CN113847676A - Nanometer water ion air purifier - Google Patents

Abstract

The utility model provides a nanometer water ion air purifier of water smoke progressively split, including fixed shell, fixed shell is provided with air intake and air outlet, forms the wind channel between air intake and air outlet: a fan; a fan controller; the condensation part comprises a cooling component, and the cooling component comprises a semiconductor crystal grain pair, a water condensation element and a water storage tank; the multistage nanometer water ion generating devices are sequentially arranged in the air duct at intervals; each nanometer water ion generating device comprises a discharge electrode and a receiving electrode, wherein the first end of the discharge electrode is connected with the water condensing element, the second end of the discharge electrode is arranged below the receiving electrode, and the position of the receiving electrode relative to the second end of the discharge electrode is an opening; and (3) enabling the negatively charged nano water ions and the residual water mist to sequentially pass through the next-stage nano water ion generating device to be continuously ionized through the first-stage nano water ion generating device.

Description

Nanometer water ion air purifier

Technical Field

The invention relates to the field of air purification, in particular to a nano water ion air purifier.

Background

The nanometer water ion has the advantages of small particle size, long service life, high water content, skin affinity, skin care, hair care, moisture retention, fresh keeping, etc. The existing nanometer water ion air purifier can condense and take water from the air to manufacture nanometer water ions, but the existing nanometer water ion air purifier can cause a large amount of evaporation of water mist entering the air purifier when the fan works due to the existence of the fan, and is not beneficial to manufacturing of the final nanometer water ions.

Disclosure of Invention

An object of the embodiments of the present disclosure is to provide a nano water ion air purifier with gradually split water mist, which can reduce evaporation of water mist entering the nano water ion air purifier and increase the content of manufactured nano water ions.

Therefore, the utility model provides a nanometer ion air purifier that water smoke splits gradually, including fixed shell, fixed shell is provided with air intake and air outlet from bottom to top, forms the wind channel between air intake and air outlet: the fan is arranged in the air duct and used for introducing outside air from the air inlet and sending the outside air out from the air outlet; the fan controller is integrated with a timer and is used for opening and closing the fan at regular time; the condensation part is arranged at the upper end of the side wall of the fixed shell and used for accommodating a cooling part, the condensation part and the fixed shell are integrally formed, the cooling part comprises a semiconductor crystal grain pair, a water condensing element and a water storage tank, the first end of the semiconductor crystal grain pair is a refrigerating end, the second end of the semiconductor crystal grain pair is a heat radiating end, the water condensing element is electrically connected with the first end of the semiconductor crystal grain pair and used for condensing water mist on the water condensing element and collecting condensed water in the water storage tank; the multi-stage nano water ion generating devices are sequentially arranged at the air outlet at intervals and are used for manufacturing the water mist entering the air flue into water ions with nano-scale particle sizes; each nanometer water ion generating device comprises a discharge electrode and a receiving electrode, wherein the first end of the discharge electrode is connected with the water storage tank through a water absorption strip, the second end of the discharge electrode is arranged below the receiving electrode, the position of the receiving electrode relative to the second end of the discharge electrode is an opening, the first end of the discharge electrode is used for absorbing water in the water storage tank, the second end of the discharge electrode is used for discharging, a high-voltage electric field is formed between the discharge electrode and the receiving electrode, and then nanometer water ions with negative electricity are ionized; and the negatively charged nano water ions and the water mist in the residual air are continuously ionized by the first-stage nano water ion generating device sequentially through the next-stage nano water ion generating device so as to gradually ionize the external air entering the air duct.

