CN115845092A - Medical staff shelter formula system of killing that disappears - Google Patents

Abstract

The invention provides a square cabin type sterilization system for medical staff, which comprises a sterilization cabin body with a sterilization space, wherein an airtight door is arranged on the sterilization cabin body, an induction sensor is arranged between the airtight door and an opening, and the induction sensor is electrically connected with an industrial personal computer; the sterilizing space is respectively connected with the atomizing sterilizing mechanism and the negative pressure generating mechanism, and a particulate matter detecting detector and a negative pressure monitor are arranged in the sterilizing space; according to the invention, the mode that the induction sensor is arranged between the airtight door and the opening is adopted, when the induction sensor induces the position of the airtight door, the airtight door and the opening are in a closed state, and the problem of leakage of sterilizing gas is avoided by determining whether the airtight access door is closed or not, so that the sterilizing effect is ensured; meanwhile, the mode of powering off the airtight door after the airtight door is opened and sterilized or when the airtight door is determined to be in a closed state is adopted, so that the airtight door cannot be opened in the sterilizing process, and the problem of leakage of sterilizing gas in the sterilizing process due to misoperation is avoided.

Description

Medical staff shelter formula system of killing that disappears

Technical Field

The invention belongs to the technical field of disinfection and protection, and particularly relates to a shelter type disinfection and sterilization system for medical staff.

Background

At present, the existing disinfection shelter is open and is generally used in a mobile personnel detection channel, and transient disinfection is carried out when personnel carry out body temperature detection, for example, the mobile security disinfection shelter with application number 202123123017.0 comprises a shelter shell, a first security detection channel and a second security detection channel, wherein the shelter shell forms an accommodating space inside, and the accommodating space is divided into the first security detection channel and the second security detection channel by a first partition plate which is longitudinally arranged and a second partition plate which is transversely arranged; a passing gate is arranged in the middle section of the first security inspection channel, the first security inspection channel is divided into a first retention area and a first killing cabin, a partition door and the passing gate are respectively arranged in the middle section of the second security inspection channel, and the second security inspection channel is divided into a second killing cabin, a second retention area and a passing area; the passing gate is provided with a temperature measurement identification device for automatically carrying out temperature measurement, identification and recording security check work, and the temperature measurement identification device is respectively arranged in the first detention area and the second detention area; it adopts first baffle and second baffle to divide into first security installations passageway and second security installations passageway with security installations disinfection shelter inside and can disappear with the quick temperature measurement one by one that gets into and leave this place respectively, the very first time detects passerby's real-time body temperature and disappears in the all-round elimination of disinfection under-deck, in case detect out the body temperature unusual then keep apart temporarily in the detention district, treat medical staff to the further inspection of passerby personnel, the whole completion of temperature measurement elimination work and carry out personnel's information record in the shelter inside, unmanned contact during this period, safety, high efficiency, intelligence.

However, through further research on the above prior art by the applicant, and combined with the field work, the following findings are obtained: the existing sterilizing shelter aims at personnel with lower risk of carrying bacteria, so that the corresponding requirements can be met by open sterilizing, but for the personnel with higher risk of carrying bacteria, the aim of sterilizing cannot be fulfilled by transient sterilizing; in summary, medical care personnel need to be thoroughly sterilized because the medical care personnel are in a high infection environment for a long time, namely, a sterilizing shelter which can meet the sterilizing requirements of the medical care personnel is needed.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a shelter type sterilizing system for medical staff, which guarantees the sterilizing sufficiency through the cooperation of an atomizing sterilizing mechanism and a negative pressure generating mechanism on the basis of ensuring that an airtight door is in a closed state.

