CN106765636B

CN106765636B - Air purifier with reinforced sterilization function

Info

Publication number: CN106765636B
Application number: CN201611214894.XA
Authority: CN
Inventors: 曾庆伟; 严勤丰; 范芸芸
Original assignee: Suzhou Aierxin Purifying Science & Technology Co ltd
Current assignee: Suzhou Hongji Clean Technology Co ltd
Priority date: 2016-12-26
Filing date: 2016-12-26
Publication date: 2022-11-11
Anticipated expiration: 2036-12-26
Also published as: CN106765636A

Abstract

The invention discloses an air purifier with reinforced sterilization function, comprising: the ozone generator comprises a main box body, an ozone gas box, a high-efficiency filter, a fan, a wind distribution box, a wind outlet box and a touch panel; one side of the main box body is provided with an air inlet cover plate, a first air inlet is formed in the air inlet cover plate, the efficient filter is arranged on the inner side of the first air inlet, the fan is arranged on the other side of the efficient filter, the ozone gas box is arranged on the other side of the fan, and the air distribution box is arranged above the fan. According to the invention, through arranging the ozone gas box, the air distribution box and the air outlet box, air and ozone are sequentially mixed for three times in the ozone gas box, the air distribution box and the air outlet box so as to realize the three-time reinforced sterilization process of ozone on air, thus the air sterilization and purification effect of ozone is reinforced and greatly improved, and the quality of air is effectively ensured.

Description

Air purifier with reinforced sterilization function

Technical Field

The invention relates to the field of air purification equipment, in particular to an air purifier with an enhanced sterilization function.

Background

The air purifier is also called as an air cleaner and an air freshener, can adsorb, decompose or convert various air pollutants, and can effectively improve the air cleanliness. In the face of the increasingly serious problem of air pollution, the air purifier is particularly important. The air purifier is generally applied at present, but generally only has a simple air filtering and purifying function, the sterilization effect is weak, and the air purifier is not suitable for places with strict requirements on air quality by lamps in hospitals and restaurants, and can meet the requirements on air purification and sterilization by other auxiliary sterilization means, so that the use is inconvenient, and additional expenses are increased. Therefore, an air purifying device with the functions of strengthening sterilization and purification is lacked at present.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide an air purifier with an enhanced sterilization function, aiming at the above-mentioned deficiencies in the prior art.

In order to solve the technical problems, the invention adopts the technical scheme that: an air purifier with an enhanced sterilization function, comprising: the ozone generating device comprises a main box body 1, an ozone gas box 2, a high-efficiency filter 3, a fan 4, a wind distribution box 5, an air outlet box 6 and a touch panel 7;

an air inlet cover plate 10 is arranged on one side of the main box body 1, a first air inlet 11 is formed in the air inlet cover plate 10, the high-efficiency filter 3 is arranged on the inner side of the first air inlet 11, the fan 4 is arranged on the other side of the high-efficiency filter 3, the ozone air box 2 is arranged on the other side of the fan 4, and the air distribution box 5 is arranged above the fan 4;

an air outlet box 6 is arranged at the top of the main box body 1, the bottom of the air outlet box 6 is communicated with the top of the air distribution box 5, an air outlet plate 60 is obliquely arranged at the upper part of the air outlet box, an air outlet 61 is arranged on the air outlet plate 60, and a heating device 63 is obliquely arranged below the air outlet plate 60;

a second air inlet 51 is formed in the bottom plate 50 of the air distribution box 5, air inlet micropores 52 are formed in the periphery of the second air inlet 51, air outlet micropores 54 are formed in an upper cover 53 of the air distribution box 5, an air deflector 55 is arranged above the second air inlet 51 in the air distribution box 5, support legs 56 are formed in the periphery of the bottom of the air deflector 55, the air deflector 55 is fixed on the bottom plate 50 of the air distribution box 5 through the support legs 56, and a gap is formed between the air deflector 55 and the second air inlet 51;

the ozone air box 2 is provided with a first air duct 22 and a second air duct 23 in a communicated manner, the other end of the first air duct 22 is arranged above the fan 4, and the other end of the second air duct 23 is communicated with a second air inlet 51 at the bottom of the air distribution box 5 in a matched manner.

Preferably, the high efficiency filter 3 comprises a first nylon layer 30, an activated carbon fiber layer 31, a carbon nanofiber cloth layer 32, a wool fiber layer 33, a PTFE fiber layer 34 and a second nylon layer 35 which are arranged in sequence from outside to inside.

