CN221084273U - Degassing unit for department of respiration - Google Patents

Abstract

The utility model provides a disinfection device for respiratory department, which relates to the field of air disinfection and comprises the following components: a sterilization case body; the interior of the sterilizing box body is divided into a sterilizing cavity and a filtering cavity; the disinfection cavity is internally provided with a disinfection liquid, and an air inlet pipe is arranged in the disinfection cavity, and the air inlet end of the air inlet pipe extends to the outside of the disinfection box body; the air outlet end of the air inlet pipe is immersed in the disinfection liquid; the filter cavity is internally provided with a filter liquid, the filter cavity is internally provided with a connecting pipe, the air inlet end of the connecting pipe is communicated with the disinfection cavity, and the air outlet end of the connecting pipe is immersed in the filter liquid; the top of the filter cavity is provided with an exhaust port; the air is disinfected through the filter cavity, and the disinfectant water residue of the disinfected air is reduced and the irritation is reduced through the filtration of the filter cavity.

Description

Degassing unit for department of respiration

Technical Field

The utility model relates to the field of air disinfection, in particular to a disinfection device for respiratory department.

Background

The department of respiration is a department of diagnosis and treatment for respiratory diseases of human body, and is mainly aimed at respiratory diseases. Respiratory diseases are various, many of the diseases are caused by viruses and bacteria, the diseases have strong infectivity, people with weak physique are extremely vulnerable to the invasion of bacteria and viruses in the air, and further the respiratory diseases occur to people, especially the complex environment such as hospitals, patients are more, and a large amount of viruses and bacteria are contained in the air.

Therefore, in practical situations, medical staff usually disinfects equipment and the department environment by spraying disinfectant quantitatively at regular intervals, so that disease infection is avoided.

The above disinfection method has the following problems:

1. Time and labor are wasted, and air sterilization is not uniform;

2. After the disinfectant is sprayed, the window cannot be opened as soon as possible for ventilation, and because the air is not circulated, the concentration of the disinfectant in a diagnostic room is easily too high, and the body discomfort is easily caused. Part of the patients may cause irritation to the respiratory tract after inhaling, thereby aggravating respiratory symptoms of the patients.

Therefore, there is a need to provide a disinfection device for respiratory department.

Disclosure of utility model

The utility model aims to overcome the defects of the prior art and provide a disinfection device for respiratory department, which comprises a disinfection box body, wherein air is uniformly disinfected through an air dispersing component, and the disinfected water residue of the disinfected air is reduced and the irritation is reduced through the filtration of a filter cavity.

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

According to an object of the present utility model, there is provided a sterilizing device for respiratory department, comprising: a sterilization case body;

The interior of the sterilizing box body is divided into a sterilizing cavity and a filtering cavity;

the disinfection cavity is internally provided with a disinfection liquid, and an air inlet pipe is arranged in the disinfection cavity, and the air inlet end of the air inlet pipe extends to the outside of the disinfection box body; the air outlet end of the air inlet pipe is immersed in the disinfection liquid;

The filter cavity is internally provided with a filter liquid, the filter cavity is internally provided with a connecting pipe, the air inlet end of the connecting pipe is communicated with the disinfection cavity through the air guide hole, and the air outlet end of the connecting pipe is immersed into the filter cavity;

the top of the filter cavity is provided with an exhaust port.

As a preferred embodiment, further comprising a gas dispersing component; the air dispersing component is horizontally arranged at the bottom of the disinfection cavity and/or the bottom of the filter cavity;

the air inlet end of the air dispersing component is communicated with the air outlet end of the air inlet pipe, and/or the air inlet end of the air dispersing component is communicated with the air outlet end of the connecting pipe.

As a preferred embodiment, the air dispersing component comprises an air dispersing pipeline and a plurality of one-way exhaust valves;

the air dispersing pipeline is provided with a plurality of air dispersing holes at intervals, the air dispersing holes are matched with the one-way exhaust valve, and air in the air dispersing pipeline is exhausted through the one-way exhaust valve.

As a preferred embodiment, the gas dispersing pipe comprises a plurality of gas dispersing branch pipes;

the air-dispersing branch pipes are parallel in pairs, and a plurality of the air-dispersing branch pipes are arranged at equal intervals.

As a preferred embodiment, the air inlet end of the connecting pipe is also provided with an air collecting hood; the diameter of the air outlet end of the air collecting cover is smaller than that of the air inlet end of the air collecting cover;

the air outlet end of the air collecting cover is communicated with the air inlet end of the connecting pipe at the air guide hole; the gas inlet end of the gas collecting hood is opposite to the disinfection liquid.

