generating device 101 as required, use easily.

Operation makes blowing fan 302 revolutions when having the air purifier 300 of said structure, from the air in suction inlet 303 suction draft paths by the process of filter 304, remove dust or smelly composition after, blow out from blow-off outlet 305.At this moment, when the action of ion generating device 101 was ON, anion that near the space ion generating electrodes body 102 produces and cation also together blew out with the air that cleans.Thereby, under the effect of this anion and cation, can kill and remove airborne planktonic bacteria.

Below, the bactericidal property of planktonic bacteria illustrates in the air that the air purifier 300 of present embodiment is carried out, but the air purifier 300 of present embodiment is not limited to following example, can suitably change under the situations such as operation condition and move.

Example 6

The air purifier 300 that above-mentioned example 5 employed ion generating devices 101 are housed is arranged on lengthwise is 2.0m, growing crosswise is the inside of 2.5m, high subject area for 2.7m.And general living bacterium and the fungus that will cultivate on pre-culture intersperse among in the zone.Simultaneously, with the same condition of above-mentioned example 5 under, when making ion generating device 101 actions, drive blowing fan 302, the operation of beginning air purifier 300.

Then, whenever through official hour, just make RCS radiant detector with the air in the speed extraction area of 40L/min, by carrying out 4 minutes sampling, the airborne bacterial population of instrumentation with German Biotest society.Its result is by table 3 illustrate.

Air purifier 300 operation beginnings are after 3 hours, and general living bacterium is removed 71% in the zone, and fungus is removed 76%.Thereby, when adopting the air purifier 300 of ion generating device 101, confirm under the effect of anion of sending and cation, can kill and remove the major part of airborne planktonic bacteria well with present embodiment.

Below, with reference to description of drawings the 6th embodiment of the present invention.Fig. 7 is for schematically illustrating the cutaway view of the air conditioner 400 of the ion generating device 101 with the 6th embodiment of the present invention.

Near the blow-off outlet 405 in this air-supply path, be provided with the ion generating electrodes body 102 of the ion generating device 101 (with reference to Fig. 5) of above-mentioned the 4th embodiment.At this moment, ac high voltage source 106 (with reference to Fig. 5) can be different with the power supply that drives blowing fan 402, also can be shared power supply.When being shared power supply, when driving blowing fan 402 or air compressor (not shown) by the control part (not shown), when controlling the action of ion generating device 101 respectively, when air conditioner 400 operations, can make the action ON/OFF of ion generating device 1 as required easily.

When having air conditioner 400 operations of said structure; make blowing fan 402 revolutions; from the air in suction inlet 403 suction draft paths by the process of filter 404; after removing dust or smelly composition; carry out heat exchange by heat exchanger 406 and cold-producing medium; cooling or heating blow out to blow-off outlet 405.At this moment, when the action of ion generating device 101 was ON, anion that near the space ion generating electrodes body 102 takes place and cation also together blew out with the air that cleans.Thereby, under the effect of this anion and cation, can kill and remove airborne planktonic bacteria.

Below, illustrate the bactericidal properties of 400 pairs of airborne planktonic bacterias of air conditioner of present embodiment, but the air conditioner 400 of present embodiment is not limited to following example, can suitably change the action of operation condition ground.

Example 7

The air conditioner 400 that above-mentioned example 5 employed ion generating devices 101 are housed is arranged on lengthwise is 2.0m, growing crosswise is the inside of 2.5m, high subject area for 2.7m.And general living bacterium and the fungus that will cultivate on pre-culture intersperse among in the zone.Simultaneously, under the same condition of above-mentioned example 5, when making ion generating device 101 actions, drive blowing fan 402, the operation of beginning air conditioner 400.

Then, whenever through official hour, just make RCS radiant detector with the air in the speed extraction area of 40L/min, by carrying out 4 minutes sampling, the airborne bacterial population of instrumentation with German Biotest society.Its result is by table 4 illustrate.

Air conditioner 400 operation beginnings are after 3 hours, and general living bacterium is removed 74% in the zone, and fungus is removed 78%.Thereby, when adopting the air conditioner 400 of ion generating device 101, confirm under the effect of anion of sending and cation, can kill and remove the major part of airborne planktonic bacteria well with present embodiment.

; in the above-described embodiment; be plate as the dielectric of ion generating electrodes body, but when being installed to ion generating device on the conditioner, the space of saving ion generating electrodes body when fully guaranteeing the surface area of dielectric becomes very important problem.The inventor finds that dielectric can be drum in the process of the main threads of groping this problem.

Below, with reference to description of drawings the 7th embodiment of the present invention.Fig. 8 is for schematically illustrating the pie graph of the ion generating device 201 of the 7th embodiment of the present invention, and Fig. 9 is the cutaway view that the used ion generating electrodes body 202 of this ion generating device 201 is shown.

The ion generating device 201 of present embodiment as shown in Figure 8, by having that clamping as the cylindrical glass tube 203 of dielectric and the ion generating electrodes body 202 of the inside and outside electrode 204,205 of opposite disposed, and interior electrode 204 is applied the high-voltage ac power 206 that when being connected with electrode external electrode 205 is connected as earthy electrode as voltage constitute.Even with external electrode 205 is the cause that also can not get an electric shock when touching ion generating electrodes body 202 owing to the user maloperation as earthy electrode.

Ion generating electrodes body 202 has external electrode 205 that interior electrode 204 that cylindrical glass tube 203, driving fit be provided with at the inner peripheral surface of this glass tubing 203, driving fit be provided with at the outer peripheral face of this glass tubing 203 and a pair of

plug components

7,8 that embeds the both end sides of glass tubing 203 as shown in Figure 9.

In ion generating electrodes body 202 shown in Figure 9, use glass tubing 203 as dielectric, but be not limited to this, the material with insulating properties gets final product.In addition, its shape also limits especially, can suitably select according to the shape of the machine of wanting mounting, structure etc.

As glass tubing 203, for example can use cylindrical shape pyrex pipe.And, for example can use the metal gauze of plain weave rustless steel 316 or 304 steel wires as inside and outside electrode 204,205.

From improving the viewpoint of ion luminous efficiency, interior electrode 204 and external electrode 205 driving fits glass tubing 203.Inside and outside electrode 204,205 driving fits can be adopted known method in the past to the method on the glass tubing 203.

External electrode 205 driving fits to glass tubing 203, for example can be carried out as follows.With reference to Figure 10, when becoming cylinder, the mode of 45 degree is arranged with the axle of the relative cylinder of tinsel, be cylinder with the metal gauze rolling and processing of plain weave, with two side ends overlapping back welding to make external electrode 205.At this moment, the internal diameter of the external electrode 205 made is set for external diameter less than glass tubing 203.

Then, to external electrode 205 application of forces, compress external electrode 205 from axis direction (being above-below direction the figure) vertically.So, external electrode 205 is widened at radial direction, thereby glass tubing 203 can be inserted in the external electrodes 205 therebetween.Then, in case remove applied force, external electrode 205 just recovers its original shape, is to the radial direction indentation in the result who axially stretches.Thus, external electrode 205 tightly driving fit on glass tubing 203.

As can be to the additive method on the glass tubing 203 with reference to Figure 11 with external electrode 205 driving fits, axis direction at external electrode 205 cylindraceous, foreign side at radial direction is provided with the muscle 205a that section is an inverted v-shaped, simultaneously, sets the internal diameter of external electrode 205 for less than glass tubing 203 external diameter.Then, under situation about glass tubing 203 being pressed in this external electrode 205, widened by the angle that 2 limits of inverted v-shaped muscle 205a constitute, the internal diameter of external electrode 205 enlarges, thereby glass tubing 203 can insert in the external electrode 205.After glass tubing 203 inserts in the external electrode 205, on inverted v-shaped muscle 205a, generate the power of reinstatement attitude, thereby external electrode 205 can be realized good driving fit with glass tubing 203.

In addition, for example there is following method in the method as with interior electrode 204 driving fit glass tubings 203.With reference to Figure 12, become cylinder with electrode 204 in making the metal gauze rolling and processing of plain weave.At this moment, set the external diameter of interior electrode 204 for greater than glass tubing 203 internal diameter, simultaneously, the two side ends of interior electrode 204 is not welded to become free end.Then, in the internal electrode 204 1 side application of forces of axis direction, can be described as it is rolled into tube, thus the external diameter of interior electrode 204 that will be bigger than the internal diameter (D) of glass tubing 203 make internal diameter than glass tubing 203 little external diameter (D-α '), so that interior electrode 204 is inserted in the glass tubings 203.After the insertion,, then just under the power effect of the interior electrode 204 of reinstatement attitude, make interior electrode 204 driving fits on the inner peripheral surface of glass tubing 203 in case discharge the power tangentially apply.

As with the additive method of interior electrode 204 driving fits to the glass tubing 203,, be electrode 204 in cylinder is made by plain weave metal gauze rolling and processing with reference to Figure 13.At this moment, the external diameter of interior electrode 204 is set the internal diameter greater than glass tubing 203 for, and simultaneously, the two side ends of interior electrode 204 is not welded and is free end.Then, the side with interior electrode 204 extends under the twisted state of axis direction.Thus, the external diameter of interior electrode 204 diminishes, and can insert in the glass tubing 203, and after the insertion, in case the power on the electrode 204 discharges in being applied to, interior electrode 204 just returns to previous status, and it is big that external diameter becomes, and driving fit is to the inner peripheral surface of glass tubing 203.

In Fig. 9, plug

components

7,8 is discoid, forms circumferential teat 7b, 8b on the circumference of each side respectively, along the circumferential direction forms circumferential slot 7c, the 8c of the side that embeds glass tubing 203 near the middle side of circumferential teat 7b, 8b respectively.And, form circumferential groove 7d, the 8d that ion generating electrodes body 202 usefulness are installed respectively in the side of plug components 7,8.In addition, be provided with film forming hole 7a at the center of plug components 7, this thin film is processed be processed into the lead 9 that links to each other with interior electrode 204 by the time break easily.

As being formed at the circumferential slot 7c on the

plug components

7,8, the degree of depth of 8c, be preferably, when the side of glass tubing 203 contacts with the bottom surface of circumferential slot 7c, 8c, the degree that do not misplace of inside and outside electrode 204,205.In a single day stagger the position of interior electrode 204 and external electrode 205, when applying voltage between electrode, the problem of loss of capacitance can take place.The relation with loss amount of staggering of position is specifically by table 5 illustrate.At this, so-called " staggering of position " meaning is glass tubing 203 dislocation in the axial direction shown in Figure 14.

According to table 5, when interior electrode 204 did not stagger with the position of external electrode 205, capacitance was 38.8pF relatively, and when two electrodes 204,205 staggered 5mm, capacitance was 36.2pF, compared when not misplacing, and lost 6.7% capacitance approximately.In the ion generating electrodes body 202 of present embodiment, the two side ends setting-in plug components of glass tubing 203 7,8 o'clock, the dislocation maximum of two electrodes 204,205 also can be suppressed at about 2mm.Therefore, the loss of capacitance can be reduced to Min..

As being formed on the circumferential slot 7c on the

plug components

7,8, the width of 8c, from

plug components

7,8 securely setting-in consider to the viewpoint on the glass tubing 203, preferably than the thin thickness of glass tubing 203 some.

Limit especially as the material of

plug components

7,8, consider easy setting-in to the side of glass tubing 203 and can be convenient to the sealing of glass tubing 203, preferably elastomeric element such as rubber.In elastomeric element, consider that the ozone that relative ion generating electrodes body 202 produces has durability, be ethylene propylene rubber (EPDM) better.

As the lead 9,10 that is connected with inside and outside electrode 204,205, do not limit especially, can use known in the past lead, but, be the lead of resin-coating with polyvinyl fluoride preferably the rustless steel steel wire from the excellent consideration of ozone resistance.

The ion generating electrodes body 202 of Fig. 9 for example can be assembled as follows.At first, the inboard that the interior electrode 204 that fuses lead 9 is in advance inserted glass tubing 203.Then, the free end of lead 9 is passed the hole 7a of plug components 7, simultaneously, with plug components 7 setting-ins to a side of glass tubing 203.Then, the external electrode 205 that fuses lead 10 is in advance installed to the outer rear flank of glass tubing 203, with the another side of plug components 8 setting-ins to glass tubing 203.

With ac high voltage source 206 by lead 9 when applying interior electrode 204 with electrode as voltage and be connected, be connected with external electrode 205 by lead 10, with the ion generating device 201 of making Fig. 8 as earthy electrode.Thus, with ac high voltage source 206, external electrode 205 as earthing potential, can be applied to alternating voltage on the interior electrode 204.

Below, the action of the ion generating device 201 of said structure is illustrated, but the ion generating device 201 of present embodiment is not limited to following example, can suitably change operation condition etc. and move.

At first, in order to investigate the virtual value that applies voltage and the relation of ionic generating capacity, carry out following experiment.

Example 8

As glass tubing 203, use external diameter to be 1.3mm, length cylindrical shape pyrex pipe as 150mm as 10mm, thickness, as interior electrode 204, used thickness is that 0.08mm, length are the steel plate of the rustless steel 304 of 80mm, and as external electrode 205, using plain weave silk footpath is 16 purpose metal gauzes as the length of rustless steel 304 steel wires of 0.23mm as 100mm, mesh count.

As earthing potential, by high-voltage ac power 206, it is that 1.3～1.8kV, frequency are the alternating voltage of 22kHz that internal electrode 204 applies virtual value with external electrode 205.Then, at the measuring point that is arranged on apart from the 10cm place, side of glass tubing 203, measuring degree of excursion with the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section is 1cm ²The anion that/Vsec is above and the concentration of cation.Its result is illustrated by Figure 15.

When ion generating device 201 was failure to actuate, promptly applying voltage was 0 o'clock, and anion and cation concentration are respectively about 300/cc.In the virtual value that applies voltage is under the above situation of 1.52kV, confirms that obviously, the virtual value that applies voltage is big more by the ion of ion generating device 201 generations more than 10,000, and ionic concentration is just dense more.

Then, in order to estimate the survival rate of the airborne antibacterial that ion concentration causes, carry out following experiment.

Example 9

The ion generating device 201 of above-mentioned example 8 is arranged at lengthwise is 2.0m, grow crosswise to 2.5m, highly be the inside of the subject area of 2.7m.To remain on temperature be that 25 ℃, relative humidity are 42% to atmosphere in the subject area in addition.Then, the coliform that will cultivate in advance on culture medium is that 500～1,500/cc degree intersperses among in the zone with concentration.Simultaneously, when making ion generating device 201 actions, with the air quantity 4m by blowing fan ³Air in the/min stirring region.

Then, the measuring point at 10cm place, the side of distance glass tubing 203, measuring degree of excursion with the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section is 1cm ²The anion that/Vsec is above and the concentration of cation.Then, after ion generating device 201 began to move 1 hour, with the system RCS of German Biotest society radiant detector with the air in the speed extraction area of 40L/min, by carrying out 4 minutes sampling, the instrumentation coliform number.Its result is illustrated by Figure 16.

When not producing ion, be 63.5% through the survival rate of the coliform of decay naturally after 1 hour.Thus, consider about 10% error, effectively the survival rate of standard after at least 1 hour of bactericidal effect is being suitable below 53.5%.As shown in Figure 16, anion and cation concentration respectively 10,000/can confirm bactericidal effect more than the cc.

Figure 17 illustrates the not time dependent chart of the survival rate of coliform simultaneously of ion concentration.As known in the figure, ion concentration is high more, and is good more to the bactericidal effect of the antibacterial that swims in the air, confirm its concentration under the 300000/cc through 1 hour after, the major part of the coliform in the zone is killed and removes.

Then, for the relation of the generating capacity of investigating the virtual value that applies voltage and frequency and ion and ozone, carry out following experiment.

Example 10

As glass tubing 203, use internal diameter to be 1.0mm, length cylindrical shape pyrex pipe as 100mm as 10mm, thickness, as interior electrode 204, using plain weave silk footpath is 60 purpose metal gauzes as the length of rustless steel 304 steel wires of 0.15mm as 80mm, mesh count, and as external electrode 205, using plain weave silk footpath is 30 purpose metal gauzes as the length of rustless steel 304 steel wires of 0.22mm as 80mm, mesh count.

As earthing potential, by high-voltage ac power 206, internally electrode 204 applies the alternating voltage of various frequencies and active voltage with external electrode 205.Then, the measuring point at 10cm place, the side of distance glass tubing 203, measuring degree of excursion with the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section is 1cm ²The anion that/Vsec is above and the concentration of cation.The concentration of the accessory ozone that together generates with ion also uses (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001 to measure.Its result is by table 6 illustrate.

As shown in table 6, be 25kHz in the frequency that applies voltage, when virtual value is 44V, only detect the ion of denier, but when virtual value is risen to 10 times 440V, the concentration of anion and cation rises to 4,966/cc, 13,910/cc respectively sharp.In addition, virtual value rises to 1.1kV when above, under the arbitrary frequency in 60Hz～30kHz, also can confirm to take place 10,000/cc above anion and cation.Particularly, during high frequency more than 20kHz, in ion generating device 201 actions, can hear harsh noise hardly.And, the ozone that generates can be dropped to below about 0.01ppm.

Therefore, adopt the words of the ion generating device 201 of present embodiment, more than the 20kHz outside the frequency behaviour range of audibility, by applying the alternating voltage of 1.1 lower～2.0kV of virtual value, confirm that but low noise ground produces effective germ-resistant 10, anion and cation that 000/cc is above simultaneously, can drop to the deleterious ozone that takes place below the reference value.

