CN220582655U - Multi-effect composite disinfection equipment for inserting piece type air purification - Google Patents

Abstract

The utility model belongs to the technical field of air disinfection equipment, and discloses multi-effect composite disinfection equipment for purifying air by inserting sheets. The device mainly comprises a device body assembled by a device box body and a sealing cover, wherein the sealing cover is arranged on two mounting plates through bolts and is sealed with the device box body to form a closed sterilizing space, a plurality of slots are formed in the device box body at equal intervals, an ultraviolet sterilizing plugboard and a plasma sterilizing plugboard are respectively inserted in the slots, a pipeline fan and a plurality of groups of drainage plate mechanisms are respectively arranged on an air inlet, and outside air or polluted air is fed into the device body after being accelerated by the plurality of groups of drainage plate mechanisms under the action of the pipeline fan and is fully filtered and sterilized by a plurality of ultraviolet sterilizing plugboards, the plasma sterilizing plugboards and the plasma sterilizing plugboards in sequence in a plasma mode, an ultraviolet mode and the like. The multi-effect composite disinfection equipment is used as a sending and exhausting purification device of a negative pressure ward, has the advantages of simple structure, convenient installation and maintenance and outstanding disinfection effect, and is worth popularizing on a large scale.

Description

Multi-effect composite disinfection equipment for inserting piece type air purification

Technical Field

The utility model belongs to the technical field of air disinfection equipment, and particularly relates to multi-effect composite disinfection equipment for purifying air by inserting sheets.

Background

In recent years, as various epidemic respiratory diseases spread widely, in order to cope with further spread of the diseases, negative pressure wards are established continuously all over the country. The negative pressure sickroom mainly refers to that the air pressure in the sickroom is lower than the air pressure outside the sickroom, fresh air outside the sickroom is sent into the sickroom by utilizing an air supply purification device, and air polluted by patients in the sickroom is timely discharged to a fixed place by utilizing an air exhaust purification device through a special channel. The negative pressure ward can avoid the air polluted by the patient from leaking out, pollutes the surrounding air, effectively reduces the risk of medical staff being infected by a large amount of infection, and further protects the safety of other ward patients.

The negative pressure ward sending and exhausting purifying device is mainly composed of sending and exhausting cabinets and filtering devices of each level. Although a single filtering device can achieve high efficiency for removing viruses when the device is put into operation initially, the problems of decreasing filtering energy efficiency, saturated adsorption capacity and the like exist in long-term use, and the problems of accumulating and unattached virus concentration and bacteria breeding are also caused by the influence of environmental humidity, temperature and the like, so that the hidden danger of secondary pollution and diffusion is formed. In addition, the replacement and treatment process of the invalid filter materials also have a great number of safety problems. In addition, the air supply and exhaust purification device of the negative pressure ward also needs to meet the economical principle in the use process, once the existing air supply and exhaust purification device is built, the disinfection capacity of an internal disinfection system is determined, a large amount of energy waste is caused by the excessively high disinfection capacity, the relatively low disinfection capacity can not meet the disinfection requirements of different epidemic infectious diseases, and the effect of effectively preventing virus diffusion is not achieved.

Therefore, how to design a disinfection device with low maintenance, low energy consumption and high-efficiency disinfection and sterilization to be applied to a negative pressure ward becomes a new problem to be solved urgently at present.

Disclosure of Invention

Aiming at the risks of cross infection caused by the circulation inhalation of polluted air of respiratory patients in the existing negative pressure ward due to incomplete sterilization, and the incapability of being popularized due to various limitations of the existing negative pressure ward. The utility model aims to design a multi-effect composite disinfection device for inserting piece type air purification, which mainly adopts plasma and ultraviolet dual-mode virus elimination and can determine the combination condition of a plasma collecting plate and an ultraviolet collecting plate according to the gas emission standard and the actual condition in a negative pressure ward. Therefore, the manufacturing cost of the disinfection equipment is reduced, and the construction cost of the negative pressure ward is further reduced, so that the negative pressure ward is better popularized and popularized to village hospitals and even non-key county hospitals, and basic medical resources are uniformly developed. And meanwhile, the polluted air in the ward can be completely killed and discharged, so that the pollution to the surrounding environment caused by leakage of air rich in pathogenic microorganisms is avoided.