As a preferred embodiment, an air guide cover is also arranged in the filter cavity; the diameter of the air outlet end of the air guide cover is smaller than that of the air inlet end of the air collection cover;

The air outlet end of the air guide cover is communicated with the air outlet; the port of the air inlet end of the air guide cover is downward and opposite to the filtered liquid.

As a preferred embodiment, an exhaust pipe assembly is further arranged outside the sterilizing box body;

the exhaust pipe assembly sequentially comprises a conveying pipe and an extension pipe, and the conveying pipe is communicated with the air guide cover at the exhaust port.

As a preferred embodiment, an air outlet of the telescopic pipe is provided with an air outlet frame and an air deflector;

The air outlet frame is positioned on the inner wall of the air outlet, the air deflector is positioned in the air outlet frame, and the air deflector is rotatably matched with the air outlet frame;

The wind guide plate comprises a plurality of wind guide plates, the wind guide plates are rotatably arranged on the wind guide plate, and the wind guide plates are parallel to each other.

As a preferred embodiment, an air suction structure is further arranged outside the sterilizing box body, and/or a liquid discharging component is arranged outside the sterilizing box body, and/or a liquid adding component is arranged outside the sterilizing box body;

The air suction mechanism is connected with the air inlet end of the air inlet end;

the liquid draining assembly is communicated with the liquid disinfection area and/or the liquid draining assembly is communicated with the liquid filtering area;

the liquid adding component is communicated with the disinfection cavity, and/or the liquid adding component is communicated with the filter cavity.

Compared with the prior art, the technical scheme has the following advantages:

1. the sucked air is uniformly disinfected by the air dispersing component.

2. After the air is disinfected by the disinfection cavity, the irritation of the disinfectant is reduced by filtering by the filter cavity.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic structural view of a disinfection device for respiratory department according to an embodiment of the present disclosure;

fig. 2 is a schematic cross-sectional view of a disinfection device for respiratory department according to an embodiment of the present disclosure;

Fig. 3 is a schematic structural view of an exhaust pipe assembly according to an embodiment of the present disclosure.

In the figure: 100 disinfection case body, 1 disinfection chamber, 11 liquid disinfection district, 12 to be filtered district, 13 induction port, 14 intake pipe, 15 gas collecting hood, 2 filter chamber, 21 liquid filtering district, 22 to be taken out district, 23 gas vent, 24 connecting pipe, 25 air guide hood, 3 division board, 31 air vent, 4 air dispersion subassembly, 41 one-way discharge valve, 5 blast pipe subassembly, 51 conveyer pipe, 52 flexible pipe, 521 air-out frame, 522 aviation baffle, 53 sealing washer, 54 setting element, 6 air suction mechanism, 7 flowing back subassembly, 8 liquid feeding subassembly, 9 transparent observation window, 10 universal wheel.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1, the present utility model provides a sterilization apparatus for respiratory department, comprising: a sterilization case body 100; preferably, the sterilization case body 100 has a rectangular parallelepiped shape and is hollow inside.

A sterilizing chamber 1 is provided in the sterilizing chamber body 100, wherein a sterilizing liquid, preferably a sterilizing liquid in a well-proportioned ratio, is contained in the sterilizing chamber 1. After the disinfection chamber 1 is filled with disinfection liquid, the disinfection chamber 1 is divided into a liquid disinfection zone 11 and a zone to be filtered 12.

Specifically, the disinfection chamber 1 comprises, in order from bottom to top, a liquid disinfection zone 11 and a zone to be filtered 12. That is, the space ratio of the liquid sterilizing zone 11 to the zone 12 to be filtered is different based on the difference in space occupied by the sterilizing liquid. From another point of view, the liquid sterilization zone 11 contains a sterilization liquid and the zone to be filtered 12 contains sterilized air.

To avoid outflow of sterilizing liquid, the suction port 13 is not provided at the bottom of the sterilizing compartment body 100 and at the middle lower portion of the sidewall. Preferably, the top of the sterilizing compartment body 100 is provided with the suction port 13.

An air inlet pipe 14 is further arranged in the disinfection cavity 1, the air inlet end of the air inlet pipe 14 extends to the outside of the disinfection box body 100, and specifically, the air inlet end of the air inlet pipe 14 is communicated with an air suction port 13 at the top of the disinfection box body 100; the air outlet end of the air inlet pipe 14 extends to the bottom of the disinfection chamber 1. Specifically, the air outlet end of the air inlet pipe 14 is immersed in the sterilizing liquid.