Then, in order to investigate the anion that ion generating device 201 produces and the concentration and the relation of leaving the distance of its origination point of cation, carry out following experiment.

Example 11

As earthing potential, by high-voltage ac power 206, internally to apply virtual value be that 1.1kV or 1.4kV, frequency are the alternating voltage of 15kHz to electrode 204 with external electrode 205.Then, the 4 place's measuring points altogether at the side of distance glass tubing 203 20cm, 30cm, 40cm and 60cm place, measuring degree of excursion with the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section is 1cm ²The anion that/Vsec is above and the concentration of cation.Its result is illustrated by Figure 18 A and Figure 18 B respectively.

Just as shown in these figures, be under the alternating voltage of arbitrary virtual value of 1.1kV or 1.4kV in virtual value, the tendency that has the concentration of, anion far away more and cation to reduce more apart from glass tubing 203 sides.At 20cm place, the side of distance glass tubing 203, anion and cation be entirely in the very high concentration of 200,000～400,000/cc degree, can guarantee to bring into play the ion of the sufficient quantity of the effect of killing and removing planktonic bacteria.In addition, ozone concentration is 0.01～0.25ppm at arbitrary measuring point.

, be applied to the virtual value of the alternating voltage on the ion generating electrodes body 202 such as higher, anion that is produced and cation amount also increase, but the ozone amount that takes place also increases simultaneously.Therefore ozone must do one's utmost to suppress its generating capacity owing to be not that health is necessary.

At first, the relation of the order number of electrode 204 and ion generating capacity, ozone generating capacity in the discussion.

Example 12

Figure 19 is that the external diameter that is illustrated in glass tubing 203 is that 20mm, length are that 63mm, thickness are that the length of 1.6mm, interior electrode 204 is that the silk footpath of 60mm, external electrode 205 is that 60mm, order number are 16 orders for 0.4mm, length, when counting with the order of electrode 204 in changing, when on ion generating electrodes body 202, applying virtual value and being about the alternating voltage of 1.8kV, apart from the chart of the relation of the anion at the 10cm place, side of glass tubing 203 and cation and ozone generating capacity.The silk footpath of interior electrode 204 is according to the order number and difference.In addition, the mensuration of ion concentration and ozone concentration uses (strain) ダ Application section length of schooling air from enumerator 83-1001B, (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001 respectively.

According to Figure 19 as can be known, the order number of interior electrode 204 big more (mesh count attenuates), the generating capacity of anion and cation, ozone all increases.

Below, the relation of the order number of discussion external electrode 205 and ion generating capacity, ozone generating capacity.

Example 13

Figure 20 is that external diameter that glass tubing 203 is shown is that 20mm, length are that 63mm, thickness are that the silk footpath of 1.6mm, interior electrode 204 is that 60mm, order number are that the length of 40 orders, external electrode 205 is 60mm for 0.18mm, length, when counting with the order that changes external electrode, when on ion generating electrodes body 202, applying virtual value and being about the alternating voltage of 1.8kV, apart from the chart of the relation of the anion at the 10cm place, side of glass tubing 203 and cation and ozone generating capacity.The silk footpath of external electrode 205 is according to the order number and difference.In addition, the mensuration of ion concentration and ozone concentration is used the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section, (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001 respectively.

According to Figure 20 as can be known, the order number of external electrode 205 is big more, and the generating capacity of anion and ozone increases, and on the contrary, the generating capacity of cation reduces.

Therefore,, then can suppress the generation of ozone, can produce anion and cation effectively simultaneously if the mesh of interior electrode 204 mesh thin, external electrode 205 is thick.

, glass tubing 203 is columnar occasion, and its external diameter is big more, and wall thickness is thin more, and then the static capacity of glass tubing 203 is just big more.And the static capacity of glass tubing 203 is big more, then is easy to generate ion more.Therefore, the efficient as only considering that ion takes place can make the external diameter of glass tubing 203 bigger, and wall thickness is thinner.If but the external diameter of increasing glass tubing 203, ozone amount also can increase when the ionic weight that is produced increased.For this reason, inquire into the means that not only suppress the increase of ozone amount but also increase ionic weight.

Example 14

The silk footpath of electrode 204 was that 60mm, mesh count are that the silk footpath of 40 orders, external electrode 205 is that 60mm, mesh count are that the length of 16 orders, glass tubing 203 is that 63mm, thickness are 1.2mm for 0.4mm, length for 0.18mm, length in Figure 21～Figure 23 was respectively and illustrates, when becoming 17mm, 20mm, 24mm, at the chart of the relation of the virtual value of the concentration of the anion at 10cm place, the side of distance glass tubing 203, cation, ozone and applied voltage with external diameter with glass tubing 203.In addition, the mensuration of ion concentration and ozone concentration is used the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section, (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001 respectively.

According to Figure 21, Figure 22, anion and cation concentration uprise along with the lifting that applies voltage, and in identical applying under the voltage, external diameter is that the glass tubing of 24mm is comparing of 17mm or 20mm with external diameter, and concentration uprises.

In addition,, express when external diameter is the glass tubing of 24mm, compare especially high numerical value when ozone concentration is 17mm or 20mm with external diameter according to Figure 23.The external diameter of glass tubing 203 is compared the recruitment of ion concentration from 20mm to 24mm the time with the ozone recruitment, obviously, the ozone recruitment is much larger than the ion recruitment.

Therefore, be limited to the occasion that suppresses to increase when ozone amount increases ionic weight, the external diameter of recommending columnar dielectric is below 20mm.

Example 15

The external diameter that Figure 24, Figure 25 are illustrated in the glass tubing 203 of this ion generating device is that 20mm, length are that the silk footpath of 63mm, interior electrode is that 60mm, mesh count are that the silk footpath of 40 orders, external electrode 205 is that 60mm, mesh count are the thickness of 16 orders, glass tubing 203 when being 1.2mm or 1.6mm for 0.4mm, length for 0.18mm, length, apart from the chart of the relation of the virtual value of anion, cation, ozone concentration and the applied voltage at the 10cm place, side of glass tubing 203.In addition, the mensuration of ion concentration and ozone concentration is used the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section, (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001 respectively.

Relatively these views as can be known, the wall thickness of glass tubing 203 then ion concentration is just especially high, and it is also high to apply the rate of change of voltage.Therefore, be limited to such occasion, recommending the wall thickness of glass tubing 203 is below the 1.6mm.

At this, investigate the relation of external diameter, thickness and the static capacity of glass tubing 203, can obtain the result of table 7.As aforementioned, when suppressing to increase ionic weight when ozone amount increases, the external diameter of wishing glass tubing 203 is below 20mm, and the wall thickness of glass tubing 203 is below 1.6mm, but,, wish below 40pF if consider the deviation of mensuration as the static capacity of glass tubing 203.

In addition, combine, can at least one of glass tubing 203, interior electrode 204, external electrode 205, be loaded with ozone decomposition catalyst, just can in ion generating electrodes body, remove the ozone of inevitable generation effectively with the generation that so suppresses ozone.Although there is ozone decomposition catalyst in the ozone that is produced usually also being decomposed into oxygen at leisure, can further promote the decomposition of ozone to oxygen.As such ozone decomposition catalyst, can use known in the past material such as manganese dioxide, platinum powder, Lead oxide brown, copper oxide (II), nickel etc.

As the mounting method of ozone decomposition catalyst, for example ozone decomposition catalyst can be distributed in the binding agent, again it is applied on the substrate surface by painting methods such as dipping, spinning, sprayings.The amount of being loaded with for ozone decomposition catalyst does not limit especially, can suitably determine according to the ozone amount that is generated.

In addition, the catalyst mounting parts that are loaded with ozone decomposition catalyst can be arranged on the outside of external electrode 205.Figure 26 A and Figure 26 B illustrate an example of the ion generating electrodes body 202 that is provided with such catalyst mounting parts 11.In the outside of columnar external electrode 205, be provided with cylindric catalyst mounting parts 11 with the distance that separates regulation.Catalyst mounting parts 11 are netted, the ozone decomposition catalyst of its surperficial mounting manganese dioxide etc.In addition, catalyst mounting parts 11 both can coat the whole of external electrode 205 and also can coat a part.

; when interior electrode 204 and external electrode 205 is the ion generating electrodes body 202 of mesh electrode entirely; when dislocation takes place in interior electrode 204 and external electrode 205 mutual positions, the left and right sides; in the scope of 0.3 ten thousand～180,000/cc, deviation can take place to anion in the ion generating capacity at 0.1 ten thousand～180,000/cc, cation.The relation of the mesh electrode of electrode 204 and external electrode 205 became Line To Line by glass tubing 203 in this can think, the cause that discharge power descends.

For this reason, making interior electrode 204 is that plate electrode, external electrode 205 are the ion generating electrodes body 202 identical with Fig. 9 of mesh electrode.Interior electrode 204 is being made when tabular, driving fit makes the distance of 204,205 at inside and outside electrode roughly certain to columnar glass tubing 203, and this plate electrode is driving fit easily also, have again, though can become allocation position more or less deviation, be not subject to the shape of its influence yet.In addition, when external electrode 205 is mesh electrode,, electric field is concentrated, thus, can be reduced the virtual value of the alternating voltage that is applied to 204,205 at inside and outside electrode because of being netted.

At this,, for example can use cylindrical shape pyrex plate as glass tubing 203.And, can use for example rustless steel 304 or 316 steel plates as interior electrode 4, and as external electrode 205, can use the metal gauze of plain weave rustless steel 316 for example or 304 steel wires.At this moment, except with the operation of interior electrode 204 driving fits to glass tubing 203, can adopt with above-mentioned same method and make ion generating electrodes body 202.

The plate electrode driving fit of interior electrode 204 for example can be implemented to glass tubing 203 as follows.As shown in figure 27, the punch process plate electrode carries out the roughly blanking of tetragon STUV.At this, limit ST is parallel with limit UV, V=90 ° of angle T=angle, and angle S is an acute angle, angle V is the obtuse angle.Limit ST and limit UV are parallel to the roll extrusion of Cylindorical rod ground are processed into cylinder, the external diameter of the interior electrode 204 of making is greater than the internal diameter of glass tubing 203.At this moment, the two side ends of interior electrode 204 (limit ST and limit UV) is not welded and is free end.Become cylindraceous being shaped as, be equivalent to the end face portion general planar of limit TU side, and the shape that the angle S that opposite side becomes acute angle outwards bloats than the angle V at obtuse angle.

Not that shape after 90 ° obtuse angle, the acute angle combination is for example shown in Figure 28 with all angles, be embodied as the punch process of the blanking of platform shape WXYZ, parallel edges (WX and ZY) is parallel to the roll extrusion of Cylindorical rod ground is processed into cylinder, the external diameter of the interior electrode 204 of making is greater than the internal diameter of glass tubing 203.At this, angle W and angle X are the obtuse angle, and angle Y and angle Z are acute angle.The two side ends of interior electrode 204 is not welded and is free end (limit WX and limit ZY side).Become cylindraceous being shaped as, become the Y of 2 acute angles, the shape that Z outwards bloats.

The shape of non-90 degree in all angles can be the shape of polygons such as triangle, four jiaos, five jiaos, hexagonal to the approximate circle that has a summit at least, rolling and processing become cylindric after, can bloat the shape at more than one angle from end face portion.

Rolling and processing become cylindraceous tabular in the tangential direction of electrode 204 apply power so that it is rolled into tube, just can make the external diameter of the interior electrode 204 bigger become the external diameter littler (D-α), so that interior electrode 204 is inserted in the glass tubing 203 than the internal diameter of glass tubing 203 than the internal diameter (D) of glass tubing 203.After the insertion, in case discharge the power that tangentially applies, under the power effect that returns to previous status, interior electrode 204 driving fits are to the inner peripheral surface of glass tubing 203.

Apply alternating voltage on the ion generating electrodes body of so making 202, ionic a situation arises to test.As a result, even some dislocation of mutual alignment of interior electrode 204 and external electrode 205, also can produce anion is that 400,000～600,000/cc, cation are negative ions in 400,000～600,000/cc scope, stable.In addition, interior electrode 204 and external electrode 205 are plate electrode entirely, can produce ion hardly.

When the dull and stereotyped rolling and processing of interior electrode 204 is become cylindric, owing to be the shape that bloats more than one angle from the end face portion of cylinder, interior electrode 204 is shorter than external electrode 205 in the size of length direction, thereby because of the face of the widening discharge from the netted relatively external electrode 205 of ac high-voltage of an angle periphery of electrode 204 in tabular, the anion that can obtain to be in harmonious proportion and the growing amount of cation.But, when the lengthwise dimension of interior electrode 204 is longer than external electrode 205, cause is from the face shelf depreciation of the netted relatively external electrode 205 of ac high-voltage of an angle periphery of electrode 204 in tabular, and anion destroys with the balance of the generation ratio of cation, and the cation of generation is many.

As with the additive method of interior electrode 204 driving fits to the glass tubing 203, as shown in figure 29, form a plurality of hole 204a onboard, the shape of jut 204b is set around the punch process Cheng Zaikong, cylindric so that the jut 204b of hole 204a is processed into towards the ground roll extrusion of glass tubing 203 sides, the external diameter of the interior electrode of making 204 is greater than the internal diameter of glass tubing 203.At this moment, the two side ends of interior electrode 204 is not welded, and becomes free end.The jut 204b of the hole 204a of one-tenth cylindrical shape becomes the mode rolling and processing of the inner face side of glass tubing 203.

The application of force on the electrode 204 is rolled into tube with it in rolling and processing is flat board cylindraceous, becomes external diameter (D-α) less than the internal diameter of glass tubing 203 greater than the external diameter of the interior electrode 204 of the internal diameter (D) of glass tubing 203, and interior electrode 204 is inserted in the glass tubings 203.After the insertion, in case the power on the electrode 204 in discharging, the attitude that just restores to the original state, interior electrode 204 with regard to driving fit to the inner peripheral surface of glass tubing 203.

So, the interior electrode 204 of plate electrode becomes a plurality of points of facing with the relation of the external electrode 205 of mesh electrode by glass tubing 203, and the discharge power in the face strengthens, and discharge easily because discharge place is limited, can realize stably discharging at jut 204b place.

Example 16

The external diameter that Figure 30 illustrates glass tubing 203 is that 20mm, length are that 63mm, thickness are 1.6mm, in the relation of the external electrode 205 of the interior electrode 204 of plate electrode and mesh electrode, interior electrode 204 is cylindric, its length is that 45mm, thickness are 0.08mm, the length of external electrode 205 is 60mm, when the order that changes external electrode 205 is counted, when on ion generating electrodes body 202, applying virtual value and being about the alternating voltage of 1.8kV, apart from the anion at the 10cm place, side of glass tubing 203 and the generating capacity of cation.In addition, the silk footpath of external electrode 205 with the difference of order number difference.The mensuration of ion concentration is used (strain) ダ Application length of schooling air ion enumerator 83-1001B of section.

As shown in Figure 30, the order number of external electrode 205 is to the considerable influence that has of ionic weight, and the order number is more little, and the ion generating capacity just more increases, but does not produce ion in the interior electrode 204 of the plate electrode of atresia.

Example 17

The external diameter that Figure 31 illustrates glass tubing 203 is that 20mm, length are that 63mm, thickness are 1.6mm, under the relation of the external electrode 205 of the interior electrode 204 of plate electrode and mesh electrode, interior electrode 204 is cylindric, its thickness is 0.08mm, the silk footpath of external electrode 205 is that 50mm, mesh count are 16 orders for 0.22mm, length, in changing during the length of electrode 204, when on ion generating electrodes body 202, applying virtual value and being about the alternating voltage of 1.8kV, apart from the anion at the 10cm place, side of glass tubing 203 and the generating capacity of cation.In addition, the mensuration of ion concentration is used (strain) ダ Application length of schooling air ion enumerator 83-1001B of section.

As shown in Figure 31, when the length of the length of the interior electrode 204 of plate electrode and the external electrode 205 of mesh electrode was identical, the ion generating capacity was low, but as in making electrode 204 be shorter than external electrode 205, then ionic weight increases.But when too short, ionic weight has the tendency of minimizing.

Example 18

The external diameter that Figure 32 illustrates glass tubing 203 is that 20mm, length are that 63mm, thickness are 1.6mm, under the relation of the external electrode 205 of the interior electrode 204 of plate electrode and mesh electrode, interior electrode 204 is cylindric, its thickness is that 0.08mm, length are 50mm, the silk footpath of external electrode 205 is 16 orders for 0.22mm, mesh count, when changing the length of external electrode 205, when on ion generating electrodes body 202, applying virtual value and being about the alternating voltage of 1.8kV, apart from the anion at the 10cm place, side of glass tubing 203 and the generating capacity of cation.In addition, the mensuration of ion concentration is used (strain) ダ Application length of schooling air ion enumerator 83-1001B of section.

As shown in Figure 32, as make the length of electrode 204 in being shorter in length than of external electrode 205, the ion generating capacity is many, but cation compares with anion, has the tendency of extreme increase, thus the length of external electrode 205 be longer than in the length of electrode 204 very important.

In addition, shown in Figure 33 A, external electrode 205 can be implemented rolling and processing and make the dual mode that becomes in full week of end form invayination 205a, and implement welding at a part of opisthotonos at cylinder two ends.At this moment, the internal diameter of the external electrode 205 of making is slightly littler than the external diameter of glass tubing 203.

