CN212323412U - Anion generating device rich in moisture - Google Patents

Abstract

The utility model provides a moisture-rich anion generating device, which comprises an anion electrode and a refrigerator, wherein the discharge end of the anion electrode is far away from the refrigerator, a water condenser is arranged near the discharge end of the anion electrode, the water condenser is made of heat conducting materials, and the tail end of the water condenser is attached to the cold end of the refrigerator; the utility model discloses a cold junction of refrigerator reduces condenser's temperature, makes condenser surface condensation moisture, builds humid environment near the discharge end of anion electrode, realizes that discharge end at anion electrode produces high concentration anion when, carries high moisture air and releases. The utility model discloses can produce the anion of high concentration and rich in moisture, and can not produce ozone harm, be applicable to semi-closed environment such as in the car, indoor very much to and can be direct, long-time, incessant provide high concentration anion for the user, have the wide and use very safe characteristics of range of application.

Description

Anion generating device rich in moisture

Technical Field

The utility model relates to an anion produces the device, especially an anion that can produce rich in moisture in high concentration anion and the anion produces the device.

Background

In order to generate negative ions with more moisture, some products capable of generating negative ions on the market, such as hair dryers, beauty instruments and the like, condense moisture in air through a negative ion emission electrode, and then apply high voltage between the emission electrode and an opposite electrode respectively, atomize the moisture condensed on the negative ion emission electrode in an ionized air mode, so that the generated negative ions can carry the atomized moisture into the air. The disadvantages of this method are: in this way, while negative ions rich in moisture are generated, corona is generated in the air between the emitting electrode and the opposite electrode, and free energetic electrons in the corona dissociate oxygen molecules and are polymerized into ozone molecules through collision. This mode has been used for reference the dielectric barrier discharge method in traditional ozone production method, and it can produce ozone when producing the anion, and ozone has the effect of disinfecting the inactivation, but can not directly inhale human lung, and direct the inhaling can cause alveolar epithelial cell to destroy, and too big concentration and dose can cause the toxic reaction, are unfavorable for very much the health. Therefore, the above negative ion products are not suitable for being used in semi-closed environments such as vehicle interiors and indoor environments to create environments rich in negative ions, nor are they suitable for directly, long-term and uninterruptedly providing high-concentration negative ions for users, and the application has limitations and insecurity, so that improvement is very necessary.

Disclosure of Invention

The utility model aims at providing a be rich in anion of moisture produces device, it can produce the anion of high concentration and rich in moisture, and can not produce ozone harm, is applicable to semi-closed environment such as in the car, indoor very much to and can be direct, long-time, incessant provide high concentration anion for the user, have the wide and very safe characteristics of use of range of application.

The utility model discloses a following technical scheme of purpose accessible realizes:

the negative ion generating device comprises a negative ion electrode and a refrigerator arranged near the negative ion electrode, wherein the negative ion electrode is provided with a wiring end and a discharging end, the discharging end of the negative ion electrode is far away from the refrigerator, a water condenser is arranged near the discharging end of the negative ion electrode, the water condenser is made of heat conducting materials, and the tail end of the water condenser is attached to the cold end of the refrigerator.

Optimize the scheme, the utility model discloses in, the middle part of refrigerator cold junction top is located including 1 or more, its discharge end to the anion electrode, the condenser is made by metal heat conduction material, it has the water condensation piece of locating refrigerator cold junction top limit portion, water condensation piece is including 1 or around a plurality of near discharge end evenly distributed of anion electrode. Furthermore, the condenser still has the cold junction that pastes to paste and leans on the refrigerator and congeal the water spacer that sets up, the bottom of congealing the water piece is connected on congealing the water spacer, congeals the water spacer and keeps apart the cold junction of negative ion electrode's discharge end and refrigerator.