Preferably, an ozone generator 20 and a first ozone concentration sensor 21 are provided in the ozone gas tank 2.

Preferably, an air quality sensor 36 is disposed above the high efficiency filter 3, and the air quality sensor 36 includes a PM2.5 sensor, a formaldehyde sensor and a TVOC sensor.

Preferably, a second ozone concentration sensor 37 is further provided above the high-efficiency filter 3.

Preferably, the touch panel 7 is disposed on a top panel of the main body 1, and a controller 8 is disposed below the touch panel 7.

Preferably, the touch panel 7 is connected to the air quality sensor 36, the first ozone concentration sensor 21, and the second ozone concentration sensor 37, respectively, and displays detection results of the air quality sensor 36, the first ozone concentration sensor 21, and the second ozone concentration sensor 37.

Preferably, one end of the controller 8 is electrically connected to the touch panel 7, and the other end is electrically connected to the ozone generator 20 and the heating device 63, respectively.

Preferably, the first air inlet 11 is provided with a non-woven fabric layer 12, and the air outlet 61 is provided with a glass fiber filter membrane 62.

Preferably, under the effect of the fan 4, air enters the main box body 1 from the air inlet, and enters the main box body 1 after being filtered by the high-efficiency filter 3, wherein a part of air enters the air distribution box 5 from the air inlet micropores 52, another part of air enters the ozone air box 2 through the first air guide tube 22, the gas in the ozone air box 2 enters the air distribution box 5 from the second air guide tube 23, the gas in the air distribution box 5 enters the air outlet box 6 from the air outlet micropores 54, and then is discharged from the air outlet 61 after passing through the heating device 63.

The invention at least comprises the following beneficial effects:

1. according to the invention, the ozone box, the air distribution box and the air outlet box are arranged, so that air and ozone are sequentially mixed for three times in the ozone box, the air distribution box and the air outlet box, and the three-time reinforced sterilization process of the ozone on the air entering the purifier is achieved, thus the air sterilization and purification effect of the ozone is reinforced and greatly improved, and the quality of the air is effectively ensured.

2. The high-efficiency filter has the functions of dust collection, deodorization, harmful organic matter removal and the like, has extremely strong air purification effect, and also has high mechanical strength and long service life.

3. The air purifier has the advantages of good air purification effect, simple structure, low operation cost, convenience in use and good market prospect.

Drawings

FIG. 1 is a schematic structural diagram of an air purifier with an enhanced sterilization function according to the present invention;

FIG. 2 is a schematic structural view of a cloth bellows of the present invention;

FIG. 3 is a schematic structural view of a bottom plate of the air distribution box of the present invention;

FIG. 4 is a side view of an air purifier with an enhanced sterilization function according to the present invention;

fig. 5 is a cross-sectional view in the thickness direction of the high efficiency filter of the present invention.

Description of the reference numerals:

1-main box body; 2-ozone gas box; 3, a high-efficiency filter; 4, a fan; 5, air distribution boxes; 6, an air outlet box; 7-a touch panel; 8, a controller; 10-air intake cover plate; 11-a first air inlet; 12-a non-woven fabric layer; 20-an ozone generator; 21-a first ozone concentration sensor; 22-a first airway tube; 23-a second airway tube; 30-a first nylon layer; 31-activated carbon fiber layer; 32-carbon nanofiber cloth layer; 33-a layer of wool fibers; 34-a PTFE fiber layer; 35-a second nylon layer; 36-air quality sensor; 37-a second ozone concentration sensor; 50-a base plate; 51-a second air inlet; 52-air inlet micropores; 53-upper cover; 54-air outlet micropores; 55-a wind deflector; 56-support leg; 60-air outlet plate; 61-air outlet; 62-glass fiber filter membrane; 63-heating device.

Detailed Description

The present invention is described in further detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 4, an air purifier with an enhanced sterilization function of the present embodiment includes: the ozone generating device comprises a main box body 1, an ozone box 2, a high-efficiency filter 3, a fan 4, an air distribution box 5, an air outlet box 6 and a touch panel 7.

One side of the main box body 1 is provided with an air inlet cover plate 10, a first air inlet 11 is arranged on the air inlet cover plate 10, a high-efficiency filter 3 is arranged on the inner side of the first air inlet 11, a fan 4 is arranged on the other side of the high-efficiency filter 3, an ozone air box 2 is arranged on the other side of the fan 4, and an air distributing box 5 is arranged above the fan 4.

