CN218269474U - A purify disinfecting equipment, scope cleaning work station for scope cleaning work station - Google Patents

Abstract

The embodiment of the utility model discloses a purification and disinfection equipment for scope cleaning work station, purification and disinfection equipment includes first air purification disinfection unit, second air purification disinfection unit, third air purification disinfection unit, first air flow power unit and second air flow power unit, first air purification disinfection unit includes first filter unit and the first unit that disinfects, second air purification disinfection unit includes second sterilization unit and the recovery unit that volatilizees of first chemical agent, third air purifier includes second filter unit and third sterilization unit, the utility model provides an among the prior art scope cleaning work station in wash, disinfection in-process pollutant volatilize, splash to cause air pollution's problem and through sterile scope in the air in wiping the drying process, cause secondary pollution's problem because of the microorganism in the air.

Description

A purify disinfecting equipment, scope cleaning work station for scope cleaning work station

Technical Field

The utility model relates to an air purification field of scope cleaning work station especially relates to a purification and disinfection equipment, scope cleaning work station for scope cleaning work station.

Background

With the development of science and technology, people pursue safer and more efficient production and living modes.

At present, an endoscope cleaning workstation used in a medical institution is open. Microorganisms on the surface of the used endoscope can be dispersed into the air along with the volatilization, splashing and the like of the cleaning liquid in the cleaning process, thereby causing air pollution. And the problem that the content of disinfectant in the air exceeds the standard due to volatilization of the disinfectant. The polluted air is not only not beneficial to the health of operators, but also is easy to cause secondary pollution due to microorganisms in the air in the process of wiping and drying the cleaned and disinfected endoscope.

Disclosure of Invention

In view of this, the utility model provides a purify disinfecting equipment, scope cleaning workstation for solve in the current scope cleaning workstation cleaning process pollutant volatilize, splash lead to the fact air pollution's problem and through sterile scope in wiping dry process, cause secondary pollution's problem because of the microorganism in the air. In a first aspect, the utility model provides a purification and disinfection equipment for endoscope cleaning workstation, including first air purification and disinfection unit, second air purification and disinfection unit, third air purification and disinfection unit, first air flow power unit and second air flow power unit, first air purification and disinfection unit includes first filter unit and first sterilization unit, second air purification and disinfection unit includes second sterilization unit and first chemical agent recovery unit that volatilizees, third air purification and disinfection unit includes second filter unit and third sterilization unit;

the first air purification and disinfection unit is positioned above the cleaning working unit, and the first air flow power unit purifies the dirty air generated on the cleaning working unit through the first filtering unit and the first sterilization unit;

the second air purification and disinfection unit is positioned above the disinfection working unit, and the first air flow power unit purifies the dirty air generated on the disinfection working unit through the first chemical agent volatilization recovery unit and the second sterilization unit;

the third air purification and disinfection unit is positioned above the drying working unit, and the second air flow power unit blows out indoor or outdoor air from the top of the drying working unit after the indoor or outdoor air passes through the second filtering unit and the third sterilization unit for purification.

Preferably, the first casing comprises a first front plate located on the operation side, a first back plate arranged opposite to the first front plate, a first side plate and a second side plate which are connected with the first front plate and the first back plate and arranged opposite to each other, and a first top plate located on one side away from the cleaning working unit and the disinfecting working unit and parallel to the cleaning working unit and the disinfecting working unit, the first filtering unit and the first chemical agent volatilization recovery unit are arranged opposite to the first top plate, and the first filtering unit, the first chemical agent volatilization recovery unit, the first top plate, the first front plate, the first back plate, the first side plate and the second side plate jointly enclose a first cavity located inside the first casing.

Preferably, the first airflow power unit comprises a first fan, and the first fan is arranged in the first cavity.

Preferably, still include first baffle, first baffle is located in the first cavity, first baffle will second cavity and fourth cavity are separated into to first cavity, the second cavity with the fourth cavity is independent mutually, the dirty air process that produces on the cleaning work unit first filter unit gets into the second cavity, the dirty air process that produces on the disinfection work unit first chemical agent recovery unit that volatilizees gets into the fourth cavity.

Preferably, the first airflow power unit comprises a first fan and a third fan, the first fan is disposed in the second cavity, and the third fan is disposed in the fourth cavity.

