CN209348863U - A kind of electrostatic atomization apparatus - Google Patents
A kind of electrostatic atomization apparatus Download PDFInfo
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- CN209348863U CN209348863U CN201821960859.7U CN201821960859U CN209348863U CN 209348863 U CN209348863 U CN 209348863U CN 201821960859 U CN201821960859 U CN 201821960859U CN 209348863 U CN209348863 U CN 209348863U
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- water
- emission electrode
- condensate pans
- electrostatic atomization
- atomization apparatus
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Abstract
The utility model belongs to electrostatic atomization technology field, and in particular to a kind of electrostatic atomization apparatus.For the existing electrostatic atomization apparatus using condensation water, the low deficiency of water transfer efficiency, the utility model adopts the following technical solution: a kind of electrostatic atomization apparatus, comprising: emission electrode;Comparative electrode, comparative electrode are opposite with emission electrode;Water-feed, water-feed provide condensed water to emission electrode;The water-feed includes the conductive condensate pans being connected with emission electrode, condensed water is generated on the condensate pans, there is gap between the condensate pans and emission electrode, there is the pore of perforation, the condensed water is flow in pore from condensate pans via gap through capillary action inside the emission electrode.The beneficial effect of the electrostatic atomization apparatus of the utility model is: supplying water without special;Condensed water results from condensate pans and on on-emitting electrode;Condensed water flowing velocity is fast.
Description
Technical field
The utility model belongs to electrostatic atomization technology field, and in particular to a kind of electrostatic atomization apparatus.
Background technique
Publication No. 2005-131549 Japanese patent discloses a kind of electrostatic atomization apparatus, generate the nanometer of electrification
Grade water particle (being sprayed for nanosized).The device is configured to apply on the emission electrode and comparative electrode for being provided with water high
Voltage, so that the water carried on emission electrode occurs Rayleigh and decomposes (Rayleigh disintegration), thus by water mist
Change.Thus obtained fine particles of charged water includes free radical (radical), and is maintained in long period and is diffused into space in large quantities
In, thus the deodorization that carries out disinfection.
However, water condensation is passed through water supply unit dependent on absorber plate by the water source of above-mentioned apparatus again is transported to emission electrode
Place, for water supply unit using poromerics such as micropore ceramics, the water transfer efficiency of poromerics is low, cannot carry out electrostatic mist immediately
Change, poromerics is also easy to block, and influences the reliable and stable operation of electrostatic atomization apparatus.
For this purpose, the patent of invention that Authorization Notice No. is CN100475353C discloses a kind of electrostatic atomization apparatus, to hair
Radio pole is cooled down, so that the water condensation in surrounding air is on emission electrode, can have electrostatic atomization effect immediately
Fruit.
Summary of the invention
The utility model is directed to the existing electrostatic atomization apparatus using condensation water, and the low deficiency of water transfer efficiency mentions
For a kind of electrostatic atomization apparatus different from the prior art, electrostatic atomization effect equally more can be quickly generated.
To achieve the above objectives, the present invention adopts the following technical solutions: a kind of electrostatic atomization apparatus, comprising:
Emission electrode;
Comparative electrode, comparative electrode are opposite with emission electrode;
Water-feed, water-feed provide condensed water to emission electrode;
High voltage is applied on emission electrode and comparative electrode by high voltage power supply, high voltage power supply, thus right for electrostatically
Water on emission electrode charges, and the discharge end of emission electrode is made to spray fine particles of charged water;
The water-feed includes the conductive condensate pans being connected with emission electrode, and the condensate pans upper surface generates condensation
Water has gap between the condensate pans and emission electrode, the emission electrode has water stream channel, and the condensed water passes through capillary
Effect is flow in water stream channel from condensate pans.
The electrostatic atomization apparatus of the utility model, be equipped with condensate pans, condensate pans and on on-emitting electrode generate water (or
The main generating unit of condensed water is condensate pans), certain water can be stored on condensate pans;Emission electrode has water stream channel, water
Circulation road path sizes replace the micropore of porous ceramics etc., condensation flow with water stream channel much larger than the micropore of porous ceramics etc.
It moves faster, so as to more quickly generate electrostatic atomization effect.
As an improvement, having gap between the condensate pans and emission electrode, there is the hair of perforation inside the emission electrode
Pore, the pore and gap form the water stream channel, and the condensed water is through capillary action from condensate pans via gap
It flow in pore.
As an improvement, the condensate pans connect with emission electrode spot welding and form the gap.It, can also in other schemes
To use other way such as bonding connection condensate pans and emission electrode, gap can also be formed using other way.