Among the above-mentioned scheme, owing to set up condensing part in the upper end of fixed shell independently comes out, the great air current of the velocity of flow in the wind channel can not lead the cooling unit on the condensing part for the comdenstion water that the cooling unit condensation produced can not rapid evaporation, thereby compare in prior art with the direct structure that sets up condensing unit in wind channel air outlet department, strengthened condensation efficiency. In addition, the inventor also considers that in the process of carrying out the nanometer water ion ionization, if the nanometer water ion generating device is arranged inside the air duct, the nanometer water ions generated by the nanometer water ion generating device can be blown to be adsorbed on the inner wall of the fixed shell by the air flow, so that the conveying amount of the nanometer water ions is reduced. This scheme sets up nanometer water ion generating device in air outlet department for the nanometer water ion of production derives immediately, can not adsorb in the inner wall of fixed shell. Furthermore, the inventor also considers that a plurality of nano water ion generating devices are arranged for increasing the derivation amount of nano water ions, and a timer is also added, the periodic control fan is opened, thus, the nano water ion generating devices arranged in the fixed shell can generate a large amount of nano water ions when the fan is not opened (because the fan is not opened, the generated nano water ions can not be adsorbed on the inner wall of the fixed shell in a large amount) to treat that enough nano water ions are generated in the fixed shell, and then the fan is opened to lead out the nano water ions, thus, the amount of the nano water ions adsorbed on the inner wall of the fixed shell is reduced.

In addition, in the nano water ion air purifier with gradually split water mist according to the present disclosure, optionally, the condensing part is provided with a closing member and a mesh structure contacting with the external air, and the closing member is closed when being idle to isolate the mesh structure from the outside. Therefore, when the closing member is opened, the outside air can enter the condensing part to be condensed, and more water mist can be condensed.

In addition, in the nano water ion air purifier with gradually split water mist, optionally, the condensation part is arranged inside the fixed shell, and when the closing member is opened, the external air enters the condensation part. Therefore, the space in the fixed shell can be saved, and due to the existence of the closing element, the air purifier can block impurities in the outside air when the air purifier is not used, so that the use safety can be improved.

In addition, in the nano water ion air purifier with gradually split water mist, optionally, the condensation part is a raised structure arranged on the outer surface of the fixed shell, and the outer surface of the raised structure is provided with a leaky shell. Therefore, the contact surface between the condensing part and the outside air can be enlarged, and the condensing part can collect sufficient condensed water conveniently.

In addition, in the nano water ion air purifier with gradually split water mist, optionally, the water absorbing strips are arranged from top to bottom relative to the fixed shell, and the cooling component guides the condensed water to the discharge electrode through the water absorbing strips. This enables the discharge electrode to sufficiently absorb the condensed water.

In addition, in the nano water ion air purifier with gradually split water mist according to the present disclosure, optionally, the discharge electrode is composed of a reducing substance, and when a high voltage electric field is formed between the discharge electrode and the receiving electrode to excite nano water ions, the reducing substance constituting the discharge electrode is dissolved in the condensed water on the second end surface of the discharge electrode or dispersed in the form of fine particles in the condensed water on the surface of the electrode needle to produce nano water ions containing the reducing substance. In this case, the nano water ions are rich in the reducing substance, and can suppress oxidation of the skin, the hair surface and the inside, thereby achieving the object of beauty and hairdressing.

In addition, in the nano water ion air purifier with gradually split water mist, optionally, the air purifier further comprises an air purification module, wherein the air purification module is arranged at the air inlet of the air duct and is used for purifying the outside air entering the air duct from the air inlet. Therefore, the outside air entering the air duct can be purified.

In addition, in the nanometer water ion air purifier that this disclosure relates to gradually split of water smoke, optionally, including control panel and control module, the control module inlays to be established in fixed shell, and control panel sets up in fixed shell, and control panel is used for the user to carry out fan gear and adjusts, on-off machine control, and cooperation control module realizes that fan gear is adjusted, on-off machine. Thus, the user experience can be improved.

In addition, in the nano water ion air purifier with gradually split water mist, optionally, the fan controller is arranged in the control module, and the timer is used for automatically starting to work when a user starts the air purifier. Therefore, when the fan is started, the nano water ions can be conveyed to be sprayed out of the air outlet, and evaporation of water mist and the nano water ions can be reduced when the fan is closed.

In addition, in the nano water ion air purifier with gradually split water mist, optionally, the nano water ion air purifier further comprises an air quality monitoring module, wherein the air quality monitoring module connected with the control module is embedded in the control panel and used for monitoring PM2.5 concentration parameters of the outside air and sending the parameters to the control module, so that the quality monitoring and information feedback of the outside air are realized. This can improve the safety of the user.

In addition, in the nano water ion air purifier with gradually split water mist, optionally, a lamp strip is arranged on the outer surface of the fixed shell, and the lamp strip is connected with the control module and used for feeding back information of the outside air quality and the fan gear according to the color of the lamp strip. Therefore, the user can conveniently monitor the quality of the outside air.