Then, external electrode 205 is pressed into the outside of glass tubing 203, installs on the position of regulation.Thus, driving fit is to glass tubing 203 tightly for the dual invayination 205a that becomes of external electrode 205, and shown in Figure 33 B, its inside forms and glass tubing 203 discontiguous space A.Afterwards, end axial several points from the outside of external electrode 205 with rubber-like securing member card, so that external electrode 205 is fixed on the glass tubing 203.Thus, all driving fits of external electrode 205 are to glass tubing 203.

Example 19

Shown in Figure 33 B, form in the ion generating electrodes body 202 of invayination 205a at the both ends of external electrode 205, the external diameter of glass tubing 203 is that 20mm, length are that 150mm, thickness are 1.2mm, the length of interior electrode 204 is that 95mm, thickness are that the silk footpath of 0.08mm, external electrode 205 is that 98mm, mesh count are 30 orders for 0.4mm, length, is that the alternating voltage of 2.1kV is applied on the ion generating electrodes body 202 with virtual value.

As a result, at 10cm place, the side of distance glass tubing 203, the ion generating electrodes body 202 of the relative making with the generating capacity of cation of so-called 400,000～600,000/anion of cc can stably obtain this recall factor of total 80%.In addition, the mensuration of ion concentration is used (strain) ダ Application length of schooling air ion enumerator 83-1001B of section.

Can be shown in Figure 34 A as the outer method of the rolling and processing of end, become the L font to form bending section 205b the end bending process to the inside of square or rectangular.The angle of this bending process by like this processing so that external electrode 205 is formed when cylindric, shown in Figure 34 B, so long as the front end of bending section 205b can be got final product in the angle that carefully is incorporated on the glass tubing 203 entirely, in addition, even the section configuration of bending section 205b is circular-arc, contact with glass tubing 203 as its front end, then also can obtain same action effect.Afterwards, as required, scatter in order to prevent metal gauze, after 4 bight electric welding, rolling and processing is cylindric, and is cylindric to form.

At this moment, the internal diameter of the external electrode 205 of making is slightly littler than the external diameter of glass tubing 203.Then, external electrode 205 is pressed into the outside of glass tubing 203, and stops in the position of regulation.Thus, the bending section 205b driving fit firmly of external electrode 205 ends is to glass tubing 203, and in addition, bending section 205b is under the state that inserts glass tubing 203, and shown in Figure 34 B, B slightly has living space between formation and the glass tubing 203.Afterwards, by being connected and fixed parts, by in that axially the number place is fixing, with external electrode 205 driving fits to glass tubing 203.

In addition, under the state that two electrodes 204,205 install on the glass tubing 203, these electrodes 204,205 form toward each other at axial central part with putting.When so forming, interior electrode 204 can be configured to the configuration relation of external electrode 205, and on the electrode 204 time, the end of interior electrode 204 is included in the interior relation of projection of external electrode 205 external electrode 205 projects in.In addition, the dislocation of the end of the end of Ci Shi interior electrode 204 and external electrode 205 is specifically in the range of error of about 0.5mm～1.0mm.

By formation like this, can produce stably between the end of summit, end (in Figure 28 for summit Y and summit Z) and the driving fit firmly external electrode 205 to the glass tubing 203 of electrode 204 in tabular and discharge.Consider that the end with respect to the interior electrode 204 that applies voltage is a point-like, and be wire in the external electrode 205 and contact, because of becoming partial line, thereby can stably discharge relation of plane with glass tubing 203.

Example 20

Shown in Figure 34 B, form at the both ends of external electrode 205 and to be processed in the bending section 205b of L font and the ion generating electrodes body 202 that its front end contacts with glass tubing 203, the external diameter of glass tubing 203 is that 20mm, length are that 150mm, thickness are 1.2mm, the length of interior electrode 204 is that 95mm, thickness are that the silk footpath of 0.08mm, external electrode 205 is that 98mm, mesh count are 30 orders for 0.4mm, length, is that the alternating voltage of 2.1kV is applied on the ion generating electrodes body 202 with virtual value.

As a result, at 10cm place, the side of distance glass tubing 203, the ion generating electrodes body 202 of the relative making with the generating capacity of cation of so-called 400,000～600,000/anion of cc can stably obtain this recall factor of total 100%.At this moment, when the front end of bending section 205b and glass tubing 203 contacting structure are in an end of external electrode 205, compare with the occasion that does not all have bending section in arbitrary end, the discharge condition that inside and outside electrode is 204,205 is stable, in addition, when the both ends of external electrode 205 all have bending section, to compare with the occasion that only has a bending section the either party, the discharge condition that inside and outside obviously electrode is 204,205 will be stablized.In addition, the mensuration of ion concentration is used (strain) ダ Application length of schooling air ion enumerator 83-1001B of section.

Adopt the ion generating device 201 of the present embodiment of above explanation, dielectric be shaped as cylindrical shape, thereby the disposal of ion generating electrodes body 202 is easy, can save the space simultaneously.And its characteristic is also stable.Thereby, but have the advantage of ion generating device 201 mountings on various conditioners.

Below, with reference to description of drawings the 8th embodiment of the present invention.Figure 35 illustrates the cutaway view of ion generating device 500 1 examples of the 8th embodiment of the present invention.The principal character of this ion generating device 500 is the ion generating electrodes bodies 202 with the illustrated ion generating device 201 (with reference to Fig. 8) of above-mentioned the 7th embodiment.Thus, but generating negative ions and cation, to kill and to remove the antibacterial that swims in the air.

The high voltage power supply loop 502 that ion generating device 500 has ion generating electrodes body 202, pressure fan 501, filter (not shown), is made of high-tension transformer 502a and control circuit board 502b.After being blown into air that mouthful (not shown) enters and removing dust,, send into ion generating electrodes body 202 thus to pressure fan 501 by filter.At ion generating electrodes body 202 places, apply the alternating voltage of regulation by high voltage power supply loop 502, produce anion and cation in the described air.Under the effect of this anion and cation, remove airborne planktonic bacteria.In addition, when generating anion and cation, attaching generation ozone.The ozone amount that is generated by ion generating electrodes body 202 is usually in allowed band, but as required, can be on ion generating electrodes body 202 the mounting ozone decomposition catalyst, perhaps can on ventilating path, dispose catalyst mounting parts 11 (with reference to Figure 26 A), to reduce the airborne ozone amount that outside device, blows out.And, remove the air that contains ionic planktonic bacteria and also outside device, blow out.

Ion generating device 500 Miniaturizables of present embodiment can also can be suspended on the wall in the setting of living in of no erecting bed.Have, make the ion generating device Componentized simultaneously, be arranged on the various goods by the installation constitution with the selection of this ion generating device assembly, that can impel goods easy to usely is target.

Below, with reference to description of drawings the 9th embodiment of the present invention.Figure 36 is the perspective view of decomposition that air purifier one example of the ion generating device 201 that the 9th embodiment of the present invention is housed is shown.The bonnet 80 of the filter 60 that air purifier has the body 50 that is fixed on the pedestal 51, taken in by the incorporating section 51 (with reference to Figure 37) that is formed at body 50 front sides, the protecgulum 70 that the filter of taking in 60 is covered and the rear side that covers body 50.

Filter 60 is that prefilter 61, deodorize filter 62, dust-collecting filter 63 constitute by begin order from the front.Prefilter 61 will suck airborne dust or the dust arrestment in the air purifier.The material of prefilter 61 can be made by the big polypropylene of for example air drag.Deodorize filter 62 is, the non-woven fabrics of polyester is housed on rectangular framework, the homodisperse active carbon of configuration on it, and 3 layers of such structure of non-woven fabrics of polyester are housed thereon again.By adopting such structure, adsorbable and remove acetaldehyde or airborne smelly composition such as ammonia, acetic acid.Dust-collecting filter 63 is, to be folded by the molten filter material that blows type non-woven fabrics (" トレミ Network ロ Application " DongレShe system) and aggregate (polyester/Vitron silk non-woven fabrics) formation of carbide processing, thereon, followingly go up antibiotic sheet material in the hot pressing, and after being inserted into framework, deposited framework.But by small dust or the dust in these dust-collecting filter 63 traps air.

Protecgulum 70 has overlooks the protruding slightly bending of central authorities of looking, and the front central part of looking forms and sucks the suction inlet 71 that room air is used.Protecgulum 70 is being affixed on the body 50 from body 50 a distance, and protecgulum 70 becomes the side suction inlet 72 (with reference to Figure 38) that sucks room air with the gap of body 50.

Figure 37 illustrates the perspective view of body 50.Body 50 is the rectangle of lengthwise, and front central authorities have the incorporating section 51 that recessed to the inside one-tenth is taken in the essentially rectangular of

filter

60, and 51 bottom surface central authorities form the vent 52 that is made of radial slotted hole in the incorporating section.In addition, further form the recess 53 that motor 56 (with reference to Figure 38) is installed at the center of vent 52, in the rear side of recess 53, fan 57 (with reference to Figure 38) installs on the gyroaxis of motor 56.Form operating portion 54 that is provided with on and off switch or air quantity, intervalometer, operational mode change-over switch, operation conditions display lamp etc. and the observation window 55 of observing the operating state of ion generating electrodes body in the front upper of body 50.

Figure 39 illustrates the back of the body of air purifier and looks perspective view.On the upper angled face of bonnet 80, form and be provided with a plurality of to be the blow-off outlet 81 of 4 sections slit pore, on the inclined plane of upper left quarter, to form the ion blow-off outlet 82 of a plurality of slit pores of configuration.In addition, be provided with the handgrip 84 that constitutes by rectangular recess, be provided with the fastener 85 that wall hanging is used at central flat face 4 jiaos in the center upper portion of bonnet 80.

Figure 38 illustrates the sectional view of air purifier.During by motor 56 revolution fans 57, from the suction inlet 71 and the side suction inlet 72 suction air of protecgulum 70, inhaled air passes through filter 60 to fan 57, and changes flow direction upwards at this, flows to blow-off outlet 81.In the way, be formed up to the bypass 59 of the ion generating electrodes body 202 on the top (positive is upper right quarter) that is installed to body 50, the part of air of discharge imports ion generating electrodes bodies 202 (with reference to Figure 40) by this bypass 59.The part of air that imports ion generating electrodes body 202 produces anion and cation simultaneously by ion generating electrodes body 202, discharges the air that comprises this anion and cation from ion blow-off outlet 82.When generating ion, also produce ozone simultaneously, but, can suppress and reduce the airborne ozone amount that is included in of ion blow-off outlet 82 discharges owing to resolve into oxygen by being arranged on catalyst mounting parts 11 on the external electrode 205 (with reference to Fig. 9), the mounting ozone decomposition catalyst.

Figure 41 illustrates the partial enlarged drawing of bypass 59 and ion generating electrodes body 202.Path mouth 58 is sent into bypass 59 by the part of air that fan 57 is sent into from path mouth 58 towards the gyratory directions opening of fan 57.Bypass 59 by in (gyratory directions) back of directly advancing, change over towards the frontal of air purifier with the below that enters ion generating electrodes body 202 and further change direction and become upward and constitute to path until ion generating electrodes body 202.

In Figure 38, in the body face portion that is opposite to ion generating electrodes body 202, being provided with can be from the observation window 55 of the operating state of outer affirmation ion generating electrodes body 202.And, the over cap 40 that air spills in can slave is housed on the surface of observation window 55.This over cap 40 can be will comprise the laminal object of whole front (removing incorporating section 51) the part opening that protected, that be equivalent to incorporating section 51 of the body 50 of observation window 55.For example, use transparent resin material,, then look, can give thick and heavy sense from the front as gold silver color on inside coating or the silk screen printing as material.At this moment, the tone of protecgulum 70 is transparent, and is then auxilliary mutually with the color of over cap 40, can brew refrigerant sense, clean feel.

Below, an example of the operation of air purifier is illustrated.At first, the on and off switch of operating portion 54 is connected, begun the operation under the automatic operational mode.By motor 56 revolution fans 57, from the suction inlet 71 of protecgulum 70 and side suction inlet 72 with in the air inhalation machine.Then, with big dust or the dust in filter 61 traps air, with 62 absorption of deodorize filter with remove the ozone composition, with less dust or the dust of dust-collecting filter 63 captures.Discharged to machine from blow-off outlet 81 by fan 57 except that the air of dust, ozone by filter 60, a part is sent into ion generating electrodes body 202 from path mouth 58 through bypass 59.

In ion generating electrodes body 202, begin from the operation of air purifier, apply about 1.75kV alternating voltage.At this, generate anion and cation in the air.Simultaneously, also attaching generation ozone.This moment each concentration be, anion and cation concentration are at 20,000/cc, ozone concentration is below 0.01ppm.Under the anion and cation effect that generate simultaneously by ion generating electrodes body, remove the antibacterial that swims in the air.

For the ions that generate, can strengthen the alternating voltage that is applied on the ion generating electrodes body 202, but the ozone amount that alternating voltage generates when increasing increases also more.For this reason, in order to suppress the generation of ozone effectively in the ionic while of generation, the alternating voltage that is applied on the ion generating electrodes body is preferably in below the 2.0kV.Adopt alternating voltage like this, can suppress peak (0.1ppm) 1/10 below of ozone concentration at benchmark concentration.In addition, by mounting ozone decomposition catalyst on ion generating electrodes body 202 or be provided with the catalyst mounting parts 11 of mounting ozone decomposition catalyst, the upper voltage limit value that can apply can rise to 2.5kV, can produce more ion.

Below, the deodorizing performance of the airborne smelly composition that causes for the air purifier to present embodiment is estimated, and carries out following experiment.

Example 21

The above-mentioned air purifier that is mounted with the used ion generating device 201 of above-mentioned example 10 is arranged at lengthwise is 2.0m, grow crosswise to 2.5m, highly be the inside of the subject area of 2.7m.Then, with the air displacement of exsiccant cleaning should the zone in behind the air of atmosphere, 5 medicated cigarettes of burning.Simultaneously, applying virtual value on ion generating electrodes body 202 is when 1.1kV, frequency are the alternating voltage of 25kHz, and CD-ROM drive motor 56 is 4m at air quantity ³Make blowing fan 57 revolutions under the/sec, with the operation of beginning air purifier.And, play concentration when measuring air purifier operation beginning through ammonia, acetic acid, styrene and carbon monoxide after 30 minutes by gas detecting tube.As a result, after operation in 30 minutes, can remove deammoniation 35%, acetic acid 65%, styrene 58%, carbon monoxide 90%.

Thereby, confirm to adopt the air purifier of present embodiment, can decompose what produce in the family under the effect of anion and cation apace is the composition of representative with the stench, but deodorize.

Below, illustrate the bactericidal property of the air purifier of present embodiment, but the air purifier of present embodiment being not limited to following example to airborne planktonic bacteria, can move by suitably changing operation condition etc.

Example 22

The above-mentioned air purifier that above-mentioned example 8 employed ion generating devices 201 are housed is arranged on lengthwise is 2.0m, growing crosswise is the inside of 2.5m, high subject area for 2.7m.And general living bacterium and the fungus that will cultivate on pre-culture intersperse among in this zone.Simultaneously, with the same condition of above-mentioned example 8 under, when making ion generating device 201 actions, CD-ROM drive motor 56 makes blowing fan 57 revolutions, the operation of beginning air purifier.

Then, whenever through official hour, just make RCS radiant detector with the air in the speed extraction area of 40L/min, by carrying out 4 minutes sampling, the airborne bacterial population of instrumentation with German Biotest society.Its result is by table 8 illustrate.

Air purifier operation beginning is after 2 hours, and general living bacterium is removed 77% in the zone, and fungus is removed 80%.Thereby, when adopting the air purifier of ion generating device 201, confirm under the effect of anion of sending and cation, can kill and remove the major part of airborne planktonic bacteria well with present embodiment.

In addition, as the above-mentioned the 2nd and the 5th embodiment is illustrated, in the air purifier 300 (with reference to Fig. 3, Fig. 6) of ion generating electrodes body 1 with plate glass plate 3, shown in example 3 (with reference to table 1) and example 6 (with reference to table 3), killing bacteria in the zone and the words of removing more than 70% are needed about 3 hours.To this, in the air purifier of the ion generating electrodes body 202 of the cylindrical glass tube 203 with present embodiment, required time can shorten about 1 hour, has proved the superiority of columnar glass tubing 203.

In addition, what send by blowing fan 57 to the blow-off outlet 81 of air purifier, carry out following experiment in order to investigate near the ozone that ion generating electrodes body 202, unavoidably generates in the space, along with the generation of anion and cation.

Example 23

Be provided with 5 place's measuring points at blow-off outlet 81 top 0cm, 5cm, 10cm, 15cm and the 20cm place of the used air purifier of the above-mentioned example of distance 22 easily, and ozone concentration determinator (not shown) be set at each measuring point.Then, applying on ion generating electrodes body 202 in the alternating voltage that virtual value is 1.1kV, is 4m with the air quantity ³/ min or 0.8m ³/ min turns round blowing fan 57, to measure ozone concentration at each measuring point.In addition, under the same conditions, apply the alternating voltage that virtual value is 1.4kV, measure ozone concentration equally.Its result is illustrated by Figure 42 A and Figure 42 B respectively.In addition, use (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001 to measure ozone concentration.

By these views as can be known, the virtual value that applies voltage is big more, and the air quantity of blowing fan 57 is just big more, and the concentration of ozone is just high more., this ozone concentration also sharply reduces along with leaving blow-off outlet 81.For this reason, apply the virtual value and the blowing fan 57 rotating air quantity (being revolution) of voltage by control, may command is by the ion generating electrodes body 202 subsidiary ozone amounts that generate.

For this reason, be provided with the air purifier of following structure, promptly, near ion generating electrodes body 202, the ozone sensor (not shown) is set, at any time monitor ozone concentration, for making ozone concentration below specified reference value, determine to be applied to the virtual value of the alternating voltage on the ion generating electrodes body 202 according to this testing result.