Preferably, the first filtering unit is a melt-blown physical filtering unit or an electrostatic adsorption filtering unit;

the first sterilization unit is an ultraviolet sterilization unit, a high-temperature sterilization unit, a radiation sterilization unit, a plasma sterilization unit or a disinfectant spray sterilization unit;

the second sterilization unit is an ultraviolet sterilization unit, a high-temperature sterilization unit, a radiation sterilization unit, a plasma sterilization unit or a disinfectant spray sterilization unit;

the first chemical agent volatilization recovery unit comprises an adsorption material layer, or the first chemical agent volatilization recovery unit comprises a filter material layer and an adsorption material arranged in the middle of the filter material layer.

Preferably, the third air purifying and sterilizing unit includes a second housing, the second housing includes a second front plate located at an operation side, a second back plate located opposite to the second front plate, a third side plate connecting the second front plate and the second back plate and located opposite to the second front plate, a fourth side plate, and a second top plate located at a side away from the drying unit and parallel to the drying unit, the second filter unit is located opposite to the second top plate, and the second filter unit, the second top plate, the second front plate, the second back plate, the third side plate, and the fourth side plate together enclose a second cavity located inside the third housing.

Preferably, the second air flow power unit comprises a second fan, an air inlet is formed in the second shell, and the second fan is arranged at the air inlet;

the third sterilization unit is an ultraviolet sterilization unit, a high-temperature sterilization unit, a radiation sterilization unit, a plasma sterilization unit or a disinfectant spray sterilization unit;

the second filtering unit is a melt-blown physical filtering unit or an electrostatic adsorption filtering unit.

Preferably, the first air purifying and sterilizing unit further comprises a first lighting unit and/or a first control member;

the second air cleaning and disinfecting unit further comprises a second lighting unit and/or a second control member;

the third air cleaning and sterilizing unit further comprises a third lighting unit and/or a third control member;

the first sterilization unit is arranged at the front part or the rear part of the first filtering unit;

the second sterilization unit is arranged in front of or behind the first chemical agent volatilization recovery unit;

the third sterilization unit is disposed in front of or behind the second filter unit.

In a second aspect, the utility model also provides a biological safety scope cleaning work station, include cleaning work unit, disinfection work unit, drying work unit and be located cleaning work unit disinfection work unit with drying work unit top as above arbitrary one kind purify disinfecting equipment.

Adopt the embodiment of the utility model provides a, following beneficial effect has:

adopt the utility model relates to a scope cleaning work station's purification and disinfection equipment, this purification and disinfection equipment have reduced the problem of the regional air pollution degree of cleaning work unit through retrieving the dirty air of cleaning work unit top, through retrieving the dirty air of the disinfection work unit region, have reduced the antiseptic solution and have volatilized the air pollution who causes. By conveying clean air to the drying working unit area, the secondary pollution of microorganisms in the air to the disinfected endoscope in the final rinsing and drying processes of the endoscope is avoided.

Use the purification disinfecting equipment of foretell scope cleaning work station on scope cleaning work station, reduced including the mirror in wash, disinfection process liquid volatilize, splash in the air, and then reduced the harm to operating personnel to promote operating personnel's experience. Meanwhile, the clean air is conveyed to the dry working unit area, so that the pollution risk of microorganisms in the air to the disinfected endoscope is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic diagram of a decontamination and disinfection device of an endoscope cleaning workstation and the endoscope cleaning workstation in one embodiment.

Description of the main element symbols:

100. a first air purification and disinfection unit; 110. a first housing; 111. a first front plate; 112. a first side plate; 114. a first top plate; 115. a first cavity; 116. an air outlet; 117. a first control member; 120. A first fan; 130. a first filter unit; 140. a first sterilization unit; 150. a first lighting unit;

200. a second air purification and disinfection unit; 215. a second control member; 250. a second lighting unit;

300. a third air purification and disinfection unit; 310. a second housing; 311. a second front plate; 312. a second top plate; 313. a third control member; 316. an air inlet; 320. a second fan; 350. a third lighting unit;

400. cleaning the working unit; 410. a primary washing tank; 420. a secondary washing tank; 430. a rinsing tank;

500. a sterilization work unit; 510. a disinfection tank;