In order to achieve the purpose, the invention provides the following scheme: the invention provides a medical staff square cabin type killing system, which comprises a killing cabin body with a killing space, wherein the killing cabin body is provided with an opening for installing an airtight door, an induction sensor is arranged between the airtight door and the opening, and the induction sensor is electrically connected with an industrial personal computer; the sterilization space is respectively connected with the atomization sterilization mechanism and the negative pressure generation mechanism, a particulate matter detection instrument and a negative pressure monitor are arranged in the sterilization space, and the atomization sterilization mechanism, the negative pressure generation mechanism, the particulate matter detection instrument and the negative pressure monitor are all electrically connected with an industrial personal computer;

after entering the disinfection cabin, a person presses a button to start, and when the airtight door is judged to be in an open state, disinfection cannot be carried out; when the airtight door is judged to be in a closed state, the airtight door is powered off, the atomization killing mechanism and the particulate matter detection detector are started to carry out atomization killing, timing is started simultaneously, when the particulate matter detection detector detects that the actual solubility value of particulate matter reaches a preset solubility value, the atomization killing mechanism is stopped, the negative pressure generating mechanism is started, and when the negative pressure monitor detects that the actual negative pressure value reaches a preset negative pressure value, the negative pressure generating mechanism is closed; and when the preset killing time is reached, the killing is finished, and the airtight door is powered on.

Preferably, the industrial personal computer is electrically connected with an alarm.

Preferably, the alarm is a multicolor warning lamp, and when the multicolor warning lamp is red, the airtight door is in an open state; when the multicolor warning lamp is yellow, the airtight door is in a closed state; when the multicolor warning light is green, the disinfection is finished, and the disinfection cabin body can be left.

Preferably, the inductive sensor is an inductive switch or a pressure sensor.

Preferably, an in-cabin humidity sensor is arranged in the sterilizing space, and when the in-cabin humidity sensor detects that the humidity reaches a preset humidity value, the atomizing sterilizing mechanism stops.

Preferably, after the atomization killing mechanism stops, when the real-time solubility value is less than one third of the preset solubility value, the actual killing time length is less than two thirds of the preset killing time length and is greater than one half of the preset killing time length, the atomization killing mechanism starts a compensation killing program, and when the real-time solubility value is equal to one half of the preset solubility value, the atomization killing mechanism stops working.

Preferably, the atomizing sterilization mechanism comprises a liquid storage tank, a medicine feeding booster pump and an atomizing nozzle which are sequentially communicated through pipelines, and the atomizing nozzle is positioned in the central area of the top of the sterilization space.

Preferably, a plurality of single standing positions are defined in the sterilizing space, and the atomizing spray head is arranged right above each single standing position.

Preferably, the killing system further comprises: a detector, a controller and an ultraviolet disinfection lamp; the ultraviolet disinfection lamp is arranged on the disinfection mechanism, and the controller is respectively connected with the detector and the ultraviolet disinfection lamp and is used for starting the ultraviolet disinfection lamp to disinfect when the detector does not detect that a person stands on the standing plate.

Compared with the prior art, the invention has the following beneficial effects:

according to the shelter type sterilizing system for medical personnel, the mode that the induction sensor is arranged between the airtight door and the opening is adopted, when the induction sensor senses the position of the airtight door, the airtight door and the opening are in a closed state, and the problem of leakage of sterilizing gas is avoided by determining whether the airtight door is closed or not, so that the sterilizing effect is ensured; meanwhile, the mode of powering off the airtight door after the airtight door is opened and sterilized or when the airtight door is determined to be in a closed state is adopted, so that the airtight door cannot be opened in the sterilizing process, and the problem of leakage of sterilizing gas in the sterilizing process due to misoperation is avoided;

the invention is used for automatically sensing and detecting whether the disinfection is needed in the cabin or not by installing the infrared inductor and the detector, can control the on-off of the spray head and the ultraviolet disinfection lamp, realizes automatic control and reduces the labor cost needed in the disinfection.

Drawings

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

FIG. 1 is a first schematic structural view of a shelter-type medical staff disinfecting and killing system of the present invention;

FIG. 2 is a second structural schematic view of the shelter-type medical staff killing system of the present invention;

FIG. 3 is a schematic view of the structure of the airtight door of FIGS. 1 and 2;

FIG. 4 is a schematic perspective view of the present invention;

FIG. 5 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 6 is a schematic left-side sectional view of the present invention;

FIG. 7 is a schematic top cross-sectional view of the present invention;

FIG. 8 is an enlarged sectional view of the infrared sensor according to the present invention;

FIG. 9 is an enlarged cross-sectional view of the venting mechanism of the present invention;

FIG. 10 is a perspective view of the moving mechanism of the present invention;