In addition, in the nano water ion air purifier with gradually split water mist, the reducing substance is one of platinum, zinc, silver and titanium. Thus, the purpose of beauty and hairdressing can be achieved.

In addition, in the nano water ion air purifier with gradually split water mist according to the present disclosure, optionally, a nano water ion air outlet is provided at a position on a fixed housing of the nano water ion air purifier, the position being close to the air outlet, and the nano water ions are discharged from the nano water ion air outlet and then mixed with clean air outside the air outlet. Therefore, the nano water ions can be conveniently discharged.

In addition, in the nano water ion air purifier with gradually split water mist, optionally, the air purification module is arranged at the air inlet of the air duct and at the front part of the fan, and the main body of the air purification module is made of HEPA high-efficiency filter material and is a flat or cylindrical filter screen. Therefore, impurities in the outside air can be sufficiently filtered.

According to this disclosure, owing to set up condensing part in the upper end of fixed shell independently comes out, the great air current of the velocity of flow in the wind channel can not lead the cooling unit on the condensing part for the comdenstion water that the cooling unit condensation produced can not rapid evaporation, thereby compare in prior art with the direct structure that sets up condensing unit in wind channel air outlet department, strengthened condensation efficiency. In addition, the inventor also considers that in the process of carrying out the nanometer water ion ionization, if the nanometer water ion generating device is arranged inside the air duct, the nanometer water ions generated by the nanometer water ion generating device can be blown to be adsorbed on the inner wall of the fixed shell by the air flow, so that the conveying amount of the nanometer water ions is reduced. This scheme sets up nanometer water ion generating device in air outlet department for the nanometer water ion of production derives immediately, can not adsorb in the inner wall of fixed shell. Furthermore, the inventor also considers that a plurality of nano water ion generating devices are arranged for increasing the derivation amount of nano water ions, and a timer is also added, the periodic control fan is opened, thus, the nano water ion generating devices arranged in the fixed shell can generate a large amount of nano water ions when the fan is not opened (because the fan is not opened, the generated nano water ions can not be adsorbed on the inner wall of the fixed shell in a large amount) to treat that enough nano water ions are generated in the fixed shell, and then the fan is opened to lead out the nano water ions, thus, the amount of the nano water ions adsorbed on the inner wall of the fixed shell is reduced.

Drawings

To more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and those skilled in the art can also obtain other drawings according to the drawings without inventive labor.

Fig. 1 is a schematic block diagram of a nano water ion air purifier according to an embodiment of the present disclosure;

fig. 2 is a schematic block diagram of a condensation unit and a nano water ion generation device according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a connection between a condensation unit and a nano water ion generation device according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a nano-water ion air purifier according to an embodiment of the present disclosure.

Wherein, in the figures, the respective reference numerals:

the nano water ion air purifier comprises a nano water ion air purifier … 1, a solid housing … 10, an air inlet … 11, an air outlet … 12, an air duct … 13, an air purification module … 20, a fan … 30, a fan controller … 31, a condensation part … 40, a semiconductor crystal grain pair … 410, a water condensation element … 420, a water storage tank … 430, a multi-stage nano water ion generation device … 50, a first-stage nano water ion generation device … 51, a discharge electrode … 510, a receiving electrode … 520, an Nth-stage nano water ion generation device … 52, a control panel … 60, a control module … 70 and a water absorption strip … 80.

Detailed Description

The inventor finds that the following technical problems exist in the prior art: the air current that blows in the wind channel by the fan can cause a large amount of evaporation of comdenstion water, and the nanometer ion that is produced by nanometer ion generator can be blown to and adsorb on the inner wall of fixed shell in a large number, and single nanometer ion generator can not fully ionize comdenstion water and water smoke in the wind channel.

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present disclosure more clearly understood, the present disclosure is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the disclosure and are not intended to limit the disclosure.

Fig. 1 is a schematic block diagram of a nano-water ion air purifier 1 according to an embodiment of the present disclosure;

fig. 2 is a schematic block diagram of a condensation unit and a nano water ion generation device according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a connection between a condensation unit and a nano water ion generation device according to an embodiment of the present disclosure; fig. 4 is a schematic structural diagram of a nano-water ion air purifier according to an embodiment of the present disclosure.

