CN214318630U - Device capable of efficiently removing new coronavirus in air - Google Patents

Abstract

The utility model provides a can high-efficiently clear away new crown virus device in air, includes the shaking table, installs the casing on the shaking table, and the front end of casing is equipped with the air inlet, and the air inlet of casing passes through the air outlet of front end tuber pipe flexible coupling joint with the air-supply line and links to each other, and the air inlet department of air-supply line is equipped with air inlet electric air door, and the rear end of casing is equipped with the gas outlet, and the gas outlet of casing passes through the air inlet that rear end tuber pipe flexible coupling joint and go out the tuber pipe and links to each other, and the air outlet department that goes out the tuber pipe is equipped with air outlet electric air door. The device can clean dust deposition through periodic vibration in unit time so as to ensure that the equipment can stably clean viruses for a long time, has large air treatment amount in unit time and very outstanding effect of removing various harmful viruses, can effectively remove various harmful viruses in the air of crowded places such as superstores, supermarkets, subways, hotels, farmer markets, airports, restaurants and the like, and effectively reduces the risk of the new crown viruses through air propagation, and can efficiently clean the new crown viruses in the air.

Description

Device capable of efficiently removing new coronavirus in air

Technical Field

The utility model relates to a can high-efficiently clear away new coronavirus device in air.

Background

The new coronavirus has high propagation and diffusion speed and strong infection capacity, can be propagated through air diffusion in intensive places such as superstores, supermarkets, subways, hotels, farmer markets, airports, restaurants and the like, can infect numerous people and seriously threaten the health of people, so that careful prevention is needed to prevent the new coronavirus from being propagated and diffused. However, for various reasons, there is no device capable of effectively removing various harmful viruses in the air in crowded places such as superstores, supermarkets, subways, hotels, farmer markets, airports, restaurants and the like.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an accessible periodic vibration clearance deposition, in order to ensure that equipment can stably clear away the virus for a long time, and the processing tolerance in the unit interval is big, it is very outstanding to get rid of various harmful virus effects, can effectively get rid of various harmful virus in the air in personnel's intensive places such as shopping mall, supermarket, subway, hotel, farm trade market, airport, hotel are inside, effectively reduce the risk that new crown virus passes through air propagation, guarantee people's healthy can high-efficiently clear away new crown virus device in the air.

The utility model discloses a can clear away new crown virus device in air with high efficiency, including the shaking table, install the casing on the shaking table, the front end of casing is equipped with the air inlet, and the air inlet of casing passes through the flexible coupling joint of front end tuber pipe and links to each other with the air outlet of air-supply line, and the air inlet department of air-supply line is equipped with air inlet electric air door, the rear end of casing is equipped with the gas outlet, and the gas outlet of casing passes through the flexible coupling joint of rear end tuber pipe and links to each other with the air intake of play tuber pipe, and the air outlet department of play tuber pipe is equipped with air outlet electric air door;

the middle part of the air inlet pipe is communicated with an air outlet of the circulating air pipe, an outlet closing valve is arranged at the air outlet of the circulating air pipe, an air inlet of the circulating air pipe is communicated with the middle part of the air outlet pipe, an inlet closing valve is arranged at the air inlet of the circulating air pipe, and an air heating device and a hot air circulating fan which can kill viruses by heating air are arranged on the circulating air pipe;

an air channel is arranged in the shell, the front end of the air channel is connected with an air inlet at the front end of the shell, the rear end of the air channel is connected with an air outlet at the rear end of the shell, temperature sensors are arranged at the air channel and the circulating air pipe, and a pressure difference sensor for monitoring the pressure difference between the air inlet at the front end of the shell and the air outlet at the rear end of the shell is arranged on the shell;