Produce ozone in ozone gas tank 2, ozone has very strong sterilization function, can reach the sterilization to the air through ozone and air mixing, and the mixed degree of reinforcing ozone and air can show the sterilization purifying effect who improves ozone.

An air outlet box 6 is arranged at the top of the main box body 1, the bottom of the air outlet box 6 is communicated with the top of the air distribution box 5, an air outlet plate 60 is obliquely arranged at the upper part of the air outlet box, an air outlet 61 is arranged on the air outlet plate 60, and a heating device 63 is obliquely arranged below the air outlet plate 60.

Wherein, the air flows in from the bottom of the air-out box 6, and the air-out plate 60 with the air outlet 61 is arranged obliquely, the turbulent flow of the air can be enhanced by changing the direction of the air flow in the air-out box 6, so as to promote the mixing of the air. The heating device 63 is used for heating the air to adjust the temperature, and on the other hand, the heated air promotes the decomposition of the residual ozone in the air discharged from the air outlet 61, so as to avoid the harm of excessive residual ozone to human health.

The bottom plate 50 of the air distribution box 5 is provided with a second air inlet 51, the periphery of the second air inlet 51 is provided with air inlet micropores 52, the upper cover 53 of the air distribution box 5 is provided with air outlet micropores 54, the upper cover 53 is provided with an inverted cone to facilitate air outlet, an air deflector 55 is arranged above the second air inlet 51 in the air distribution box 5, the periphery of the bottom of the air deflector 55 is provided with support legs 56, the air deflector 55 is fixed on the bottom plate 50 of the air distribution box 5 through the support legs 56, and a gap is formed between the air deflector 55 and the second air inlet 51.

Wherein, cloth bellows 5 is through the internal structure design to reach the intensive mixing that promotes the air of entering and ozone, thereby strengthen the sterilization effect of ozone. The working principle is as follows: after entering the air distribution box 5, the air flowing upwards from the second air inlet 51 is subjected to the resistance of the air deflector 55 arranged above the second air inlet 51, and because a gap is formed between the air deflector 55 and the second air inlet 51, the air with flow resistance diffuses and flows around in the gap; the bottom plate 50 of the air distribution box 5 is further provided with air inlet micropores 52 at the periphery of the second air inlet 51, air entering from the air inlet micropores 52 flows upwards to a gap between the air deflector 55 and the second air inlet 51 to meet the air, and two air flows in different directions are fully mixed (one air flows around, the other air flows upwards), then the air flows upwards, and the air flows out of the air distribution box 5 through the air outlet micropores 54 on the upper cover 53.

In another embodiment, the air deflector 55 is tilted upward to guide the air.

The ozone gas box 2 is provided with a first gas-guide tube 22 and a second gas-guide tube 23 in a communicating manner, the other end of the first gas-guide tube 22 is arranged above the fan 4, and the other end of the second gas-guide tube 23 is communicated with a second air inlet 51 at the bottom of the air distribution box 5 in a matching manner.

The high-efficiency filter 3 comprises a first nylon layer 30, an activated carbon fiber layer 31, a carbon nanofiber cloth layer 32, a wool fiber layer 33, a PTFE fiber layer 34 and a second nylon layer 35 which are arranged in sequence from outside to inside.

The air entering from the first air inlet 11 sequentially passes through the first nylon layer 30, the activated carbon fiber layer 31, the carbon nanofiber cloth layer 32, the wool fiber layer 33, the PTFE fiber layer 34 and the second nylon layer 35 from outside to inside.

The first nylon layer 30 and the second nylon layer 35 have a coarse purification function, and simultaneously protect the inner layer of the high-efficiency filter 3, so that the mechanical performance of the high-efficiency filter 3 can be enhanced; the activated carbon fiber layer 31 has strong adsorption effect and can adsorb a large amount of harmful substances; the carbon nanofiber cloth layer 32 has good adsorption performance, can effectively enhance the toughness and the wear resistance of the folded filter screen, and can be arranged on the inner layer of the high-efficiency filter 3, so that the mechanical strength of the filter in colleges and universities can be obviously improved, and the service life of the filter is prolonged; the PTFE fiber layer 34 can effectively improve the strength of the high-efficiency filter 3; the wool fibers have a large number of micropores, the wool fiber layer 33 has a good adsorption effect on harmful substances in the air, and meanwhile, various organic pollutants can be completely or partially decomposed to finally generate substances harmless to a human body, and the wool fibers are easy to generate static electricity, can promote air ionization to generate negative ions, and improve the air quality. Because activated carbon fiber layer 31 and carbon nanofiber cloth layer 32 all can only adsorb organic pollutant, and can not decompose organic pollutant, after reaching certain adsorption capacity, some organic pollutant passes activated carbon fiber layer 31 and carbon nanofiber cloth layer 32 easily, and set up the wool fiber layer 33 that can totally or partially decompose all kinds of organic pollutant behind carbon nanofiber cloth layer 32, can ensure thoroughly cleaing away of organic pollutant, simultaneously because activated carbon fiber layer 31 and carbon nanofiber cloth layer 32 have absorbed a large amount of organic pollutant, the organic pollutant of wool fiber layer 33 that flows through significantly reduces, can guarantee the cleaing away of wool fiber layer 33 to remaining organic pollutant. The activated carbon fiber layer 31, the carbon nanofiber cloth layer 32 and the wool fiber layer 33 are matched with each other, so that the purification treatment effect of the high-efficiency filter 3 on organic pollutants can be obviously improved.