Further optimize the scheme, the utility model discloses still including the device shell, the device shell has the cylindricality shell structure that discharge port, the other end have the installing port for one end, has the cross slab in the device shell, the cross slab separates into discharge chamber, is close to the installing port end and separates into the installing chamber near the discharge port end in with the device shell, the refrigerator is semiconductor refrigeration piece, its installing chamber of locating the device shell in and its cold junction is close to the cross slab, and the middle part of cross slab has 1 or a plurality of electrode to wear mouthful, limit portion has 1 or a plurality of water of congealing and wears the mouth, and negative ion electrode's discharge end is worn the mouth by the electrode and is penetrated the discharge chamber of device shell, congeals the water piece of hydrophone and wears the mouth by congealing and penetrates the discharge chamber of device shell.

Further optimization scheme again, the utility model discloses still including the radiator, the radiator is close to and locates the refrigerator hot junction. Furthermore, the radiator is a cylindrical structure formed by a plurality of radiating fins, a radiator mounting shell is arranged on one end part of the radiator close to the refrigerator, 2 symmetrical elastic hooks are arranged on the outer side wall of the radiator mounting shell, 2 symmetrical bayonets are arranged on the side wall of the bottom end of the device shell, and the 2 elastic hooks of the radiator mounting shell are correspondingly hooked on the 2 bayonets of the device shell to enable the radiator to be mounted on the hot end of the refrigerator.

Further optimize the scheme again, the utility model discloses still including radiator fan, radiator fan locates near the one end that the refrigerator was kept away from to the radiator. Furthermore, the side wall of the discharge cavity of the device shell is provided with 1 or more hot air inlets which are uniformly distributed, and the heat of the radiator can be sent into the discharge cavity by the cooling fan through the hot air inlets.

The utility model has the following substantive characteristics and progress:

1. the utility model discloses in realize going into near the anion electrode discharge end with the cold volume conduction of refrigerator through the condenser that is made by the heat conduction material, realize moisture condensation on the condenser through the temperature difference, thereby improve the humidity of anion electrode discharge end environment, the high concentration anion that makes anion electrode discharge end produce wraps up in the air of holding high humidity together and releases, the high concentration anion that is rich in moisture has finally been produced, avoided moisture condensation to freeze even on anion electrode's discharge end simultaneously, corrode discharge end or obstruct discharge end release anion after long-time, ensure anion electrode's life and result of use.

2. The utility model discloses in only be provided with the anion electrode, not set up the positive ion electrode, the wiring end of anion electrode is connected with current high-pressure generator electricity and is realized the production of high concentration anion, effectively avoided being close to just, the corona phenomenon between the anion electrode, can not produce ozone harm, be applicable to very much in the car, semi-closed environment such as indoor to and can be direct, long-time, incessant provide high concentration anion for the user, have the wide and very safe characteristics of use of range of application.

3. The utility model discloses further improve the area of contact of condensing water ware and refrigerator through condensing the water spacer on the water ware, effectively improve the water effect of condensing of water ware to and keep apart anion electrode's discharge end and refrigerator through condensing the water spacer, avoid anion electrode's discharge end temperature to reduce and take place to condense water phenomenon, effectively ensure anion electrode's life.

4. The utility model discloses in further realize the location installation of anion electrode, refrigerator and condenser through the device shell, make each part compact assembly each other together, have small, compact structure, the firm characteristics of installation, can be convenient with some current terminal products if the equipment such as hair-dryer, beauty instrument, humidifier, air purifier combines, effectively perfect, reinforce the function of these terminal products.

5. The utility model further arranges a radiator at the hot end of the refrigerator, thereby improving the refrigeration effect of the cold end of the refrigerator; the radiator and the refrigerator are assembled through the radiator mounting shell, and the refrigerator has the effects of convenience in assembly and compact structure.

6. The utility model further enhances the heat dissipation effect by forcibly discharging the heat of the radiator through the cooling fan; the heat of the radiator is forcibly sent into the discharge cavity through the hot air inlet by the cooling fan, so that on one hand, the temperature in the discharge cavity is increased, the surface temperature difference of the water condenser is further enlarged, the water condensation capacity of the water condenser is improved, and more water is created in the discharge cavity; on the other hand, negative ions and moisture are quickly discharged from the discharge port of the device shell through the cooling fan, and the using effect is improved.

Drawings

Fig. 1 is a schematic structural diagram of the negative ion generator rich in moisture according to the present invention.