Considering that the air after disinfection has stronger taste, breathing discomfort can be possibly caused if the air is directly discharged, and the respiratory system of a patient who is in a doctor before the doctor is possibly sensitive due to the specificity of a respiratory department, and the illness state is aggravated easily after the air after disinfection is directly discharged and the patient inhales.

Based on this, the application is also provided with a filter chamber 2 for purifying the sterilized air. In order to effectively match the sterilizing chamber 1 with the filter chamber 2, the interior of the sterilizing box body 100 is divided into the sterilizing chamber 1 and the filter chamber 2 by the partition plate 3, and an air guide hole 31 is formed in the upper portion of the partition plate 3. Preferably, the partition plate 3 is perpendicular to the horizontal plane. Wherein the disinfection cavity 1 is adjacent to the filter cavity 2 from left to right. In one embodiment of the present description, the partition plate 3 is integrally formed with the sterilization case body 100.

If the sterilizing taste is filtered using an air freshener or using air aromatherapy, a new taste may be added while the sterilizing taste is filtered, possibly making the patient more sensitive. Thus, the filter chamber 2 contains the filtered liquid. The filtered liquid is preferably purified water. After the filter chamber 2 is filled with the filtered liquid, the filter chamber 2 is divided into a liquid filtering area 21 and an area 22 to be pumped away.

Specifically, the filter chamber 2 includes, from bottom to top, a liquid filtering area 21 and a to-be-extracted area 22 in order, that is, the space ratio of the liquid filtering area 21 to the to-be-extracted area 22 is different based on the difference of the space occupied by the filtered liquid. From another perspective, the liquid filtration zone 21 contains filtered liquid and the extraction zone 22 contains filtered air.

A connecting pipe 24 is further arranged in the filter cavity 2, the air inlet end of the connecting pipe 24 is communicated with the disinfection cavity 1, and specifically, the air inlet end of the connecting pipe 24 is communicated with the disinfection cavity 1 through the air guide hole 31; the air outlet end of the connecting pipe 24 extends to the bottom of the filter cavity 2; specifically, the outlet end of the connecting tube 24 is immersed in the filtered liquid.

To avoid outflow of sterilizing liquid, the air outlet 23 is not provided at the bottom of the sterilizing compartment body 100 and at the middle lower portion of the side wall. Preferably, the top of the filter chamber 2 is provided with an exhaust port 23.

The filter chamber 2 is communicated with an exhaust port 23 at the top of the sterilizing chamber body 100. Specifically, the region 22 to be extracted of the filter chamber 2 is communicated with the air outlet 23 at the top of the sterilizing chamber body 100.

In order to improve the air disinfection efficiency, the application further comprises an air dispersing component 4, wherein the air dispersing component 4 is horizontally arranged at the bottom of the disinfection cavity 1 and/or the bottom of the filter cavity 2. The air dispersing assembly 4 comprises an air dispersing pipeline and a plurality of one-way exhaust valves 41.

Specifically, a plurality of air dispersing holes are formed in the air dispersing pipeline at intervals, each air dispersing hole is provided with a one-way exhaust valve 41, the air dispersing holes are matched with the one-way exhaust valves 41, and air entering the air dispersing pipeline is exhausted through the one-way exhaust valves 41.

Preferably, the air dispersing pipeline comprises a plurality of air dispersing branch pipes, the air dispersing branch pipes are parallel to each other, and the air dispersing branch pipes are equidistantly arranged.

In order to allow the air to be sufficiently disinfected, an air dispersing assembly 4 is positioned at the bottom of the disinfection chamber 1, and the air inlet end of the air dispersing assembly 4 is communicated with the air outlet end of the air inlet pipe 14.

In order to allow the air to be sufficiently filtered, a diffuser assembly 4 is positioned at the bottom of the filter chamber 2, and the air inlet end of the diffuser assembly 4 is communicated with the air outlet end of the connecting pipe 24.