600. a drying work unit; 610. a final rinse tank; 620. and (7) a drying platform.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the purifying and sterilizing apparatus for an endoscope cleaning workstation according to an embodiment includes a first air purifying and sterilizing unit 100, a second air purifying and sterilizing unit 200, a third air purifying and sterilizing unit 300, a first air flowing power unit and a second air flowing power unit, wherein the first air purifying and sterilizing unit 100 includes a first filtering unit 130 and a first sterilizing unit 140, the second air purifying and sterilizing unit 200 includes a second sterilizing unit and a first chemical volatilization and recovery unit, and the third air purifying and sterilizing unit 300 includes a second filtering unit and a third sterilizing unit. The first air cleaning and sterilizing unit 100 is located above the cleaning work unit 400, the second air cleaning and sterilizing unit 200 is located above the sterilizing work unit 500, and the third air cleaning and sterilizing unit 300 is located above the drying work unit 600. The first air flow power unit is used for providing micro negative pressure to the cleaning working unit 400, and changing the dirty air generated by the cleaning working unit 400 into clean air after passing through the first filtering unit 130 and the first sterilizing unit 140. The first air flow power unit is used for providing micro negative pressure for the disinfection working unit 500, and converting dirty air doped with disinfectant volatile gas generated by the disinfection working unit 500 into clean air after passing through the first chemical agent volatilization recovery unit and the second sterilization unit. The second air flow power unit is used for providing micro-positive pressure to the drying work unit 600, indoor air (or outdoor air) is filtered and purified by the second filtering unit and the third sterilizing unit, and then is blown out from the final rinsing tank 610 and the upper part of the drying platform 620, so that a clean air barrier is formed above the drying work unit 600, and the cleaned and sterilized endoscopes are prevented from being polluted. Adopt above-mentioned purification and disinfection equipment to reduce the scope in washing, disinfection process liquid volatilize, splash to the air, and then reduced harm to operating personnel and avoided the scope to receive the pollution of the microorganism in the air in drying process to promote operating personnel's experience.

In some embodiments, referring to fig. 1, the first housing 110 includes a first front plate 111 located at the operation side, a first back plate disposed opposite to the first front plate, a first side plate 112 and a second side plate disposed opposite to the first front plate and the first back plate, and a first top plate 114 located at a side away from the operation table and parallel to the operation table. The first filtering unit 130 and the first chemical volatilization recovery unit are disposed in the first housing and are disposed opposite to the first top plate 114, and the first filtering unit 130, the first chemical volatilization recovery unit, the first top plate 114, the first front plate 111, the first back plate, the first side plate 112 and the second side plate jointly enclose a first cavity 115. The first air flow power unit is disposed in the first cavity 115, the first top plate 114 is provided with an air outlet 116, the first air flow power unit is communicated with the air outlet 116, and the first air flow power unit is communicated with the first filter unit 130.

In some embodiments, the first airflow power unit includes a first fan 120, the first fan 120 being disposed within the first cavity 115.

The first fan is used for providing a micro negative pressure to the cleaning work unit 400, and changing the dirty air generated by the cleaning work unit 400 into clean air after passing through the first filtering unit 130 and the first sterilizing unit 140. The first air flow power unit is used for providing micro negative pressure for the disinfection working unit 500, and converting dirty air doped with disinfectant volatile gas generated by the disinfection working unit 500 into clean air after passing through the first chemical agent volatilization recovery unit and the second sterilization unit.

In some embodiments, the number of the first fans 120 is at least one, and may be two or more, which depends on the amount of the dirty air generated during the cleaning and disinfecting processes and the rated power of the first fans. The number of the air outlets 116 on the first top plate 114 is the same as that of the first fans 120, and is at least one.

In some embodiments, the decontamination and disinfection apparatus for an endoscope cleaning workstation further comprises a first baffle, the first baffle is located in the first cavity, the first cavity 115 is divided into a second cavity and a fourth cavity by the first baffle, the second cavity and the fourth cavity are independent, the dirty air generated by the cleaning work unit 400 enters the second cavity through the first filtering unit 130, and the dirty air generated by the disinfection work unit 500 enters the fourth cavity through the first chemical agent volatilization recovery unit.