Thus, can obtain so air purifier, that is, the ozone concentration that generates by ion generating electrodes body 202 adjust to usually reference value when as follows under the effect of anion and cation, can kill and remove the antibacterial that swims in the air.In addition, as the said reference value of ozone concentration, can suitably adopt 0.1ppm by industry sanitation association regulation.

Below, with reference to description of drawings the 10th embodiment of the present invention.Figure 43 is for schematically illustrating the cutaway view of the air conditioner 400 of the ion generating device 202 with the 10th embodiment of the present invention.

Inboard, inside at air conditioner 400 is provided with blowing fan 402.In addition, the front of body 401 and above form the air suction inlet 403 that constitutes by a plurality of holes or slit.And, be provided with the various filters 404 that dedusting or deodorize are used in the downstream of suction inlet 403.Have again in the downstream of filter 404 and be provided with heat exchanger 406.And below the suction inlet 403 of body 401, form the blow-off outlet 405 of wind direction baffle plate with wind direction adjustment usefulness.Thus, form in the inside of body 401 from suction inlet 403 by filter 404 and heat exchanger 406, arrive the air-supply path of blow-off outlet 405.

And, near the blow-off outlet 405 in this air-supply path, be provided with the ion generating electrodes body 202 of the ion generating device 201 (with reference to Fig. 8) of above-mentioned the 7th embodiment.At this moment, ac high voltage source 206 (with reference to Fig. 8) can be different with the power supply that drives blowing fan 402, also can be shared power supply.When being shared power supply, by control part (when (not shown) is controlled the action of the driving of blowing fan 402 or air compressor (not shown) and ion generating device 201 respectively, during air conditioner 400 operations, can make the action ON/OFF of ion generating device 201 as required, use easily.

When operation has the air conditioner 400 of said structure; make blowing fan 402 revolution, from the air in suction inlet 403 suction draft paths by the process of filter 404, remove dust or smelly composition after; carry out heat exchange by heat exchanger 406 and cold-producing medium, and blow out by blow-off outlet 405.At this moment, when the action of ion generating device 201 was ON, anion that near the space ion generating electrodes body 202 produces and cation also together blew out with the air that cleans.Thereby, under the effect of this anion and cation, can kill and remove the antibacterial that swims in the air.

Below, illustrate the bactericidal properties of 400 pairs of airborne planktonic bacterias of air conditioner of present embodiment, but the air conditioner 400 of present embodiment is not limited to following example, can suitably change operation condition etc. and move.

Example 24

The air conditioner 400 that above-mentioned example 8 employed ion generating devices 201 are housed is arranged on lengthwise is 2.0m, growing crosswise is the inside of 2.5m, high subject area for 2.7m.And general living bacterium and the fungus that will cultivate on pre-culture intersperse among in this zone.Simultaneously, with the same condition of above-mentioned example 8 under, when making ion generating device 201 actions, drive blowing fan 402, the operation of beginning air conditioner 400.

Then, whenever through official hour, just make RCS radiant detector with the air in the speed extraction area of 40L/min, by carrying out 4 minutes sampling, the airborne bacterial population of instrumentation with German Biotest society.Its result is by table 9 illustrate.

Air conditioner 400 operation beginnings are after 2 hours, and general living bacterium is removed 80% in the zone, and fungus is removed 83%.Thereby, when adopting the air conditioner 400 of ion generating device 201, confirm under the effect of anion of sending and cation, can kill and remove the major part of airborne planktonic bacteria well with present embodiment.

In addition, as the above-mentioned the 2nd and the 5th embodiment is illustrated, in the air conditioner 400 (with reference to Fig. 4, Fig. 7) of ion generating electrodes body 2 with plate glass plate 3, shown in example 4 (with reference to table 2) and example 7 (with reference to table 4), killing bacteria in the zone and the words of removing more than 70% are needed about 3 hours.To this, in the air conditioner 400 of the ion generating electrodes body 202 of the cylindrical glass tube 203 with present embodiment, required time can shorten about 1 hour, has proved the superiority of columnar glass tubing 203.

, in above-mentioned air conditioner 400,, when operation of air-conditioner, exist to contain the air of dust and the surface that dust can be attached to ion generating electrodes body 202 owing on the air-supply path of the inside of body, be provided with ion generating electrodes body 202.Particularly, refrigeration or when operation dehumidifying, airborne condensate moisture can take place and in the phenomenon of the surface sweating of ion generating electrodes body 202.When adhering to foreign body such as dust or water on the electrode, paradoxical discharge or leakage loss take place easily, the security performance of machine is descended, state is bad.

With reference to the accompanying drawings the 11st embodiment of the present invention is described.Figure 44 is the block diagram of basic comprising of control device that the air conditioner 400 of the ion generating device 201 with the 11st embodiment of the present invention is shown.In the figure, identical with the air conditioner 400 (with reference to Figure 43) of above-mentioned the 10th embodiment parts are put on identical symbol.

As shown in Figure 44, the input side of the control part 610 of built-in comparing section 614 and on and off switch 608 with link to each other with source power supply 609 by this on and off switch 608 of operation power supply supply control part 610.And outlet side links to each other with compressor 611, the blowing fan 402 of air conditioner and also links to each other with the interior electrode 204 of ion generating electrodes body 202 through radio circuit 612.613 for detecting the current sensing means of control part 610 to the current value of radio circuit 612 energisings, its testing result input comparing section 614.

Below, the use form of the air conditioner of above-mentioned formation is illustrated.In case connect (0N) on and off switch 608, just by source power supply 609 supply powers, control part 610 is to air compressor 611 and blowing fan 402 energisings, when driving them, also, apply alternating voltage with these radio circuit 612 inside electrodes 204 to radio circuit 612 energisings.

Thus, the startup air-supply by blowing fan 402, the air in suction inlet 403 suction chambers by filter 404 dedustings or deodorize after, after heat exchanger 406 heat exchanges, send to indoor from the air that blow-off outlet 45 will cool off or heat.With it simultaneously, produce negative ions, have the spike and the indoor in the same way air-supply of air one of bacteria-eliminating efficacy, combine, can realize comfort living with the air mediation effect of appropriateness by ion generating electrodes body 202.

Example 25

In the air conditioner 400 of above structure, use the external diameter of glass tubing 203 to be 1.2mm as 150mm, thickness as 20mm, length, the silk footpath of interior electrode 204 for 0.18mm, length be 80mm, mesh count be the silk footpath of 40 orders, external electrode 205 for 0.4mm, length are that 80mm, mesh count are 16 purpose ion generating electrodes bodies 202, apply on ion generating electrodes body 202 that virtual value is about 1.6kV, frequency is the alternating voltage of 20kHz.As a result, at 10cm place, the side of distance glass tubing 203, obtain 30,000～40,000/anion of cc and the generating capacity of cation.At this moment, the current value of inflow external electrode 205 is 1.2mA.In addition, the mensuration of ion concentration is used (strain) ダ Application length of schooling air ion enumerator 83-1001B of section.

Like this, under ion generating device 601 normal operating states, when applying alternating voltage by radio circuit 612 inside electrodes 204, the electric current that flows in the external electrode 205 is the very faint electric current of number mA degree., because of dust or dust to the adhering to or, between interior electrode 204 and external electrode 205, partial short-circuit can take place of ion generating electrodes body 202 to damage as the glass tubing 203 of dielectric, have the situation that flows into big electric current.

When producing short circuit like this, not only can not obtain germ-resistant effectively ion generating capacity, and the lost of life of ion generating electrodes body 202 or the problem of performance degradation can take place.In addition, in a single day human body contacts glass tubing 203, thereby can take place to discharge between interior electrode 204 and human body, flow into the intravital situation of people with human body as the earthing potential electric current, and the danger of electric shock is arranged.

For this reason, when applying alternating voltage, detect the electric current that flows into to radio circuit 612 by control part 610, and its result is imported the comparing section 614 that is built in the control part 610 with current sensing means 613 by radio circuit 612 inside electrodes 204.Thus, in the comparing section 614 of the signal of accepting input, compare with specified reference value, as more than reference value, control part 610 just cuts off (OFF) energising to radio circuit 612.

Even also can there be the situation that flows into the electric current about 50mA according to environment for use in air conditioner 400 under normal running status.In addition, when human body touched electrode, in case flow into the above electric current of 100mA, it is big that lethal as can be known probability becomes.For this reason, suitably selected with the reference value of the numerical value in 50～100mA scope as electric current.

Thus, apply alternating voltage, can prevent the misoperation or the fault of ion generating device 601 with preventing trouble before it happens because of also stopping inside electrode 204.Thereby, can provide a kind of, even the air conditioner 400 of Danger Electric shock risk, safety can not take place from outside false touch and ion generating electrodes body 202 yet in the life-span that prolongs ion generating electrodes body 202 or when preventing performance degradation.In addition, in the present embodiment, the run switch of on and off switch 608 double as air conditioners 400 is illustrated, but the action of the run switch of air conditioner 400 and ion generating device 601 also can be controlled respectively by operation switch separately.

Below, with reference to description of drawings the 12nd embodiment of the present invention.Figure 45 is the block diagram of basic comprising of control device that the air conditioner 400 of the ion generating device 201 with the 12nd embodiment of the present invention is shown.In the figure, identical with the air conditioner 400 of above-mentioned the 11st embodiment of Figure 44 parts are marked with identical sequence number.

In the present embodiment, ion generating electrodes body 202 can freely turn round, and air conditioner 400 has to be made the rotating gyroaxises 617 of ion generating electrodes body 202 and make these gyroaxis 617 rotating slewing equipments 618 and as the air-supply element 615 of foreign substance removing apparatus.The structure of removing in addition is identical with above-mentioned the 11st embodiment.

Slewing equipment 618 links to each other with control part 610 with air-supply element 615, by this control part 610, with the action of control slewing equipment 618 and air-supply element 615.Be specially, according to by current sensing means 613 detected current values more than setting (for example 200mA), just make slewing equipment 618 and 615 actions of air-supply element, make the 202 rotating whiles of ion generating electrodes body, wind contacts with ion generating electrodes body 202.

Thus, can blow away, and the water that is attached on the ion generating electrodes body 202 also can evaporate attached to the dust on the ion generating electrodes body 202.As a result, can prevent from simultaneously, ion generating electrodes body 202 can not kept clean even do not maintain also because of the leakage loss of dewfall generation or the paradoxical discharge that adheres to generation of dust.

Below, with reference to description of drawings the 13rd embodiment of the present invention.Figure 46 is the block diagram of basic comprising of control device that the air conditioner 400 of the ion generating device 601 with the 13rd embodiment of the present invention is shown.In the figure, identical with the air conditioner 400 of above-mentioned the 11st embodiment of Figure 44 parts are marked with identical sequence number.

In the present embodiment, ion generating electrodes body 202 also can freely turn round, and air conditioner 400 has gyroaxis 617 and slewing equipment 618 and as the heating element heater 616 of foreign substance removing apparatus.In addition structure is identical with above-mentioned the 10th embodiment.

Slewing equipment 618 links to each other with control part 610 with heating element heater 616, by this control part 610, with the action of control slewing equipment 618 and heating element heater 616.Be specially, according to by the detected current value of current measuring element more than setting (for example 200mA), just make 616 actions of slewing equipment 618 and heating element heater, making the 202 rotating whiles of ion generating electrodes body, add thermion generating electrodes body 202.

Thus, all the water evaporations on the electrode that is attached to ion generating electrodes body 202 can be made, the leakage loss that dewfall takes place can be prevented.When making ion generating device 601 actions, leakage loss ground does not take place produce anion and cation.

In addition, above-mentioned structure also applicable to the conditioner of air purifier, dehumidifier and humidifier etc., also can obtain same effect under these circumstances.In addition, also the feature of each embodiment record can be combined mutually.

By with ion generating device 201 modularizations of the present invention, be on the conditioner of representative because of can easily loading and unloading with the air conditioner, the time easy to use, also can improve the maintenance of cleaning or maintenance etc. significantly.

Below, with reference to description of drawings the 14th embodiment of the present invention.Figure 47 is the decomposition diagram that the ion generating device assembly 715 of the 14th embodiment of the present invention is shown, Figure 48 is the perspective view that the component body front portion 719 of this ion generating device assembly 715 is shown, Figure 49 A is the cutaway view that ion generating electrodes body 202 installment states of this ion generating device assembly 715 are shown, Figure 49 B is the decomposition front view that identical ion generating electrodes body 202 installment states are shown, Figure 50 is the perspective view that left half 720 after the component body of this ion generating device assembly 715 is shown, Figure 51 is the perspective view that right half 721 after the component body of this ion generating device assembly 715 is shown, and Figure 52 is the perspective view that the auxiliary blower assembly 716 of this ion generating device assembly 715 is shown.

The ion generating device assembly 715 of present embodiment as shown in figure 47, by ion generating electrodes body 202, the auxiliary blower assembly 716 of the ion generating device 201 (with reference to Fig. 8) of above-mentioned the 7th embodiment, drive loop assembly 717 and component body 718 constitutes.

The structure of auxiliary blower assembly 716 is shown in Figure 52, air is sent in the ion generating electrodes body 202, and anion and the cation that produces blown out, because built-in fan 716b and motor 716c in housing 716a, thereby on the composition surface of housing 716a, be provided with a plurality of and the chimeric protuberance 716d of hole portion 719b (with reference to Figure 48).

At this, in the structure of ion generating device assembly 715, as the front side, a side on the other side is as rear side with the side of suction inlet 716e (with reference to Figure 47) of configuration auxiliary blower assembly 716 described later.Therefore, under the action of auxiliary blower assembly 716, air rearward sucks in the auxiliary blower assembly 716.Having, is that left, direction on the other side are right-hand being illustrated with the discharge direction (directions of auxiliary relatively blower assembly 716 configuration ion generating electrodes bodies 202) of assisting blower assembly 716 again.

Component body 718 by component body front portion 719, component body after behind the left half 720, component body right half 721 constitute.

Component body front portion 719 as shown in figure 48, incorporating section, the loop 719f that the housing section 719e of incorporating section 719d, auxiliary blower assembly 716 is taken place the ion of taking in ion generating electrodes body 202 and take in the driving loop assembly 717 that drives ion generating device assembly 715 forms as one, and be provided with shape in many places with recess, with composition surface in the outside of recess near card end colluding of auxiliary blower assembly 716 and hang with what 719b of hole portion and card ended after the component body right half 721 after left half 720, the component body and collude extension protuberance 719a.

In addition, shown in Figure 49 A, the part that the section configuration of incorporating section 719d inner face takes place ion has flexure plane, with about form to accept and keeping the receiving portion 722,723 of ion generating device assembly 715, about receiving portion 722,723 between the bottom be provided with the ion blow-off outlet 724 that the air by ion generating electrodes body 202 is blown out.So, done one's utmost to shorten the path of ion generating electrodes body 202 to ion blow-off outlet 724, in addition, by making ion that the volume minimum of incorporating section 719d take place, reduced air drag, reduce the attenuation rate of airborne anion and cation amount, can stably emit the growing amount of anion and cation.

Receiving portion 722,723 is shown in Figure 49 B, outer peripheral face for the

plug components

7,8 of accepting ion generating electrodes body 202, outstanding 3 muscle 722a, the 723a with flexure plane that are provided with of inner face of left half 720 after incorporating section 719 and the component body take place from ion, with the flange 722b, the 723b that prevent to misplace up and down, in addition, become the shape higher for the outer peripheral face of the

plug components

7,8 of accepting ion generating electrodes body 202 with 3

muscle

722a, 723a of dislocation about preventing than flexure plane.

Blow-off outlet 724 for example be shaped as about, front and back respectively are the thin slit pore of 3 * 50mm of 3 row, foreign body is difficult to insert on ion generating electrodes body 202 by this slit pore.

In addition, housing section 719e will form the involute shape as the wall of the blower-casting of assisting blower assembly 716, the leading section of this wall is provided with a plurality of cards that engage with the housing of motor-side and only uses hole 719b, is provided with in the outside of inner face to suck the auxiliary blower suction inlet 719c that air is used.

Incorporating section, loop 719f forms the wall of concavity, the protuberance 719a of right half 721 after the front end of wall is provided with a plurality of cards to end component body in the inboard.In addition, internally dress drives the H shape muscle that the box of the substrate in loop accepted and is provided with from the lateral inner face with bloating.In addition, the outside of H shape muscle portion forms the hole of fixed ion generating means assembly 715.

Left half 720 is used to cover the ion generating device incorporating section after the component body of Figure 50, an inner face part has flexure plane, about form to accept and keeping receiving portion 720c, the 720d of ion generating electrodes body 202, from outstanding 3 muscle outer peripheral face, that become the R shape that the

plug components

7,8 of accepting ion generating electrodes body 202 is being set of inner face, in addition, in order to prevent that plug components about 7,8 dislocation ground from keeping, these muscle become the shape higher than flexure plane.

In addition, on the composition surface of periphery, be provided with the 720a of hole portion that a plurality of cards end component body front portion 719, on the side walls of a side receiving portion, be provided with the hole of break-through lead, and be provided with the hole 720b of fixed ion generating means assembly 715 in the outside of the opposing party's receiving portion.

Right half 721 is for covering the member of incorporating section, loop after the component body of Figure 51, and the inboard concavity wall that forms is provided with a plurality of and the chimeric hole 721a of protuberance 719a component body front portion 719 at the front end of wall.In addition, be provided with the hole 721b of fixed ion generating means assembly 715 in the outside of wall.