In order to solve the defects and achieve the aim of the research, the utility model adopts the following technical scheme: the utility model provides an insert type multi-effect composite disinfection equipment for purifying air, which comprises an equipment body, an air inlet and an air outlet are respectively arranged on the equipment body, the equipment body comprises an equipment box body and a sealing cover covered on the equipment box body, two mounting plates are respectively arranged in the equipment box body, the sealing cover is arranged on the two mounting plates through bolts and seals the equipment box body to form a sealed disinfection space, a plurality of slots are equidistantly arranged in the equipment box body, an ultraviolet disinfection plugboard and a plasma disinfection plugboard are respectively inserted in the slots, a pipeline fan is arranged on the air inlet, a plurality of groups of drainage plate mechanisms are arranged in a pipeline of the air inlet, external air is fed into the equipment body after being accelerated by the plurality of groups of drainage plate mechanisms under the negative pressure effect of the pipeline fan, and is fully disinfected by a plurality of ultraviolet disinfection plugboards and plasma disinfection plugboards in sequence and is output into a negative pressure ward by the air outlet; polluted air in the negative pressure ward is accelerated by the positive pressure of the pipeline fan and then is fed into the equipment body through the multiple groups of drainage plate mechanisms, is fully killed through the multiple ultraviolet disinfection plugboards and the plasma disinfection plugboards in sequence, is discharged and emptied through the air outlet, the electric control cabinet is mounted on the sealing cover, the pipeline fan is connected with the electric control cabinet to supply power to the electric control cabinet, two row jack connectors are respectively arranged at the bottom of the sealing cover, and the multiple ultraviolet disinfection plugboards and the plasma disinfection plugboards are connected with the electric control cabinet through the two row jack connectors and respectively supply power to the electric control cabinet.

As the further explanation and limitation of the technical scheme, the drainage plate mechanism comprises a splitter plate arranged in the middle of the air inlet and first guide plates respectively arranged on two sides of the splitter plate, wherein the two first guide plates are inner arc plates, the two inner arc plates are arranged in an out splayed mode, one ends of the two inner arc plates are respectively connected with the inner wall of a pipeline of the air inlet, a second guide plate is arranged between the splitter plate and each first guide plate, the two second guide plates are outer arc plates, the two outer arc plates are arranged in an out splayed mode, and the splitter plate and the two second guide plates divide air flow entering from the air inlet into four strands and then converge to form a single strand to continuously accelerate forward flow under the action of the two first guide plates.

As a further supplementary explanation of the technical scheme, the pipeline flowmeter and the electric valve are arranged on the air outlet, the signal output end of the pipeline flowmeter is connected with the signal input end of the controller in the electric control cabinet, the electric valve is connected with the output end of the controller in the electric control cabinet, and the electric valve automatically adjusts the opening and closing degree to form flow linkage control through the air flow detected by the pipeline flowmeter, so that the disinfection time of air in the equipment body is prolonged.

As a further supplementary explanation of the above technical scheme, an air quality sensor is arranged in the air outlet, and the air quality sensor is used for detecting the quality of the exhaust gas and feeding back the sterilizing effect.

As a further supplementary explanation of the technical scheme, the ultraviolet disinfection plugboards and the plasma disinfection plugboards are arranged in a staggered way to form a multi-channel disinfection system.

As a further supplementary explanation of the technical scheme, a composite filter screen plugboard is inserted into a first slot close to an air inlet in the equipment box body and is used for removing suspended dust particles and microorganisms in the air, so that the subsequent ultraviolet disinfection plugboard and plasma disinfection plugboard can achieve the best disinfection effect.