In one embodiment of the present disclosure, within the disinfection chamber 1, the air inlet end of the air dispersing assembly 4 communicates with the air outlet end of the air inlet tube 14. Considering that the air inlet end of the air inlet pipe 14 is positioned at the top of the disinfection cavity 1, the air outlet end of the air inlet pipe 14 is positioned at the bottom of the disinfection cavity 1, so that the air inlet pipe 14 is basically vertically placed, and the air dispersing component 4 is horizontally placed, so that in order to avoid unsmooth air dispersing caused by forced bending of the pipeline at the joint of the air inlet pipe 14 and the air dispersing component 4, a conversion head is arranged at the joint of the air inlet pipe 14 and the air dispersing component 4, and is used for converting the pipeline direction. In the same way, in the filter chamber 2, a switching head is arranged at the connection of the connecting pipe 24 and the air dispersing component 4 for switching the direction of the pipeline.

In order to accelerate the speed of concentrated filtration of the gas, the gas inlet end of the connecting pipe 24 is also provided with a gas collecting hood 15, and the gas outlet end of the gas collecting hood 15 is communicated with the gas inlet end of the connecting pipe 24; the gas inlet end of the gas-collecting hood 15 is opposite to the sterilizing liquid. Specifically, a gas collecting hood 15 is also provided in the region to be filtered 12. Preferably, the gas-collecting hood 15 is annular, and the diameter of the gas-outlet end of the gas-collecting hood 15 is smaller than the diameter of the gas-inlet end of the gas-collecting hood 15. The air outlet end of the air collecting hood 15 is communicated with the air inlet end of the connecting pipe 24 at the air guide hole 31. The gas inlet end of the gas-collecting hood 15 is opposite to the liquid sterilization zone 11.

In one embodiment of the present disclosure, the air vent 31 is located on the partition plate 3, and the partition plate 3 is perpendicular to the horizontal plane, and the end face of the air outlet end of the air collecting hood 15 is perpendicular to the horizontal plane.

In order to accelerate the concentrated extraction of the gas, an air guide cover 25 is further arranged in the filter cavity 2, and the air outlet end of the air guide cover 25 is communicated with the air outlet 23; the port of the air inlet end of the air guide cover 25 is downward and opposite to the liquid filtering area. Specifically, an air guide cover 25 is also disposed in the region 22 to be extracted. Preferably, the air guide cover 25 is also annular, and the diameter of the air outlet end of the air guide cover 25 is smaller than the diameter of the air inlet end of the air guide cover 25. The air outlet end of the air guide cover 25 is communicated with the air outlet 23, and the air inlet end of the air guide cover 25 is downward and opposite to the liquid filtering area 21. In one embodiment of the present disclosure, the end surface of the air inlet end of the air guide cover 25 is parallel to the horizontal plane.

In order to change the direction of the exhaust gas, the outside of the sterilizing compartment body 100 is further provided with an exhaust pipe assembly 5. The exhaust pipe assembly 5 in turn comprises a transport pipe 51 and a telescopic pipe 52. One end of the transport pipe 51 is communicated with the air guide cover 25 at the air outlet 23, the other end of the transport pipe 51 is communicated with an air inlet of the telescopic pipe 52, and an air outlet of the telescopic pipe 52 is provided with an air outlet frame 521 and an air guide plate 522.

In one embodiment of the present disclosure, the air outlet frame 521 is located on an inner wall of the air outlet, the air deflector 522 is located in the air outlet frame 521, and the air deflector 522 is rotatably matched with the air outlet frame 521. The air deflector 522 comprises a plurality of air guide sheets, the air guide sheets are rotatably arranged on the air deflector 522, and the air guide sheets are parallel to each other. The wind guiding sheets enable the wind direction to spread around, the range is wider, and the wind becomes soft.

The junction of the transport pipe 51 and the exhaust port 23 is also provided with a sealing ring 53 to avoid air leakage. A plurality of positioning pieces 54 are arranged at intervals on the periphery of the conveying pipe 51, and the positioning pieces 54 and the air inlet of the telescopic pipe 52 are positioned on the same side of the sealing ring 53 so as to prevent the sealing ring 53 from moving.

After the disinfection and filtration cycle work, the disinfection liquid and the filtration liquid need to be replaced periodically, and a liquid draining assembly 7 is arranged outside the disinfection box body 100 for conveniently draining the liquid; in order to drain the liquid and avoid the pollution of the newly added liquid by the remained liquid, in one embodiment of the present specification, a drain assembly 7 is located on the side wall of the disinfection chamber 1 and near the bottom of the disinfection chamber 1, and the drain assembly 7 is communicated with the liquid disinfection area 11; a drain assembly 7 is located on the side wall of the filter chamber 2, near the bottom of the filter chamber 2, said drain assembly 7 being in communication with said liquid filtering zone 21. The drain assembly 7 comprises a drain valve.