the middle part of the air outlet pipe is communicated with an air inlet of a dust exhaust air pipe, a dust exhaust valve is arranged at the air inlet of the dust exhaust air pipe, an air outlet of the dust exhaust air pipe is communicated with an air inlet of a bag type dust collector, and an air outlet of the bag type dust collector is communicated with the outside atmosphere through an exhaust pipe which is connected with an exhaust fan in series;

the middle part in the air channel is provided with a plurality of microporous plates of which the plate surfaces can pass through air flow, the microporous plates are made of conductive materials, and the plate surfaces of the microporous plates are arranged along the front-back vertical direction;

an airflow channel is arranged between the micro porous plates, a row of discharge electrodes are arranged in the middle of the airflow channel along the front-back direction, and more than one vertical plate for changing the direction of airflow is arranged in the airflow channel between the micro porous plates;

the vertical plates are arranged from one side to the other side of the air channel according to the changing sequence that n vertical plates are arranged in one air channel, n +1 vertical plates are arranged in one air channel, n vertical plates are arranged in the next air channel, and n +1 vertical plates are arranged in the next air channel, and the vertical plates in the adjacent air channels are arranged in a staggered position from front to back;

n is a natural number greater than 0;

the front end of the air channel is provided with a front clapboard, the front clapboards are arranged in a changing sequence from one side of the air channel to the other side of the air channel according to the fact that the front clapboard is arranged at the front end of one air channel, the front clapboard is not arranged at the front end of one air channel, the front clapboard is arranged at the front end of the next air channel, and the front clapboard is not arranged at the front end of the next air channel;

the rear end of the air channel is provided with a rear partition plate, the rear partition plates are arranged from one side of the air channel to the other side according to the changing sequence that the front end of one air channel is provided with the rear partition plate, the front end of one air channel is not provided with the rear partition plate, the front end of the next air channel is provided with the rear partition plate, and the front end of the next air channel is not provided with the rear partition plate;

ultraviolet lamp tubes are respectively arranged on the front end surface and the rear end surface of the vertical plate, the front end surface and the rear end surface of the front clapboard and the front end surface and the rear end surface of the rear clapboard, and the thickness of the microporous plate is 2 mm-18 mm;

the air heating device, the hot air circulating fan, the outlet closing valve, the inlet closing valve, the air inlet electric air door, the air outlet electric air door, the air exhaust fan, the dust exhaust valve, the pressure difference sensor and the temperature sensor are respectively connected with the electric control device.

The utility model discloses a can high-efficiently clear away new corona virus device in air, wherein the face of riser, back baffle and the face perpendicular to micropore board of preceding baffle, the quantity of the riser that sets up is 3-8 among every air passage, the thickness of micropore board is 6 mm-8 mm.

The utility model discloses a but new corona virus device in high-efficient clear away air, wherein the micropore board adopts the foam metal sheet to make.

The utility model discloses a but new crown virus device in high-efficient clear air when using, can put through high voltage direct current power supply with the discharge electrode, then utilize the fan to let the gas that has the microorganism get into the air passage that can high-efficient clear away new crown virus device in the air, and along the air passage that can high-efficient clear away new crown virus device in the air get into a plurality of airflow channel, the gas that thoughtlessly has microorganism and dust flows when passing the discharge electrode in airflow channel, microorganism and dust in the gas can be in charged state when being close to the discharge electrode, then microorganism in the gas passes another airflow channel of micropore board entering again, gas is passing another airflow channel in-process of micropore board entering, must let the interval between microorganism and dust and the micropore board become very little, microorganism and the dust of electric charge in the gas can be caught through the electric adsorption by the micropore board. Therefore, the method can ensure large treatment air flow and high efficiency of removing microorganisms including various viruses in the air.