FIG. 11 is a schematic cross-sectional view of the moving mechanism of the present invention;

the sterilizing cabin comprises a sterilizing cabin body 1, a base 101, a shelter body 102, an electric cabin door 103, a switch 104, a sterilizing mechanism 2, a sterilizing box 201, an electric pump 202, a fixing plate 203, a connecting rod 204, a connecting plate 205, a spray nozzle 206, a sewage tank 207, a sewer cover plate 208, a standing plate 209, an infrared sensor 210, a detector 211, a mounting plate 212, a U-shaped groove 213, an ultraviolet sterilizing lamp 214, a connecting rod 215, a limiting block 216, a ventilation mechanism 3, a ventilation opening 301, a supporting plate 302, a supporting rod 303, an electric push rod 304, a sealing plate 305, a ventilation fan 306, a moving mechanism 4, a supporting column 201, a supporting block 202, a hydraulic cylinder 203, a pushing rod 204, a moving wheel 205, a particle detection detector 4, a negative pressure monitor 5, an alarm 6, an inductive switch 7, a pressure sensor 8, a single standing position 9, an atomizing spray nozzle 10 and a sterilizing space 11.

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.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Example 1:

as shown in fig. 1 to 3, the invention provides a medical staff shelter type sterilization system, which comprises a sterilization cabin body 1 with a sterilization space 11, wherein the sterilization cabin body 1 is provided with an opening for installing an airtight door 103, namely a doorway structure in a building, an induction sensor is arranged between the airtight door 103 and the opening, the induction sensor is electrically connected with an industrial personal computer, the industrial personal computer acquires induction information of the induction sensor, when the induction information reaches or exceeds preset information, the airtight door 103 is judged to be in a closed state, otherwise, the airtight door 103 is in an opened or incompletely closed state, namely, a mode of arranging the induction sensor between the airtight door 103 and the opening is adopted, when the induction sensor senses the position of the airtight door 103, the airtight door 103 and the opening are shown to be in a closed state, and the problem of leakage of sterilization gas is avoided by determining whether the airtight door is closed or not, so that the sterilization effect is ensured; the sterilizing space 11 is respectively connected with the atomizing sterilizing mechanism and the negative pressure generating mechanism 3, and the sterilizing space 11 is internally provided with a particulate matter detecting and detecting instrument 4 and a negative pressure monitor 5, wherein the particulate matter detecting and detecting instrument 4 and the negative pressure monitor 5 are uniformly distributed at the upper part and the lower part of the sterilizing space 11, further, the particulate matter detecting and detecting instrument 4 and the negative pressure monitor 5 at the upper part and the lower part can be mutually matched, namely, when the average value obtained by the particulate matter detecting and detecting instrument 4 and the negative pressure monitor 5 at the upper part and the lower part is more than a preset value, corresponding control is carried out; the atomizing and sterilizing mechanism, the negative pressure generating mechanism 3, the particulate matter detection detector 4 and the negative pressure monitor 5 are all electrically connected with an industrial personal computer, wherein the atomizing and sterilizing mechanism comprises a liquid storage tank, a medicine feeding booster pump and an atomizing nozzle 10 which are sequentially communicated through a pipeline, and preferably, the atomizing nozzle 10 is positioned in the central area of the top of a sterilizing space 11; the negative pressure generating mechanism 3 comprises an air suction pump and a negative pressure suction inlet which are communicated through a pipeline, and a plurality of negative pressure suction inlets are uniformly distributed at each position of the sterilizing space 11.

After entering the sterilizing cabin body 1, a person presses a key to start, and when the airtight door 103 is judged to be in an open state, the sterilizing cannot be carried out; when the airtight door 103 is judged to be in a closed state, the airtight door 103 is powered off to keep the closed state, namely, after disinfection is started or when the airtight access door is determined to be in the closed state, the airtight door 103 is powered off, so that the airtight access door cannot be opened in the disinfection process, the problem of leakage of disinfection gas in the disinfection process due to misoperation is avoided, an atomization disinfection mechanism and a particulate matter detection detector 4 are started to carry out atomization disinfection, timing is started simultaneously, when the particulate matter detection detector 4 detects that the actual solubility value of particulate matter reaches a preset solubility value, the atomization disinfection mechanism is stopped, a negative pressure generating mechanism 3 is started, and when a negative pressure monitor 5 detects that the actual negative pressure value reaches the preset negative pressure value, the negative pressure generating mechanism 3 is closed; when the preset sterilization time is reached, the sterilization is finished, and the airtight door 103 is powered on.