Referring to fig. 1 and 4, the nano water ion air cleaner 1 according to the present embodiment, in which water mist is gradually split, includes a fixed housing 10, an air cleaning module 20, a fan 30, a fan controller 31, a condensing unit 40, and a multi-stage nano water ion generating device 50.

In some examples, the stationary housing may be provided with an intake vent 11 at the bottom and an exhaust vent 12 at the top, forming an air duct 13 between the intake vent 11 and the exhaust vent 12. Therefore, the external air can enter from the air inlet 11 and be purified by the nano water ion air purifier 1 and then be discharged from the air outlet 12.

In this embodiment, the air purification module 20 may be disposed at the air inlet 11 of the air duct, and is used for purifying the outside air entering the air duct from the air inlet 11. In this case, the air purification module 20 can be used to filter out impurities or large particles in the air, so as to protect the human body.

In some examples, the air purification module 20 may be made of HEPA filter material; in some examples, the air purification module 20 may be configured to be cylindrical, square, rectangular, or other irregular shapes according to the opening shape of the air inlet 11. This allows different air purification modules 20 to be adapted to the shape of the air inlet 11.

In this embodiment, the multi-stage nano water ion generating device 50 may be disposed at the air outlet 12 of the air duct for generating nano water ions.

In the present embodiment, the fan 30 may be disposed in the air duct, and further may be disposed between the air purification module 20 and the multi-stage nano water ion generating device 50. In this case, the fan 30 may rapidly deliver the external air purified by the air purification module 20 to the multi-stage nano water ion generation device 50.

In some examples, the fan 30 may be disposed before the air purification module 20, in which case, when the external air is not very fluid, a large amount of air can be delivered into the present nano water ion air purifier by means of the fan 30.

In some examples, the fan 30 may employ a centrifugal fan, an axial fan, a cross-flow fan, a mixed flow fan, or the like. In this case, different air environments can be accommodated using different fan types.

In this embodiment, the air purification module 20 and the fan 30 may be fixed in the air duct by a fixing member adapted thereto. In some examples, the air purification module 20 may be fixed in the stationary housing 10 using a first fixing member, and the blower 30 may be fixed in the stationary housing 10 using a second fixing member.

In this embodiment, the fan controller 31 may be integrated with a timer and other integrated circuit elements for timing the turning on and off of the fan 30. In some examples, the timer may be off for a time interval of 1 second, 1.5 seconds, 2 seconds, 2.5 seconds, 3 seconds, or the like, and the timer may be on for a time interval of 1 second, 1.5 seconds, 2 seconds, 2.5 seconds, 3 seconds, or the like. In this case, evaporation of water mist and loss of nano water ions in the nano water ion air cleaner can be reduced during the period in which the blower 30 is turned off, and the unit content of the manufactured nano water ions can be increased.

In the present embodiment, the condensing portion 40 may be provided at an upper end of a sidewall of the stationary casing 10 and serve to receive a cooling member.

In some examples, the condensation portion 40 may be integrally designed with the stationary housing 10. Therefore, the cost can be saved, and the manufacturing process flow is reduced.

In some examples, the condensation portion 40 may be provided with a closure member that may be closed at rest to isolate the mesh structure from the outside, and a mesh structure in contact with the outside air. In this case, when the nano water ion air purifier 1 is required to work, the closing member can be automatically or manually opened, so that the cooling part in the condensation part is fully contacted with the outside air to condense the water mist in the outside air; and need close the impurity entering in order to obstruct the outside air when this nanometer water ion air purifier 1 is idle, can improve this nanometer water ion air purifier 1's safety in utilization.

In some examples, the condensation portion 40 may be disposed inside the stationary housing 10, allowing ambient air to enter the condensation portion 40 when the closure is open. Therefore, the space in the shell of the fixed shell 10 can be saved, and due to the existence of the closing element, the air purifier can block impurities in the outside air when the air purifier is not used, so that the use safety can be improved.

In some examples, the condensation portion 40 is a raised structure provided on the exterior of the stationary housing 10, and the raised structure is externally provided with a leaky housing. Therefore, the contact surface between the condensing part 40 and the outside air can be enlarged, and the condensing part can collect sufficient condensed water conveniently.

