CN116398969A - Micro-static air purifying and sterilizing device - Google Patents

Abstract

The invention relates to the technical field of air purification, in particular to a micro-static air purification and disinfection device, which comprises an air pipe assembly, wherein an outlet of the air pipe assembly is connected with a fan, the fan is used for being matched with the air pipe assembly to collect air, the micro-static assembly is used for capturing particles in the air passing through a second air pipe and disinfecting and sterilizing the particles, and the dust collection assembly is used for adsorbing the particles in the air passing through a first air pipe and disinfecting and sterilizing the particles collected by the dust collection assembly.

Description

Micro-static air purifying and sterilizing device

Technical Field

The invention relates to the technical field of air purification, in particular to a micro-static air purification and disinfection device.

Background

Micro static electricity is a new generation of air purification technology, which refers to a technology of air purification by using a strong electric field with a dielectric material as a carrier. The dielectric is an insulator, no breakdown and sparking phenomenon exists, the dielectric material wraps the electrode plates to form honeycomb hollow micropore channels, a strong electric field is formed in the channels, particles in the air are attracted by the electric field after being electrified, the particles are adsorbed in the honeycomb hollow micropore channels, and microorganisms attached to the particles are collected together and killed in the strong electric field.

The principle of the micro-electrostatic air purification disinfection device comprises that a dielectric material wraps an electrode plate to form a honeycomb hollow micropore channel, and because of the existence of the micropore channel, the whole micro-electrostatic device has a certain upper limit on the adsorption treatment of particles in air, namely the micro-electrostatic device is easy to exceed the upper limit of an operation load when being used in an environment with larger smoke content, so that the problem that the particles in the air are blocked or not adsorbed and treated is solved.

Disclosure of Invention

The invention aims to provide a micro-static air purifying and sterilizing device, which solves the following technical problems:

at present, part of sundries can be filtered by adding a filter screen before smoke dust is sucked, but the air circulation is blocked by the filter screen with too small meshes, so that the operation efficiency of the equipment is seriously affected, particles entering the micro-electrostatic equipment cannot be effectively reduced by the filter screen with too large meshes, meanwhile, part of particle impurities are blocked outside and cannot undergo a disinfection and sterilization process, and the particle impurities can continuously exist in the environment along with air after air flows, so that the problem of greatly reducing the disinfection and sterilization effect of the micro-electrostatic equipment is caused.

The aim of the invention can be achieved by the following technical scheme:

a micro-electrostatic air cleaning and disinfecting device, comprising:

the air duct assembly comprises a first air duct, a second air duct is connected to the outlet of the first air duct through a connecting elbow, the first air duct and the second air duct are arranged in the same plane in a relatively inclined mode, a fan is connected to the outlet of the second air duct, and the fan is used for being matched with the air duct assembly to collect air;

the micro-static assembly is used for capturing particles in the air passing through the second air pipe and disinfecting and sterilizing the particles;

the dust collection assembly comprises a pair of electrostatic adsorption plates, wherein the electrostatic adsorption plates are arranged in the first air pipe and are used for adsorbing particles in air passing through the first air pipe partially;

and the disinfection assembly is used for disinfecting and sterilizing the particles collected by the dust collection assembly.

Through the technical scheme: under the higher condition of particulate matter content in the air, before the little static subassembly adsorbs the particulate matter in the air, start the collection dirt subassembly and catch the collection to some particulate matter through collection dirt subassembly to reduce the quantity through little static subassembly's particulate matter, make little static subassembly's work load be in its load all the time within, further, carry out long-time irradiation disinfection through the space in disinfection subassembly to particulate matter and the whole tuber pipe subassembly that collection dirt subassembly was collected, thereby promote disinfection bactericidal effect.

Preferably: the micro-static assembly comprises a primary filter screen, an ionization plate, a micro-static filter plate and an air purification module, wherein the primary filter screen is arranged at the inlet of a first air pipe, the ionization plate is movably connected to the outlet of a second air pipe, the micro-static filter plate is movably connected to the ionization plate, and the air purification module is movably connected to the micro-static filter plate.