As a further supplementary explanation of the technical scheme, a flow equalizing plate is arranged on the inner wall of the equipment box body of the air inlet and is used for uniformly distributing the accelerated and gathered air into the equipment body, so that the killed air uniformly passes through the multi-layer ultraviolet disinfection plugboard and the plasma disinfection plugboard to be fully killed.

As a further explanation and limitation of the above technical solution, the ultraviolet disinfection plugboard includes a plugboard body, and a first pinching slot disposed thereon, a plurality of airflow slots are disposed on the plugboard body at equal intervals, and a diversion trench is disposed corresponding to each airflow slot, two lamp tube supports are disposed on the plugboard body, an ultraviolet lamp tube corresponding to each airflow slot is mounted between the two lamp tube supports, and a first contact terminal corresponding to the row jack connector is disposed at the top end of each lamp tube support.

As a further explanation and limitation of the above technical solution, the plasma sterilizing insert board includes an insert board frame, and a plasma board with a buckle installed therein, wherein the upper and lower ends of the insert board frame are respectively provided with a second holding slot hole and a clamping slot, the lower end of the plasma board is provided with a clamping block corresponding to the clamping slot, the insert board frame is provided with a second contact terminal corresponding to the row of jack connectors, and the insert board frame is further provided with a notch which facilitates the disassembly of the plasma board from the insert board frame.

As a further supplementary explanation of the above technical scheme, a handle is arranged on the sealing cover, and the handle is used for being held by a maintenance person so as to separate the sealing cover from the equipment box body.

Compared with the prior art, the utility model has the following advantages:

1. the utility model installs the key disinfection components such as the ultraviolet disinfection plugboard, the plasma disinfection plugboard and the like in the equipment body by adopting the inserting sheet, and the number of the two plugboards is automatically determined according to actual conditions, thereby reducing resource loss under the condition of ensuring sufficient disinfection; meanwhile, as plasma and ultraviolet dual-mode disinfection is adopted, the virus disinfection capability aiming at different environments is strong, and the disinfection efficiency is further improved.

2. The utility model installs a plurality of groups of drainage plate mechanisms in the pipeline of the air inlet on the equipment body, and external air or polluted air is accelerated by the plurality of groups of drainage plate mechanisms and then is sent into the equipment body under the action of the pipeline fan, and is fully sterilized by a plurality of ultraviolet disinfection plugboards and plasma disinfection plugboards in sequence. And meanwhile, a flow equalizing plate is arranged on the inner wall of the equipment box body of the air inlet, wherein the flow equalizing plate is used for uniformly distributing the air collected after acceleration into the equipment body, and the air convenient for sterilization uniformly passes through the multi-layer ultraviolet disinfection plugboard and the plasma disinfection plugboard to be fully sterilized.

3. According to the utility model, the pipeline flowmeter and the electric valve are arranged on the air outlet, and the electric valve automatically adjusts the opening and closing degree of the air flow detected by the pipeline flowmeter to form flow linkage control, so that the disinfection time of air in the equipment body is prolonged.

4. The utility model is used as an air supply purifying device of a negative pressure ward, and a composite filter screen is arranged on the inner wall of a device box body of an air inlet and is used for removing suspended dust particles and microorganisms in air so as to ensure the cleanliness requirement of the air supply.

5. The novel air supply and exhaust purifying device has the advantages of simple structure, convenient installation and maintenance and outstanding disinfection effect, and is worthy of wide popularization.