In some examples, the condensation part 40 may be provided in a disk-shaped structure and attached to the fixed housing (inside or outside), thereby increasing a contact area of the condensation part with the external air. In other examples, the condensation portion may be provided in other irregular shapes depending on the fixed housing structure.

In some examples, the condensation portion 40 may guide the condensed water obtained by the condensation portion into the multi-stage nano water ion generation device 50 through the water absorption strip 80. It can be understood that only a trace amount of moisture in the air is condensed by the condensing portion 40, and the condensed water is more favorably guided to the nano water ion generating device 50 for further ionization by the water absorbing strip 80.

Referring to fig. 3, in some examples, a water absorption strip 80 may be disposed at the top end of the nano water ion air cleaner from top to bottom with respect to the stationary case 10, and the condensed water is guided to the multi-stage nano water ion generating device 50 through the water absorption strip 80.

In this case, since the condensation unit 40 is provided independently of the multistage nano-water ion generation device 50, evaporation of condensed water by the fan can be reduced, and the unit content of the nano-water ions produced can be increased.

In the present embodiment, the nano-water ion air cleaner 1 may be provided with a control panel 60 and a control module 70. The control panel 60 may be mounted with a gear adjustment button of the blower 30, a switch button of the power supply, other control buttons or keys, and the like. From this, can conveniently be to this nanometer water ion air purifier 1's control.

In some examples, the control panel 60 and the control module 70 may be electrically connected to the respective working components by wires (wires).

In some examples, a fan controller may be provided in the control module, and a timer is used to automatically start operating when the nano water ion air purifier 1 is turned on. Therefore, when the fan is started, the nano water ions can be conveyed to be sprayed out of the air outlet, and evaporation of water mist and the nano water ions can be reduced when the fan is closed.

In some examples, an air quality monitoring module may be mounted within the control panel 60. The air quality monitoring module can be used for monitoring the PM2.5 concentration, the nitrogen oxide content and the like of the outside air.

In the present embodiment, the control module 70 may be used to control the gear of the fan 30, the power switch, the feedback of the outside air quality, and the like.

In some examples, a light strip may be provided on the surface of the fixed housing 10 for feeding back information of the outside air quality and the fan gear. For example, in some examples, a red light may represent a poor ambient air quality, a green light may represent a high ambient air quality, and the brightness of the light strip may represent the size of the gear of the blower 30. In some examples, the light strip may be provided on the control panel and at a location that facilitates viewing by a person, the light strip may be provided in one or more, etc.

In this embodiment, the control module 70 may be electrically connected to the blower 30, the multi-stage nano water ion generating device 50, the lamp strip and the control panel 60. From this, can realize the on-off control to fan 30 and multistage nanometer water ion generating device 500, the control to fan 30 gear to can observe the behavior of this nanometer water ion clarifier through the display state in lamp area.

In some examples, a louver may be provided at the duct outlet 12. Furthermore, the air outlet direction and the air outlet strength can be adjusted by adjusting the direction of the louver. For example, the louver may be partially opened and aligned with the user to blow the purified air rich in nano water ions toward the user, or the louver may be fully opened to blow the purified air sufficiently toward the room for purifying the indoor air. Therefore, different using modes of the nanometer water ion air purifier can be realized, and the practicability and the user comfort can be improved.

In some examples, a nano water ion wind outlet may be provided on the fixed housing 10 of the nano water ion air purifier near the wind outlet 12, and the nano water ions are discharged from the nano water ion wind outlet and then mixed with clean air outside the wind outlet. Therefore, the nano water ions can be conveniently discharged.

Referring to fig. 2, in the present embodiment, the condensation part 40 houses a cooling member, which may include a pair of semiconductor crystal grains 410, a water condensing element 420, and a water reservoir 430. The first end of the semiconductor crystal grain pair 410 is a refrigerating end, the second end of the semiconductor crystal grain pair 410 is a radiating end, and the water condensing element 420 is electrically connected with the first end of the semiconductor crystal grain pair 410 and is used for condensing water mist on the water condensing element 420 and collecting the condensed water in the water storage tank 430.