Preferably: the electrostatic adsorption plate is a metal plate with an insulating sleeve sleeved on the outer layer, the first air pipe is of a rectangular structure, and the electrostatic adsorption plate is respectively arranged on two long edges of the rectangular first air pipe.

Through the technical scheme: the problem that the high-voltage electric field between the pair of electrostatic adsorption plates breaks down air to generate electric arc and noise is avoided through the insulating layer outside the metal plate, then the distance between the pair of electrostatic adsorption plates is reduced through the first air pipe with the rectangular structure, and therefore the defect that the capturing capacity of particles is reduced due to the fact that the electric field strength of the insulating layer is reduced can be overcome.

Preferably: the disinfection subassembly includes ultraviolet ray disinfection lamp, ultraviolet ray disinfection lamp sets up on the inner wall that second tuber pipe and the connection elbow outside are connected, ultraviolet ray disinfection lamp is close to the setting of first tuber pipe.

Through the technical scheme: because the second tuber pipe is relative first tuber pipe slope setting, install the ultraviolet ray disinfection lamp on the inner wall that second tuber pipe and the connection elbow outside are connected can follow the side and shine first tuber pipe and dust collecting assembly in it, the ultraviolet ray disinfection lamp is located the second tuber pipe simultaneously, also can disinfect and disinfect to the air in the second tuber pipe and article, finally, this kind of arrangement mode can obtain great effective space of shining under the circumstances that shortens ultraviolet ray disinfection lamp length, and ultraviolet ray disinfection lamp length and its power positive correlation, shorten ultraviolet ray disinfection lamp length and obtain great effective space of shining, namely obtain the whole disinfection effect of the same or similar under the prerequisite that has reduced its power.

Preferably: the ultraviolet disinfection lamp is characterized in that an installation seat is arranged below the ultraviolet disinfection lamp, the ultraviolet disinfection lamp is fixed on the installation seat, and the installation seat is movably connected to the second air pipe.

Preferably: the ultraviolet disinfection lamp is provided with a dust cover, the top of the dust cover is transparent, the inner side of the four walls of the dust cover is coated with a reflective coating, a cleaning brush capable of moving along the surface of the dust cover is arranged above the dust cover, and the cleaning brush is driven to move by a driving piece.

Preferably: the driving piece comprises a screw rod, a pair of connecting plates are arranged above the mounting seat, the screw rod is rotationally connected between the pair of connecting plates, a sliding block is arranged between the pair of connecting plates, the sliding block is slidably connected onto the mounting seat, the cleaning brush is fixed onto the sliding block, the sliding block is in threaded connection with the screw rod, a first bevel gear is coaxially connected onto the screw rod, a second bevel gear is meshed onto the side face of the first bevel gear, a rotating shaft is coaxially connected onto the second bevel gear, and the rotating shaft penetrates through the mounting seat.

Through the technical scheme: the dust cover protects the ultraviolet disinfection lamp, avoids the dust to cover on the ultraviolet disinfection lamp, then cleans the dust cover surface through gliding cleaning brush, thereby make driving piece power source follow external transmission scheme who obtains through the driving piece switching-over can reduce occupation to tuber pipe subassembly inner space, reduces the interference to the air current circulation.

Preferably: the dust box is arranged outside the first air pipe, an opening of the dust box is located at the joint of the first air pipe and the second air pipe, a cover plate is arranged above the dust box, the cover plate is of an inverted L-shaped structure, and a power piece for pushing the cover plate to lift is arranged below the cover plate.

Through the technical scheme: the dust storage box can collect the particulate matter or the dust that drop from the dust cover, and wherein the apron of liftable rises when needs collect the dust, then comes present dust or the removal of particulate matter through L type structure, avoids dust or particulate matter to break away from the entry position of dust storage box, promotes the efficiency that dust or particulate matter got into the dust storage box, and the apron falls and can avoid the air current that produces to the interference of dust or particulate matter inside the dust storage box when the fan starts.

Preferably: the inlet of the first air pipe is provided with an air inlet, and the primary filter screen is detachably arranged on the air inlet.