After the disinfection is finished, the personnel leave the disinfection cabin body 1, and carry out disinfection work on the inside of the cabin through the plasma wind circulation disinfection system, namely, the disinfection is carried out on the inside environment of the cabin in an unmanned state, so that the problem that disinfection gas generated in the disinfection process of the previous batch of people is contacted with the next batch of people is avoided, and the disinfection effect is further ensured;

in order to facilitate operators to know the state of the airtight door 103, the industrial personal computer is electrically connected with the alarm 6, and when the airtight door is opened or not completely closed, the industrial personal computer drives the alarm 6 to give an alarm so as to achieve the warning effect; the alarm 6 is available, and the styles of the alarm can be various, such as voice broadcast and light display; as a preferred embodiment, the alarm 6 is provided as a multicolor warning lamp, and when the multicolor warning lamp is red, the airtight door 103 is in an open state; when the multicolor warning lamp is yellow, the airtight door 103 is in a closed state; when the multicolor warning light is green, the disinfection is finished, and the cabin body 1 can be left for disinfection.

As a specific embodiment, when the inductive sensor is the inductive switch 7, a sensing area is arranged at the airtight door 103 or the opening by using the use principle of the inductive switch 7, when the inductive switch 7 senses the sensing area, it represents that the airtight door 103 and the opening are completely closed, and since the inductive switch 7 is electrically connected to the industrial personal computer, the industrial personal computer can control the airtight door 103 to be in a closed state by using sensing information of the inductive switch 7, and before the killing program is finished, the airtight door 103 cannot be opened, further, the airtight door 103 cannot be opened at least from the outside, and can be opened from the inside; when the pressure sensor 8 is used, the pressure sensor 8 is arranged on a closing path of the airtight door 103, after the airtight door 103 is closed, the pressure sensor 8 is squeezed, and when a pressure value reaches a preset value, the airtight door 103 and the opening are completely closed; it should be noted here that: in order to improve the judgment accuracy, the inductive switch 7, namely the inductive sensor and the pressure sensor 8, can be used in combination, and the sterilization program is started only when the inductive information transmitted by the inductive switch 7 and the pressure sensor 8 is judged that the airtight door 103 is in the closed state.

As a specific implementation scheme, in order to avoid the problems of unsmooth breathing in the cabin and the like caused by overhigh humidity in the sterilizing space 11, the invention arranges a humidity sensor in the sterilizing space 11, when the humidity sensor in the cabin detects that the humidity reaches a preset humidity value, the atomizing sterilizing mechanism stops, the humidity value in the position generally meets the requirement, the overhigh humidity cannot be realized, and the phenomenon that the atomizing sterilizing mechanism is not suitable for the spraying amount of the common disinfectant can be generated when the dehumidifying system in the cabin cannot effectively work in bad weather.

As a specific embodiment, in order to ensure the killing effect, after the atomization killing mechanism stops, when the real-time solubility value is less than one third of the preset solubility value, the actual killing time length is less than two thirds of the preset killing time length and is greater than one-half of the preset killing time length, the problem that the killing is not sufficiently performed is indicated, the killing needs to be performed again, at this moment, the atomization killing mechanism starts a compensation killing program, and because the killing is compensated, the solubility value does not need to reach the value of the initial killing, namely, when the real-time solubility value is equal to one-half of the preset solubility value, the atomization killing mechanism stops working.

As a specific implementation scheme, a plurality of single standing positions 9 are defined in a killing space 11, and an atomizing spray head 10 is arranged right above each single standing position 9; it should be noted here that: before killing, can select corresponding single station 9 according to the number of people to confirm required particulate matter solubility value and kill duration according to the number of people, and then accomplish accurate effectual killing.

As a specific embodiment, the atomizer head 10 according to the present invention is a 15 μm head.