The assemble sequence of the ion generating device assembly 715 of said structure is, on the fixed position of the housing 719e of component body front portion 719, insert auxiliary blower assembly 716, the card that the protuberance 716d of housing 716a is inserted and is fixed to component body front portion 719 ends among the 719b of hole portion of usefulness.In addition, on the assigned position of the driving loop of component body front portion 719 719f of assembly portion, insert and drive loop assembly 717, cover right half 721 after the component body from the top that drives loop assembly 717, the protuberance 719a that ends with the card with component body front portion 719 inserts and is fixed among the 721a of hole portion of right half 721 after the component body.On the assigned position of ion generating device incorporating section 719d, insert ion generating electrodes body 202, cover left half 720 after the component body from the top of ion generating electrodes body 202, in the 720d of hole portion that the protuberance 719a of component body front portion 719 is inserted and is fixed to left half 720 after the component body, to finish assembling.Ion generating electrodes body 202 is so installed to the receiving portion of component body front portion 719, be fixed into and covered after the component body left 720 o'clock, the receiving portion on a left side 720 can push ion generating electrodes body 202 after the component body, during assembling, ion generating electrodes body 202 can not move, and just can easily decompose and assemble without screw.

Below, with reference to description of drawings the 15th embodiment of the present invention.Figure 53 is the front perspective view that the air conditioner of the ion generating device assembly 715 that the 15th embodiment of the present invention is housed is shown, Figure 54 is the front perspective view under header board 733 openings of this air conditioner, Figure 55 is for illustrating the front view of the body display device of this air conditioner enlargedly, Figure 56 is the perspective view that the remote controller of this air conditioner is shown, Figure 57 is the sectional view that the indoor set 731 of this air conditioner is shown, Figure 58 is the sectional view of this indoor set 731 on the allocation position of ion generating device assembly 715, Figure 59 is the sectional view of this indoor set 731 at the allocation position left of ion generating device assembly 715, Figure 60 be this indoor set 731 at right-hand sectional view of the allocation position of ion generating device assembly 715, Figure 61 is for schematically illustrating all pie graphs of this air conditioner.

Shown in Figure 53, but the indoor set 731 of air conditioner can be observed header board 733, the blow-off outlet 734 that blows out changes in temperature gas opened on free switch ground, body interior ground, suck the suction inlet 735 of room air and represent that the body display device 736 of operation conditions constitutes by the body housing 732 that is provided with heat exchanger or indoor fan, in order to confirm that filter is dirty.In addition, remote controller 737 can be operated the setting of run switch or service condition at a distance.

Shown in Figure 54, under header board 733 openings, be opposite to the suction inlet 735 of header board 733, cancellate suction inlet at body housing 732 is provided with right filter 738 and left filter 739, in the substantial middle portion of this right side filter 738, left filter 739 air cleaning filter 740,741 is housed respectively.

Shown in Figure 55, above the blow-off outlet of indoor set 731 body display device 736 is arranged, this body display device 736 is made of the running indicator 742 that shows operation, the 2 bit digital temperature displayed lamps 743 that show indoor temperature or outdoor temperature, the lamp with fresh air 744 that shows the operation of ion generating device, the intervalometer lamp 746 that shows when accepting from the light accepting part 745 of the signal of remote controller 737 and the operation of reservation intervalometer etc.

Remote controller 737 shown in Figure 56 is shown 748, is moved the Auto button 749 of air conditioner, " heating installation " button 750 of heating installation operation air conditioner, " cold air " button 751 of cold air operation air conditioner automatically by the remote controller displays portion 747 that shows running status, the transmission signal lighted when indoor set transmits signal, remove " dehumidifying " button 752 of temperature operation air conditioner, set the temperature button 753 of indoor temperature, " empty clear " button 754 and the formations such as " stopping " button 755 out of service that make the operation of ion generating device open/close.

Figure 57 is the base side section of indoor set 731, by the body housing 732 of the pedestal that becomes indoor set 731, inner by the indoor heat converter 756 of hot coolant body with the air in the heat-exchanging chamber, the indoor fan 757 of air in the suction chamber heat-exchanged air is blown out outside body by indoor heat converter 756, the vertical wind direction baffle plate 758 that substitutes the flow direction of air by the blow-off outlet 734 of body housing 732 with left and right directions, with upper and lower to the beam wind of the flow direction that substitutes air to baffle plate 759, with the left and right sides filter of removing by dust or dust in suction inlet 767 inhaled airs 738,739 constitute.

Filter 738,739 is under the state that header board 733 is opened, filter guide plate 760 along body housing 732 inserts, the come in and go out shape of part of the after-filter 769 of suction inlet 768 that left filter 739 becomes the auxiliary blower assembly 716 of deionizing generating means assembly 715.

In addition, below indoor heat converter 756, be provided with the drain pan 761 that the drain water that produces with the room air heat exchange time is received.Forwards form the path upper wall of indoor circulation path from the bottom surface sections of drain pan 761, in the way of path upper wall, be provided with the peristome 760a (with reference to Figure 58) that directly faces with the ion blow-off outlet 724 of ion generating device assembly 715.In addition, in the place ahead of drain pan 761 one side, about 2 places the convex 763,764 of ion generating device assembly 715 form to be installed (with reference to Figure 59, Figure 60).

Foamed styrene parts 765 (with reference to Figure 58) as heat insulation means are housed between drain pan 761 and ion generating device assembly 715, with prevent because of the influence of the drain water of the inboard of drain pan 761 in the dewfall in the drain pan outside with prevent that dew from invading in the ion generating device assembly 715.

In addition, suction inlet 735 forms the suction inlet 766 and the also suction inlet 767 of air in the facial suction chamber on body housing 732 of the room air of the front face that sucks header boards 733.

Form at blow-off outlet 734 places of body housing 732 will be through indoor heat converter 756 and beam wind that air flow by indoor fan 57 changes up and down to baffle plate 759 and vertical wind direction baffle plate 758 of about the upstream side of baffle plate 759 is with the flow direction with air, changing at beam wind, also at the ion blow-off outlet 724 of beam wind to the square haply one-tenth ion generating device assembly 715 of baffle plate 759.

The mobile path of air in the ion generating device assembly 715 is, shown in Figure 57, by auxiliary blower assembly 716, after-filter 769 between the auxiliary blower assembly 716 through being arranged on body housing 732 and ion generating device assembly 715, that can freely load and unload sucks from the ion suction inlet 768 of header board 733, by the inside of ion generating device assembly 715, will comprise by the anion of ion generating electrodes body 202 generations and the air of cation and flow out from ion blow-off outlet 724.The air that comprises anion and cation that blows out from ion blow-off outlet 724 is sucked by indoor fan 757 from suction inlet 735, through indoor heat converter 756 heat exchanges, with the air interflow of the room air circulating path of being sent by blow-off outlet 734, sends to indoor.So, comprise by the anion of ion generating electrodes body 202 generations and the air of cation and send from the blow-off outlet 734 of indoor set 731, thereby shortened the air flue of ion generating electrodes body 202 with the blow-off outlet 734 of indoor set 731, reduce the attenuation rate of airborne anion and cation amount, improved indoor bactericidal effect.

In addition, after-filter 769 can be arranged near the suction inlet of auxiliary blower assembly 716 of ion generating device assembly 715 with freely loading and unloading, header board 733 is upwardly opened, just can take out easily from after-filter conveying end 770, but dedusting or dust, thereby, can not adhere to a lot of dust or dust on the ion generating device assembly 715, can stably generate anion and cation, in addition, the filter the 738, the 739th of indoor set 731 is provided with separately respectively, easy-to-use and also maintenance easily.

The installation of ion generating device assembly 715 on indoor set 731 will be arranged at 2 place's convexes 763,764 in drain pan 761 outsides shown in Figure 59, Figure 57, and be screwed after installing hole 720b, the 721b of component body 718 align.Like this, ion generating device assembly 715 is shown the parallel mode setting greatly with the lowest end of indoor heat converter 756, thereby can effectively utilize the space of indoor set 731, need not to be provided with especially the space, makes the device compactness.

Figure 61 is depicted as the sketch map of present embodiment, constitute by indoor set 731, off-premises station 771, remote controller 737, indoor set 731 is made of indoor heat converter 756, indoor fan 757, and off-premises station 771 is made of outdoor heat converter 772, compressor 773, expansion valve 774, outdoor fan 775.

Run action to the indoor conditioner of said structure describes.At first, description operation order.In a single day the operation of air conditioner presses the Auto button 749 of the panel of remote controller 737, just light the " RUN " lamp 742 in the body display device 736 of indoor set 731, indoor temperature is just used numeral by temperature lamp 743, on the display part 747 of the panel of remote controller 737 expression automatically, air quantity, wind direction etc.

In addition, in case press " heating installation " button 750 of the panel of remote controller 737, just light the " RUN " lamp 742 in the body display device 736 of indoor set 731, indoor temperature is just used numeral by temperature lamp 743, represents heating installation, air quantity, wind direction, temperature etc. on the display part 747 of the panel of remote controller 737.

When operation stopped, in case press " stopping " button 755 of the panel of remote controller 737, the running indicator 742 of the body display device 736 of indoor set 731 just extinguished, and operation stops.

When wanting to change temperature, when for example promoting 1 ℃, click " Δ " switch of " temperature " button 753 of the panel of remote controller 737, design temperature changes 1 ℃, when heating installation cold air operational mode, in the body display device 736 of the remote controller displays portion 747 of the panel of remote controller 737 and indoor set 731, demonstrate design temperature.

When automatic dehumidification operating mode, in the remote controller displays portion 747 of the panel of remote controller 737, only show the temperature that will promote, and in the body display device 736 of indoor set 731, demonstrate design temperature.

The following describes an example of its action.When cold air moved, the condensation of the compressor 773 by off-premises station 771, the heat exchange media that becomes the condition of high temperature were sent in the outdoor heat converter 772 of off-premises station 771.In outdoor heat converter 772, by outdoor fan 775, obtain the heat of heat exchange media, make the heat exchange media cooling.Heat exchange media is by expansion valve 774, and by the indoor heat converter 756 of indoor set 731, the evaporation gasification by indoor fan 757, by indoor heat converter 756, makes indoor air cooling.The operation of indoor heating installation and cold air is opposite, forms by cycling hot switched-media on the contrary.That is, the heat exchange media of condensation is sent in the indoor heat converter 756 of indoor set 731, and the indoor air by indoor heat converter 756 is warmed, with carry out indoor cause warm.

Ion generating device assembly 715 is in service the air conditioner of automatic cold air heating installation dehumidifying etc., in case press remote controller 737 panel " empty clear " button 754 with and with operation, when the operation of air-conditioner of next time, become be combined with " empty clear " and with operation.In case press " empty clear " button 754, also on the driving loop of ion generating device assembly 715 assembly 717, apply ac high voltage, thereby the generation cation be H ⁺(H ₂O) _m, anion is O ₂ ^-(H ₂O) _n

By auxiliary blower assembly 716, be blown into air in mouthful 768 suction chambers becomes no dust dust by after-filter 769 air flow from ion, become and include the anion that the ion generating electrodes body 202 by ion generating device assembly 715 produces and the air flow of cation, air interflow with from the indoor circulation path of ion blow-off outlet 724 is made cross-ventilation and is recycled to everywhere indoor by blow-off outlet 734.

When the operation of air conditioner stops, during isolated operation ion generating device assembly 715, " empty clear " button 754 of remote controller 737 is when bringing into operation, apply ac high voltage on ion generating device assembly 715, also CD-ROM drive motor and the beam wind to the indoor fan 756 of indoor set 731 applies ac high voltage to the CD-ROM drive motor of baffle plate 759.

The room air that sucks from the ion suction inlet 768 of header board 733 becomes the air of no dust dust by after-filter 769, air that includes the anion that produced by ion generating electrodes body 202 and cation and air interflow from the indoor circulation path of the ion blow-off outlet 724 of component body are sent to indoor from blow-off outlet 734.Therefore, with indoor air-conditioning together, can obtain the effect that is killed and removes by the indoor planktonic bacteria under anion and the cation effect.

In the present embodiment, as the conditioner that the ion generating device assembly is housed, be to be that example is illustrated with the air conditioner, but remove in addition, but also mounting on commodity such as the heater of air purifier, dehumidifier, humidifier, refrigerator, oil formula tape drum blower fan, petroleum furnace, electric furnace.Under arbitrary occasion, all can under the effect of anion and cation, sterilize.

Below, with reference to description of drawings the 16th embodiment of the present invention.Figure 62 is the perspective view of indoor set 801 that the air conditioner of the ion generating device assembly 833 with the 16th embodiment of the present invention is shown, Figure 63 is the perspective view that illustrates under header board 803 openings of this indoor set 801, Figure 64 is for illustrating the front view of the liquid crystal indicator 806 of this air conditioner enlargedly, Figure 65 is the enlarged drawing that the remote controller 808 of this air conditioner is shown, Figure 66 is the sectional view that the indoor set 801 of this air conditioner is shown, Figure 67 is for schematically illustrating all pie graphs of this air conditioner, Figure 68 is the cutaway view that the ion generating device assembly 833 that is contained on this air conditioner is shown, Figure 69 A illustrates the 1st blow-off outlet 879 of this ion generating device assembly 833 to be closed and cutaway view under the 2nd blow-off outlet 880 openings, Figure 69 B illustrates the 1st blow-off outlet 879 of this ion generating device assembly 833 to be opened and cutaway view under the 2nd blow-off outlet 880 closed conditions, Figure 70 is the block diagram of the control device of this air conditioner, Figure 71 is the cutaway view that these ion generating device assembly 833 another examples are shown, Figure 72 illustrates this ion generating device assembly 833 cutaway view of an example again, and Figure 73 illustrates the perspective view under header board 803 openings on the indoor set 801 of air conditioner of splicing ear of these ion generating device assembly 833 usefulness.

Indoor set 801 shown in Figure 62, but by the body housing 802 of interior assembling heat exchanger or indoor fan, can observe the header board 803 of body interior ground free switch, the blow-off outlet 804 that blows out changes in temperature gas, the suction inlet 805 that sucks room air, the liquid crystal indicator 806 of expression operation conditions and the Humidifying dehumidifying that will blow out in order to confirm that filter is dirty and constitute with blow-off outlet 807 by the air of air dehumidifying and humidifying apparatus Humidifying dehumidifying.In addition, also has the remote controller 808 that to operate run switch or switching at a distance.

Shown in Figure 63, but header board 803 free switch ground are being supported by body housing 802, and be opposite to the suction inlet 805 that is formed on the header board 803, form the cancellate blow-off outlet 804 of body housing 802, be provided with right filter 809 and the left filter of removing by dust in suction inlet 805 inhaled airs or dust 810 at these suction inlet 805 places.In the substantial middle portion of right filter 809 and left filter 810 air cleaning filter 811,812 is housed respectively.The Humidifying dehumidifying that forms the suction room air that air dehumidifying and humidifying apparatus uses on the right side of body housing 802 is with suction inlet and be provided with Humidifying dehumidifying usefulness filter 813.

Central part at body housing 802 is provided with the liquid crystal indicator 806 shown in Figure 64.This liquid crystal indicator 806 by the humidity lamp of lighting according to indoor humidity 814, according to the pollution level of room air change the cleannes lamp 815 of color, according to constituting with the display part 816 that shows indoor environment and operation conditions and the light accepting part 817 that receives from the signal of remote controller 808 from the signal of the action button of remote controller 808.

Remote controller 808 is shown in Figure 65, by the ventilation switch 823 of the ventilation operation of the humidity switch 822 of the dehumidifying operation of the remote controller displays portion 818 that shows running status, the transmission signal display part of lighting when indoor set 801 transmits signals 819, the operation/shutdown switch 820 of operation air conditioner, the temperature switch 821 of setting indoor temperature, ON/OFF air dehumidifying and humidifying apparatus, ON/OFF air dehumidifying and humidifying apparatus with the open/close group switch 824 of operation etc. of ion generating device assembly 833 is constituted.

Shown in Figure 66, the indoor heat converter 825 that carries out heat exchange between hot coolant by inside and outside room air is housed in the inside of indoor set 801 and indoor heat converter 825 is carried out the indoor fan 826 that heat-exchanged air blows out outside body by what suck room air.

Be formed at blow-off outlet 804 places of the front lower of body housing 802, can be equipped with freely to rotate respectively vertical wind direction baffle plate 827 that air-flow direction is changed to left and right direction and with flow direction up and down the beam wind that changes of direction to baffle plate 828.

Front at body housing 802 forms filter guide plate 829, under the state of opening header board 803 filter 809,810 is inserted and installs along filter guide plate 829.Right filter 809 becomes the shape of avoiding liquid crystal indicator 806.In addition, below indoor heat converter 825, receive the drain pan 830 of the drain water that is produced when being provided with the room air heat exchange.In addition, suction inlet 805 is made of liquid crystal indicator 806 modes that surround header board 803 preceding suction inlet 831 that forms and the last suction inlets 832 that are formed at above the body housing 802.

And, form from suction inlet 805 by filter 809,810, indoor heat converter 825 peripheral passage C to blow-off outlet 804.Blow out circulation to indoor from blow-off outlet 804 from the room air that suction inlet 805 sucks by this peripheral passage C.

