CN202134795U - Electrode pair and ionic wind exciting apparatus possessing electrode pair - Google Patents
Electrode pair and ionic wind exciting apparatus possessing electrode pair Download PDFInfo
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- CN202134795U CN202134795U CN201020505684U CN201020505684U CN202134795U CN 202134795 U CN202134795 U CN 202134795U CN 201020505684 U CN201020505684 U CN 201020505684U CN 201020505684 U CN201020505684 U CN 201020505684U CN 202134795 U CN202134795 U CN 202134795U
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Abstract
The utility model provides an electrode pair, comprising an emitting electrode and a receiving electrode. The emitting electrode comprises at least one pin electrode which comprises a discharging tip. The at least one pin electrode comprises a discharging tip center. The at least one discharging tip adjoins the discharging tip center. The receiving electrode comprises at least one segment of lead which is winded around a spherical surface with the discharging tip center as a centre of sphere. Because the distance from the whole receiving electrode to the discharging tip center is equal and the at least one discharging tip adjoins the discharging tip, the distance from the whole receiving electrode to the at least discharging tip is substantially equal, which can attract irons emitted by the at least discharging tip so as to raise ionic wind quantity. The utility model provides an electrode pair and an ionic wind exciting apparatus possessing the electrode pair.
Description
Technical field
The utility model relates to a kind of electrode pair and has the ion wind exciting bank of this electrode pair.
Background technology
The electrode pair that is used for the ion wind exciting bank comprises an emitter and a receiving pole.When ion is penetrated in the point discharge of emitter; Receiving pole attracts ion near the most advanced and sophisticated part of emitter; Thereby produce a large amount of ionic fluids from emitter directive receiving pole; Ionic fluid produces strong disturbance to ambient air, thereby produces the air-flow from the emitter to the receiving pole, i.e. ion wind.Traditional receiving pole generally adopts cylinder electrode.Yet what cylinder electrode really played the attraction ionization only is near the most advanced and sophisticated marginal portion of emitter, and therefore, the ion air quantity that traditional ion wind exciting bank produces is unsatisfactory.In addition, cylinder electrode has also increased the length of ion wind exciting bank.
The utility model content
In view of this, be necessary to provide a kind of ion wind exciting bank that improves the electrode pair of ion air quantity and have this electrode pair.
A kind of electrode pair comprises an emitter and a receiving pole.This emitter comprises at least one pin electrode.Each pin electrode comprises a discharge tip.This at least one pin electrode comprises a discharge tip center.This at least one discharge tip is provided with near this discharge tip center.This receiving pole comprises at least one section lead.It is on the sphere of the centre of sphere that this at least one section lead is coiled in this discharge tip center.
As one of improvement of the utility model, this at least one pin electrode is a plurality of and the pin electrode that is provided with of column alignment.
As one of improvement of the utility model, this discharge tip from the distance at this discharge tip center less than 2 millimeters.
As one of improvement of the utility model, this at least one section lead is coiled into a plurality of concentric circless.
As one of improvement of the utility model, this at least one section lead is coiled into a helix.
A kind of ion wind exciting bank, it comprises one-level electrode pair at least, every grade of electrode pair comprises at least one electrode pair.Each electrode pair comprises an emitter and a receiving pole.This emitter comprises at least one pin electrode.Each pin electrode comprises a discharge tip.This at least one pin electrode comprises a discharge tip center.This at least one discharge tip is provided with near this discharge tip center.This receiving pole comprises at least one section lead.It is on the sphere of the centre of sphere that this at least one section lead is coiled in this discharge tip center.Be arranged in array and join with a plurality of receiving poles of one-level.
As one of improvement of the utility model, the receiving pole of previous stage joins with the emitter of back one-level.
As one of improvement of the utility model, the shared level of emitter of the receiving pole of previous stage and back one-level is used alternatingly a high level and a low level step by step between the multistage emitter.
As one of improvement of the utility model, the electrical potential difference between this high level and this low level is greater than 1500 volts.