The number of drain valves is preferably two. Two liquid draining ports, namely a liquid draining port A and a liquid draining port B, are arranged on the side wall of the sterilizing box body 100, and each liquid draining port is provided with a liquid draining valve. One liquid outlet A is communicated with the disinfection cavity 1, is positioned on the side wall of the disinfection cavity 1 and is close to the bottom of the disinfection cavity 1, and the liquid outlet valve A is communicated with the disinfection cavity 1 based on the liquid outlet A so that liquid in the disinfection cavity 1 flows out unidirectionally. The other liquid outlet B is communicated with the filter cavity 2, is positioned on the side wall of the filter cavity 2 and is close to the bottom of the filter cavity 2, and the liquid outlet valve II is communicated with the filter cavity 2 based on the liquid outlet B so as to enable liquid in the filter cavity 2 to flow out unidirectionally. Of course, the number of the liquid discharge valves can be increased or decreased according to actual situations and needs.

In order to facilitate the addition of liquid, the outer part of the sterilizing tank body 100 is also provided with a liquid adding assembly 8; to avoid making priming difficult, in one embodiment of the present disclosure, the priming assembly 8 is located in an upper portion of the sterilization case body 100. The dosing assembly 8 communicates with the disinfection chamber 1 and/or the dosing assembly 8 communicates with the filter chamber 2. The charging assembly 8 comprises a charging closure.

The number of filling closures is preferably two. Two liquid adding openings, namely a liquid adding opening C and a liquid adding opening D, are respectively formed in the top of the sterilizing box body 100, one of the liquid adding openings C is communicated with the sterilizing cavity 1, and the liquid adding opening C is located at the top of the sterilizing cavity 1. The other liquid adding port D is communicated with the filter cavity 2, and the liquid adding port D is positioned at the top of the filter cavity 2. A liquid adding sealing piece is arranged on each liquid adding opening to avoid the pollution of the liquid in the disinfection cavity 1 and the filter cavity 2.

The gas passes through the sterilizing liquid for sterilization, and the gas inevitably carries the sterilizing liquid, so that after a sterilization cycle, the sterilizing liquid in the sterilizing chamber 1 is reduced. In order to timely and conveniently check the usage amount and the residual amount of the liquid, the disinfection box body 100 is further provided with a transparent observation window 9, and the transparent observation window 9 is further provided with scale marks, so that the usage amount and the residual amount of the liquid can be displayed more clearly, and a user can conveniently add the liquid.

In order to improve the sterilization ability, the outside of the sterilization case body 100 is also externally connected with an air suction mechanism 6. The air outlet end of the air suction mechanism 6 is communicated with the air suction port 13, and when the sterilizing device works, the air suction mechanism 6 continuously absorbs outside air for sterilization.

The bottom of the sterilizing compartment body 100 is provided with a plurality of universal wheels 10 to facilitate the convenient and fast movement of the sterilizing device in a labor-saving manner.

The working principle of the application is briefly described as follows:

After the air suction mechanism 6 is started, the outside air is extracted, the extracted air is sequentially discharged to the bottom of the liquid sterilizing area 11 through the air inlet pipe 14, the conversion head and the air dispersing component 4, the discharged air is sterilized by sterilizing liquid in the liquid sterilizing area 11, and the sterilized air gradually rises and reaches the area to be filtered 12 after passing through the liquid sterilizing area 11; under the action of pressure, the gas in the region to be filtered 12 is discharged to the bottom of the liquid filtering region 21 after passing through the connecting pipe 24, the conversion head and the gas dispersing component 4 in sequence, the discharged gas is purified and filtered by the filtered liquid in the liquid filtering region 21, and the filtered gas gradually rises and passes through the liquid filtering region 21 and then reaches the region to be pumped out 22. The gas in the region 22 to be evacuated is discharged to the outside through the gas guide cover 25 and the exhaust assembly in sequence.

If it is desired to increase the disinfection rate, the rate of gas passing through the liquid disinfection zone 11 to the zone 12 to be filtered and through the liquid filtration zone 21 to the zone 22 to be evacuated can be increased by increasing the suction rate of the suction means 6, based on the pressure effect and the solubility of the liquid.

The above-described embodiments are only for illustrating the technical spirit and features of the present utility model, and it is intended to enable those skilled in the art to understand the content of the present utility model and to implement it accordingly, and the scope of the present utility model as defined by the present embodiments should not be limited only by the present embodiments, i.e. equivalent changes or modifications made in accordance with the spirit of the present utility model will still fall within the scope of the present utility model.