As an improvement, the water-feed further includes semiconductor refrigerating part and the conductive sheet that is connected with semiconductor refrigerating part,
The semiconductor refrigerating part freezes to condensate pans.
As an improvement, the condensate pans are located above conductive sheet, the semiconductor refrigerating part is located at condensate pans and conductive sheet
Between, refrigeration lower section heating above the semiconductor refrigerating part.
As an improvement, the electrostatic atomization apparatus further includes insulating base, the condensate pans and conductive sheet are set to the insulation
On seat.
As an improvement, the condensate pans and insulating base form water storage tank.
As an improvement, the condensate pans, conductive sheet and insulating base are structure as a whole.Preferably, condensate pans, conductive sheet and absolutely
Edge seat is integrally formed by mold.In other schemes, condensate pans, conductive sheet can also pass through the modes such as screw, glue and insulation
Seat is connected as one.
As an improvement, the emission electrode outer surface opens up the capillary channel of perforation, the condensed water through capillary action from
Condensate pans are flow in capillary channel.
As an improvement, the quantity of the emission electrode is one or more.
As an improvement, the quantity of pore on each emission electrode is one, each transmitting when emission electrode is multiple
Capillary channel on electrode be it is multiple and identical, the multiple capillary channel circumference uniform distribution is on emission electrode.The section of capillary channel is in
Arc-shaped and arc angle is greater than 180 °.
As an improvement, the pore naked eyes are visible.
As an improvement, the comparative electrode is formed with the vertical portion below curved portion and curved portion.
The beneficial effect of the electrostatic atomization apparatus of the utility model is: being equipped with water-feed and supplies water, supplies water without special;It is equipped with
Condensate pans, condensed water result from condensate pans and on on-emitting electrodes;The pore of perforation, pore hole are equipped with inside emission electrode
Diameter is much larger than the micropore of porous ceramics, and condensed water flowing velocity is fast.Further, capillary channel is opened up in emission electrode periphery, mentioned
High same time condensation flow momentum promotes electrostatic spray efficiency.
Detailed description of the invention
Fig. 1 is the schematic perspective view of the electrostatic atomizer of the utility model embodiment one.
Fig. 2 is the main view of Fig. 1.
Fig. 3 is the top view of Fig. 1.
Fig. 4 is the left view of Fig. 1.
Fig. 5 be in Fig. 4 A-A to main view.
Fig. 6 is the stereogram exploded view of the electrostatic atomizer of the utility model embodiment one;
The operation principle schematic diagram of the electrostatic atomizer of Fig. 7 the utility model embodiment one, wherein dotted arrow is cold
Condensate flow path.
Fig. 8 is the schematic perspective view of the electrostatic atomizer of the utility model embodiment two.
Fig. 9 is the main view of Fig. 8.
Figure 10 is the top view of Fig. 8.
In figure, 1, emission electrode, 11, pore, 12, capillary channel;
2, comparative electrode;
3, condensate pans, 31, solder joint;
4, semiconductor refrigerating part;
5, conductive sheet;
6, insulating base;
7, water storage tank;
8, condensed water.
Specific embodiment
Below with reference to the attached drawing of the invention embodiment, the technical solution of the invention embodiment is explained and
Illustrate, but following embodiments are only the preferred embodiment of the invention, and not all.Based on the implementation example in the implementation mode,
Those skilled in the art's other embodiments obtained without making creative work, belong to the invention
Protection scope.
Referring to Fig. 1 to Figure 10, a kind of electrostatic atomization apparatus, comprising:
Emission electrode;
Comparative electrode, comparative electrode are opposite with emission electrode;
Water-feed, water-feed provide condensed water to emission electrode;
High voltage is applied on emission electrode and comparative electrode by high voltage power supply, high voltage power supply, thus right for electrostatically
Water on emission electrode charges, and the discharge end of emission electrode is made to spray fine particles of charged water;
The water-feed includes the conductive condensate pans being connected with emission electrode, and the condensate pans upper surface generates condensation
Water has gap between the condensate pans and emission electrode, the emission electrode has water stream channel, and the condensed water passes through capillary
Effect is flow in water stream channel from condensate pans.
The electrostatic atomization apparatus of the utility model, be equipped with condensate pans, condensate pans and on on-emitting electrode generate water (or
The main generating unit of condensed water is condensate pans), certain water can be stored on condensate pans;Emission electrode has water stream channel, uses
Water stream channel replaces the micropore of porous ceramics etc., and condensed water flows faster, so as to more quickly generate electrostatic atomization effect
Fruit.Pore also has certain water outlet effect.