Fig. 2 is a schematic view of the split state of the anion generating device rich in moisture according to the present invention.

Fig. 3 is a schematic sectional view of the anion generator rich in moisture according to the present invention.

Fig. 4 is a schematic structural diagram of the device housing of the moisture-rich anion generating device of the present invention.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Examples

Referring to fig. 1 to 4, a moisture-rich negative ion generating device includes a negative ion electrode 1, a refrigerator 2, a water condenser 3, a device case 4, a heat sink 5, and a heat radiation fan 7.

The device housing 4 is a cylindrical shell structure having a discharge port 40 at one end and a mounting port at the other end. The device shell 4 is internally provided with a diaphragm plate 41, and the diaphragm plate 41 divides the end, close to the discharge port 40, in the device shell 4 into a discharge cavity 42 and an installation cavity 43 close to the installation port end. The middle part of the diaphragm plate 41 is provided with 1 electrode through opening, and the edge part is provided with 3 uniformly distributed condensed water through openings 44. The side wall of the discharge chamber 42 is provided with 3 hot air inlets 46 which are uniformly distributed.

The refrigerator 2 is a semiconductor refrigeration piece, which is arranged in the installation cavity 43 of the device shell 4 and the cold end of which is close to the diaphragm plate 41.

The negative ion electrode 1 is provided with a terminal 12 and a discharge end 11, the number of the negative ion electrode 1 is 1, the discharge end 11 penetrates into a discharge cavity 42 of the device shell 4 through an electrode penetration hole, and the discharge end 11 is far away from the refrigerator 2 and is arranged in the middle above the cold end of the refrigerator 2.

The condenser 3 is made by metal heat conduction material, and it has congeals water spacer 32 and 3 evenly distributed's congeals water piece 31, and 3 congeals the bottom of water piece 31 and connects on congealing water spacer 32, and the top distributes and wears the mouth 44 by 3 congeals water and penetrates in the discharge chamber 42 of device shell 4, makes 3 congeal water pieces 31 locate the top limit portion of 2 cold junctions of refrigerator, and around the near evenly distributed of the discharge end 11 of negative ion electrode 1, congeal water spacer 32 and be located the installation cavity 43 and paste the cold junction of leaning on refrigerator 2, separates the discharge end 11 of negative ion electrode 1 with the cold junction of refrigerator 2 through congealing water spacer 32.

The heat sink 5 is a cylindrical structure formed by a plurality of heat dissipation fins 51 and is disposed near the hot end of the refrigerator 2. A radiator mounting shell 6 is arranged on one end part of the radiator 5 close to the refrigerator 2, 2 symmetrical elastic hooks 61 are arranged on the outer side wall of the radiator mounting shell 6, 2 symmetrical bayonets 45 are arranged on the side wall of the bottom end of the device shell 4, and the 2 elastic hooks 61 of the radiator mounting shell 6 are correspondingly hooked on the 2 bayonets 45 of the device shell 4 to enable the radiator 5 to be mounted on the hot end of the refrigerator 2.

The heat dissipation fan 7 is disposed near an end of the heat sink 5 away from the refrigerator 2, and the heat dissipation fan 7 can send heat of the heat sink 5 into the discharge chamber 42 through the hot air inlet 46.

When the anion generating device of the embodiment is used, the terminal 12 of the anion electrode 1 penetrates through the side wall of the installation cavity of the device shell 4 and is electrically connected with the external existing high-voltage generator to realize the generation of high-concentration anions, the terminal of the refrigerator 2 penetrates through the side wall of the installation cavity of the device shell 4 and is electrically connected to the external existing refrigerator power supply device, the heat radiation fan 7 can be additionally fixed (not shown) according to the situation, and the terminal is electrically connected to the external existing fan power supply device. After each part of the negative ion generating device in the embodiment is electrified and works, the temperature of the water condenser 3 is reduced through the cold end of the refrigerator 2, so that the surface of the water condenser 3 condenses moisture, a humid environment is created in the discharge cavity 42, namely, near the discharge end 11 of the negative ion electrode 1, and the discharge end 11 of the negative ion electrode 1 generates high-concentration negative ions and simultaneously carries high-moisture air to be released from the discharge port 40 of the device shell 4. The anion generating device of the embodiment has the characteristics of compact structure, good use effect, no ozone hazard, wide application range and very safe use.