The invention has the beneficial effects that:

(1) Under the condition that the content of the particles in the air is high, before the micro-static assembly adsorbs the particles in the air, the dust collection assembly is started and captures and collects part of the particles through the dust collection assembly, so that the amount of the particles passing through the micro-static assembly is reduced, the workload of the micro-static assembly is always in the load of the micro-static assembly, and further, the particles collected by the dust collection assembly and the space in the whole air pipe assembly are irradiated and disinfected for a long time through the disinfection assembly, so that the disinfection and sterilization effect is improved.

(2) According to the invention, the second air pipe is obliquely arranged relative to the first air pipe, so that the ultraviolet disinfection lamp arranged on the inner wall of the second air pipe, which is connected with the outer side of the connecting elbow, irradiates the first air pipe and the dust collecting component therein from the side surface, meanwhile, the ultraviolet disinfection lamp is positioned in the second air pipe, and can disinfect air and articles in the second air pipe.

(3) According to the invention, the ultraviolet disinfection lamp is protected through the dust cover, dust is prevented from being covered on the ultraviolet disinfection lamp, and then the surface of the dust cover is cleaned through the sliding cleaning brush, wherein the transmission scheme obtained from the outside through the power source of the driving part is changed through the reversing of the transmission part, so that the occupation of the internal space of the air pipe assembly can be reduced, and the interference on the air flow circulation is reduced.

(4) According to the dust box, particles or dust falling from the dust cover can be collected through the dust box, the liftable cover plate is lifted when the dust needs to be collected, then the dust or the particles move through the L-shaped structure, the dust or the particles are prevented from being separated from the inlet position of the dust box, the efficiency of entering the dust box by the dust or the particles is improved, and the interference of air flow generated when the fan is started to the dust or the particles in the dust box can be avoided after the cover plate falls.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic overall side elevational view of the present invention;

FIG. 3 is a schematic cross-sectional view of an air duct assembly according to the present invention;

FIG. 4 is a schematic view of the mounting structure of the ultraviolet sterilizing lamp according to the present invention;

FIG. 5 is a schematic view of a part of the installation structure of the ultraviolet sterilizing lamp according to the present invention;

FIG. 6 is a schematic cross-sectional view of a dust bin of the present invention;

FIG. 7 is a schematic view of the air duct assembly of the present invention.

Reference numerals illustrate:

10. an air duct assembly; 11. a first air duct; 12. a connecting elbow; 13. a second air duct; 14. an ionization plate; 15. a micro-electrostatic filter plate; 16. an air purification module; 17. a blower; 18. an air inlet; 19. a primary filter screen;

20. an electrostatic adsorption plate;

30. an ultraviolet sterilizing lamp; 31. a dust cover; 32. a mounting base; 33. a connecting plate; 34. a screw rod; 35. a cleaning brush; 36. a sliding block; 37. a first helical gear; 38. a second helical gear; 39. a rotating shaft;

40. a dust storage box; 41. a power member; 42. and a cover plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, in one embodiment, a micro-electrostatic air decontamination device is provided, comprising:

the air duct assembly 10, refer to fig. 7, the air duct assembly 10 comprises a first air duct 11, the outlet of the first air duct 11 is connected with a second air duct 13 through a connecting elbow 12, all made of metal sheets, the integral strength is improved, the weight is kept reasonable, the lifting is convenient, the first air duct 11 and the second air duct 13 are arranged in the same plane in a relatively inclined manner, the outlet of the second air duct 13 is fixedly connected with a fan 17 through a bolt set, the fan 17 is used for being matched with the air duct assembly 10 to collect air, and after the fan 17 is started, the air duct assembly 10 can generate negative pressure from an inlet to absorb the air at the inlet;