Near the blow-off outlet 804 of body housing 802, be provided with ion generating device assembly 833.Be respectively provided with air-supply path D with peripheral passage C, to pass through ion generating device assembly 833.Air-supply path D is formed between indoor heat converter 825 and the filter 809,810, and C is connected with the peripheral passage.Thus,, but, enter peripheral passage C,, send to indoor with the air interflow that feeds among the C of peripheral passage from the interflow mouth 834 that is positioned at indoor heat converter 825 downstreams directly by ion generating device assembly 833 not by suction inlet 805.In addition, on body housing 802, form the ion that is opposite to ion generating device assembly 833 and blow out, on header board 803, form the ion blow-off outlet 836 that is communicated with this opening 835 with opening 835.Like this, by ion generating device assembly 833 being disposed on the air-supply path D, causing the phenomenon that ion generating capability descends and prevented thereby become the dewfall state.

Air conditioner is shown in Figure 67, constitute by indoor set 801 and off-premises station 840 and remote controller 808, indoor set 801 has indoor heat converter 825 and indoor fan 826, and off-premises station 840 has outdoor heat converter 841, compressor 842, expansion valve 843 and outdoor fan 844.

Air dehumidifying and humidifying apparatus 850 is housed on the indoor set 801, air dehumidifying and humidifying apparatus 850 by absorption and break away from indoor moisture moisture absorption rotor 851, suck room air dehumidifying fan 852, regeneration air sent into the regeneration fan 853 of moisture absorption rotor 851, the regenerative heater 854 of regeneration air heating that will send into moisture absorption rotor 851 and the damper 855 of toggle path constitute.

Ion generating device assembly 833 is made of ion generating electrodes body 202, pressure fan 861, assembly suction inlet 862, filter 863 and assembly housing 864 and a plurality of blow-off outlet of the ion generating device 201 (with reference to Fig. 8) of above-mentioned the 7th embodiment shown in Figure 68.

Being configured to of assembly housing 864, the housing 861a of pressure fan 861 and the box 860a that takes in ion generating electrodes body 202 are mounted to one, become by the excellent material of ozone resistance for example polybutylene terephthalate (PBT) make elongated cylindrical shape or rectangular shape, but be not limited in this shape.Pressure fan 861 is disposed at the upstream side of the axis direction of ion generating electrodes body 202, is communicated with ion generating electrodes body 202 by installing port 876.

And the air that pressure fan 861 will be taken into from the assembly suction inlet 805 that is formed on the housing 861a is sent into ion generating electrodes body 202 by installing port 876, blow vent 878, and will blow out at the anion and the cation of this generation.Can suitably select the form of housing, fan, motor according to the receiving state among the air-supply path D of indoor set 801.

Filter 863 is equipped with at 805 places at the assembly suction inlet.As filter 863, can be will remove the prefilter of dust or dust etc. be formed by combining with the deodorize filter of removing indoor stink or be any monomeric filter.

On the box 860a of assembly housing 864, form 2 blow-off outlets 804 that are opposite to ion generating electrodes body 202, for direct to indoor the 1st blow-off outlet 879 that blows out with to interflow mouthful 834 the 2nd blow-off outlets 880 that blow out by ion blow-off outlet 836.The 90 ° of configurations of staggering of two blow-off outlets 879,880.In addition, assembly suction inlet 862 be configured to the 1st blow-off outlet 879 in the same way or be configured in to stagger 180 ° and locate with the 2nd blow-off outlet 880.

And, be provided with the switching device shifter that will be switched from the blow-off direction of ion generating device assembly 833 according to the operation conditions of air conditioner, constitute by the damper 881 of each blow-off outlet 879,880 of switch and the driving device of driving damper 881.Damper 881 is the circular-arc plate corresponding to the inner peripheral surface of assembly housing 864 shown in Figure 69 A and Figure 69 B, the size in week about 1/3 in having.Damper 881 is supporting the two ends of axis direction slidably along inner peripheral surface on assembly housing 864, by one distolateral go up with small planetary gear 883 meshed gears 884 with these gear 884 rotating stepper motors 885 are constituted.When stepper motor 885 was driven, damper 881 moved, and a side blow-off outlet is opened in each blow-off outlet 879,880, and the opposing party's blow-off outlet is closed, and carries out the switching of blow-off outlet 879,880.In addition, as damper 881 is moved to the position that two blow-off outlets 879,880 are not closed always, also can be from two blow-off outlets, 879,880 blow out air.

In addition, be provided with luminous body 886 near ion generating electrodes body 202, damper 881 uses material transparent, and is in service at ion generating electrodes body 202, can be confirmed from the outside by light-struck ion generating electrodes bodies 202 such as blueness of luminous body 886.Also can directly confirm the light of luminous body 886 from the outside.

In the structure of above-mentioned ion generating device assembly 833, damper 881 is housed on the assigned position of assembly housing 864, from the outside stepper motor 885 is installed on the assembly housing 886 also temporary fixed, gear 884 is installed on the axle of stepper motor 885, and with small planetary gear 883 engagement of damper 881, fixing stepper motor 885 again.In addition, the substrate that luminous body 886 is housed is installed on the position of regulation.The insulation spacer 868 of ion generating electrodes body 202 is installed on the installing hole 887 in the assembly housing 864, the housing 861a that the pressure fan 861 of filter 863 is housed is assembled on the box 860a by screw etc., just finished the assembling of ion generating device assembly 833.This assembly 833 releasably is installed on the assigned position in the air-supply path D by screw etc.

Below, an example of the run action of air conditioner is described.At first, operation can illustrate its order by remote controller 808 beginnings.Whenever the operation change-over switch 834 of the panel of pressing remote controller 808, operational mode is just changed into " automatically " → " heating installation " → " cold air " → " dehumidifying " → " automatically ", is shown by remote controller displays portion 818.By this operation, select operational mode.

Pass through light accepting part 817 received signals of the liquid crystal indicator 806 of indoor set 801 by the signal of remote controller 808 transmission.Control device is built in the indoor set 801, shown in Figure 70, control device has the control part 890 that is made of CPU, memorizer etc., switch decision mechanism 891, indoor fan drives loop 892, and ion generating device drives loop 893, and Humidifying dehumidifying drives loop 894, damper drives loop 895, makes each device action according to the signal from remote controller 808.

In case press operation/shutdown switch 820, just on the liquid crystal indicator 806 of indoor set 801, sequentially show operation content, design temperature, indoor temperature, be in operation, when the operation of demonstration indoor temperature stops usually, in case press operation/shutdown switch 820, the demonstration of liquid crystal indicator 806 disappears, and operation stops.When changing temperature, for example, when wanting to promote 1 ℃, when clicking " Δ " switch of temperature switch 821, design temperature promotes 1 ℃, and when heating installation cold air operational mode, demonstrates design temperature on remote controller displays portion 818 and liquid crystal indicator 806.At this moment, the design temperature that shows liquid crystal indicator 806.In addition, when automatic dehumidification operating mode, in remote controller displays portion 818, only show the temperature that will promote, display setting temperature on the liquid crystal indicator 806.At this moment, the demonstration of the design temperature of liquid crystal indicator 806 turns back to the room temperature demonstration after about 4 seconds.When changing air quantity, whenever pressing air quantity switch 835, air quantity just changes, in remote controller displays portion 818, show " air quantity is automatic " → " air quantity Δ " → " air quantity Δ Δ " → " air quantity Δ Δ Δ " → " air quantity is automatic ", on liquid crystal indicator 806, show " air quantity is automatic " → " air quantity mild wind " → " the weak wind of air quantity " → " air quantity high wind " → " air quantity is automatic ".

As the desirable operational mode of above-mentioned selection.In cold air when operation,, the heat exchange media that becomes the condition of high temperature by compressor 842 condensations is sent into the outdoor heat converter 841 of off-premises station 840.In outdoor heat converter 841, by outdoor fan 844 extraneous gas is sent into outdoor heat converter 841, obtain the heat of heat exchange media, with heat of cooling switched-media.Heat exchange media is by expansion valve 843, by indoor heat converter 825 evaporation gasifications.The room air that is sucked by indoor fan 826 passes through indoor heat converter 825, obtains heat by indoor heat converter 825.So, indoor air cooling, circulation are with refrigeration.

It is opposite that heating installation operation and cold air move, and forms by cycling hot switched-media on the contrary.The heat exchange media of condensation is sent in the indoor heat converter 825, and the indoor air by indoor heat converter 825 warms, to carry out room heater.Heat exchange media is by expansion valve 843, by outdoor heat converter 841 evaporations.In addition,, carry out heat exchange, obtain heat, and return compressor 842 from extraneous gas with the extraneous gas of sending in the outdoor heat converter 841 by outdoor fan 844.

At this,, be by indoor fan 826, suck and carry out by filter 809,810, to indoor heat converter 825 from the suction inlet 832 of the suction inlet 831 of the header board 803 of indoor set 801 and body housing 802 as flowing of air.Because indoor air imports the whole surface of indoor heat converter 825, the heat exchanger effectiveness height that is undertaken by indoor heat converter 825.By indoor heat converter 825, blow out from blow-off outlet 840.

In addition, when the operation of air conditioner began, interlock also applied ac high voltage on ion generating device assembly 833 with it, generated anion and cation.When beginning with the operation of air conditioner, drive stepper motor 885, shown in Figure 69 A, damper 881 moves, and opens the 2nd blow-off outlet 880, and air-supply path D is communicated with blow-off outlet 804 by interflow mouthfuls 834.

Suck and part of air by filter 809,810 enters air-supply path D from suction inlet 831, and suck in the ion generating device assembly 833.Filter 863 by assembly housing 864, the air of removing stink or dust include anion and the cation that is generated by 202 actions of ion generating electrodes body, and blow out from the 2nd blow-off outlet 880.The air that blows out from ion generating device assembly 833 through air-supply path D with mix from interflow mouth 834 heat-exchanged air that flow through peripheral passage C, blow out by blow-off outlet 804, it is everywhere indoor that cross-ventilation is recycled to.Therefore, with indoor air-conditioning together, can obtain by the effect of removing indoor planktonic bacteria of killing due to the effect of anion and cation.

In addition, this air conditioner also can move individually ionic ion generating device assembly 833 takes place.At this moment, at the operation of air-conditioner stopping period, make the group switch 824 of remote controller 808 be " connection " state.So, apply ac high voltage on ion generating electrodes body 202, also the indoor fan 826 to indoor set 801 applies ac high voltage.In addition, drive stepper motor 885, shown in Figure 69 B, damper 881 moves, and opens the 1st blow-off outlet 879, and air-supply path D is communicated with ion blow-off outlet 836.

Flow into the air-supply path D by pressure fan 861 from suction inlet 805 inhaled airs by indoor fan 826, suck in the ion generating device assembly 833.Comprising the anion that blows out from ion generating device assembly 833 and the air of cation sends to indoor from blow-off outlet 836 by the 1st blow-off outlet 879.Thus, irrespectively also can move individually, can obtain the planktonic bacteria sterilization effects in the room air with operation of air conditioner, convenient as the use of the such commodity of air conditioner.

In addition, by the operation of air dehumidifying and humidifying apparatus 850, to indoor air dewetting, humidification, the rerum natura of adjustable air.At this, during operation air dehumidifying and humidifying apparatus 850, simultaneously also also with operation ion generating device assembly 833.The humidity switch 822 or the ventilation switch 823 of remote controller 808 are in " connection " state, when the operation of beginning air dehumidifying and humidifying apparatus 850, ion generating device assembly 833 are applied ac high voltage, also on indoor fan 826, apply.In addition, open the 1st blow-off outlet 879 ground at damper 881 and drive stepper motor 885, air-supply path D is communicated with ion blow-off outlet 836.

When blowing out the air that comprises anion and cation, blow out the air of adjusting water quantities from Humidifying dehumidifying with blow-off outlet 807, to kill and to remove the planktonic bacteria in the room air from ion blow-off outlet 836.

At this,, shown in Figure 71, on the 1st blow-off outlet 879, can be provided with the wind direction guiding mechanism that changes air flow as another routine ion generating device assembly 833 of present embodiment.Other structures are same as the previously described embodiments.

As the wind direction guiding mechanism, be a plurality of vertical dampers 870 to be housed freely to rotate at the 1st blow-off outlet 879 places, each vertical damper 870 is connected by web 871.And by not shown stepper motor, each vertical damper 870 or be positioned arbitrarily angledly or waves continuously.Thus, can blow out to desirable direction comprising ionic air, or arbitrarily blow out.

Ion generating device assembly 833 as the another example of present embodiment shown in Figure 72, can be arranged at the control substrate 872 that control loop or electric power loop are housed on the ion generating device assembly 833, to drive ion generating device 201 or pressure fan 861.That is, the incorporating section 873 of taking in control substrate 872 forms as one with housing 861a, and releasably is installed with at this control substrate 872.And, on body housing 802, shown in Figure 73, be provided with the splicing ear 874 of ion generating device assembly 833 usefulness in its front.This splicing ear 874 is lived by cover cap usually.

After installing to ion generating device assembly 833 on the assigned position in the body housing 802, will be connected with splicing ear 874 from the cable of control substrate.Thus, to ion generating device assembly 833 supply line voltages, transmit control signal from air conditioner.Thereby, adopting such ion generating device assembly 833, subsequent installation becomes easily, and can select according to the needs of user.

In the present embodiment, as the conditioner that the ion generating device assembly is housed, be to be that example is illustrated with the air conditioner, but remove in addition, but also mounting on commodity such as the heater of air purifier, dehumidifier, humidifier, refrigerator, oil formula tape drum blower fan, petroleum furnace, electric furnace.Under arbitrary occasion, all can under the effect of anion and cation, sterilize.In addition, in the ion generating device assembly, pressure fan is disposed at the upstream side of ion generating electrodes body, but also can be arranged at the downstream of ion generating electrodes body on the contrary.

In addition, blow-off outlet is not limited to 2, can be 3, and at this moment, each blow-off outlet place is provided with shutter respectively, by the switch of shutter, and difference switch blow-off outlet, changeable blow-off outlet.A plurality of blow-off outlets are made up set blow-off direction, then can obtain variety of way according to application target.

Below, with reference to description of drawings the 17th embodiment of the present invention.Figure 74 is for schematically illustrating the pie graph of the ion generating device 201 ' of the 17th embodiment of the present invention.In Figure 74,202 is the ion generating electrodes body of the ion generating device 201 (with reference to Fig. 8) of above-mentioned the 7th embodiment.

Ion generating device 201 ' applies when connecting with electrode as voltage by ion generating electrodes body 202, with electrode in it 204 external electrode 205 is constituted as high-voltage ac power 206 and the on and off switch (not shown) that earthy electrode connects.And the concentration for the ozone that generates in the instrumentation space is provided with ozone concentration determinator 12, its ozone sensing element is approached glass tubing 203 be provided with.

In the ion generating device 201 ' of above structure, in case connect (ON) on and off switch, just from the side generation anion and the cation of the glass tubing 203 of ion generating electrodes body 202.At this moment, also generate ozone.At this,, carry out following experiment for formation speed and the life-span of obtaining the ozone that generates by the action of this ion generating device 201 '.

Example 26

Glass tubing 203 as ion generating electrodes body 202, use internal diameter to be 1.0mm, length cylindrical shape pyrex pipe as 150mm as 10mm, thickness, as interior electrode 204, using plain weave silk footpath is 48 purpose metal gauzes as the length of rustless steel 304 steel wires of 0.23mm as 80mm, mesh count, and as external electrode 205, using plain weave silk footpath is 16 purpose metal gauzes as the length of rustless steel 304 steel wires of 0.4mm as 80mm, mesh count.

And, to have ion generating device 201 ' of ion generating electrodes body 202 so is arranged in the sealed container of allyl resin system that volume is 27L, with external electrode 205 as earthing potential, by high-voltage ac power 206, it is that 1.1kV, frequency are the alternating voltage of 12kHz that internal electrode 204 applies virtual value, with ozone concentration determinator 12, mensuration is by the concentration of the ozone of ion generating device 201 ' generation, in addition, as ozone concentration determinator 12, use (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001.

Figure 75 is for being in the atmosphere below the 0.001ppm on and off switch 207 to be connected (ON) and kept the variation of mensuration ozone concentration when switching to disconnections (OFF) afterwards 6 minutes in the initial stage of ozone concentration.Shown in Figure 75, no matter on and off switch 207 is to connect under (ON) or (OFF) state of disconnection, and the variation of ozone concentration also is similar to exponential function.

, when the indoor generation ozone of general family etc., ozone concentration C _0zoneTo change at its initial value be 0 o'clock time, obtain by following formula.

C _0zone＝(n ₀/(η+K))(1-exp(-(η+K)t))

At this, n ₀Be the formation speed of ozone, η is the attenuation quotient (being the inverse of the life-span τ of ozone) of ozone, and K is a ventilation rate, and t is the time.

In addition, the concentration C that decays and cause naturally of ozone _0zoneTime change and to be expressed from the next.

C _0zone＝C _0exp(-(η+K)t)

At this, C ₀Initial stage concentration for ozone.

And curve negotiating and above-mentioned formula that the time of the ozone concentration that actual measurement is shown of Figure 75 changes match, and can calculate the formation speed and the life-span of ozone, ozone formation speed n ₀Be 1.02mg/min, life-span τ is 170.6sec.In addition, ventilation rate K is 0., the life-span τ of ozone in the atmosphere of the indoor grade of general family usually below 180sec.The life-span τ of the ozone of therefore, trying to achieve holds sufficient credibility.

Adopt the words of present embodiment, the ozone formation speed that is had based on ion generating device 201 as inherent character, control on and off switch 207 remains in the time of connection (ON) and keeps disconnecting the time of (OFF), so that ion generating device 201 moves off and on, when can guarantee to have the anion of capacity and cation, can reduce the generation of ozone.