Embodiment one
Referring to Fig. 1 to Fig. 7, a kind of electrostatic atomization apparatus of the utility model embodiment one, comprising:
Emission electrode 1;
Comparative electrode 2, comparative electrode 2 and emission electrode 1 are opposite;
Water-feed, water-feed provide condensed water 8 to emission electrode 1;
High voltage is applied on emission electrode 1 and comparative electrode 2 by high voltage power supply, high voltage power supply, thus for electrostatically
It charges to the water on emission electrode 1, the discharge end of emission electrode 1 is made to spray fine particles of charged water;
The water-feed includes the conductive condensate pans 3 being connected with emission electrode 1, and 3 upper surface of condensate pans generates cold
Condensate 8 has gap, has the pore 11 of perforation, institute inside the emission electrode 1 between the condensate pans 3 and emission electrode 1
Condensed water 8 is stated to flow in pore 11 from condensate pans 3 via gap through capillary action.In figure, high voltage power supply is not shown.
As an improvement, the condensate pans 3 connect with 1 spot welding of emission electrode and form the gap.Specifically, condensate pans 3
For metal plate, there are four solder joints 31 and even circumferential is distributed.In other schemes, other way such as bonding connection can also be used
Condensate pans 3 and emission electrode 1, the gap between condensate pans 3 and emission electrode 1 can also be formed using other way.
As an improvement, the water-feed further includes semiconductor refrigerating part 4 and the conductive sheet that is connected with semiconductor refrigerating part 4
5, the semiconductor refrigerating part 4 freezes to condensate pans 3.Semiconductor chilling plate is two fritters, and conductive sheet 5 is two panels, is led
Electric piece 5 has connecting terminal.
As an improvement, the condensate pans 3 are located at 5 top of conductive sheet, the semiconductor refrigerating part 4 is located at condensate pans 3 and leads
Between electric piece 5, refrigeration lower section heating above the semiconductor refrigerating part 4.
As an improvement, the electrostatic atomization apparatus further includes insulating base 6, the condensate pans 3 and conductive sheet 5 are set on described exhausted
On edge seat 6.
As an improvement, the condensate pans 3, conductive sheet 5 and insulating base 6 are integrally formed by mold.Insulating base 6 to condense
Disk 3 and 5 spaced heat of conductive sheet.
As an improvement, the condensate pans 3 and insulating base 6 form water storage tank 7.Part water can be stored in water storage tank 7, so that
Electrostatic atomizer can generate rapidly electrostatic spray effect.
As an improvement, the quantity of the emission electrode 1 is one, the quantity of the pore 11 on the emission electrode 1 is
One.
As an improvement, 11 naked eyes of pore are as it can be seen that its aperture is much larger than the aperture of porous ceramics etc..
As an improvement, the comparative electrode 2 is formed with the vertical portion below curved portion and curved portion, it is preferably quiet to obtain
EFI fog effect.
The beneficial effect of the electrostatic atomization apparatus of the utility model embodiment one is: being equipped with water-feed and supplies water, without special
It supplies water;Equipped with condensate pans 3, condensed water 8 results from condensate pans 3 and on on-emitting electrode 1;Perforation is equipped with inside emission electrode 1
Pore 11,11 aperture of pore are much larger than the micropore of porous ceramics, and 8 flowing velocity of condensed water is fast.
Embodiment two
Embodiment two and the difference of embodiment one are: the capillary channel of perforation is also opened up outside the emission electrode 1.
Referring to Fig. 8 to Figure 10,1 outer surface of emission electrode opens up the capillary channel 12 of perforation, and the condensed water 8 passes through hair
Spy is flow in capillary channel 12 with from condensate pans 3.Capillary channel 12 on each emission electrode 1 be it is multiple and identical, it is described
Multiple 12 circumference uniform distributions of capillary channel are on emission electrode 1.Specifically, in the present embodiment, the quantity of capillary channel 12 is four.It is described
The cross section of capillary channel 12 is arc-shaped and arc angle is greater than 180 °.
1 periphery of emission electrode is equipped with capillary channel 12, can convey more condensed waters 8 in same time.
Embodiment two is identical as the other structures of embodiment one and effect, and this will not be repeated here.
The above, the only specific embodiment of the invention, but the protection scope of the invention does not limit to
In this, being familiar with the those skilled in the art should be understood that the invention includes but is not limited to attached drawing and specific embodiment party above
Content described in formula.The modification of any function and structure principle without departing from the invention is intended to be included in claims
Range in.