the micro-static assembly referring to fig. 1, the micro-static assembly may include a primary filter screen 19, an ionization plate 14, a micro-static filter plate 15 and an air purification module 16, wherein the primary filter screen 19 is fixed at an inlet of the first air pipe 11 through bolts, the ionization plate 14 is fixedly connected to an outlet of the second air pipe 13 through bolts, the ionization plate makes particles charged through an ionization region, the micro-static filter plate 15 is fixedly connected to the ionization plate 14 through bolts, and is in a honeycomb structure, and is used for capturing the particles in the air passing through the second air pipe 13, and meanwhile, the particles are sterilized and disinfected through a strong electric field, the air purification module 16 is fixedly connected to the micro-static filter plate 15 through bolts, the air containing the particles is sucked into the air pipe assembly through a negative pressure generated by a fan 17, and then passes through the primary filter screen 19 to separate the particles or impurities and the air which cannot be adsorbed, the air after the primary filtration is further processed through a corona generated through a high voltage of the ionization region of the ionization plate 14, thereby releasing a large number of ions, the ions collide with air molecules to form an avalanche effect, and more air molecules are charged, and then the charged air molecules are continuously adhered to the particles, and then the charged particles pass through the micro-static filter plate 15, and the micro-static filter plate is further purified through a porous matrix, and the air purification module can further perform the electric field-like, and the functions of purifying the particles can be realized, and the air is a porous filter, or the air has a high electric field, and the effect can be purified.

The dust collection assembly, referring to fig. 2, may include a pair of electrostatic adsorption plates 20, the electrostatic adsorption plates 20 are disposed in the first air duct 11, and are used for adsorbing particles in air passing through the first air duct 11, the principle of the electrostatic adsorption plates 20 is that high voltage is applied to two sides of the pair of metal plates so as to generate an electric field between the pair of metal plates, so that the particles in the air can be adsorbed, when the content of the particles in the air is high, before the micro-electrostatic assembly adsorbs the particles in the air, the dust collection assembly is started, and when the content of the particles is high, the dust collection assembly cannot completely adsorb all the particles, but the starting of the dust collection assembly reduces the amount of the particles passing through the micro-electrostatic assembly, so that the workload of the micro-electrostatic assembly is always within the load thereof;

then, can carry out long-time irradiation disinfection to the particulate matter that collection dirt subassembly was collected and the space in the whole tuber pipe subassembly through disinfection subassembly to promote disinfection bactericidal effect.

Referring to fig. 2 to 5, the sterilizing unit may include an ultraviolet sterilizing lamp 30, where the ultraviolet sterilizing lamp 30 is disposed on an inner wall of the second air duct 13 connected to an outer side of the connecting elbow 12, the ultraviolet sterilizing lamp 30 is disposed near the first air duct 11, for sterilizing and disinfecting particulate matters collected by the dust collecting unit, and since the second air duct 13 is disposed obliquely with respect to the first air duct 11, the ultraviolet sterilizing lamp 30 mounted on the inner wall of the second air duct 13 connected to the outer side of the connecting elbow 12 irradiates the first air duct 11 and the dust collecting unit therein from a side, and the ultraviolet sterilizing lamp 30 is disposed in the second air duct 13, and can sterilize air and articles in the second air duct 13.

Wherein, the electrostatic adsorption plate 20 is a metal plate with an insulating sleeve sleeved on the outer layer, the first air pipe 11 is of a rectangular structure, a pair of electrostatic adsorption plates 20 are respectively arranged on two long sides of the rectangular first air pipe 11, and the space between the pair of electrostatic adsorption plates 20 is reduced through the first air pipe 11 of the rectangular cross-section structure while the area of the electrostatic adsorption plates 20 is ensured.

It should be noted that, the cross-sectional shapes of the first air duct 11 and the second air duct 13 are not limited, and the rectangular structure is adopted in this embodiment to reduce the space between the pair of electrostatic adsorption plates 20 and ensure the area of the electrostatic adsorption plates 20 to ensure the efficiency of adsorbing particles, and the rectangular structure is a common shape of the air duct structure, so that other cross-sectional structures that can meet the requirement of reducing the space between the pair of electrostatic adsorption plates 20 and ensure the area of the electrostatic adsorption plates 20 can be replaced.