Drawings

FIG. 1 is a block diagram of an air supply and exhaust purification device assembled by using multi-effect composite disinfection equipment in the utility model;

FIG. 2 is a block diagram of a multi-effect composite sterilization apparatus according to the present utility model;

FIG. 3 is a view showing an internal structure of a case of the apparatus of the present utility model;

FIG. 4 is a schematic view of the installation of the drainage plate mechanism of the present utility model;

FIG. 5 is a block diagram of an ultraviolet disinfection insert plate according to the present utility model;

FIG. 6 is a block diagram of a plasma sterilization insert plate according to the present utility model;

FIG. 7 is a block diagram of two in-line jack connectors mounted to a seal cover in accordance with the present utility model;

FIG. 8 is a schematic diagram of a drainage plate mechanism according to the present utility model;

fig. 9 is a reference diagram for use in the air supply and exhaust purification device of the present utility model.

In the figure: the device comprises a device body 1, an air inlet 2, an air outlet 3, a pipeline flowmeter 4, an electric valve 5, a pipeline fan 6, an electric control cabinet 7, a composite filter screen 8, a flow equalizing plate 9, a flow guiding plate mechanism 10, an ultraviolet disinfection plugboard 11, a plasma disinfection plugboard 12, a row jack connector 13, a negative pressure ward 14 and an air quality sensor 15.

Wherein the equipment body includes: the equipment box body is 101, the sealing cover is 102, the lifting handle is 103, the slot is 104, and the mounting plate is 105.

The drainage plate mechanism includes: the splitter plate is 1001, the second splitter plate is 1002, and the first splitter plate is 1003.

The ultraviolet disinfection plugboard comprises: the plug board body is 1101, the lamp tube support is 1102, the ultraviolet lamp tube is 1103, the first contact terminal is 1104, the airflow slot is 1105, the guide slot is 1106, and the first holding slot is 1107.

The plasma disinfection plugboard comprises: the plug board frame is 1201, the plasma board is 1202, the clamping groove is 1203, the clamping block is 1204, the second contact terminal is 1205, the second holding slot hole is 1206, and the slot hole is 1207.

Detailed Description

In order to further illustrate the technical solution of the present utility model, we will further describe the present utility model by three examples with reference to fig. 1 to 9.

Example 1

As shown in fig. 1 to 4 and 7, a multi-effect composite disinfection device for purifying air by inserting sheets comprises a device body 1, wherein an air inlet 2 and an air outlet 3 are respectively arranged on the device body 1, the device body 1 comprises a device box 101 and a sealing cover 102, a flow equalizing plate 9 is arranged on the inner wall of the device box 101, the flow equalizing plate 9 is positioned at the air inlet 2, and the flow equalizing plate 9 is used for uniformly distributing air collected after acceleration into the device body 1. The sealing cover 102 is provided with a lifting handle 103, the lifting handle 103 is used for being held by a maintainer and is convenient to separate the sealing cover 102 from the equipment box 101, two mounting plates 105 are respectively arranged in the equipment box 101, the sealing cover 102 is mounted on the two mounting plates 105 through bolts and is sealed with the equipment box 101 to form a sealed disinfection space, the equipment box 101 is internally provided with a plurality of slots 104 at equal intervals, ultraviolet disinfection plugboards 11 and plasma disinfection plugboards 12 are respectively inserted in the slots, the ultraviolet disinfection plugboards 11 and the plasma disinfection plugboards 12 are staggered to form a multi-channel disinfection system, a pipeline fan 6 is mounted on an air inlet 2, an electric control cabinet 7 is mounted on the sealing cover 102, the pipeline fan 6 is connected with the electric control cabinet 7 to supply power to the electric control cabinet 7, two row jack connectors 13 are respectively arranged at the bottom of the sealing cover 102, and the ultraviolet disinfection plugboards 11 and the plasma disinfection plugboards 12 are respectively connected with the electric control cabinet 7 through the two row jack connectors 13 to supply power to the electric control cabinet 7. Meanwhile, a plurality of groups of flow guide plate mechanisms 10 are installed in the pipeline of the air inlet 2, each flow guide plate mechanism 10 comprises a flow guide plate 1001 arranged in the middle of the air inlet 2 and first flow guide plates 1003 respectively arranged on two sides of the flow guide plate 1001, each first flow guide plate 1003 is an inner arc-shaped plate, each inner arc-shaped plate is arranged in a splayed mode, one end of each inner arc-shaped plate is connected with the inner wall of the pipeline of the air inlet 2, a second flow guide plate 1002 is arranged between each flow guide plate 1001 and each first flow guide plate 1003, each second flow guide plate 1002 is an outer arc-shaped plate, each outer arc-shaped plate is arranged in a splayed mode, and each flow guide plate 1001 and each second flow guide plate 1002 divide the air flow entering from the air inlet 2 into four strands, and then the two first flow guide plates 1003 are converged to form a single strand to continuously accelerate forward (shown in fig. 8).