The device for efficiently removing new crown virus in air of the utility model adopts the microporous plate as the electrode for capturing the new crown virus, which can make the utility model have very large air flow rate and very small wind resistance, has very high efficiency for removing microorganisms including various viruses in the air, and can filter more than 97 percent of viruses in the air on the basis of large air flow rate by calculating the number of the viruses, and simultaneously, the new crown virus which is suspended in the air and adsorbed on the microporous plate in each air flow channel and enters the air channel is killed by irradiating the ultraviolet lamp tubes arranged on the front end surface, the rear end surface, the front end surface and the rear end surface of the front clapboard through the vertical plate, and the new crown virus can be adsorbed for a plurality of times in the process of reciprocating the new crown virus through the microporous plate, so that the time for the new crown virus to be irradiated by the ultraviolet lamp tubes is greatly prolonged, therefore, a very small amount of new coronavirus will be finally separated from the microplate and flow out, and the coronavirus is also killed by ultraviolet rays. Furthermore, still the utility model discloses can pass through the air in the air heating device heated air passageway and make the hot-air circulation pass through each micropore board at the time of setting for, make new corona virus can die rapidly in very short time, can thoroughly kill all new corona viruses in the air passageway and on each micropore board from this. Therefore, use the utility model discloses a can high-efficiently clear away equipment of new crown virus device in the air as circulation filtration process the shopping mall, the supermarket, the subway, the hotel, the farm trade market, the airport, the equipment of the air in personnel's intensive places such as restaurant, can effectively get rid of the shopping mall, the supermarket, the subway, the hotel, the farm trade market, the airport, various harmful virus in the air in personnel's intensive places such as restaurant, effectively reduce the risk that new crown virus passes through the air propagation, ensure people's healthy, and the deposition is cleared up in the periodic vibration of its accessible, in order to ensure that equipment can stably clear away the virus for a long time.

The device for efficiently removing new coronavirus from air according to the present invention will be described in detail with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic view of the device for efficiently removing new coronavirus from air according to the present invention;

FIG. 2 is an enlarged front sectional view of the microporous plate portion of the device for efficiently removing new coronavirus from air according to the present invention.

Fig. 3 is a top sectional view of fig. 2.

Detailed Description

As shown in fig. 1, fig. 2 and fig. 3, the device for efficiently removing corona virus in air of the present invention comprises a vibration table 1, a casing 2 is installed on the vibration table 1, an air inlet 3 is arranged at the front end of the casing 2, the air inlet 3 of the casing 2 is connected with the air outlet of an air inlet pipe 5 through a front end air pipe flexible connection joint 4, an air inlet electric air door 6 is arranged at the air inlet of the air inlet pipe 5, an air outlet 7 is arranged at the rear end of the casing 2, the air outlet 7 of the casing 2 is connected with the air inlet of an air outlet pipe 9 through a rear end air pipe flexible connection joint 8, and an air outlet electric air door 10 is arranged at the air outlet of the air outlet pipe 9;

the middle part of the air inlet pipe 5 is communicated with an air outlet of a circulating air pipe 11, an outlet closing valve 12 is arranged at the air outlet of the circulating air pipe 11, an air inlet of the circulating air pipe 11 is communicated with the middle part of an air outlet pipe 9, an inlet closing valve 13 is arranged at the air inlet of the circulating air pipe 11, and an air heating device 14 and a hot air circulating fan 15 which can kill viruses by heating air are arranged on the circulating air pipe 11;

an air channel 16 is arranged in the machine shell 2, the front end of the air channel 16 is connected with an air inlet 3 at the front end of the machine shell 2, the rear end of the air channel 16 is connected with an air outlet 7 at the rear end of the machine shell 2, the air channel 16 and the circulating air pipe 11 are provided with temperature sensors 17, and the machine shell 2 is provided with a pressure difference sensor (not shown in the figure) for monitoring the pressure difference between the air inlet 3 at the front end of the machine shell 2 and the air outlet 7 at the rear end of the machine shell 2;

the middle part of the air outlet pipe 9 is communicated with an air inlet of a dust exhaust air pipe 20, a dust exhaust valve 21 is arranged at the air inlet of the dust exhaust air pipe 20, an air outlet of the dust exhaust air pipe 20 is communicated with an air inlet of a bag type dust collector 22, and an air outlet of the bag type dust collector 22 is communicated with the outside atmosphere through an exhaust pipe 29 which is connected with an exhaust fan 23 in series;