Example 2: the structure of the airtight door 103 in this embodiment is the same as that in embodiment 1;

as shown in fig. 4 to 11, the killing system comprises a killing cabin body 1, a disinfecting and washing mechanism 2, a ventilation mechanism 3 and a moving mechanism 4; the disinfection and washing mechanism 2 is arranged in the disinfection and killing cabin body 1, the ventilation mechanism 3 is arranged at the upper end of the disinfection and killing cabin body 1, and the moving mechanism 4 is fixed on the disinfection and killing cabin body 1 and used for moving the medical disinfection and washing shelter;

the killing cabin body 1 comprises a base 101 and a square cabin body 102, wherein the square cabin body 102 is arranged on the base 101.

The disinfection and washing mechanism 2 comprises a disinfection box 201, an electric pump 202, a fixing plate 203, a connecting rod 204, a connecting plate 205, a spray head 206, a sewage tank 207, a sewage cover plate 208, a standing plate 209, an infrared sensor 210, a detector 211, a mounting plate 212, a U-shaped groove 213, an ultraviolet disinfection lamp 214, a connecting rod 215 and a limiting block 216.

The airtight door 103 is provided on a side close to the standing plate 209.

The electric pump 202 is arranged in the sterilizing box 201, the fixing plate 203 is uniformly distributed in the shelter body 102, and the connecting rod 204 is fixedly arranged in the middle of the right end of the fixing plate 203; the connection plate 205 is disposed on the fixing plate 203, and the nozzles 206 are uniformly distributed on the connection plate 205. Through the installation charge pump, can extract the antiseptic solution of disinfect box to the shower nozzle for the antiseptic solution is spout smoothly.

The sewage tank 207 is arranged at the bottom of the sterilizing box 201, the sewage cover plate 208 covers the sewage tank 207, and the standing plate 209 is arranged on the sewage cover plate 208. Through installation sewage tank, can collect the contaminated antiseptic solution that flows down after the disinfection, through concentrating the discharge and do unified processing.

The ultraviolet disinfection lamp 214 is arranged on the disinfection mechanism 2, and the controller is respectively connected with the detector 211 and the ultraviolet disinfection lamp 214 and is used for starting the ultraviolet disinfection lamp 214 to disinfect when the detector 211 does not detect that a person stands on the standing plate 209. Through the installation detector for whether personnel get into in the automated inspection cabin, can control ultraviolet ray disinfection's closing and opening, required human cost when having reduced the disinfection.

The infrared sensor 210 is connected with the detector 211; when the infrared sensor 210 detects that a person stands on the standing plate 209, a signal for turning off the ultraviolet disinfection lamp 214 is sent to the controller; the infrared sensors 210 are uniformly arranged above the standing plate 209. By installing the infrared inductor, the automatic induction can be realized, the cross infection of diseases can be prevented, and the disinfectant can be saved.

The mounting plate 212 is arranged on the inner wall of the shelter body 102, and the U-shaped groove 213 is fixedly arranged at the upper end of the mounting plate 212; the ultraviolet disinfection lamp 214 is positioned in the U-shaped groove 213; the connecting rod 215 is arranged at the front end and the rear end of the ultraviolet disinfection lamp 214, the ultraviolet disinfection lamp 214 is fixedly connected with the connecting rod 215 through the mounting plate 212, and the limiting block 216 is fixedly arranged at the front end and the rear end of the connecting rod 215. Through installing the stopper, can carry on spacingly to the ultraviolet ray disinfection lamp, guarantee that the connecting rod is in U type inslot, prevent that the ultraviolet ray disinfection lamp from dropping.

The invention is used for automatically sensing and detecting whether disinfection is needed in the cabin or not by installing the infrared inductor and the detector, can control the on-off of the spray head and the ultraviolet disinfection lamp, realizes automatic control and reduces the labor cost required during disinfection.