As a preferred implementation manner of the foregoing embodiment, as shown in fig. 5, the ultraviolet disinfection board 11 includes a board body 1101, and a plurality of airflow slots 1105 equidistantly disposed thereon, a flow guide slot 1106 is disposed on the board body 1101 corresponding to each of the airflow slots 1105, two lamp holders 1102 are disposed on the board body 1101, an ultraviolet lamp tube 1103 corresponding to each of the airflow slots 1105 is mounted between the two lamp holders 1102, and a first contact terminal 1104 corresponding to the row jack connector 13 is disposed at a top end of each of the lamp holders 1102 for connecting and forming a passage for supplying power to each of the ultraviolet lamp tubes 1103. Meanwhile, a first holding slot 1107 is provided on the board body 1101 to facilitate the disassembly of the ultraviolet sterilization board 11 for maintenance.

As a preferred embodiment of the foregoing embodiment, as shown in fig. 6, the plasma sterilizing insert board 12 includes an insert board frame 1201 and a plasma board 1202 snap-fitted therein, the upper and lower ends of the insert board frame 1201 are respectively provided with a second holding slot 1206 and a clamping slot 1203, the lower end of the plasma board 1202 is provided with a clamping block 1204 corresponding to the clamping slot 1203, the insert board frame 1201 is provided with a second contact terminal 1205 corresponding to the row-plug jack connector 13, the insert board frame 1201 is further provided with a groove opening 1207, and the groove opening 1207 facilitates the detachment of the plasma board 1202 from the insert board frame 1201 for replacement.

In the above embodiment, we install the air quality sensor 15 in the air outlet 3 to detect the quality of the exhaust gas, and feed back the disinfection effect, so as to adjust the number of the ultraviolet disinfection plugboards 11 and the plasma disinfection plugboards 12, and meet the requirements of the negative pressure ward on the disinfection grade of the equipment.

Example two

As shown in fig. 1, in order to dynamically adjust the residence time of air in the apparatus body according to the amount of air supply and the amount of air exhaust, the disinfection time is increased. The pipeline flowmeter 4 and the electric valve 5 are arranged on the air outlet 3, wherein the signal output end of the pipeline flowmeter 4 is connected with the signal input end of the controller in the electric control cabinet 7, the electric valve 5 is connected with the output end of the controller in the electric control cabinet 7, and the electric valve 5 automatically adjusts the opening and closing degree to form flow linkage control through the air flow detected by the pipeline flowmeter 4, so that the disinfection time of air in the equipment body 1 is prolonged.

Example III

In order to remove airborne dust particles and microorganisms, we therefore provide a simple disinfection scheme implemented in combination with the two examples described above, the embodiments of which are as follows: the composite filter screen plugboard 8 is inserted into the first slot 104, which is close to the air inlet 2, in the equipment box body 101, and the composite filter screen 8 can ensure that the subsequent ultraviolet disinfection plugboard and the plasma disinfection plugboard achieve the best disinfection effect.