a plurality of microporous plates 18 with the plate surfaces capable of passing through airflow are arranged in the middle of the air channel 16, the microporous plates 18 are made of conductive materials, and the plate surfaces of the microporous plates 18 are arranged in the front-back vertical direction;

a micropore plate taking-out window (not shown in the figure) for taking out the micropore plate 18 is arranged at the top of the machine shell 2, a cover plate (not shown in the figure) is arranged at the micropore plate taking-out window, the micropore plate 18 is fixed on a frame (not shown in the figure), a plurality of lifting rings (not shown in the figure) are arranged at the top of the frame, and the frame is connected with the machine shell 2 in an installing way;

an airflow channel 25 is arranged between the microporous plates 18, a row of discharge electrodes 24 are arranged in the middle of the airflow channel 25 along the front-back direction, and more than one vertical plate 26 for changing the direction of airflow is arranged in the airflow channel 25 between the microporous plates 18;

the vertical plates 26 are arranged from one side to the other side of the air channel 16 according to the changing sequence that n vertical plates 26 are arranged in one air channel 25, n +1 vertical plates 26 are arranged in one air channel 25, n vertical plates 26 are arranged in the next air channel 25, and n +1 vertical plates 26 are arranged in the next air channel 25, and the vertical plates 26 in the adjacent air channels 25 are arranged in a staggered position from front to back;

n is a natural number greater than 0;

the front end of the air flow channel 25 is provided with a front clapboard 27, the front clapboard 27 is arranged from one side of the air flow channel 16 to the other side according to the changing sequence that the front clapboard 27 is arranged at the front end of one air flow channel 25, the front clapboard 27 is not arranged at the front end of one air flow channel 25, the front clapboard 27 is arranged at the front end of the next air flow channel 25, and the front clapboard 27 is not arranged at the front end of the next air flow channel 25;

the rear end of the air channel 25 is provided with a rear clapboard 28, the rear clapboard 28 is arranged from one side of the air channel 16 to the other side according to the changing sequence that the front end of one air channel 25 is provided with the rear clapboard 28, the front end of one air channel 25 is not provided with the rear clapboard 28, the front end of the next air channel 25 is provided with the rear clapboard 28, and the front end of the next air channel 25 is not provided with the rear clapboard 28;

ultraviolet lamp tubes 19 are respectively arranged on the front end face and the rear end face of the vertical plate 26, the front end face and the rear end face of the front partition plate 27 and the front end face and the rear end face of the rear partition plate 28, the thickness of the microporous plate 18 is 2 mm-18 mm, and the PPI number of the holes of the microporous plate 18 per inch is 80-120;

the air heating device 14, the hot air circulating fan 15, the outlet closing valve 12, the inlet closing valve 13, the air inlet electric air door 6, the air outlet electric air door 10, the air exhaust fan 23, the dust exhaust valve 21, the differential pressure sensor and the temperature sensor 17 are respectively connected with the electric control device;

when the air channel 16 needs to be heated and sterilized, the air heating device 14 and the heated air circulation fan 15 can be synchronously opened through the electric control device, the outlet closing valve 12 and the inlet closing valve 13 are synchronously opened, the dust exhaust valve 21, the air inlet electric air door 6 and the air outlet electric air door 10 are simultaneously closed, air at the rear part in the air channel 16 is pumped into the circulating air pipe 11 under the driving of the heated air circulation fan 15, is heated by the air heating device 14 when passing through the circulating air pipe 11, then flows to the front part in the air channel 16 along the circulating air pipe 11, then flows to the rear part in the air channel 16 through each microporous plate 18 to form heated circulating air which continuously flows along the air channel 16 and the circulating air pipe 11 to kill viruses, and when the air temperature monitored by the temperature sensor 17 is increased to a set high temperature point, the temperature sensor 17 sends out an electric signal, the air heating device 14 stops heating the air through the electric control device, when the air temperature monitored by the temperature sensor 17 is reduced to a set low temperature point, the temperature sensor 17 sends an electric signal, and the air heating device 14 heats the air again through the electric control device; after heating and disinfection, the electric control device closes the air heating device 14 and the hot air circulating fan 15, synchronously closes the outlet closing valve 12 and the inlet closing valve 13, and simultaneously opens the air inlet electric air door 6 and the air outlet electric air door 10;