When disinfection is needed, the switch 104 outside the cabin is firstly opened, so that a disinfection control system is opened, the infrared sensor 210 does not sense that people or objects exist on the standing plate 209 after the switch is opened, the electromagnetic valve does not receive signals, and the instruction for continuously keeping closed controls the spray nozzle 206 not to spray disinfectant, the detector 211 detects that no people enter the cabin body 102, so that the ultraviolet disinfection lamp 214 is opened to start disinfection, when people enter the cabin body 102, the detector 211 detects that people enter the cabin, the ultraviolet disinfection lamp 214 is controlled to stop disinfection, when infected people, medical instruments, articles and the like are on the standing plate 209, the infrared sensor 210 transmits signals to the electromagnetic valve, the electromagnetic valve receives signals and controls the spray nozzle 206 to spray disinfectant, after the disinfection is finished and the cabin body 102 is left, the infrared sensor 210 and the detector 211 work again, the spray nozzle 206 stops spraying disinfectant and the ultraviolet disinfection lamp 214 to continue disinfection, and the switch 104 is closed after the disinfection is finished.

The moving mechanism 4 includes: a support column 401, a support block 402, a hydraulic cylinder 403, a push rod 404 and a movable wheel 405.

The outer ends of the support columns 401 below the base 101 are symmetrically distributed, and the support blocks 402 are correspondingly arranged at the lower ends of the support columns 401; the hydraulic cylinder 403 is arranged inside the supporting column 401, and the transmission end of the hydraulic cylinder 403 extends to the inside of the supporting block 402; a push rod 404 is provided at the drive end of the hydraulic cylinder 403 and a movable wheel 405 is provided below the push rod 404.

The square cabin body has the moving capacity by arranging the movable wheels, and the movable wheels can be pushed by the hydraulic cylinders which are arranged in a matching manner. The moving mechanism can enable the shelter body to have moving capacity, effectively improves the moving convenience of the shelter body, improves the using flexibility of the shelter, and is matched with the supporting block to support the shelter body, so that the shelter body has good stability when being used while having flexible moving capacity.

The negative pressure generating mechanism 3 includes: the air vent 301, the support plate 302, the support rod 303, the electric push rod 304, the sealing plate 305 and the ventilation fan 306.

The ventilation opening 301 is fixedly arranged at the top of the shelter body 102; the supporting plate 302 is arranged outside the shelter body 102 through a supporting rod 303; the driving end of the electric push rod 304 extends to the supporting plate 302, the sealing plate 305 is fixedly installed at the driving end of the electric push rod 304, the sealing plate 305 is movably connected with the shelter body 102, and the ventilating fan 306 is fixedly installed at the inner end of the ventilating opening 301. Through the installation vent, can ventilate the under-deck, guarantee the drying of under-deck environment. Through the installation electric putter, can be convenient for open of closing plate, the reinforcing practicality.

When needing to dry to the under-deck, at first open electric putter 304 for electric putter 304's transmission end rebound drives the closing plate 305 and shifts up, then opens vent 301, opens ventilating fan 306 again, makes the under-deck ventilation keep dry, can close electric putter 304 after the under-deck is dried, makes closing plate 305 move down and seals vent 301 and close.

The working process is as follows: firstly, the switch 104 is opened, so that a control system for disinfection and cleaning is opened, at this time, the infrared sensor 210 does not sense that people or objects are on the infrared sensor 210, the electromagnetic valve does not receive a signal to keep closed, and the instruction controls the spray nozzle 206 not to spray disinfectant, the detector 211 detects that no people enter the shelter body 102, the ultraviolet disinfection lamp 214 starts disinfection work, then the airtight door 103 of the shelter body 102 is opened, the infected people, various medical instruments and objects enter the shelter body 102, at this time, the detector 211 detects that people enter the shelter body 102, the ultraviolet disinfection lamp 214 stops disinfection work, the infected people, various medical instruments and objects go up to the standing plate 209, as the infrared sensor 210 is sensed, signals are transmitted to the electromagnetic valve, the electromagnetic valve receives signals and controls the spray nozzle 206 to spray disinfectant to disinfect the infected people, various medical instruments and objects according to a designated instruction, after the disinfection is finished, the people, various medical instruments and objects leave the shelter body 102, at this time, the infrared sensor 210 and the detector 211 stop spraying of the disinfection work, the disinfection lamp sprays the disinfectant to the disinfection work, the disinfection lamp drives the sealing plate 304 to open, the sealing plate 304 to drive the electric ventilation switch 304 to dry the interior of the shelter, and the disinfection cabin is closed again, at this time, the push rod 305 is opened, and the electric ventilation opening of the disinfection of the electric ventilation switch 305 is performed, and the disinfection cabin is performed, and the ventilation opening of the electric ventilation opening of the cabin 102, and drying cabin is performed, and drying cabin, at this time, the ventilation opening of the ventilation door is completed.