The working principle is as follows: as shown in fig. 9, when the multi-effect composite disinfection equipment is used as an air supply purification device, an air outlet is communicated with a negative pressure ward through a pipeline, external air is accelerated by a plurality of groups of drainage plate mechanisms 10 under the positive pressure effect of a pipeline fan 6 and then is sent into the equipment body 1, and is fully disinfected by a composite filter screen 8, a plurality of ultraviolet disinfection plugboards 11 and a plasma disinfection plugboard 12 in sequence under the effect of a flow equalizing plate 9, and is output by the air outlet 3 and sent into the negative pressure ward 14; when the multi-effect composite disinfection equipment is used as an exhaust purification device, a pipeline fan is directly communicated with a negative pressure ward, polluted air in the negative pressure ward 14 is accelerated by a plurality of groups of drainage plate mechanisms 10 under the negative pressure action of the pipeline fan 6 and then is fed into the equipment body 1, and is fully disinfected by a composite filter screen 8, a plurality of ultraviolet disinfection plugboards 11 and a plasma disinfection plugboard 12 in sequence under the action of a flow equalization plate 9, and then is output and emptied by an air outlet 3.

While the principal features and advantages of the present utility model have been shown and described, it will be apparent to those skilled in the art that the detailed description of the utility model is not limited to the details of the foregoing exemplary embodiments, but is capable of other embodiments without departing from the spirit or essential characteristics of the utility model, and the inventive concept and design concept of the utility model shall be equally included in the scope of the utility model disclosed in the appended claims. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The utility model provides a multiple-effect compound disinfection equipment of inserted sheet formula air-purifying, includes equipment body (1), is provided with air intake (2) and air outlet (3) respectively on equipment body (1), its characterized in that: the device comprises a device body (1) and a sealing cover (102) covered on the device body, wherein the device body (101) is respectively provided with two mounting plates (105), the sealing cover (102) is arranged on the two mounting plates (105) through bolts and is sealed with the device body (101) to form a sealed disinfection space, a plurality of slots (104) are formed in the device body (101) at equal intervals, an ultraviolet disinfection plugboard (11) and a plasma disinfection plugboard (12) are respectively inserted in the slots, a pipeline fan (6) is arranged on an air inlet (2), a plurality of groups of drainage plate mechanisms (10) are arranged in a pipeline of the air inlet (2), external air is accelerated by the plurality of groups of drainage plate mechanisms (10) under the negative pressure of the pipeline fan (6) and then is fed into the device body (1), and is fully disinfected by the ultraviolet disinfection plugboards (11) and the plasma disinfection plugboards (12) in sequence and is fed into a negative pressure ward (14) through an air outlet (3); polluted air in a negative pressure ward (14) is fed into the equipment body (1) after being accelerated by a plurality of groups of drainage plate mechanisms (10) under the positive pressure effect of the pipeline fan (6), is fully killed by a plurality of ultraviolet disinfection plugboards (11) and plasma disinfection plugboards (12) in sequence, is discharged and emptied by an air outlet (3), an electric control cabinet (7) is mounted on the sealing cover (102), the pipeline fan (6) is connected with the electric control cabinet (7) to supply power for the electric control cabinet, two row jack connectors (13) are respectively arranged at the bottom of the sealing cover (102), and a plurality of ultraviolet disinfection plugboards (11) and plasma disinfection plugboards (12) are connected with the electric control cabinet (7) through the two row jack connectors (13) and respectively supply power for the electric control cabinet (7).

2. The insert type multi-effect composite disinfection apparatus for purifying air according to claim 1, wherein: the drainage plate mechanism (10) comprises a splitter plate (1001) arranged in the middle of the air inlet (2) and first guide plates (1003) arranged on two sides of the splitter plate (1001) respectively, wherein the two first guide plates (1003) are inner arc plates, the two inner arc plates are arranged in a splayed mode, one ends of the two inner arc plates are connected with the inner wall of a pipeline of the air inlet (2) respectively, a second guide plate (1002) is arranged between the splitter plate (1001) and each first guide plate (1003), the two second guide plates (1002) are both outer arc plates, the two outer arc plates are arranged in a splayed mode, and the splitter plate (1001) and the two second guide plates (1002) divide air flow entering from the air inlet (2) into four strands and then converge to form a single strand to continuously accelerate forward flow under the action of the two first guide plates (1003).