The first air inlet 11 is provided with a non-woven fabric layer 12 for primarily filtering the entering air. The air outlet 61 is provided with a glass fiber filter membrane 62 for filtering the air discharged from the air outlet 61 again to ensure the quality of the air.

An ozone generator 20 for generating ozone and a first ozone concentration sensor 21 for detecting the concentration of ozone in the ozone gas tank 2 are provided in the ozone gas tank 2.

An air quality sensor 36 is arranged above the high-efficiency filter 3, and the air quality sensor 36 comprises a PM2.5 sensor, a formaldehyde sensor and a TVOC sensor and is used for detecting the PM2.5 content, the formaldehyde content and the TVOC content in the air. A second ozone concentration sensor 37 for detecting the concentration of ozone in the air entering from the first air inlet 11 is also arranged above the high-efficiency filter 3.

The touch panel 7 is arranged on a top panel of the main box body 1, and the touch panel 7 is respectively connected with the air quality sensor 36, the first ozone concentration sensor 21 and the second ozone concentration sensor 37 and is used for displaying detection results of the air quality sensor 36, the first ozone concentration sensor 21 and the second ozone concentration sensor 37; a controller 8 is disposed below the touch panel 7, one end of the controller 8 is electrically connected to the touch panel 7, and the other end of the controller 8 is electrically connected to the ozone generator 20 and the heating device 63, respectively, so that the ozone generator 20 and the heating device 63 are controlled by the touch panel 7.

The working process of the air purifier with the reinforced sterilization function in the embodiment is as follows:

under the action of the fan 4, air enters from the air inlet, enters the main box body 1 after being filtered by the high-efficiency filter 3, one part of the air enters the air distribution box 5 from the air inlet micropores 52, the other part of the air enters the ozone box 2 through the first air duct 22, ozone generated in the ozone box 2 is primarily mixed with the ozone, and the ozone primarily sterilizes the part of the air;

the mixed gas in the ozone gas box 2 enters the air distribution box 5 through the second air inlet 51 through the second air duct 23 under the action of air flow, and under the action of the air deflector 55 arranged above the second air inlet 51, the mixed gas diffuses and flows around in the gap between the air deflector 55 and the second air inlet 51 and is fully mixed with the air entering from the air inlet micropores 52 on the bottom plate 50 of the air distribution box 5, and the ozone therein sterilizes the air for the second time;

the air in the air distribution box 5 flows upwards through the air outlet micropores 54 to enter the air outlet box 6, is further mixed in the air outlet box 6, enters the air for three times of sterilization by ozone, passes through the heating device 63, and is discharged through the obliquely arranged air outlet 61. The air outlet plate 60 provided with the air outlet 61 is obliquely arranged, so that on one hand, the turbulence degree of air in the air outlet box 6 can be enhanced by changing the running direction of airflow, the air and ozone are more fully mixed, and the ozone sterilization effect is improved; on the other hand, the heating effect of the heating device 63 obliquely arranged below the air outlet plate 60 on the air can be improved, so that the residual ozone is ensured to be heated and decomposed, and the harm to the health of a human body caused by excessive residual ozone is prevented.

Through the successive and successive three times mixing of the air and the ozone in the ozone air box 2, the air distribution box 5 and the air outlet box 6, the three-time reinforced sterilization process of the ozone on the air entering the purifier is realized, so that the air sterilization and purification effect of the ozone is greatly improved, and the quality of the air is effectively ensured.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

While embodiments of the invention have been disclosed above, it is not intended to be limited to the uses set forth in the specification and examples. It can be applied to all kinds of fields suitable for the present invention. Additional modifications will readily occur to those skilled in the art. Therefore, the invention is not to be limited to the specific details and illustrations shown and described herein, without departing from the general concept as defined by the claims and their equivalents.