In the present embodiment, each stage of the nano-water ion generating device (e.g., the first stage of the nano-water ion generating device 51) may include a discharge electrode 510 and a receiving electrode 520. The first end of the discharge electrode 510 is connected with the water storage tank 430 through the water absorption strip 80, the second end of the discharge electrode 510 is arranged below the receiving electrode 520, the position of the receiving electrode 520 relative to the second end of the discharge electrode 510 is an opening, the first end of the discharge electrode 510 is used for absorbing water in the water storage tank 530, the second end of the discharge electrode 510 is used for discharging, a high-voltage electric field is formed between the discharge electrode 510 and the receiving electrode 520, and then negatively charged nano water ions are ionized.

In some examples, reservoir 430 may be a closed or semi-open structure. In some examples, the reservoir 430 may be made of copper, silver, nickel, stainless steel, or the like.

In some examples, the absorbent strip 80 may be replaced with other absorbent members such as absorbent cotton.

In some examples, the absorbent strip 80 may be disposed in a hollow guide tube. This can further reduce the diffusion and evaporation of the condensed water. In some examples, the guide tube may be made of copper, silver, nickel, stainless steel, or the like.

In some examples, the pair of semiconductor dies 410 is composed of one P-type semiconductor and one N-type semiconductor. The pair of semiconductor dies 410 can be disposed on a ceramic plate and the cooling and heating of the semiconductor dies 410 can be achieved by energizing the dies.

In some examples, the water condensing element 420 may be a water condensing disc, a water condensing slot, or the like, so that the water mist in the air can be conveniently condensed on the water condensing element 420. Therefore, the water mist in the outside air can be condensed conveniently.

In some examples, the condensed water collected in the water storage tank 430 may be ionized by leading the condensed water from the top down through the water absorption strip 80 onto the discharge electrode 510. In this case, the condensed water can be sufficiently introduced into the multistage nano water ion generator 50 to be ionized, and the evaporation of the mist by the fan 30 can be reduced.

In operation, the temperature of the discharge electrode 510 may be lower than that of the water condensing member 420, and thus, more water mist can be advantageously condensed on the surface of the water condensing member 420.

In some examples, the guide tube may be welded between the reservoir 430 and the discharge electrode 510. Thereby, the fastening between the reservoir 430 and the discharge electrode 510 can be enhanced.

In the present embodiment, after the nano water ion air purifier 1 is powered on, the cold air generated by the cooling end of the semiconductor crystal grain pair 410 under the thermoelectric effect is directly transferred to the water condensing element 420, and the condensed water is further collected into the water storage tank 430 by the water condensing element. The condensed water in the water storage tank 430 may be introduced into the discharge electrode 510 from the top down through the water absorption strip 80, and the condensed water is subjected to high-voltage ionization between the discharge electrode 510 and the receiving electrode 520. In this case, the condensed water can be efficiently produced and collected, and can be sufficiently ionized, whereby the unit content of nano water ions finally produced can be increased.

In some examples, the semiconductor die pairs may be disposed on a ceramic substrate or PCB board that is insulating and has good thermal conductivity.

In some examples, discharge electrode 510 may be constructed using a conductive material. In some examples, the discharge electrode 510 may be made of copper, silver, nickel, stainless steel, etc., which have good electrical and thermal conductivity.

In some examples, the discharge electrode 510 may be composed of a reducing substance, and when the nano water ions are excited by a high voltage electric field formed between the discharge electrode 510 and the receiving electrode 520, the reducing substance constituting the discharge electrode 510 is dissolved in the condensed water on the second end surface of the discharge electrode 510 or dispersed in the form of fine particles in the condensed water on the surface of the electrode needle for producing the nano water ions containing the reducing substance. In this case, the nano water ions are rich in the reducing substance, and can suppress oxidation of the skin, the hair surface and the inside, thereby achieving the object of beauty and hairdressing.

In some examples, the reducing species may be one of platinum, zinc, silver, titanium. Thus, the purpose of beauty and hairdressing can be achieved.

In some examples, the receiving electrode 520 is disposed above the discharge electrode 510 in an open manner. In some examples, the receiving electrode 520 may be made of copper, silver, nickel, stainless steel, etc., which are electrically and thermally conductive.