when the differential pressure sensor monitors that the differential pressure between the air inlet 3 at the front end of the machine shell 2 and the air outlet 7 at the rear end of the machine shell 2 is larger than a set value, the differential pressure sensor sends an electric signal, the outlet closing valve 12 is closed through the electric control device, the dust exhaust valve 21 is opened at the same time, the exhaust fan 23 and the vibration table 1 are started, the vibration of the vibration table 1 and the air flow generated by the exhaust fan 23 blow, the dust accumulated on the microporous plate 18 falls off, and the dust enters the bag-type dust collector 22 along with the air flow to be removed;

when the pressure difference sensor monitors that the pressure difference between the air inlet 3 at the front end of the machine shell 2 and the air outlet 7 at the rear end of the machine shell 2 is smaller than a set value, the pressure difference sensor sends an electric signal, the outlet closing valve 12 is opened through the electric control device, the dust exhaust valve 21 is closed at the same time, the air exhaust fan 23 and the vibration table 1 are powered off, and the air exhaust fan 23 and the vibration table 1 stop operating.

When the electric control device synchronously opens the air heating device 14 and the hot air circulating fan 15, the electric control device synchronously opens the outlet closing valve 12 and the inlet closing valve 13, simultaneously closes the air inlet electric air door 6 and the air outlet electric air door 10, air at the rear part in the air passage 16 is pumped into the circulating air pipe 11 under the driving of the hot air circulating fan 15, is heated by the air heating device 14 when passing through, then flows to the front part in the air passage 16 along the circulating air pipe 11, then flows to the rear part in the air passage 16 through each microporous plate 18 to form hot circulating air which flows along the air passage 16 and the circulating air pipe 11 to kill viruses, when the air temperature monitored by the temperature sensor 17 is increased to a set high temperature point, the temperature sensor 17 sends out an electric signal, and the air heating device 14 stops heating the air through the electric control device, when the air temperature monitored by the temperature sensor 17 is reduced to a set low temperature point, the temperature sensor 17 sends an electric signal, the air heating device 14 is enabled to reheat the air through the electric control device, and the new corona viruses can die rapidly in a short time under the influence of the hot air heated by the air heating device 14, so that all the new corona viruses in the air channel 16 and on each microporous plate 18 can be thoroughly killed. In the using process, the air heating device 14 and the hot air circulating fan 15 can be synchronously started every 2-6 hours to thoroughly sterilize the interior of the air channel 16 and each microporous plate, and the time for starting the air heating device 14 and the hot air circulating fan 15 every time can be set to 15-30 minutes to avoid the spread of the new corona virus through air propagation.

When the electric control device synchronously closes the air heating device 14 and the hot air circulating fan 15, the electric control device synchronously closes the outlet closing valve 12 and the inlet closing valve 13 and simultaneously opens the air inlet electric air door 6 and the air outlet electric air door 10.

The ash removal by the exhaust fan 23 and the vibration table 1 can also be performed immediately after the air heating device 14 and the heated air circulation fan 15 finish one-time virus killing operation each time, so as to reduce the virus from diffusing out of the device again to the maximum extent.