Referring to fig. 4, an installation seat 32 is provided below the ultraviolet sterilizing lamp 30, the ultraviolet sterilizing lamp 30 is fixed on the installation seat 32, the installation seat 32 is fixedly connected on the second air duct 13 through a bolt set, the ultraviolet sterilizing lamp 30 and related structures thereof are arranged on the installation seat 32, and the installation seat 32 can be disassembled for rapid operation when maintenance and cleaning are required.

The ultraviolet disinfection lamp 30 is provided with the dust cover 31, the top of the dust cover 31 is transparent, the inner side of the four walls of the dust cover 31 is coated with the reflective coating, the reflective coating can collect light, the light loss of the ultraviolet disinfection lamp 30 is reduced, the cleaning brush 35 which can move along the surface of the dust cover 31 is arranged above the dust cover 31, the cleaning brush 35 consists of a mounting frame and a brush, the mounting frame is fixedly connected to a driving piece, the cleaning brush 35 is driven to move through the driving piece, the dust cover 31 protects the ultraviolet disinfection lamp 30, dust is prevented from being covered on the ultraviolet disinfection lamp 30, and then the surface of the dust cover 31 is cleaned through the sliding cleaning brush 35.

Referring to fig. 5, the driving member includes a screw rod 34, a pair of connection plates 33 are disposed above the mounting seat 32, the screw rod 34 is rotatably connected between the pair of connection plates 33, a sliding block 36 is disposed between the pair of connection plates 33, the sliding block 36 is slidably connected to the mounting seat 32, a cleaning brush 35 is fixed on the sliding block 36, the sliding block 36 is in threaded connection with the screw rod 34, a first bevel gear 37 is coaxially connected to the screw rod 34, a second bevel gear 38 is meshed with a side surface of the first bevel gear 37, a rotating shaft 39 is coaxially connected to the second bevel gear 38, an operating handle is connected to the rotating shaft 39 through the mounting seat 32, and a power direction is switched from a direction along the mounting seat 32 to a direction perpendicular to the mounting seat 32 by a power reversing member formed between the first bevel gear 37 and the second bevel gear 38, so that a power source of the driving member can be obtained from the outside, that is, compared with other transmission schemes, occupation of an internal space of the air pipe assembly 10 can be reduced, and interference to air flow therein can be reduced.

Referring to fig. 6, the first air duct 11 is provided with the dust storage box 40, the dust storage box 40 is fixedly connected below the first air duct 11, the opening of the dust storage box 40 is located at the junction of the connecting elbow 12 and the second air duct 13, the cover plate 42 is provided with the cover plate 42, the cover plate 42 is of an inverted L-shaped structure, the power part 41 pushing the cover plate 42 to lift is arranged below the cover plate 42, the dust storage box 40 can collect particles or dust falling from the dust cover 31, it is worth to say that, in order to maximize the collection effect of the dust storage box 40, the first air duct 11 needs to enable the length direction of the first air duct to be arranged along the gravity direction during installation, and the dust storage box 40 is located at the position below the ultraviolet disinfection lamp 30, so that dust or particles on the dust cover 31 protecting the ultraviolet disinfection lamp 30 can fall by means of gravity, the collection efficiency of the dust storage box 40 is improved, the lifting cover plate 42 is limited by the L-shaped structure when the dust needs to be collected, the dust or the particles can be prevented from falling off the inlet position of the dust storage box 31, the dust or the particles need to be prevented from falling off the dust box 40, the dust storage box is prevented from being lifted by the wind power part 17, and the dust collection fan is prevented from being obviously from being lifted when the dust storage box is required to fall into the dust box 17, and the dust storage box is prevented from being lifted and the dust storage box is prevented from being blown into the dust box 17 to be in order to be lifted to be in order to be greatly to be lifted and the dust collection.

An air inlet 18 is arranged at the inlet of the first air pipe 11, and a primary filter screen 19 is detachably arranged on the air inlet 18.