Below, with reference to description of drawings the 18th embodiment of the present invention.Figure 76 is for schematically illustrating the sectional view of the air purifier 300 ' of the 18th embodiment of the present invention.In Figure 76, the parts identical with the air purifier 300 of above-mentioned the 2nd embodiment of Fig. 3 are marked by identical sequence number, at this, omit its explanation.

The architectural feature of present embodiment is, shown in Figure 76, near the blow-off outlet 305 in air-supply path, be provided with the ion generating electrodes body 202 of the ion generating device 201 ' (with reference to Figure 74) of above-mentioned the 17th embodiment, simultaneously, near its downstream, be provided with the ozone sensor 13 that ozone concentration detects usefulness.As ozone sensor 13, can use the pick off that utilizes ultra-violet absorption formula, polarography or semiconductor process.

When making the air purifier 300 ' operation of said structure, blowing fan 302 revolutions, the air from suction inlet 303 suction draft paths, blows out from blow-off outlet 305 behind dust or smelly composition by in the process of filter 304.At this moment, when the action of ion generating device 201 ' was begun, anion that generates near the space ion generating electrodes body 202 and cation were also along with the air that purifies together blows out.And, detect near ion generating electrodes body 202 generation and the concentration of the ozone that blows out by ozone sensor 13.

Below, illustrate the bactericidal property of the air purifier 300 ' of present embodiment, but the air purifier 300 ' of present embodiment is not limited to following example to airborne planktonic bacteria, can suitably change operation condition etc. and move.

Example 27

In the air purifier 300 ' of ion generating device 201 ' with above-mentioned example 26, ozone sensor 13 is arranged at apart from ion generating electrodes body 202 is the 5cm place, be 0.8m with blowing fan 302 with the air quantity ³When/min moves down,, ion generating device 201 ' is done with the earthquake at intermittence of various intervals, measured the concentration of the ozone that takes place by ion generating device 201 ' by on and off switch 207.At this moment, the interval of the ON-OFF of on and off switch 207 is shown in the table 10 with the pass of ozone concentration.In addition, the mensuration of ozone concentration is used (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001.

Just as shown in table 10, when making ion generating device 201 ' continuous action, the concentration of ozone is up to 0.05ppm, surpasses to be the safe benchmark of 0.01ppm, but when intermitten, by such interval, the concentration of ozone can be reduced to below the reference value.

Therefore, by ozone sensor 13, in the concentration of following the trail of the ozone that is generated, change the interval of the intermitten of ion generating device 201 ', can suppress the generation of deleterious ozone, and send the anion and the cation that produce by ion generating device 201 ', kill the antibacterial that swims in the air.

Below, with reference to description of drawings the 19th embodiment of the present invention.Figure 77 is for schematically illustrating the sectional view of the air conditioner 400 ' of the 19th embodiment of the present invention.In Figure 77, the parts identical with the air conditioner 400 of above-mentioned the 3rd embodiment of Fig. 4 are marked by identical sequence number, at this, omit its explanation.

The architectural feature of present embodiment is, shown in Figure 77, near the blow-off outlet 405 in air-supply path, be provided with the ion generating electrodes body 202 of the ion generating device 201 ' (with reference to Figure 74) of above-mentioned the 17th embodiment, simultaneously, near its downstream, be provided with the ozone sensor 14 that ozone concentration detects usefulness.As ozone sensor 14, can use the pick off that utilizes ultra-violet absorption formula, polarography or semiconductor process.

When making the air conditioner 400 ' operation of said structure, blowing fan 402 revolutions, the air from suction inlet 403 suction draft paths is in passing through the process of filter 404, behind dust or smelly composition, carry out heat exchange by heat exchanger 406 and cold-producing medium, and blow out from blow-off outlet 405.At this moment, when the action of ion generating device 201 ' was begun, anion that generates near the space ion generating electrodes body 202 and cation were also along with the air that purifies together blows out.And, detect near ion generating electrodes body 202 generation and the concentration of the ozone that blows out by ozone sensor 14.

Below, illustrate the bactericidal property of the air conditioner 400 ' of present embodiment, but the air conditioner 400 ' of present embodiment is not limited to following example to airborne planktonic bacteria, can suitably change operation condition etc. and move.

Example 28

In the air conditioner 400 ' of ion generating device 201 ' with above-mentioned example 26, ozone sensor 14 is arranged at apart from ion generating electrodes body 202 is the 5cm place, be 0.8m with blowing fan 402 with the air quantity ³When/min moves down,, ion generating device 201 ' is done with the earthquake at intermittence of various intervals, measured the concentration of the ozone that takes place by ion generating device 201 ' by on and off switch 207.At this moment, the interval of the ON-OFF of on and off switch 207 is shown in the table 11 with the pass of ozone concentration.In addition, the mensuration of ozone concentration is used (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001.

Just as shown in table 11, when making ion generating device 201 ' continuous action, the concentration of ozone is 0.05ppm, than higher, but when intermitten, by such interval, the concentration of ozone can be reduced to below the 0.01ppm.

Therefore, by ozone sensor 14, in the concentration of following the trail of the ozone that is generated, change the interval of the intermitten of ion generating device 201 ', can suppress the generation of deleterious ozone, and send the anion and the cation that produce by ion generating device 201 ', can kill the antibacterial that swims in the air.

Below, with reference to description of drawings the 20th embodiment of the present invention.Figure 78 is for schematically illustrating the sectional view of the air purifier of the 20th embodiment of the present invention.In Figure 78,202 is the ion generating electrodes body of the ion generating device 201 (with reference to Fig. 8) of above-mentioned the 7th embodiment, 912 is air suction inlet, 913 is the prefilter that is arranged at the downstream of air suction inlet 912,914 is the charcoal filter of the ozone decomposition catalyst of mounting manganese dioxide etc., 915 is the HEPA filter, and 916 is blowing fan, and 917 is the air blow-off outlet.In this structure, the external electrode 205 of ion generating electrodes body 202 as earthing potential, is applied alternating voltage by the internal electrode 204 of high-voltage ac power (not shown).

, when the interior electrode 204 of ion generating electrodes body 202 and external electrode 205 use the metal gauze of stainless steel, observe, according to the mesh count of metal gauze, the anion that produces when applying alternating voltage and the concentration of cation are (individual/as cc) to change.

Example 29

As glass tubing 203, use external diameter to be 1.0mm, length cylindrical shape pyrex pipe as 150mm as 12mm, thickness, using plain weave silk footpath as interior electrode 204 is 48 purpose metal gauzes as the length of rustless steel 304 steel wires of 0.23mm as 80mm, mesh count, and to use the plain weave silk as external electrode 205 directly be that the length of rustless steel 304 steel wires of 0.15～0.22mm is 9～100 purpose metal gauzes as 80mm, mesh count.

Then, as earthing potential, by high-voltage ac power, applying virtual value on interior electrode 204 is that 1.1～1.4kV, frequency are the alternating voltage of 15kHz with external electrode 205.And, the measuring point at 20cm place, distance glass tubing 203 side, measuring degree of excursion with the length of schooling air ion enumerator 83-1001B of (strain) ダ Application section is 1cm ²The anion that/Vsec is above and the concentration of cation.Its result is respectively by shown in Figure 79.In addition, ion concentration is measured and is used (strain) ダ Application length of schooling air ion enumerator 83-1001B of section.

Measurement result is as shown in Figure 79, and when increasing the mesh count of external electrode 205, the ion concentration of generation has the trend of rising, but mesh count is when 30 orders are above, and ion concentration is roughly certain, is anion and cation about 20～400,000/cc.

, when applying alternating current power supply on ion generating electrodes body 202, together also producing a lot of ozone with ion, even because of ozone does not have unpleasant stink, also is harmful material, wishes to do one's utmost to reduce the generating capacity of ozone.

Example 30

Then, as earthing potential, by high-voltage ac power, applying virtual value on interior electrode 204 is that 1.1～1.4kV, frequency are the alternating voltage of 15kHz with external electrode 205.And, the measuring point at 20cm place, distance glass tubing 203 side, the concentration of mensuration ozone.Measure and use (strain) weak former industry system ultra-violet absorption formula ozone monitor EG-2001.Its result is respectively by shown in Figure 80.

Shown in Figure 80, when increasing the mesh count of external electrode 205, the ozone concentration of generation has the trend of rising, but as seen mesh count roughly is certain when 30～60 order scopes.

Therefore, for the generation that suppresses ozone to guarantee ion generating capacity to greatest extent, when interior electrode 204 used 48 purpose metal gauzes, the mesh count of wishing external electrode 205 obviously was in 30～60 purpose scopes.

Below, the ion generating electrodes body 202 that will have characteristic like this is arranged near air blow-off outlet 917 air purifiers the bactericidal property of airborne planktonic bacteria is estimated shown in Figure 78.

Example 31

This air purifier is arranged on lengthwise is 2.0m, growing crosswise is the inside of 2.5m, high subject area for 2.7m.And general living bacterium and the fungus that will cultivate on pre-culture intersperse among in the container.Then, on ion generating electrodes body 202, apply in the alternating voltage that virtual value is 1.1～1.4kV, the operation of beginning air purifier, whenever the process official hour, just with the German Biotest system RCS of society radiant detector with the air in the speed extraction area of 40L/min 4 minutes, with the mensuration bacterial population.Its result is by table 12 illustrate.

In the example, as glass tubing 203, use external diameter to be 1.0mm, length cylindrical shape pyrex pipe as 150mm as 12mm, thickness, using plain weave silk footpath as interior electrode 204 is 48 purpose metal gauzes as the length of rustless steel 304 steel wires of 0.23mm as 80mm, mesh count, and to use the plain weave silk as external electrode 205 directly be that the length of rustless steel 304 steel wires of 0.15～0.22mm is 48 purpose metal gauzes as 80mm, mesh count.And in the comparative example, using mesh count is the interior electrode 204 and external electrode 205 of 100 purpose metal gauzes.

Air purifier operation beginning is after 3 hours, and general living bacterium is removed 92% in the zone, and fungus is removed 92%, can kill most of antibacterial.In the comparative example occasion, general living bacterium after 3 hours and the slip of fungus are respectively 82%, 82%, and the bactericidal action of example is more remarkable.In addition, nearly all be decomposed, can not feel the distinctive stink of ozone by the charcoal filter 914 of mounting ozone decomposition catalyst with anion and the produced simultaneously ozone of cation.

Thereby when adopting the air purifier of the ion generating device 202 with present embodiment, the antibacterial that swims in the air can be killed and remove to confirmation well.

Below, with reference to description of drawings the 21st embodiment of the present invention.Figure 81 is for schematically illustrating the sectional view of the air conditioner of the 21st embodiment of the present invention.In Figure 81,202 is the ion generating electrodes body of the ion generating device 201 (with reference to Fig. 8) of above-mentioned the 7th embodiment, 1042 is air suction inlet, 1043 is the prefilter that is arranged at the downstream of

air suction inlet

1042,1044 is the charcoal filter of the ozone decomposition catalyst of mounting manganese dioxide etc., 1046 is blowing fan, and 1047 is that air blow-off outlet, 1048 is heat exchanger.

Below, the ion generating electrodes body 202 that will have the illustrated characteristic of above-mentioned the 20th embodiment is arranged near air blow-off outlet 1042 air conditioners the bactericidal property of airborne planktonic bacteria is estimated shown in Figure 81.

Example 32

This air conditioner is arranged on lengthwise is 2.0m, growing crosswise is the inside of 2.5m, high subject area for 2.7m.And general living bacterium and the fungus that will cultivate on pre-culture intersperse among in the container.Then, on ion generating electrodes body 202, apply in the alternating voltage that virtual value is 1.1～1.4kV, the operation of beginning air purifier, whenever the process official hour, just with the German Biotest system RCS of society radiant detector with the air in the speed extraction area of 40L/min 4 minutes, with the mensuration bacterial population.Its result is by table 13 illustrate.

After operation of air-conditioner began 3 hours, general living bacterium was removed 91% in the zone, and fungus is removed 92%, can kill most of antibacterial.In the comparative example occasion, general living bacterium after 3 hours and the slip of fungus are respectively 80%, 87%, and the bactericidal action of example is more remarkable.In addition, nearly all be decomposed, can not feel the distinctive stink of ozone by the charcoal filter 1044 of mounting ozone decomposition catalyst with anion and the produced simultaneously ozone of cation.

Thereby when adopting the air conditioner of the ion generating device 202 with present embodiment, the antibacterial that swims in the air can be killed and remove to confirmation well.

In addition, in above-mentioned example,, be to use plain weave to become the metal gauze of rustless steel 304 steel wires of the resistance to oxidation material of electric conductivity, but the resistance to oxidation material also can use other metals such as tungsten, platinum, gold, silver, palladium as interior electrode 204 and external electrode 205.Particularly, during noble metals such as use platinum, gold, silver, palladium, also the surface of the metal gauze of metal that can comparisons such as titanium is cheap forms the electrode of overlay film.

The present invention is not limited to above-mentioned any embodiment, can carry out various corrections or distortion.Therefore, the present invention is not subjected to specifically described restriction, can by the scope of additional claim explained.

Utilizability on the industry

Adopt the method for disinfection of the present invention of above explanation, the generation anion is O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily and cation are H ⁺(H ₂O) _mIn the time of (m be natural number) arbitrarily, by these ions are sent in air, the hydrogen peroxide H that is generated by these ion generation chemical reactions as spike ₂O ₂Or the oxidation reaction of free radical OH, can kill the antibacterial that swims in the air.

At this moment, if the concentration of these anion and cation apart from its origination point 10cm place all 10,000/more than the cc, then can obtain sufficient bactericidal effect.

In addition, being characterized as of ion generating device of the present invention has the 1st electrode and the 2nd electrode that this dielectric opposite disposed in dielectric and clamping, and by apply alternating voltage between aforementioned the 1st electrode and aforementioned the 2nd electrode, the generation anion is O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily, cation are H ⁺(H ₂O) _m(m for natural number) arbitrarily.And, by these ions are sent in air, by the hydrogen peroxide H as spike that further chemical reaction generated of these ions after it takes place ₂O ₂Or the oxidation reaction of free radical OH, can kill the antibacterial that swims in the air.

At this moment, by applying the lower alternating voltage of virtual value below 2.0kV, can guarantee the concentration of effective germ-resistant anion and cation.Be specially, its concentration apart from its origination point 10cm place all 10,000/more than the cc.

And, at the external diameter of aforementioned dielectric be below the 20mm, thickness is below the 1.6mm, the mesh count of electrode is 40 orders in aforementioned, when the mesh count of aforementioned external electrode is 16 orders, by applying virtual value is lower alternating voltage below the 2.0kV, the generation of ozone can be suppressed, the concentration of effective germ-resistant anion and cation can be guaranteed.Be specially, its arbitrary concentration apart from its origination point 10cm place all 10,000/more than the cc.

In addition, as the lead that links to each other with described electrode, can use the stainless steel silk that coats by ozone proof polyfluoroethylene resin.

At this moment, the thickness of slab of aforementioned interior electrode is so long as can get final product more than the thickness of bonding aforementioned wire at least.

In addition, ion generating device of the present invention has columnar dielectric, the tabular interior electrode of this dielectric opposite disposed and netted external electrode in clamping, by applying alternating voltage between electrode in described and the described external electrode, to produce anion and cation.

Adopt this structure, the discharge that takes place between electrode becomes a little line, can stably generate anion and cation.And,, can obtain same effect by adding and the same modification of above-mentioned the 1st structure.

In addition, the axial length of aforementioned external electrode is set for longer than the length of electrode in aforementioned, simultaneously the configuration relation of these electrodes is become aforementioned external electrode project to aforementioned on the electrode time, aforementioned in electrode package when being contained in concerning in the projection of aforementioned external electrode, the performance of ion generating device is improved further.

And, in described, be provided with a plurality of holes on the electrode, when the periphery in these holes forms to the side-prominent projection of described dielectric one, because the part that electric field is easily concentrated is because of in the formation of the side of cylinder, so can realize even and stable discharge on the side of interior electrode.

Adopt this conditioner, can give ion generating device with alternating voltage by high-voltage ac power, and anion that is produced by ion generating device and cation are sent airborne broadness to by pressure fan scope.And, under these ionizations, can kill the antibacterial that swims in the air.In addition, by air circulation, can remove the dust that comprises in the air or dust, smelly composition by filter.Thus, can realize living environment comfortable and cleaning.

Adopt this conditioner, can give ion generating device with alternating voltage by high-voltage ac power, and anion that is produced by ion generating device and cation are sent airborne broadness to by pressure fan scope.And, under these ionizations, can kill the antibacterial that swims in the air.In addition, by air circulation, when the temperature of air is regulated by heat exchanger, can remove the dust that comprises in the air or dust, smelly composition by filter.Thus, can realize living environment comfortable and cleaning.