As a further improvement of the present invention, the plate surface of the vertical plate 26, the plate surface of the rear partition 28, and the plate surface of the front partition 27 are perpendicular to the plate surface of the micro-porous plate 18, the number of the vertical plates 26 disposed in each air passage 16 is 3-8, and the thickness of the micro-porous plate 18 is 6 mm-8 mm.

As a further improvement of the present invention, the micro-porous plate 18 is made of a foam metal plate.

The utility model discloses a but new crown virus device in high-efficient clear air is when using, when the gas that mixes microorganism and dust flows in airflow channel 5, can receive 26 the influence of blockking of riser and let the air current redirecting and the micropore board 18 that passes that relapse, in this in-process, gaseous microorganism and dust can be by the lotus electricity when getting into near when discharge electrode 24, then pass through electrosorption or filtration by micropore board 18 when passing by micropore board 18 and catch, because the air current can redirecting many times and the repeated micropore board 18 that passes, various viruses and dust including remaining new crown virus also have many times the chance in the gas and pass through electrosorption or filtration by micropore board 18 and catch, then by ultraviolet irradiation or heating kill. Therefore, various viruses including new coronavirus in the air can be more thoroughly removed.

The device for efficiently removing new corona virus in air of the utility model adopts the design that the plate surfaces of a plurality of micro-porous plates 18 are arranged along the front and back directions, more than one vertical plate 26 for changing the direction of the air flow is arranged in the airflow channel 5 between the micro-porous plates 18, the vertical plates 26 in the adjacent airflow channels 5 are arranged at staggered positions in the front and back directions, and the middle part in the airflow channel 5 is provided with a row of discharge electrodes 24 along the front and back directions, the section of the microporous plate 18 for electrically adsorbing and treating microorganisms in the air can be greatly increased under the condition of the same volume, so that the gas with the same volume can pass through the microporous plate 18 at a lower speed in unit time, and the design that the thickness of the microporous plate 18 is 2 mm-18 mm and the PPI of the number of the holes on each inch of the microporous plate 18 is 80-120, therefore, more complete and efficient electro-adsorption capture of the tiny viruses in the air can be realized. Through the microbial purification efficiency project inspection, the basis of the microbial purification efficiency project inspection is 'JGT 294-2010 air purifier pollutant purification performance determination', and the obtained experimental data are as follows: when the sampling concentration of microorganisms at the air inlet of the air passage 16 is 13169cfu/m³The air quantity at the air inlet is 12736.3m³The sampling concentration of microorganisms at the air outlet of the air passage 16 was 353cfu/m³Namely, the utility model discloses a can high-efficiently clear away in the air new corona virus device and get rid of the efficiency of microorganism is 97.32%.

When doing above-mentioned little biological purification efficiency project inspection experiment, it is still right the utility model discloses carried out PM2.5 purification efficiency test, this PM2.5 purification efficiency test's basis is "GB/T34012-2017 air purification device for ventilation system", and the experimental data who obtains is: when the average concentration of PM2.5 pollutants at the air inlet of the air passage 16 is 317.2 μm/m³The air quantity at the air inlet is 11359.6m³H, the average concentration of the contaminants at the air outlet of the air passage 16 was 10.5 μm/m³Namely, the efficiency of the device for removing PM2.5 by the new coronavirus in the air can be 96.69%.