In some embodiments, the first airflow power unit includes a first fan 120 and a third fan, the first fan 120 being disposed in the second cavity and the third fan being disposed in the fourth cavity. When the first fan 120 works, a micro negative pressure is formed in the area above the cleaning working unit 400, and the dirty air generated in the area of the cleaning working unit 400 is filtered into the second cavity through the first filtering unit 130 by pumping, so as to leave the first casing 110 through the air outlet 116. When the third fan works, a micro negative pressure is formed in the area above the disinfecting working unit 500, and the third fan pumps dirty air, which is generated in the disinfecting working unit 500 and is doped with disinfectant volatilization gas, to the fourth cavity after being recovered by the first chemical agent volatilization recovery unit, and leaves the first shell 110 through the air outlet 116.

In some embodiments, the number of the first blower 120 and the third blower is at least two, which depends on the amount of the dirty air generated during the cleaning and disinfecting process, the number of the first baffle, and the rated power of the first blower, and the number of the air outlets 116 on the first top plate 114 is the same as the number of the first blower 120 and the third blower, and is at least two

The air outlet 116 of the first top plate 114 may be connected to an exhaust duct, and the exhaust duct may exhaust the air purified by the first air purifying and sterilizing unit 100 to the outside or the inside.

In some embodiments, referring to fig. 1, the first sterilization unit 140 is fixed to the first back plate of the washing work unit 400, which faces away from the operation side, by means of fastener screws. The first sterilization unit 140 sterilizes the area above the cleaning work unit 400 and the liquid surface. The first sterilization unit 140 may be located in front of the first filter unit 130, as shown in fig. 1, and in other embodiments, the first sterilization unit 140 may be located behind the first filter unit 130, for example, the first sterilization unit 140 may be disposed in the first cavity 115.

In some embodiments, the first sterilization unit 140 may be an ultraviolet sterilization unit, a high-temperature sterilization unit, a radiation sterilization unit, a plasma sterilization unit, a disinfectant spray sterilization unit, or the like, the ultraviolet sterilization unit may be an ultraviolet lamp or the like, the high-temperature sterilization unit, the radiation sterilization unit may be a device having a high-temperature, radiation sterilization function, such as a thermal radiation lamp, the plasma sterilization unit may be a plasma sterilizer or a device capable of releasing plasma ionized gas, and the disinfectant spray sterilization unit may be a disinfectant sprayer, or the like.

In some embodiments, the first filter unit 130 is a melt-blown physical filter unit or an electrostatic adsorption filter unit, the melt-blown physical filter unit includes a plurality of layers of melt-blown cloth, the electrostatic adsorption filter unit includes an electrostatic adsorption filter material, and the electrostatic adsorption filter material may be an electrostatic cotton, a graphene filter material, or the like. The utility model discloses regard first filter unit 130 as the bottom plate of first air purification disinfection unit casing, its aim at absorbs the regional dirty air of washing work unit better, more effectively comprehensively.

In the above embodiment, the first filter unit 130 is used as the bottom of the first air purifying and disinfecting unit 100, which aims to better and more effectively absorb the dirty air in the area of the cleaning operation unit 400.

In this embodiment, referring to fig. 1, the first air purifying and sterilizing unit 100 further includes a first lighting unit 150, and the first lighting unit 150 is fixed to a first back plate of the cleaning work unit 400 facing away from the operation side by a fastener screw.

In some embodiments, the first air purifying and sterilizing unit 100 further includes a first control member 117, and the first control member 117 is used for controlling the opening and closing, the air volume, or the sterilization of the first air purifying and sterilizing unit 100. In the present embodiment, the first control member 117 is provided on the first front plate 111. The number of the first control members 117 is at least one.

In the above embodiment, the first air cleaning and disinfecting unit 100 is designed to avoid the problems of air pollution and the like caused by the volatilization, splashing and the like of the cleaning liquid dispersed into the air during the cleaning process.

In some embodiments, referring to fig. 1, the second sterilization unit is fixed to the first back plate of the sterilization working unit 500 facing away from the operation side by a fastener screw. The second sterilization unit sterilizes the area above the sterilization work unit 500 and the liquid level. The second sterilization unit may be located in front of the first chemical agent volatilization recovery unit as shown in fig. 1, and in other embodiments, the first chemical agent volatilization recovery unit may be located behind the second sterilization unit, for example, the second sterilization unit may be disposed in the first cavity or the fourth cavity.