The foregoing describes one embodiment of the present invention in detail, but the disclosure is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims (9)

1. A micro-electrostatic air cleaning and disinfecting device, comprising:

the air duct assembly (10), the air duct assembly (10) comprises a first air duct (11), a second air duct (13) is connected to the outlet of the first air duct (11) through a connecting elbow (12), the first air duct (11) and the second air duct (13) are arranged in the same plane in a relatively inclined mode, a fan (17) is connected to the outlet of the second air duct (13), and the fan (17) is used for being matched with the air duct assembly (10) to collect air;

the micro-static assembly is used for capturing particles in the air passing through the second air pipe (13) and disinfecting and sterilizing the particles;

the dust collection assembly comprises a pair of electrostatic adsorption plates (20), wherein the electrostatic adsorption plates (20) are arranged in the first air pipe (11) and are used for adsorbing particles in air passing through the first air pipe (11);

and the disinfection assembly is used for disinfecting and sterilizing the particles collected by the dust collection assembly.

2. The micro-static air purification and disinfection device according to claim 1, wherein the micro-static assembly comprises a primary filter screen (19), an ionization plate (14), a micro-static filter plate (15) and an air purification module (16), the primary filter screen (19) is arranged at the inlet of the first air pipe (11), the ionization plate (14) is movably connected to the outlet of the second air pipe (13), the micro-static filter plate (15) is movably connected to the ionization plate (14), and the air purification module (16) is movably connected to the micro-static filter plate (15).

3. The micro-electrostatic air purification and disinfection device according to claim 1, wherein the electrostatic adsorption plate (20) is a metal plate with an insulating sleeve sleeved on the outer layer, the first air pipe (11) is of a rectangular structure, and a pair of electrostatic adsorption plates (20) are respectively arranged on two long sides of the rectangular first air pipe (11).

4. A micro-electrostatic air cleaning and disinfecting device according to claim 1, characterized in that the disinfecting assembly comprises an ultraviolet disinfecting lamp (30), the ultraviolet disinfecting lamp (30) is arranged on the inner wall of the second air duct (13) connected with the outer side of the connecting elbow (12), and the ultraviolet disinfecting lamp (30) is arranged close to the first air duct (11).

5. The micro-static air purification and disinfection device according to claim 4, wherein a mounting seat (32) is arranged below the ultraviolet disinfection lamp (30), the ultraviolet disinfection lamp (30) is fixed on the mounting seat (32), and the mounting seat (32) is movably connected on the second air pipe (13).

6. The micro-static air purification and disinfection device according to claim 5, wherein a dust cover (31) is arranged outside the ultraviolet disinfection lamp (30), the top of the dust cover (31) is transparent, the inner sides of four walls are coated with reflective coatings, a cleaning brush (35) capable of moving along the surface of the dust cover (31) is arranged above the dust cover (31), and the cleaning brush (35) is driven to move by a driving piece.

7. The micro-static air purification and disinfection device according to claim 6, wherein the driving part comprises a screw rod (34), a pair of connecting plates (33) are arranged above the mounting seat (32), the screw rod (34) is rotatably connected between the pair of connecting plates (33), a sliding block (36) is arranged between the pair of connecting plates (33), the sliding block (36) is slidably connected on the mounting seat (32), the cleaning brush (35) is fixed on the sliding block (36), the sliding block (36) is in threaded connection with the screw rod (34), a first bevel gear (37) is coaxially connected to the screw rod (34), a second bevel gear (38) is meshed to the side surface of the first bevel gear (37), a rotating shaft (39) is coaxially connected to the second bevel gear (38), and the rotating shaft (39) penetrates through the mounting seat (32).

8. The micro-static air purification and disinfection device according to claim 7, wherein a dust storage box (40) is arranged outside the first air pipe (11), an opening of the dust storage box (40) is positioned at a junction of the connecting elbow (12) and the second air pipe (13), a cover plate (42) is arranged above the dust storage box (40), the cover plate (42) is of an inverted L-shaped structure, and a power piece (41) for pushing the cover plate (42) to lift is arranged below the cover plate (42).

9. A micro-electrostatic air cleaning and sterilizing device according to claim 2, characterized in that the inlet of the first air duct (11) is provided with an air inlet (18), and the primary filter screen (19) is detachably arranged on the air inlet (18).

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