In some examples, the receiving electrode 520 may be provided as an annular opening, which may be a nano water ion emission opening. In some examples, the receptor electrode 520 may be provided with a protruding terminal for connection to an external high voltage power source.

In the present embodiment, the multi-stage nano water ion generating device 50 may be composed of at least one nano water ion generating device. In some examples, the multi-stage nano water ion generating device 50 may be composed of a plurality of nano water ion generating devices (the first stage nano water ion generating device 51 …, the nth stage nano water ion generating device 52) arranged at intervals in sequence. Each nano water ion generating device is composed of a discharge electrode 510 and a receiving electrode 520.

The specific working process is as follows:

in the present embodiment, the operation of the multi-stage nano water ion generating device 50 can be controlled by the control panel 60 and the control module 70, and the outside air is filtered by the air purifying module 20 and then is delivered to the first-stage nano water ion generating device 51 by the blower 30; meanwhile, the air entering the condensing part 40 is condensed by the semiconductor crystal grain pair 410 and the water condensing element 420, stored in the water storage tank 430, and then further delivered to the discharge electrode 510 through the water absorbing strip 80; the high voltage supplied to the discharge electrode 510 and the receiving electrode 520 through the control panel 60 and the control module 70 forms a high voltage electric field between the discharge electrode 510 and the receiving electrode 520, so that the condensed water can be ionized and split into nano water ions. The ionized nano water ions and residual water mist decomposed by the first stage nano water ion generating device 51 can be continuously ionized and decomposed by the next stage nano water ion generating device, so that the water mist in the outside air can be ionized step by step, and sufficient nano water ions can be manufactured. In this case, when the air in the environment is thin or the surrounding environment is severe, the water mist in the air can be sufficiently ionized by the multistage nanometer water ion generating device, and thus, the experience effect of the user can be further improved.

In the present embodiment, since the nano-water ion generators (the first nano-water ion generator 51 …, the nth nano-water ion generator 52) of the plurality of stages of nano-water ion generators 50 are sequentially disposed in the air duct 13, the space inside the housing of the nano-water ion air cleaner 1 can be saved. Moreover, each nano water ion generating device in this embodiment may include the discharge electrode 510 and the receiving electrode 440, and since there are few devices, it can be easily manufactured into a multi-stage structure, and only the electrodes 510 and the receiving electrodes 440 need to be arranged side by side in a group at intervals. The refrigeration end of the semiconductor crystal grain pair 410 is used for condensing water mist in the air on the water condensing element 420 and collecting the water mist in the water storage tank, and the condensed water is further collected on the discharge electrode 510 through the water absorption strip 80; on the other hand, the heat dissipation end of the semiconductor crystal grain pair 410 can keep dissipating heat when the nanometer water ion air purifier works, and the use safety of the air purifier can be improved. Furthermore, because of using the multi-stage nanometer water ion generating device, the water mist can be gradually split in the nanometer water ion air purifier, and the water mist can be used in severe environments such as thin air and the like, and the use effect can be improved.

According to the embodiment, the condensation part 40 is arranged at the upper end of the fixed shell 10 independently, the air flow with the high flow speed in the air channel cannot guide the cooling part on the condensation part 40, so that the condensed water generated by condensation of the cooling part cannot evaporate quickly, and the condensation efficiency is enhanced compared with a structure that the condensation part is directly arranged at the air outlet of the air channel 13 in the prior art. In addition, it is considered that, in the process of performing the nano water ion ionization, if the nano water ion generating device is disposed inside the air duct 13, the nano water ions generated by the nano water ion generating device will be blown by the air flow to be adsorbed on the inner wall of the fixed housing 10, thereby reducing the conveying amount of the nano water ions. This scheme sets up nanometer water ion generating device in air outlet department for the nanometer water ion of production derives immediately, can not adsorb in the inner wall of fixed shell. Further, this scheme still considers in order to increase the nanometer ion derivation volume, multistage nanometer water ion generating device 50 has been set up, and still increase the timer, periodic control fan is opened, thus, set up in the inside nanometer water ion generating device of fixed shell 10 can produce a large amount of nanometer water ions (because fan 30 does not open, the nanometer water ion that produces can not adsorb on the inner wall of fixed shell in a large number) when fan 30 does not open and wait that fixed shell inside 10 has produced sufficient nanometer water ion, reopen fan 30 for nanometer water ion is derived, and like this, reduced the nanometer water ion volume of adsorbing on the internal wall of fixed shell 10 again.