In some embodiments, the second sterilization unit may be an ultraviolet sterilization unit, a high-temperature sterilization unit, a radiation sterilization unit, a plasma sterilization unit, a disinfectant spray sterilization unit, or the like, the ultraviolet sterilization unit may be an ultraviolet lamp or the like, the high-temperature sterilization unit, the radiation sterilization unit may be a device having a high-temperature, radiation sterilization function, such as a thermal radiation lamp, the plasma sterilization unit may be a plasma sterilizer or a device capable of releasing plasma ionized gas, and the disinfectant spray sterilization unit may be a disinfectant sprayer, or the like.

In some embodiments, the first chemical agent volatilization recovery unit is an adsorption material layer with adsorption function, such as an activated carbon particle layer (containing granular activated carbon, activated carbon mesh and the like), a diatom ooze particle layer and the like, and the activated carbon and the diatom ooze have good adsorption effect.

In the above embodiment, the first chemical evaporation and recovery unit is used as the bottom of the housing of the second air purification and disinfection unit 200, so as to better and more effectively recover the contaminated air in the area of the disinfection operation unit 500.

Preferably, the first chemical agent volatilization recovery unit comprises a filter material layer and an adsorbing material arranged in the middle of the filter material layer, wherein the adsorbing material can be activated carbon particles or diatom ooze particles and the like, and the filter material layer is a melt-blown cloth layer and the like.

In the present embodiment, referring to fig. 1, the second air cleaning and sterilizing unit 200 further includes a second illumination unit 250, and in the present embodiment, the second illumination unit 250 is fixed to the first back plate of the sterilizing working unit 500 facing away from the operation side by a fastener screw.

In the present embodiment, referring to fig. 1, the second air purifying and sterilizing unit 200 further includes a second control member 215, and the second control member 215 is used for controlling the second air purifying and sterilizing unit 200 to be switched, adjusted, and the like.

In the above embodiment, the second air purifying and disinfecting unit 200 is designed to avoid the problems of air pollution and physical injury to the operator caused by the volatilization, splashing, etc. of the disinfecting liquid dispersed into the air during the disinfecting process.

In some embodiments, the third air purifying and sterilizing unit 300 includes a second housing 310, a second air flow power unit disposed in the second housing 310, a second filtering unit, and a third sterilizing unit disposed at a lower portion of the housing. The second housing 310 includes a second front plate 311 located on the operation side, a second back plate disposed opposite to the second front plate, a third side plate connecting the second front plate 311 and the second back plate and disposed opposite to the second front plate, a fourth side plate, and a second top plate 312 located on the side away from the operation table and parallel to the operation table. The second filter unit is arranged opposite to the second top plate 312, the second filter unit, the second top plate 312, the second front plate 311, the second back plate, the third side plate and the fourth side plate jointly enclose a third cavity, the second airflow power unit is arranged in the third cavity, and the second top plate 312 is provided with an air inlet 316.

In some embodiments, referring to fig. 1, the second air flow power unit is a second fan 320 disposed at the air inlet 316, the second fan 320 forms a slight positive pressure in an area above the drying operation unit 600 when operating, and introduces air outside the second casing 310 into the third cavity by suction, so that the air is filtered by the second filtering unit and then is blown out from the upper portion of the drying operation unit 600. In this embodiment, referring to fig. 1, the number of the second fans 320 is 2, and correspondingly, the number of the air inlets 316 is also 2, and each second fan 320 is respectively disposed at the air inlet 316.

In other embodiments, the number of the second fans 320 may be more, which depends on the amount of air required for the drying process and the rated power of the motor for operating the second fans 320.

The air inlet 316 is connected to an air inlet pipeline, through which outdoor or indoor air can be drawn into the third cavity through the third airflow power unit.

The third sterilizing unit may be located in front of the second filter unit as shown in fig. 1, and in other embodiments, the third sterilizing unit may be located in the rear of the second filter unit, for example, the third sterilizing unit may be disposed in the third cavity.

In some embodiments, the third sterilization unit may be an ultraviolet sterilization unit, a high-temperature sterilization unit, a radiation sterilization unit, a plasma sterilization unit, a disinfectant spray sterilization unit, or the like, the ultraviolet sterilization unit may be an ultraviolet lamp or the like, the high-temperature sterilization unit, the radiation sterilization unit may be a device having a high-temperature, radiation sterilization function, such as a thermal radiation lamp, the plasma sterilization unit may be a plasma sterilizer or a device capable of releasing plasma ionized gas, and the disinfectant spray sterilization unit may be a disinfectant sprayer or the like.