The utility model discloses a can clear away new crown virus device in air high-efficiently when using, put through high voltage direct current power supply with discharge electrode 24, let produce a 20000 volt potential difference between discharge electrode 24 and micropore board 18, then utilize the fan to let the gas that has suspended the microorganism get into the air duct 16 that can clear away new crown virus device in air high-efficiently, and get into a plurality of airflow channel 5 along the air duct 16 that can clear away new crown virus device in air high-efficiently, when the gas that mixes microorganism and dust flows through discharge electrode 24 in airflow channel 5, microorganism and dust in the gas can be in charged state when being close discharge electrode 24, then microorganism in the gas passes another airflow channel 5 of micropore board 18 entering again, because the thickness of micropore board 18 is 2 mm-18 mm, the number PPI of every inch micropore board 18 upper hole is 80-120, gas is passing another airflow channel 5 in-process of 18 entering, the distance between the microorganisms and the dust and the microporous plate 18 is inevitably small, the charged microorganisms and the dust in the gas can be captured by the microporous plate 18 through electric adsorption, and simultaneously, the ultraviolet lamp tubes 19 arranged on the front end face and the rear end face of the vertical plate 26, the front end face and the rear end face of the front partition plate 27 and the front end face and the rear end face of the rear partition plate 28 can also irradiate step by step to kill the new corona viruses which enter the air channel 16 and enter each air flow channel 5 and are suspended in the air and adsorbed on the microporous plate 18.

The device for efficiently removing new corona virus in air of the utility model adopts the microporous plate 18 as an electrode for capturing new corona virus, which can make the utility model have very large air flow rate and very small wind resistance, has very high efficiency for removing microorganisms including various viruses in the air, can remove more than 96 percent of viruses in the air on the basis of large air flow rate by calculating the number of the viruses, further can kill the new corona virus which is suspended in the air and adsorbed on the microporous plate 18 in the air channel 16 and enters each air flow channel 5 by irradiating the ultraviolet lamp tube 19 arranged on the front end surface and the rear end surface of the front clapboard 27 and the front end surface and the rear end surface of the rear clapboard 28 on the basis of large air flow rate, because the new corona virus can be adsorbed by a plurality of times in the process of reciprocating through the microporous plate 18, the irradiation time of the ultraviolet lamp tube 19 is greatly prolonged, so that a very small amount of new coronavirus will eventually fall off the microplate 18 and flow out, which has also been killed by the uv light. In addition, the air in the air passage 16 can be heated by the air heating device 14 at a set time and the hot air is circulated through each micro-porous plate 18, so that the new corona virus can be rapidly killed in a short time, thereby completely killing all the new corona virus in the air passage 16 and on each micro-porous plate 18. Therefore, use the utility model discloses a can high-efficiently clear away equipment of new crown virus device in the air as circulation filtration process the shopping mall, the supermarket, the subway, the hotel, the farm trade market, the airport, the equipment of the air in personnel's intensive places such as restaurant, can effectively get rid of the shopping mall, the supermarket, the subway, the hotel, the farm trade market, the airport, various harmful virus in the air in personnel's intensive places such as restaurant, effectively reduce the risk that new crown virus passes through the air propagation, ensure people's healthy, and the deposition is cleared up in the periodic vibration of its accessible, in order to ensure that equipment can stably clear away the virus for a long time.

Claims (3)

1. Can high-efficient clear away new coronavirus device in the air, its characterized in that: the air inlet device comprises a vibrating table (1), a casing (2) is installed on the vibrating table (1), an air inlet (3) is formed in the front end of the casing (2), the air inlet (3) of the casing (2) is connected with an air outlet of an air inlet pipe (5) through a front end air pipe flexible connection joint (4), an air inlet electric air door (6) is arranged at an air inlet of the air inlet pipe (5), an air outlet (7) is formed in the rear end of the casing (2), the air outlet (7) of the casing (2) is connected with an air inlet of an air outlet pipe (9) through a rear end air pipe flexible connection joint (8), and an air outlet electric air door (10) is arranged at the air outlet of the air outlet pipe (9);

the middle part of the air inlet pipe (5) is communicated with an air outlet of the circulating air pipe (11), an outlet closing valve (12) is arranged at the air outlet of the circulating air pipe (11), an air inlet of the circulating air pipe (11) is communicated with the middle part of the air outlet pipe (9), an inlet closing valve (13) is arranged at the air inlet of the circulating air pipe (11), and an air heating device (14) and a hot air circulating fan (15) which can kill viruses by heating air are arranged on the circulating air pipe (11);