As one of improvement of the utility model; This ion wind exciting bank also comprises a ventilating duct; This ventilating duct is set in this multistage electrode pair, and this ventilating duct comprises an air intake vent and an air outlet, and this multistage electrode pair is arranged to this air outlet from this air intake vent step by step.
The distance that the whole receiving pole of the electrode pair of the utility model arrives this discharge tip center is identical, and this at least one discharge tip is provided with near this discharge tip center.So, whole receiving pole arrives the roughly the same of this at least one discharge tip, can both play the effect of the ion that attracts this at least one discharge tip emission, thereby can improve the ion air quantity.On the other hand,, can shorten the axial length of this receiving pole, help miniaturization owing to adopt this at least one section lead to replace traditional cylinder as this receiving pole.Have again,, can save material, reduce cost owing to adopt lead to make receiving pole.
Description of drawings
Fig. 1 is the schematic perspective view of the electrode pair of the utility model first execution mode.
Fig. 2 is the schematic perspective view of the electrode pair of the utility model second execution mode.
Fig. 3 is the floor map of the ion wind exciting bank of the utility model preferred embodiments.
Fig. 4 is the another kind of floor map of the ion wind exciting bank of Fig. 3.
The main element symbol description
Emitter 12,22,42
Most advanced and sophisticated 12b
Ion wind exciting bank 30
Air-out 32b
Embodiment
See also Fig. 1, the utility model first execution mode provides a kind of electrode pair 10.Electrode pair 10 comprises an emitter 12 and a receiving pole 14.Emitter 12 comprises a pin electrode 12a.Pin electrode 12a comprises a discharge tip 12b.The discharge tip center is meant the geometric center (when adopting a plurality of pin electrode 12b, the execution mode below the ginseng) of all discharge tip 12b.Owing to only adopt a pin electrode 12a, the discharge tip center of this execution mode is discharge tip 12b itself.Receiving pole 14 comprises eight section lead 14a.Eight section lead 14a are coiled into eight concentric circless on a sphere (figure is mark not) that with discharge tip 12b is the centre of sphere.
So, the distance that whole receiving pole 14 arrives discharge tip 12b is all identical, can both play the effect of the ion that attracts discharge tip 12b emission, thereby can improve the ion air quantity.On the other hand,, can shorten the axial length of receiving pole 14, help miniaturization owing to adopt lead 14a to replace traditional cylinder as receiving pole 14.
See also Fig. 2, the utility model second execution mode provides another kind of electrode pair 20.Electrode pair 20 comprises an emitter 22 and a receiving pole 24.Emitter 22 comprises three pin electrode 12a.Three pin electrode 12a alignment equidistance setting of this execution mode, therefore, discharge tip center 22a is middle discharge tip 12b.Receiving pole 14 is a section lead 24a.Lead 24a is coiled into a helix on the sphere (figure is mark not) that with center 22a is the centre of sphere.
Same, because the distance of whole receiving pole 24 to each discharge tip 12b is about equally, can both plays the effect of the ion that attracts discharge tip 12b emission, thereby can improve the ion air quantity.Roughly the same for the distance that makes whole receiving pole 24 arrive each discharge tip 12b, each discharge tip 12b should be less than 2 millimeters from the distance of this center 22a.
Be noted that emitter is not limited to this execution mode, it can adopt the pin electrode 12a of other numbers.When adopting more than one pin electrode 12a, pin electrode 12a can adopt other arrangement mode, and for example radial arranging is as long as make discharge tip 12b near arranging.The distance at the center of discharge tip 12b and discharge tip 12b also should be looked the real needs setting, is not limited to this execution mode.
Receiving pole also is not limited to this execution mode; It can like concentric triangle, a plurality of concentric rectangles or a plurality of irregular polygons, also can be discontinuous annular for other are other shapes of coiling on the sphere of the centre of sphere at the center with discharge tip 12b; Like two discontinuous semicircles; Can be other helix, like the spiral rectangle, even can be latticed.