Claims

1. An air purifier with an enhanced sterilization function is characterized by comprising: the ozone generating device comprises a main box body (1), an ozone gas box (2), a high-efficiency filter (3), a fan (4), an air distribution box (5), an air outlet box (6) and a touch panel (7);

an air inlet cover plate (10) is arranged on one side of the main box body (1), a first air inlet (11) is formed in the air inlet cover plate (10), the high-efficiency filter (3) is arranged on the inner side of the first air inlet (11), the fan (4) is arranged on the other side of the high-efficiency filter (3), the ozone air box (2) is arranged on the other side of the fan (4), and the air distribution box (5) is arranged above the fan (4);

an air outlet box (6) is arranged at the top of the main box body (1), the bottom of the air outlet box (6) is communicated with the top of the air distribution box (5), an air outlet plate (60) is obliquely arranged at the upper part of the air outlet box, an air outlet (61) is arranged on the air outlet plate (60), and a heating device (63) is obliquely arranged below the air outlet plate (60);

a second air inlet (51) is formed in the bottom plate (50) of the air distribution box (5), air inlet micropores (52) are formed in the periphery of the second air inlet (51), air outlet micropores (54) are formed in the upper cover (53) of the air distribution box (5), an air guide plate (55) is arranged above the second air inlet (51) in the air distribution box (5), supporting legs (56) are formed in the periphery of the bottom of the air guide plate (55), the air guide plate (55) is fixed to the bottom plate (50) of the air distribution box (5) through the supporting legs (56), and a gap is formed between the air guide plate (55) and the second air inlet (51);

the ozone air box is characterized in that a first air duct (22) and a second air duct (23) are communicated with the upper portion of the ozone air box (2), the other end of the first air duct (22) is arranged above the fan (4), and the other end of the second air duct (23) is communicated with a second air inlet (51) in the bottom of the air distribution box (5) in a matched mode.

2. The air purifier with the enhanced sterilization function according to claim 1, wherein the high efficiency filter (3) comprises a first nylon layer (30), an activated carbon fiber layer (31), a carbon nanofiber cloth layer (32), a wool fiber layer (33), a PTFE fiber layer (34) and a second nylon layer (35) which are arranged in sequence from outside to inside.

3. The air purifier with the enhanced sterilization function according to claim 1, wherein an ozone generator (20) and a first ozone concentration sensor (21) are provided in the ozone tank (2).

4. The air purifier with the enhanced sterilization function according to claim 3, wherein an air quality sensor (36) is disposed above the high efficiency filter (3), and the air quality sensor (36) comprises a PM2.5 sensor, a formaldehyde sensor and a TVOC sensor.

5. The air purifier with the enhanced sterilization function according to claim 4, wherein a second ozone concentration sensor (37) is further disposed above the high efficiency filter (3).

6. The air purifier with the enhanced sterilization function according to claim 5, wherein the touch panel (7) is disposed on a top panel of the main cabinet (1), and a controller (8) is disposed below the touch panel (7).

7. The air cleaner with the enhanced sterilization function according to claim 6, wherein the touch panel (7) is connected to the air quality sensor (36), the first ozone concentration sensor (21) and the second ozone concentration sensor (37) respectively, for displaying detection results of the air quality sensor (36), the first ozone concentration sensor (21) and the second ozone concentration sensor (37).

8. The air purifier with enhanced sterilization function according to claim 7, wherein the controller (8) is electrically connected to the touch panel (7) at one end and to the ozone generator (20) and the heating device (63) at the other end, respectively.

9. The air purifier with enhanced sterilization function as claimed in claim 1, wherein the first air inlet (11) is provided with a non-woven fabric layer (12), and the air outlet (61) is provided with a glass fiber filter membrane (62).

10. The air purifier with the enhanced sterilization function according to any one of claims 1 to 9, wherein under the action of the fan (4), air enters the main box body (1) from the air inlet, is filtered by the high efficiency filter (3) and then enters the main box body (1), a part of the air enters the air distribution box (5) from the air inlet micropores (52), the other part of the air enters the ozone box (2) through the first air duct (22), air in the ozone box (2) enters the air distribution box (5) through the second air duct (23), and air in the air distribution box (5) enters the air outlet box (6) through the air outlet micropores (54) and then is discharged from the air outlet (61) through the heating device (63).