In this embodiment, the third sterilization unit is fixed to the third back plate of the drying operation unit 600 away from the operation side by a fastening screw, and the third sterilization unit sterilizes the area above the drying operation unit 600.

In some embodiments, the second filter unit is a melt-blown physical filter unit or an electrostatic adsorption filter unit, the melt-blown physical filter unit includes a plurality of layers of melt-blown cloth, the electrostatic adsorption filter unit includes an electrostatic adsorption filter material, and the electrostatic adsorption filter material may be an electrostatic cotton, a graphene filter material, or the like. The utility model discloses regard as the bottom plate of third air purification disinfection unit 300 casings with the second filter unit, its aim at filters the air that blows in drying work unit 600 top better, more effectively comprehensively.

In the present embodiment, referring to fig. 1, the third air cleaning and sterilizing unit 300 further includes a third lighting unit 350, and the third lighting unit 350 is fixed to a third back plate of the dry working unit 600 facing away from the operation side with a fastener screw.

In this embodiment, the third air purifying and sterilizing unit 300 further includes a third control member 313, and the third control member 313 is used for controlling the opening, closing, adjusting, etc. of the third air purifying and sterilizing unit 300.

In the above embodiment, the third air cleaning and sterilizing unit 300 is designed to prevent the gas blown into the drying work unit 600 containing microorganisms from contaminating the cleaned and sterilized endoscopes.

In the above embodiment, the first front plate 111 and the second front plate 311 may be an integral front plate or may be independent of each other.

In the above embodiments, the first back plate and the second back plate may be an integral back plate or independent from each other.

In the above embodiment, the first top plate 114 and the second top plate 312 may be a single integral top plate or may be independent of each other.

In the above embodiments, the second side panel and the third side panel may be one side panel or may be independent of each other.

Referring to fig. 1, the endoscope cleaning workstation according to another embodiment includes a cleaning work unit 400, a disinfecting work unit 500, a drying work unit 600, and a cleaning and disinfecting apparatus according to any one of the above embodiments above the cleaning work unit 400, the disinfecting work unit 500, and the drying work unit 600.

In some embodiments, referring to fig. 1, the washing work unit 400 includes a primary bath 410, a secondary bath 420, and a rinse bath 430, the sterilizing work unit 500 includes a sterilizing bath 510, and the drying work unit 600 includes a final rinse bath 610 and a drying station 620. The endoscope is repeatedly rinsed mainly with flowing water in the preliminary washing tank 410. The secondary washing tank 420 is filled with a certain proportion of non-enzyme washing liquid, and the endoscope is deeply soaked. The rinsing tank 430 is used for soaking the endoscope with clean water to remove the residual enzyme-free washing liquid on the endoscope. The sterilizing tank 510 is used for better sterilizing the endoscope, the final rinsing tank 610 is used for repeatedly washing each channel of the endoscope with flowing clean water to remove residual sterilizing liquid on the endoscope, and the drying stage 620 is mainly used for removing residual moisture on each part of the safe endoscope.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. The utility model provides a purify disinfecting equipment for scope cleaning workstation which characterized in that: the device comprises a first air purification and disinfection unit, a second air purification and disinfection unit, a third air purification and disinfection unit, a first air flow power unit and a second air flow power unit, wherein the first air purification and disinfection unit comprises a first filtering unit and a first sterilization unit, the second air purification and disinfection unit comprises a second sterilization unit and a first chemical agent volatilization recovery unit, and the third air purification and disinfection unit comprises a second filtering unit and a third sterilization unit;

the first air purification and disinfection unit is positioned above the cleaning working unit, and the first air flow power unit purifies the dirty air generated on the cleaning working unit through the first filtering unit and the first sterilization unit;

the second air purification and disinfection unit is positioned above the disinfection working unit, and the first air flow power unit purifies the dirty air generated on the disinfection working unit through the first chemical agent volatilization recovery unit and the second sterilization unit;

the third air purification and disinfection unit is positioned above the drying working unit, and the second air flow power unit blows out indoor or outdoor air from the top of the drying working unit after the indoor or outdoor air passes through the second filtering unit and the third sterilization unit for purification.