The above description is only exemplary of the present disclosure and should not be taken as limiting the disclosure, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present disclosure should be included in the scope of the present disclosure.

Claims (10)

1. The utility model provides a nanometer water ion air purifier of water smoke progressively split, its characterized in that, including fixed shell, fixed shell is provided with air intake and air outlet from bottom to top the air intake with form the wind channel between the air outlet:

the fan is arranged in the air duct and used for introducing outside air from the air inlet and sending the outside air out from the air outlet;

the fan controller is integrated with a timer and is used for opening and closing the fan at regular time;

the condensation part is arranged at the upper end of the side wall of the fixed shell and comprises a cooling part, the condensation part and the fixed shell are integrally formed, the cooling part comprises a semiconductor crystal grain pair, a water condensing element and a water storage tank, the first end of the semiconductor crystal grain pair is a refrigerating end, the second end of the semiconductor crystal grain pair is a heat radiating end, and the water condensing element is electrically connected with the first end of the semiconductor crystal grain pair and is used for condensing water mist on the water condensing element and collecting condensed water in the water storage tank;

the multi-stage nanometer water ion generating devices are sequentially arranged at the air outlet at intervals and are used for manufacturing the water mist entering the air flue into water ions with nanometer-level particle sizes;

each nanometer water ion generating device comprises a discharge electrode and a receiving electrode, wherein the first end of the discharge electrode is connected with the water storage tank through a water absorption strip, the second end of the discharge electrode is arranged on the opposite side of the receiving electrode, the position of the receiving electrode relative to the second end of the discharge electrode is an opening, the first end of the discharge electrode is used for absorbing water in the water storage tank, the second end of the discharge electrode is used for discharging, and a high-voltage electric field is formed between the discharge electrode and the receiving electrode so as to ionize nanometer water ions with negative electricity;

and the negatively charged nano water ions and the water mist in the residual air are continuously ionized by the first-stage nano water ion generating device sequentially through the next-stage nano water ion generating device so as to gradually ionize the external air entering the air duct.

2. The nano-water ionic air cleaner as recited in claim 1,

the condensation part is provided with a closing member and a net structure in contact with the outside air, and the closing member is closed when being idle so as to isolate the net structure from the outside.

3. The nano-water ionic air cleaner as recited in claim 2,

the condensing portion is disposed inside the stationary housing to allow ambient air to enter the condensing portion when the closure member is opened.

4. The nano-water ionic air cleaner as recited in claim 2,

the condensing part is a protruding structure arranged on the outer surface of the fixed shell, and a hollow shell is arranged on the outer surface of the protruding structure.

5. The nano-water ionic air cleaner as recited in claim 1,

the water absorption strips are arranged from top to bottom relative to the fixed shell, and the cooling part guides the condensed water to the discharge electrode through the water absorption strips.

6. The nano-water ionic air cleaner as recited in claim 1,

the air purification device is characterized by further comprising an air purification module, wherein the air purification module is arranged at the air inlet of the air channel and used for purifying the outside air entering the air channel from the air inlet.

7. The nano-water ionic air cleaner as recited in claim 1,

including control panel and control module, control module inlays to be established in the fixed shell, control panel sets up in the fixed shell, control panel is used for supplying the user to carry out fan gear regulation, on-off machine control, cooperation control module realizes fan gear regulation, on-off machine.

8. The nano-water ionic air cleaner as recited in claim 7,

the fan controller is arranged in the control module, and the timer is used for automatically starting to work when a user starts the machine.

9. The nano-water ionic air cleaner as recited in claim 7, wherein:

the air quality monitoring module is connected with the control module and embedded in the control panel, and is used for monitoring PM2.5 concentration parameters of the outside air and sending the parameters to the control module to realize quality monitoring and information feedback of the outside air.

10. The nano-water ionic air cleaner as recited in claim 1, wherein:

the air outlet is provided with a movable shutter, the movable shutter is horizontally arranged, and the angle of the movable shutter is adjusted to adjust the air outlet direction of the nano water ion air purifier.

Images