Claims (9)

1. A respiratory sterilization device, comprising: a sterilization case body (100);

the interior of the sterilizing box body (100) is divided into a sterilizing cavity (1) and a filtering cavity (2);

The disinfection cavity (1) is internally provided with disinfection liquid, the disinfection cavity (1) is internally provided with an air inlet pipe (14), and the air inlet end of the air inlet pipe (14) extends to the outside of the disinfection box body (100); the air outlet end of the air inlet pipe (14) is immersed in the disinfection liquid;

The filter cavity (2) is internally provided with a filter liquid, the filter cavity (2) is internally provided with a connecting pipe (24), the air inlet end of the connecting pipe (24) is communicated with the disinfection cavity (1), and the air outlet end of the connecting pipe (24) is immersed in the filter liquid;

An exhaust port (23) is formed in the top of the filter cavity (2).

2. A respiratory disinfection apparatus as claimed in claim 1, and comprising a gas dispersing assembly (4); the air dispersing component (4) is horizontally arranged at the bottom of the disinfection cavity (1) and/or the bottom of the filter cavity (2);

The air inlet end of the air dispersing component (4) is communicated with the air outlet end of the air inlet pipe (14), and/or the air inlet end of the air dispersing component (4) is communicated with the air outlet end of the connecting pipe (24).

3. A respiratory disinfection apparatus as claimed in claim 2, wherein said air diffusing assembly (4) comprises an air diffusing duct and a plurality of unidirectional exhaust valves (41);

The air dispersing pipeline is provided with a plurality of air dispersing holes at intervals, the air dispersing holes are matched with the one-way exhaust valve (41), and air in the air dispersing pipeline is exhausted through the one-way exhaust valve (41).

4. A respiratory sterilization apparatus according to claim 3, wherein said ventilation duct comprises a plurality of ventilation branches;

the air-dispersing branch pipes are parallel in pairs, and a plurality of the air-dispersing branch pipes are arranged at equal intervals.

5. A respiratory disinfection apparatus as claimed in claim 1, wherein the inlet end of said connecting tube (24) is further provided with a gas-collecting hood (15); the diameter of the air outlet end of the air collecting cover (15) is smaller than the diameter of the air inlet end of the air collecting cover (15);

The air outlet end of the air collecting cover (15) is communicated with the air inlet end of the connecting pipe (24); the air inlet end of the air collecting hood (15) is opposite to the disinfection liquid.

6. A respiratory disinfection apparatus as claimed in claim 5, wherein said filter chamber (2) is further provided with an air guide cover (25); the diameter of the air outlet end of the air guide cover (25) is smaller than the diameter of the air inlet end of the air collection cover (15);

The air outlet end of the air guide cover (25) is communicated with the air outlet (23); the port of the air inlet end of the air guide cover (25) is downward and opposite to the liquid filtering area.

7. A sterilization apparatus for respiratory department as claimed in claim 6, wherein an exhaust pipe assembly (5) is further provided outside the sterilization case body (100);

The exhaust pipe assembly (5) sequentially comprises a conveying pipe (51) and a telescopic pipe (52), and the conveying pipe (51) is communicated with the air guide cover (25) at the exhaust port (23).

8. A disinfection apparatus for a respiratory department as claimed in claim 7, wherein the air outlet of said telescopic tube (52) is provided with an air outlet frame (521) and an air deflector (522);

The air outlet frame (521) is positioned on the inner wall of the air outlet, the air deflector (522) is positioned in the air outlet frame (521), and the air deflector (522) is rotatably matched with the air outlet frame (521);

the air deflector (522) comprises a plurality of air guide sheets, the air guide sheets are rotatably arranged on the air deflector (522), and the air guide sheets are parallel to each other.

9. A respiratory disinfection apparatus as claimed in claim 1, wherein said disinfection box body (100) is provided with a suction mechanism (6) at the outside thereof, and/or wherein said disinfection box body (100) is provided with a drain assembly (7) at the outside thereof, and/or wherein said disinfection box body (100) is provided with a liquid filling assembly (8) at the outside thereof;

the air suction mechanism (6) is communicated with the air suction port (13);

The liquid draining assembly (7) is communicated with the liquid sterilizing area (11), and/or the liquid draining assembly (7) is communicated with the liquid filtering area (21);

The liquid adding component (8) is communicated with the disinfection cavity (1), and/or the liquid adding component (8) is communicated with the filter cavity (2).