Table 1

Air purifier running time (hour)		????0	????1	????3	????5
Air purifier running time (hour)		????0	????1	????3	????5	General living bacterium	Number (m ^-3) slip (%)	????250 ????0	????110 ????56	????70 ????72	????35 ????86
Fungus	Number (m ^-3) slip (%)	????510 ????0	????215 ????58	????125 ????75	????50 ????90	General living bacterium	Number (m ^-3) slip (%)	????250 ????0	????110 ????56	????70 ????72	????35 ????86

Table 2

The operation of air-conditioner time (hour)		????0	????1	????3	????5
The operation of air-conditioner time (hour)		????0	????1	????3	????5	General living bacterium	Number (m ^-3) slip (%)	????240 ????0	????100 ????58	????60 ????75	????35 ????85
Fungus	Number (m ^-3) slip (%)	????520 ????0	????210 ????60	????115 ????78	????40 ????92	General living bacterium	Number (m ^-3) slip (%)	????240 ????0	????100 ????58	????60 ????75	????35 ????85

Table 3

Air purifier running time (hour)		????0	????1	????3	????5
Air purifier running time (hour)		????0	????1	????3	????5	General living bacterium	Number (m ^-3) slip (%)	????260 ????0	????120 ????54	????75 ????71	????40 ????85
Fungus	Number (m ^-3) slip (%)	????500 ????0	????205 ????59	????120 ????76	????45 ????91	General living bacterium	Number (m ^-3) slip (%)	????260 ????0	????120 ????54	????75 ????71	????40 ????85

Table 4

The operation of air-conditioner time (hour)		??0	????1	????3	????5
The operation of air-conditioner time (hour)		??0	????1	????3	????5	General living bacterium	Number (m ^-3) slip (%)	??250 ??0	????100 ????60	????65 ????74	????40 ????84
Fungus	Number (m ^-3) slip (%)	??520 ??0	????215 ????59	????115 ????78	????50 ????90	General living bacterium	Number (m ^-3) slip (%)	??250 ??0	????100 ????60	????65 ????74	????40 ????84

Table 5

	Capacitance pF	Loss %
	Capacitance pF	Loss %	Under the normal condition	????38.8
The state of 1mm staggers	????38.2	????-1.55	Under the normal condition	????38.8
The state of 1mm staggers	????38.2	????-1.55	The state of 2mm staggers	????37.8	????-2.58
The state of 3mm staggers	????37.3	????-3.87	The state of 2mm staggers	????37.8	????-2.58
The state of 3mm staggers	????37.3	????-3.87	The state of 4mm staggers	????36.8	????-5.15
The state of 5mm staggers	????36.2	????-6.70	The state of 4mm staggers	????36.8	????-5.15

Table 6

Frequency (kHz)	Virtual value (V)	Negative ion concentration (individual/cc)	Cation concentration (individual/cc)	Ozone concentration (ppm)
Frequency (kHz)	Virtual value (V)	Negative ion concentration (individual/cc)	Cation concentration (individual/cc)	Ozone concentration (ppm)	????25	????44	????130	????79	0.001 below
????25	????440	????4,966	????13,910	0.001 below	????25	????44	????130	????79	0.001 below
????25	????440	????4,966	????13,910	0.001 below	????25	????1,100	????32,551	????36,271	0.001 below
????0.06	????2,000	????26,794	????11,443	????0.005	????25	????1,100	????32,551	????36,271	0.001 below
????0.06	????2,000	????26,794	????11,443	????0.005	????17	????1,700	????39,067	????30,204	????0.005
????17	????2,000	????54,867	????53,843	????0.015	????17	????1,700	????39,067	????30,204	????0.005
????17	????2,000	????54,867	????53,843	????0.015	????26	????2,000	????52,551	????55,681	????0.010
????30	????1,800	????33,163	????31,655	????0.005	????26	????2,000	????52,551	????55,681	????0.010

Table 7

Glass tubing
Glass tubing			External diameter (mm)	Wall thickness (mm)	Static capacity (pF)
????17	????1.2	????34.0	External diameter (mm)	Wall thickness (mm)	Static capacity (pF)
????17	????1.2	????34.0	????20	????1.2	????36.0
????20	????1.6	????35.0	????20	????1.2	????36.0
????20	????1.6	????35.0	????24	????1.2	????51.0

Table 8

Air purifier running time (hour)		??0	????1	??2	??3	??4	??5
Air purifier running time (hour)		??0	????1	??2	??3	??4	??5	General living bacterium	Number (m ^-3) slip (%)	??240 ??0	????90 ????60	??55 ??77	??40 ??83	??30 ??88	??25 ??90
Fungus	Number (m ^-3) slip (%)	??520 ??0	????165 ????68	??105 ??80	??65 ??88	??45 ??91	??40 ??92	General living bacterium	Number (m ^-3) slip (%)	??240 ??0	????90 ????60	??55 ??77	??40 ??83	??30 ??88	??25 ??90

Table 9

The operation of air-conditioner time (hour)		??0	????1	????2	????3	????4	????5
The operation of air-conditioner time (hour)		??0	????1	????2	????3	????4	????5	General living bacterium	Number (m ^-3) slip (%)	??230 ??0	????85 ????63	????45 ????80	????30 ????87	????20 ????91	????15 ????93
Fungus	Number (m ^-3) slip (%)	??500 ??0	????150 ????70	????85 ????83	????50 ????90	????40 ????92	????30 ????94	General living bacterium	Number (m ^-3) slip (%)	??230 ??0	????85 ????63	????45 ????80	????30 ????87	????20 ????91	????15 ????93

Table 10

Example	Intermittent duty	3 seconds ON-3 OFF second	5 seconds ON-5 OFF second	10 seconds ON-10 OFF second
	Intermittent duty	3 seconds ON-3 OFF second	5 seconds ON-5 OFF second	10 seconds ON-10 OFF second	Ozone concentration	??0.006ppm	??0.008ppm	??0.015ppm
	Comparative example	Operation continuously	Common ON			??0.006ppm	??0.008ppm	??0.015ppm
Ozone concentration		Operation continuously	Common ON			??0.05ppm

Table 11

Example	Intermittent duty	3 seconds ON-3 OFF second	5 seconds ON-5 OFF second	10 seconds ON-10 OFF second
	Intermittent duty	3 seconds ON-3 OFF second	5 seconds ON-5 OFF second	10 seconds ON-10 OFF second	Ozone concentration	??0.006ppm	??0.008ppm	?0.015ppm
	Comparative example	Operation continuously	Common ON			??0.006ppm	??0.008ppm	?0.015ppm
Ozone concentration		Operation continuously	Common ON			??0.05ppm

Table 12

Air purifier running time (hour)			????0	??1	??2	??3	??4	??5
Air purifier running time (hour)			????0	??1	??2	??3	??4	??5	Example	General living bacterium	Number (m ^-3) slip (%)	????245 ????0	??75 ??69	??35 ??86	??20 ??92	??10 ??96	??5 ??98
Fungus	Number (m ^-3) slip (%)	????500 ????0	??140 ??72	??85 ??83	??40 ??92	??25 ??95	??15 ??97			General living bacterium	Number (m ^-3) slip (%)	????245 ????0	??75 ??69	??35 ??86	??20 ??92	??10 ??96	??5 ??98
Fungus	Number (m ^-3) slip (%)	????500 ????0	??140 ??72	??85 ??83	??40 ??92	??25 ??95	??15 ??97	Comparative example		General living bacterium	Number (m ^-3) slip (%)	????250 ????0	??120 ??52	??60 ??76	??45 ??82	??30 ??88	??15 ??94
Fungus	Number (m ^-3) slip (%)	????500 ????0	??300 ??40	??140 ??72	??90 ??82	??50 ??90	??30 ??94			General living bacterium	Number (m ^-3) slip (%)	????250 ????0	??120 ??52	??60 ??76	??45 ??82	??30 ??88	??15 ??94

Example	Interior electrode (voltage application electrode): 48 order external electrodes (ground electrode): 48 orders
Example		Comparative example	Interior electrode (voltage application electrode): 100 order external electrodes (ground electrode): 100 orders

Table 13

The operation of air-conditioner time (hour)			????0	??1	??2	??3	??4	??5
The operation of air-conditioner time (hour)			????0	??1	??2	??3	??4	??5	Example	General living bacterium	Number (m ^-3) slip (%)	????220 ????0	??80 ??64	??35 ??84	??20 ??91	??15 ??93	??10 ??95
Fungus	Number (m ^-3) slip (%)	????530 ????0	??140 ??74	??70 ??87	??40 ??92	??30 ??94	??15 ??97			General living bacterium	Number (m ^-3) slip (%)	????220 ????0	??80 ??64	??35 ??84	??20 ??91	??15 ??93	??10 ??95
Fungus	Number (m ^-3) slip (%)	????530 ????0	??140 ??74	??70 ??87	??40 ??92	??30 ??94	??15 ??97	Comparative example		General living bacterium	Number (m ^-3) slip (%)	????230 ????0	??150 ??35	??70 ??70	??45 ??80	??25 ??89	??15 ??93
Fungus	Number (m ^-3) slip (%)	????520 ????0	??250 ??52	??130 ??75	??70 ??87	??45 ??91	??20 ??96			General living bacterium	Number (m ^-3) slip (%)	????230 ????0	??150 ??35	??70 ??70	??45 ??80	??25 ??89	??15 ??93

Claims

1. a method for disinfection is characterized in that, sends anion and cation in air, kills the antibacterial that swims in the air under these ionic effects.

2. according to the described method for disinfection of claim 1, described cation is H ⁺(H ₂O) _m(m for natural number) arbitrarily.

3. according to the described method for disinfection of claim 1, described anion is O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily.

4. according to the described method for disinfection of claim 1, described cation is H ⁺(H ₂O) _m(m for natural number) arbitrarily, described anion is O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily.

5. a method for disinfection is characterized in that, the generation anion is O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily and cation are H ⁺(H ₂O) _mIn the time of (m be natural number) arbitrarily, these ions are sent the hydrogen peroxide H that is generated by these ion generation chemical reactions as spike in air ₂O ₂Or the oxidation reaction of free radical OH is killed the antibacterial that swims in the air.

6. according to each described method for disinfection of claim 1～5, the concentration of described anion and described cation apart from its origination point 10cm place all 10,000/more than the cc.

7. ion generating device, the generation anion is O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily, cation are H ⁺(H ₂O) _m(m for natural number) arbitrarily is characterized in that, by the antibacterial that swims in these ionic action kill air.

8. ion generating device is with anion O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily, cation H ⁺(H ₂O) _m(m for natural number) arbitrarily respectively produce apart from its origination point 10cm place 10,000/more than the cc, it is characterized in that, by the antibacterial that swims in these ionic action kill air.

9. an ion generating device has the 1st electrode and the 2nd electrode that this dielectric opposite disposed in dielectric and clamping, by apply alternating voltage between described the 1st electrode and described the 2nd electrode, produces anion O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily and cation H ⁺(H ₂O) _m(m for natural number) arbitrarily.

10. an ion generating device has the 1st electrode and the 2nd electrode that this dielectric opposite disposed in dielectric and clamping, by apply alternating voltage between described the 1st electrode and described the 2nd electrode, with anion O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily, cation H ⁺(H ₂O) _m(m for natural number) arbitrarily respectively produce apart from its origination point 10cm place 10,000/more than the cc.

11. an ion generating device has the 1st electrode and the 2nd electrode that this dielectric opposite disposed in dielectric and clamping, by apply the alternating voltage of virtual value below 2.0kV between described the 1st electrode and described the 2nd electrode, produces anion O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily and cation H ⁺(H ₂O) _m(m for natural number) arbitrarily.

12. an ion generating device has the 1st electrode and the 2nd electrode that this dielectric opposite disposed in dielectric and clamping, by apply the alternating voltage of virtual value below 2.0kV between described the 1st electrode and described the 2nd electrode, with anion O ₃ ^-(H ₂O) _n(n for natural number) arbitrarily, cation H ⁺(H ₂O) _m(m for natural number) arbitrarily respectively produce apart from its origination point 10cm place 10,000/more than the cc.

13. an ion generating device has columnar dielectric, the netted interior electrode of this dielectric opposite disposed and netted external electrode in clamping, by applying alternating voltage between electrode in described and the described external electrode, to produce anion and cation.

14. according to the described ion generating device of claim 13, the virtual value of described alternating voltage is below 2.0kV.

15. according to the described ion generating device of claim 13, described cation is H ⁺(H ₂O) _m(m for natural number) arbitrarily, described anion is O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily.

16. according to the described ion generating device of claim 13, the concentration of described anion and described cation apart from its origination point 10cm place all 10,000/more than the cc.

17. according to the described ion generating device of claim 13, electrode rolling and processing in described is become cylindric, along the inner peripheral surface setting-in of described one-tenth dielectric cylindraceous the time, the stacked coincidence of the both side ends of its rolling face.

18. according to the described ion generating device of claim 13, the mesh count of described interior electrode is closeer than described external electrode.

19. according to the described ion generating device of claim 13, the both ends of described dielectric are by rubber-like rubber bodies sealing, by this rubber bodies, described in electrode or described external electrode described dielectric axially on can not misplace.

20. according to the described ion generating device of claim 19, the material of described rubber bodies is an ethylene propylene rubber.

21.,, use stainless steel silk by the polyvinyl-fluoride resin-coating as the lead that links to each other with described electrode according to the described ion generating device of claim 13.

22., in described, be provided with the mechanism of the closed state of improvement and described dielectric on electrode or the described external electrode according to the described ion generating device of claim 13.

23., promote the catalyst of ozone decomposition in the surperficial mounting of described dielectric according to the described ion generating device of claim 13.

24. according to the described ion generating device of claim 13, mounting promotes the catalyst that ozone decomposes on electrode or the described external electrode in described.

25. according to the described ion generating device of claim 13, with described dielectric devices spaced apart be provided with the ozone decomposition catalyst mounting parts that mounting promotes the catalyst that ozone decomposes.

26. according to the described ion generating device of claim 25, the virtual value of described alternating voltage is below 2.5kV.

27. an ion generating device has columnar dielectric, the tabular interior electrode of this dielectric opposite disposed and netted external electrode in clamping, by applying alternating voltage between electrode in described and the described external electrode, to produce anion and cation.

28. according to the described ion generating device of claim 27, the virtual value of described alternating voltage is below 2.0kV.

29. according to the described ion generating device of claim 27, described cation is H ⁺(H ₂O) _m(m for natural number) arbitrarily, described anion is O ₂ ^-(H ₂O) _n(n for natural number) arbitrarily.

30. according to the described ion generating device of claim 27, the concentration of described anion and described cation apart from its origination point 10cm place all 10,000/more than the cc.

31. according to the described ion generating device of claim 27, described in the electrode rolling and processing become cylindric, along the inner peripheral surface setting-in of described one-tenth dielectric cylindraceous the time, the stacked coincidence of the both side ends of its rolling face.

32. according to the described ion generating device of claim 27, the both ends of described dielectric are by rubber-like rubber bodies sealing, by this rubber bodies, described in electrode or described external electrode described dielectric axially on can not misplace.

33. according to the described ion generating device of claim 32, the material of described rubber bodies is an ethylene propylene rubber.

34.,, use the stainless steel silk that coats by polyfluoroethylene resin as the lead that links to each other with described electrode according to the described ion generating device of claim 27.

35. according to the described ion generating device of claim 34, described in the thickness of slab of electrode be at least can bonding described lead thickness.

36., in described, be provided with the mechanism of the closed state of improvement and described dielectric on electrode or the described external electrode according to the described ion generating device of claim 27.

37., promote the catalyst of ozone decomposition in the surperficial mounting of described dielectric according to the described ion generating device of claim 27.

38. according to the described ion generating device of claim 27, mounting promotes the catalyst that ozone decomposes on electrode or the described external electrode in described.

39. according to the described ion generating device of claim 27, with described dielectric devices spaced apart be provided with the ozone decomposition catalyst mounting parts that mounting promotes the catalyst that ozone decomposes.

40. according to the described ion generating device of claim 39, the virtual value of described alternating voltage is below 2.5kV.

41. according to the described ion generating device of claim 27, the axial length of described external electrode is than the length of electrode in described.

42. according to the described ion generating device of claim 27, the flat shape of the flat board of described interior electrode is the polygon with a plurality of summits.

43. according to the described ion generating device of claim 27, when the dull and stereotyped rolling and processing of electrode in described was become cylindric, at least one of described summit bloated from the end face portion of cylinder.

44. according to the described ion generating device of claim 27, in described, be provided with a plurality of holes on the electrode, form to the side-prominent projection of described dielectric one at the periphery in these holes.

45. ion generating device with each described ion generating device of claim 7～44, it is characterized in that, this ion generating device is provided with the alternating voltage that will produce anion and cation and gives the high-voltage ac power of described ion generating device and the anion that will be produced by described ion generating device and cation and force the pressure fan sent.

46. conditioner with each described ion generating device of claim 7～44, it is characterized in that, this conditioner is provided with the high-voltage ac power that the alternating voltage that will produce anion and cation gives described ion generating device, anion that will be produced by described ion generating device and cation are forced the pressure fan sent, the blow-off outlet that sucks the suction inlet of air and the anion that will produce by described ion generating device and cation and together blow out by described pressure fan from described suction inlet inhaled air.

47. conditioner with each described ion generating device of claim 7～44, it is characterized in that, this conditioner is provided with the high-voltage ac power that the alternating voltage that will produce anion and cation gives described ion generating device, anion that will be produced by described ion generating device and cation are forced the pressure fan sent, suck the suction inlet of air, anion that will produce by described ion generating device and cation and the blow-off outlet that together blows out by described pressure fan from described suction inlet inhaled air and be configured in the air-supply path from described suction inlet to described blow-off outlet, the filter that foreign body contained in the air is removed.

48. conditioner with each described ion generating device of claim 7～44, it is characterized in that, this conditioner is provided with the high-voltage ac power that the alternating voltage that will produce anion and cation gives described ion generating device, anion that will be produced by described ion generating device and cation are forced the pressure fan sent, suck the suction inlet of air, anion that will produce by described ion generating device and cation and the blow-off outlet that together blows out from described suction inlet inhaled air by described pressure fan, be configured in the air-supply path from described suction inlet to described blow-off outlet, the filter that foreign body contained in the air is removed and be configured in heat exchanger on the described air-supply path.