See also Fig. 3, the ion wind exciting bank 30 of the utility model preferred embodiments comprises three grades of electrode pairs.Every grade of electrode pair comprises four electrode pairs 40.Each electrode pair 40 comprises an emitter 42 and a receiving pole 44.Each emitter 42 comprises a pin electrode 12a.Each receiving pole 44 comprises a section lead 44a.Lead 44a is being coiled into rectangle to radiate on the sphere that most advanced and sophisticated 12b is the centre of sphere.Four receiving pole 44b at the same level are arranged in 2 * 2 array, and join.
Preferably, the receiving pole 44b of previous stage joins with the emitter 44 of back one-level, and can electrically connect.So, can shorten the length of ion wind exciting bank 30, and the receiving pole 44b of previous stage can with the shared level of emitter 44b of back one-level, and (for example-1500V) be used alternatingly a high level (for example 0V) and a low level between the multistage emitter step by step.Certainly, high electrode and low level are not limited to this execution mode, visual actual needs and setting.Usually, high level and low level electrical potential difference are greater than 1500V.The receiving pole and the emitter of front and back level also can separate setting, use different level respectively.
Particularly, ion wind exciting bank 30 also comprises a ventilating duct 32, and ventilating duct 32 is set on the multistage electrode pair, and ventilating duct 32 comprises an air intake vent 32a and an air outlet 32b, and multistage electrode pair is arranged to this air outlet 32b from air intake vent 32a step by step.
In a word; Those skilled in the art will be appreciated that; Above execution mode only is to be used for explaining the utility model; And be not the qualification that is used as the utility model, as long as within the connotation scope of the utility model, appropriate change that above embodiment did is all dropped within the scope that the utility model requires to protect with changing.
Claims (10)
1. electrode pair, it comprises an emitter and a receiving pole; This emitter comprises at least one pin electrode; Each pin electrode comprises a discharge tip; This at least one pin electrode comprises a discharge tip center; It is characterized in that: this at least one discharge tip is provided with near this discharge tip center; This receiving pole comprises at least one section lead; It is on the sphere of the centre of sphere that this at least one section lead is coiled in this discharge tip center.
2. electrode pair as claimed in claim 1 is characterized in that: this at least one pin electrode is a plurality of and the pin electrode of column alignment setting.
3. electrode pair as claimed in claim 1 is characterized in that: this discharge tip leaves the distance at this discharge tip center less than 2 millimeters.
4. electrode pair as claimed in claim 1 is characterized in that: this at least one section lead is coiled into a plurality of concentric circless.
5. electrode pair as claimed in claim 1 is characterized in that: this at least one section lead is coiled into a helix.
6. ion wind exciting bank, it comprises one-level electrode pair at least, every grade of electrode pair comprises at least one electrode pair; Each electrode pair comprises an emitter and a receiving pole; This emitter comprises at least one pin electrode; Each pin electrode comprises a discharge tip; This at least one pin electrode comprises a discharge tip center; It is characterized in that: this at least one discharge tip is provided with near this discharge tip center; This receiving pole comprises at least one section lead; It is on the sphere of the centre of sphere that this at least one section lead is coiled in this discharge tip center; Be arranged in array and join with a plurality of receiving poles of one-level.
7. ion wind exciting bank as claimed in claim 6 is characterized in that: the receiving pole of previous stage joins with the emitter of back one-level.
8. ion wind exciting bank as claimed in claim 6 is characterized in that: the shared level of emitter of the receiving pole of previous stage and back one-level is used alternatingly a high level and a low level step by step between the multistage emitter.
9. ion wind exciting bank as claimed in claim 6 is characterized in that: the electrical potential difference between this high level and this low level is greater than 1500 volts.
10. ion wind exciting bank as claimed in claim 6; It is characterized in that: this ion wind exciting bank also comprises a ventilating duct; This ventilating duct is set in this multistage electrode pair; This ventilating duct comprises an air intake vent and an air outlet, and this multistage electrode pair is arranged to this air outlet from this air intake vent step by step.
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CN201020505684U CN202134795U (en) | 2010-08-26 | 2010-08-26 | Electrode pair and ionic wind exciting apparatus possessing electrode pair |
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