Claims (10)
1. a kind of electrostatic atomization apparatus, comprising:
Emission electrode (1);
Comparative electrode (2), comparative electrode (2) and emission electrode (1) are opposite;
Water-feed, water-feed provide condensed water (8) to emission electrode (1);
High voltage power supply, high voltage is applied on emission electrode (1) and comparative electrode (2) by high voltage power supply, thus for electrostatically
It charges to the water on emission electrode (1), the discharge end of emission electrode (1) is made to spray fine particles of charged water;
It is characterized by: the water-feed includes the conductive condensate pans (3) being connected with emission electrode (1), the condensate pans (3)
Upper surface generates condensed water (8), and the emission electrode (1) has water stream channel, the condensation that condensate pans (3) upper surface generates
Water (8) is flow in water stream channel from condensate pans (3) through capillary action.
2. a kind of electrostatic atomization apparatus according to claim 1, it is characterised in that: the condensate pans (3) and emission electrode
(1) there is gap between, there is the pore (11) of perforation, the pore (11) and gap shape inside the emission electrode (1)
At the water stream channel, the condensed water (8) flow in pore (11) from condensate pans (3) via gap through capillary action.
3. a kind of electrostatic atomization apparatus according to claim 2, it is characterised in that: the condensate pans (3) and emission electrode
(1) spot welding connects and forms the gap.
4. a kind of electrostatic atomization apparatus according to claim 1, it is characterised in that: the water-feed further includes semiconductor system
Cold part (4) and the conductive sheet (5) being connected with semiconductor refrigerating part (4), the semiconductor refrigerating part (4) to condensate pans (3) into
Row refrigeration.
5. a kind of electrostatic atomization apparatus according to claim 4, it is characterised in that: the condensate pans (3) are located at conductive sheet
(5) top, the semiconductor refrigerating part (4) is located between condensate pans (3) and conductive sheet (5), on the semiconductor refrigerating part (4)
Side's refrigeration lower section heating.
6. a kind of electrostatic atomization apparatus according to claim 5, it is characterised in that: the electrostatic atomization apparatus further includes exhausted
Edge seat (6), the condensate pans (3) and conductive sheet (5) are set on the insulating base (6).
7. a kind of electrostatic atomization apparatus according to claim 6, it is characterised in that: the condensate pans (3) and insulating base (6)
It is formed water storage tank (7).
8. a kind of electrostatic atomization apparatus according to claim 6, it is characterised in that: the condensate pans (3), conductive sheet (5)
It is structure as a whole with insulating base (6).
9. a kind of electrostatic atomization apparatus according to any one of claims 1 to 8, it is characterised in that: the emission electrode (1) is outside
Surface opens up the capillary channel (12) of perforation, and the capillary channel (12) forms the water stream channel, and the condensed water (8) passes through capillary
Effect is flow in capillary channel (12) from condensate pans (3).
10. a kind of electrostatic atomization apparatus according to claim 9, it is characterised in that: the quantity of the emission electrode (1) is
It is one or more;The quantity of pore (11) in each emission electrode (1) is one;Each emission electrode (1)
On capillary channel (12) be it is multiple and identical, the multiple capillary channel (12) circumference uniform distribution is on emission electrode (1).
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CN201821960859.7U CN209348863U (en) | 2018-11-27 | 2018-11-27 | A kind of electrostatic atomization apparatus |
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CN201821960859.7U CN209348863U (en) | 2018-11-27 | 2018-11-27 | A kind of electrostatic atomization apparatus |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109332030A (en) * | 2018-11-27 | 2019-02-15 | 奥普家居股份有限公司 | A kind of electrostatic atomization apparatus |
CN111482291A (en) * | 2020-04-25 | 2020-08-04 | 奥普家居股份有限公司 | Nano water ion atomized liquid, electrostatic atomization device and application |
-
2018
- 2018-11-27 CN CN201821960859.7U patent/CN209348863U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109332030A (en) * | 2018-11-27 | 2019-02-15 | 奥普家居股份有限公司 | A kind of electrostatic atomization apparatus |
CN109332030B (en) * | 2018-11-27 | 2024-03-29 | 奥普家居股份有限公司 | Electrostatic atomizing device |
CN111482291A (en) * | 2020-04-25 | 2020-08-04 | 奥普家居股份有限公司 | Nano water ion atomized liquid, electrostatic atomization device and application |
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