an air channel (16) is arranged in the machine shell (2), the front end of the air channel (16) is connected with an air inlet (3) at the front end of the machine shell (2), the rear end of the air channel (16) is connected with an air outlet (7) at the rear end of the machine shell (2), temperature sensors (17) are arranged at the air channel (16) and the circulating air pipe (11), and a differential pressure sensor for monitoring the differential pressure between the air inlet (3) at the front end of the machine shell (2) and the air outlet (7) at the rear end of the machine shell (2) is arranged on the machine shell (2);

the middle part of the air outlet pipe (9) is communicated with an air inlet of a dust exhaust air pipe (20), a dust exhaust valve (21) is arranged at the air inlet of the dust exhaust air pipe (20), an air outlet of the dust exhaust air pipe (20) is communicated with an air inlet of a bag type dust collector (22), and an air outlet of the bag type dust collector (22) is communicated with the outside atmosphere through an air exhaust pipe (29) which is connected with an air exhaust fan (23) in series;

a plurality of microporous plates (18) with the plate surfaces capable of passing through airflow are arranged in the middle of the air channel (16), the microporous plates (18) are made of conductive materials, and the plate surfaces of the microporous plates (18) are arranged along the front-back vertical direction;

an airflow channel (25) is arranged between the microporous plates (18), a row of discharge electrodes (24) are arranged in the middle of the airflow channel (25) along the front-back direction, and more than one vertical plate (26) for changing the direction of airflow is arranged in the airflow channel (25) between the microporous plates (18);

the vertical plates (26) are arranged from one side to the other side of the air channel (16) according to the changing sequence that n vertical plates (26) are arranged in one air channel (25), n +1 vertical plates (26) are arranged in one air channel (25), n vertical plates (26) are arranged in the next air channel (25), and n +1 vertical plates (26) are arranged in the next air channel (25), and the vertical plates (26) in the adjacent air channels (25) are arranged in a staggered position from front to back;

n is a natural number greater than 0;

the front end of each air channel (25) is provided with a front partition plate (27), the front partition plates (27) are arranged in a changing sequence from one side of each air channel (16) to the other side according to the changing sequence that the front partition plate (27) is arranged at the front end of one air channel (25), the front partition plate (27) is not arranged at the front end of one air channel (25), the front partition plate (27) is arranged at the front end of the next air channel (25), and the front partition plate (27) is not arranged at the front end of the next air channel (25);

the rear end of the air channel (25) is provided with a rear clapboard (28), the rear clapboard (28) is arranged from one side of the air channel (16) to the other side according to the changing sequence that the front end of one air channel (25) is provided with the rear clapboard (28), the front end of one air channel (25) is not provided with the rear clapboard (28), the front end of the next air channel (25) is provided with the rear clapboard (28), and the front end of the next air channel (25) is not provided with the rear clapboard (28);

ultraviolet lamp tubes (19) are respectively arranged on the front end face and the rear end face of the vertical plate (26), the front end face and the rear end face of the front partition plate (27) and the front end face and the rear end face of the rear partition plate (28), and the thickness of the microporous plate (18) is 2 mm-18 mm;

the air heating device (14), the hot air circulating fan (15), the outlet closing valve (12), the inlet closing valve (13), the air inlet electric air door (6), the air outlet electric air door (10), the air exhaust fan (23), the dust exhaust valve (21), the pressure difference sensor and the temperature sensor (17) are respectively connected with the electric control device.

2. The device for efficiently removing new coronavirus in air according to claim 1, wherein: the plate surfaces of the vertical plates (26), the rear partition plate (28) and the front partition plate (27) are perpendicular to the plate surface of the microporous plate (18), the number of the vertical plates (26) arranged in each air channel (16) is 3-8, and the thickness of the microporous plate (18) is 6-8 mm.

3. The device for efficiently removing new coronavirus in air according to claim 1 or 2, wherein: the micropore plate (18) is made of a foam metal plate.

Images