Claims (8)

1. A moisture-rich negative ion generating device comprises a negative ion electrode (1) and a refrigerator (2) arranged near the negative ion electrode (1), wherein the negative ion electrode (1) is provided with a terminal (12) and a discharge end (11), the discharge end (11) of the negative ion electrode (1) is far away from the refrigerator (2), and the moisture-rich negative ion generating device is characterized in that: a water condenser (3) is arranged near the discharge end (11) of the negative ion electrode (1), the water condenser (3) is made of a heat conduction material, and the tail end of the water condenser (3) is attached to the cold end of the refrigerator (2).

2. The moisture-enriched negative ion generation device according to claim 1, characterized in that: the negative ion electrode (1) comprises 1 or more negative ion electrodes (1), the discharge ends (11) of the negative ion electrodes are arranged in the middle above the cold end of the refrigerator (2), the water condenser (3) is made of metal heat conduction materials and provided with water condensing sheets (31) arranged on the edge above the cold end of the refrigerator (2), and the water condensing sheets (31) comprise 1 negative ion electrode or a plurality of negative ion electrodes (1) which are uniformly distributed around the discharge ends (11).

3. The moisture-enriched negative ion generation device according to claim 2, characterized in that: the water condenser (3) is also provided with a water condensation spacer (32) attached to the cold end of the refrigerator (2), the bottom end of the water condensation piece (31) is connected to the water condensation spacer (32), and the water condensation spacer (32) isolates the discharge end (11) of the negative ion electrode (1) from the cold end of the refrigerator (2).

4. The moisture-enriched negative ion generation device according to claim 2 or 3, characterized in that: the device also comprises a device shell (4), the device shell (4) is a cylindrical shell structure with a discharge port (40) at one end and a mounting port at the other end, a diaphragm plate (41) is arranged in the device shell (4), the diaphragm plate (41) divides the end of the device shell (4) close to the discharge port (40) into a discharge cavity (42) and an installation cavity (43) close to the installation port end, the refrigerator (2) is a semiconductor refrigeration piece, is arranged in an installation cavity (43) of the device shell (4) and is close to the transverse partition plate (41) at the cold end, the middle part of the transverse partition plate (41) is provided with 1 or more electrode penetrating openings, the edge part is provided with 1 or more condensate penetrating openings (44), the discharge end (11) of the negative ion electrode (1) penetrates into a discharge cavity (42) of the device shell (4) through the electrode penetrating openings, and the condensate piece (31) of the water condenser (3) penetrates into the discharge cavity (42) of the device shell (4) through the condensate penetrating openings (44).

5. The moisture-enriched negative ion generation device according to claim 4, characterized in that: the refrigerator also comprises a radiator (5), wherein the radiator (5) is close to the hot end of the refrigerator (2).

6. The moisture-enriched negative ion generation device according to claim 5, characterized in that: radiator (5) are the cylindricality structure that constitutes by a plurality of fin (51), radiator (5) are equipped with radiator installation shell (6) on being close to a tip of refrigerator (2), have 2 elastic hook (61) of symmetry on the lateral wall of radiator installation shell (6), have 2 bayonet sockets (45) of symmetry on the bottom lateral wall of device shell (4), 2 elastic hook (61) of radiator installation shell (6) are correspondingly hung on 2 bayonet sockets (45) of device shell (4), make radiator (5) install in the hot junction of refrigerator (2).

7. The moisture-enriched negative ion generation device according to claim 5 or 6, characterized in that: the refrigerator also comprises a heat radiation fan (7), wherein the heat radiation fan (7) is arranged near one end of the heat radiator (5) far away from the refrigerator (2).

8. The moisture-enriched negative ion generation device according to claim 7, characterized in that: the side wall of the discharge cavity (42) of the device shell (4) is provided with 1 or more hot air inlets (46) which are uniformly distributed, and the heat of the radiator (5) can be sent into the discharge cavity (42) through the hot air inlets (46) by the cooling fan (7).

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