2. The decontamination and disinfection apparatus for an endoscope cleaning workstation according to claim 1, wherein: the first shell comprises a first front plate located on an operation side, a first back plate arranged opposite to the first front plate, a first side plate and a second side plate which are connected with the first front plate and the first back plate and arranged opposite to each other, and a first top plate which is located on one side of the cleaning working unit and one side of the disinfecting working unit and is parallel to the cleaning working unit and the disinfecting working unit, wherein the first filtering unit and the first chemical volatilization recovery unit are arranged opposite to the first top plate, and the first filtering unit, the first chemical volatilization recovery unit, the first top plate, the first front plate, the first back plate, the first side plate and the second side plate jointly enclose a first cavity located inside the first shell.

3. The decontamination and disinfection apparatus for an endoscope cleaning workstation according to claim 2, wherein: the first airflow power unit comprises a first fan, and the first fan is arranged in the first cavity.

4. The decontamination and disinfection apparatus for an endoscope cleaning workstation according to claim 2, wherein: still include first baffle, first baffle is located in the first cavity, first baffle will second cavity and fourth cavity are separated into to first cavity, the second cavity with the fourth cavity is mutually independent, the dirty air process that produces on the cleaning work unit first filter unit gets into the second cavity, the dirty air process that produces on the disinfection work unit first chemical agent volatilizees and retrieves the unit and gets into the fourth cavity.

5. The decontamination and disinfection apparatus for an endoscope cleaning workstation according to claim 4, wherein: the first air flow power unit comprises a first fan and a third fan, the first fan is arranged in the second cavity, and the third fan is arranged in the fourth cavity.

6. A decontamination equipment for an endoscope cleaning workstation according to any one of claims 1-5, characterized in that:

the first filtering unit is a melt-blown physical filtering unit or an electrostatic adsorption filtering unit;

the first sterilization unit is an ultraviolet sterilization unit, a high-temperature sterilization unit, a radiation sterilization unit, a plasma sterilization unit or a disinfectant spray sterilization unit;

the second sterilization unit is an ultraviolet sterilization unit, a high-temperature sterilization unit, a radiation sterilization unit, a plasma sterilization unit or a disinfectant spray sterilization unit;

the first chemical agent volatilization recovery unit comprises an adsorption material layer, or the first chemical agent volatilization recovery unit comprises a filter material layer and an adsorption material arranged in the middle of the filter material layer.

7. The decontamination and disinfection apparatus for an endoscope cleaning workstation according to claim 1, wherein: the third air purifying and sterilizing unit comprises a second shell, the second shell comprises a second front plate located on an operation side, a second back plate arranged opposite to the second front plate, a third side plate, a fourth side plate and a second top plate, the third side plate and the fourth side plate are connected with the second front plate and the second back plate and are arranged oppositely, the second top plate is located on one side of the second front plate and the second back plate and parallel to the drying working unit, the second filtering unit is arranged opposite to the second top plate, and the second filtering unit, the second top plate, the second front plate, the second back plate, the third side plate and the fourth side plate jointly enclose a third cavity located inside the second shell.

8. The decontamination and disinfection apparatus for an endoscope cleaning workstation according to claim 7, wherein: the second air flow power unit comprises a second fan, an air inlet is formed in the second shell, and the second fan is arranged at the air inlet;

the third sterilization unit is an ultraviolet sterilization unit, a high-temperature sterilization unit, a radiation sterilization unit, a plasma sterilization unit or a disinfectant spray sterilization unit;

the second filtering unit is a melt-blown physical filtering unit or an electrostatic adsorption filtering unit.

9. The decontamination and disinfection apparatus for an endoscope cleaning workstation according to claim 1, wherein: the first air purification and disinfection unit further comprises a first lighting unit and/or a first control member;

the second air cleaning and disinfecting unit further comprises a second lighting unit and/or a second control member;

the third air cleaning and sterilizing unit further comprises a third lighting unit and/or a third control member;

the first sterilization unit is arranged at the front part or the rear part of the first filtering unit;

the second sterilization unit is arranged in front of or behind the first chemical agent volatilization recovery unit;

the third sterilization unit is disposed in front of or behind the second filter unit.

10. An endoscope cleaning workstation which characterized in that: comprises a cleaning working unit, a disinfecting working unit, a drying working unit and the purifying and disinfecting equipment for the endoscope cleaning working station, which is positioned above the cleaning working unit, the disinfecting working unit and the drying working unit, and is as claimed in any one of claims 1 to 9.

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