3. The insert type multi-effect composite disinfection apparatus for purifying air according to claim 1, wherein: pipeline flowmeter (4) and motorised valve (5) on air outlet (3), the signal output part of pipeline flowmeter (4) is connected with the signal input part of controller in automatically controlled cabinet (7), motorised valve (5) are connected with the output part of controller in automatically controlled cabinet (7), and the air flow size automatically regulated degree of opening and shutting that motorised valve (5) detected through pipeline flowmeter (4) forms flow interlocking control to this increases the time of killing of air in equipment body (1).

4. The insert type multi-effect composite disinfection apparatus for purifying air according to claim 1, wherein: an air quality sensor (15) is arranged in the air outlet (3) and is used for detecting the quality of the exhaust gas and feeding back the sterilizing effect.

5. A multi-effect composite disinfection apparatus for plug-in type air purification according to any one of claims 1 to 4, wherein: the ultraviolet disinfection plugboards (11) and the plasma disinfection plugboards (12) are staggered to form a multi-channel disinfection system.

6. The insert type multi-effect composite disinfection apparatus for purifying air according to claim 5, wherein: a first slot (104) close to an air inlet (2) in the equipment box body (101) is internally provided with a composite filter screen plugboard (8), and the composite filter screen plugboard (8) is used for removing suspended dust particles and microorganisms in air, so that the subsequent ultraviolet disinfection plugboard (11) and plasma disinfection plugboard (12) achieve the best disinfection effect.

7. The insert type multi-effect composite disinfection apparatus for purifying air according to claim 5, wherein: the device comprises a device body (1), a plurality of air inlets (2) and a plasma disinfection plugboard (12), wherein a flow equalization plate (9) is arranged on the inner wall of a device box body (101) of the air inlets (2), the flow equalization plate (9) is used for uniformly distributing air collected after acceleration into the device body (1), and air convenient to kill uniformly passes through the plurality of ultraviolet disinfection plugboards (11) and the plasma disinfection plugboard (12) to be thoroughly killed.

8. The insert type multi-effect composite disinfection apparatus for purifying air according to claim 7, wherein: the ultraviolet disinfection plugboard (11) comprises a plugboard body (1101) and first pinching slot holes (1107) arranged on the plugboard body (1101), a plurality of airflow slot holes (1105) are formed in the plugboard body (1101) at equal intervals, guide grooves (1106) are formed in the plugboard body corresponding to each airflow slot hole (1105), two lamp tube supports (1102) are respectively arranged on the plugboard body (1101), ultraviolet lamp tubes (1103) corresponding to each airflow slot hole (1105) are arranged between the two lamp tube supports (1102), and first contact terminals (1104) corresponding to the row of jack connectors (13) are arranged at the top end of each lamp tube support (1102).

9. The insert type multi-effect composite disinfection apparatus for purifying air according to claim 7, wherein: the plasma disinfection plugboard (12) comprises a plugboard frame (1201) and a plasma board (1202) which is installed in the plugboard frame in a buckling manner, wherein a second pinching groove hole (1206) and a clamping groove (1203) are respectively arranged at the upper end and the lower end of the plugboard frame (1201), a clamping block (1204) corresponding to the clamping groove (1203) is arranged at the lower end of the plasma board (1202), a second contact terminal (1205) corresponding to the row jack connector (13) is arranged on the plugboard frame (1201), a groove opening (1207) is further arranged on the plugboard frame (1201), and the groove opening (1207) is convenient for disassembling the plasma board (1202) from the plugboard frame (1201).

10. A multi-effect composite disinfection apparatus for plug-in type air purification according to claim 8 or 9, wherein: a handle (103) is arranged on the sealing cover (102), and the handle (103) is used for being held by a maintenance personnel, so that the sealing cover (102) is conveniently separated from the equipment box body (101).