The principle and the implementation mode of the invention are explained by applying a specific example, and the description of the embodiment is only used for helping to understand the invention and the core idea thereof; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the foregoing, the description is not to be taken in a limiting sense.

Claims (9)

1. A medical staff shelter type killing system is characterized by comprising a killing cabin body with a killing space, wherein an opening for installing an airtight door is formed in the killing cabin body, an induction sensor is arranged between the airtight door and the opening, and the induction sensor is electrically connected with an industrial personal computer; the sterilizing space is respectively connected with the atomizing sterilizing mechanism and the negative pressure generating mechanism, a particulate matter detecting and detecting instrument and a negative pressure monitor are arranged in the sterilizing space, and the atomizing sterilizing mechanism, the negative pressure generating mechanism, the particulate matter detecting and detecting instrument and the negative pressure monitor are electrically connected with an industrial personal computer;

after entering the disinfection cabin, a person presses a button to start, and when the airtight door is judged to be in an open state, disinfection cannot be carried out; when the airtight door is judged to be in a closed state, the airtight door is powered off, the atomization killing mechanism and the particulate matter detection detector are started to atomize, kill and time, the atomization killing mechanism and the particulate matter detection detector start timing at the same time, when the particulate matter detection detector detects that the actual solubility value of particulate matter reaches a preset solubility value, the atomization killing mechanism stops, the negative pressure generating mechanism starts, and when the negative pressure monitor detects that the actual negative pressure value reaches a preset negative pressure value, the negative pressure generating mechanism is closed; and when the preset killing time is reached, the killing is finished, and the airtight door is powered on.

2. The medical personnel shelter-type disinfection system of claim 1, wherein the industrial personal computer is electrically coupled to an alarm.

3. The shelter-type killing system for medical staff as claimed in claim 2, wherein the alarm is a multicolor warning lamp, and when the multicolor warning lamp is red, the airtight door is in an open state; when the multicolor warning lamp is yellow, the airtight door is in a closed state; when the multicolor warning light is green, the disinfection is finished, and the disinfection cabin body can be left.

4. The medical personnel shelter type disinfection and elimination system of claim 1 wherein said induction sensor is an induction switch or a pressure sensor.

5. A medical personnel shelter-type killing system according to claim 1, wherein an under-cabin humidity sensor is arranged in the killing space, and the atomizing killing mechanism is stopped when the under-cabin humidity sensor detects that the humidity reaches a predetermined humidity value.

6. A medical staff shelter type killing system according to any one of claims 1-5, characterized in that after the atomizing killing mechanism is stopped, the atomizing killing mechanism starts a compensation killing procedure when the real-time solubility value is less than one third of the predetermined solubility value, the actual killing time is less than two thirds of the predetermined killing time and is greater than one half of the predetermined killing time, and the atomizing killing mechanism stops working when the real-time solubility value is equal to one half of the predetermined solubility value.

7. The shelter type medical personnel sterilization system as claimed in claim 6, wherein the atomization sterilization mechanism comprises a liquid storage tank, a medicine feeding booster pump and an atomization nozzle which are sequentially communicated through a pipeline, and the atomization nozzle is positioned in the central area of the top of the sterilization space.

8. The shelter type medical staff killing system according to claim 7, wherein a plurality of single standing positions are defined in the killing space, and the atomizing nozzle is arranged right above each single standing position.

9. The medical personnel shelter type killing system according to claim 1, wherein the killing system further comprises: a detector, a controller and an ultraviolet disinfection lamp; the ultraviolet disinfection lamp is arranged on the disinfection mechanism, and the controller is respectively connected with the detector and the ultraviolet disinfection lamp and is used for starting the ultraviolet disinfection lamp to disinfect when the detector does not detect that a person stands on the standing plate.

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