CN216868754U - Indoor active epidemic prevention monitoring system - Google Patents

Abstract

The utility model relates to an indoor active epidemic prevention monitoring system, which mainly detects a biological activity track in a space through a biological footprint detection unit, a control unit can immediately control an ultraviolet germicidal lamp to project, track and sterilize along the biological activity track according to the biological activity track, and the control unit can judge whether organisms in the space leave according to the detection result of the biological footprint detection unit, then control the ultraviolet germicidal lamp to carry out ultraviolet sterilization on the space in a large scale, and also control the ultraviolet germicidal lamp to carry out ultraviolet sterilization only along the biological activity track. Therefore, the utility model changes passive epidemic prevention into active epidemic prevention, and automatically carries out sterilization through the system so as to prevent any infection way of germs indoors.

Description

Indoor active epidemic prevention monitoring system

Technical Field

The utility model relates to a monitoring system, in particular to an indoor active epidemic prevention monitoring system.

Background

With the continuous world abuse of new coronary pneumonia, more and more people pay attention to virus isolation and environmental sanitation, and cleaning products such as sterilizing hand sanitizer and the like are frequently used besides a mask which is carried by a person when the person goes out, so that virus infection is avoided as far as possible. For enterprises, virus prevention is more important, and once a workplace is infected by people, the workers often need to shut down to carry out overall disinfection and cleaning, even a large number of employees need to be isolated at home, so that the whole company stops, and enterprise operation is seriously influenced.

However, most of the current indoor virus protection belongs to passive epidemic prevention, for example, a body temperature sensor is arranged at an entrance, once the temperature of a human body rises, people are refused to enter the room by starting an alarm; or whether people who enter or exit the room wear the mask or not is checked through manpower, and the people cannot enter the room; or whether the observer has obvious diseases or not to decide whether to enter the room.

The passive epidemic prevention has the following defects: if the human is infected with the virus and does not have obvious diseases such as body temperature rise, cough and the like, the method is difficult to exert effects, so that the infected person can still cause the problems of cluster infection and the like by means of droplets, contact and the like after entering the room. Therefore, the inventor of the present invention considers that an active protection system is provided to sterilize and disinfect the room when people move in the room or immediately after the people move, so that the probability of virus propagation in the room can be greatly reduced.

SUMMERY OF THE UTILITY MODEL

In view of the shortcomings of the prior art, the inventor of the present invention provides a solution, which relates to an indoor active epidemic prevention monitoring system, comprising:

a sterilization unit:

the sterilization unit can be placed in a space, and further comprises a circulating sterilizer, an ultraviolet sterilization lamp, a water sterilizer and an indicating projection lamp.

A biological footprint detection unit:

the biological footprint detection unit can be placed in a space, and the biological footprint detection unit can be used for detecting the activity condition of organisms in the space to obtain a biological footprint detection result.

A control unit:

the control unit is in information connection with the sterilization unit and is used for controlling the sterilization unit to operate.

An analysis statistics unit:

the analysis and statistics unit is in information connection with the sterilization unit and the biological footprint detection unit, and when the analysis and statistics unit judges that sterilization is needed according to the biological footprint detection result, the control unit starts the sterilization unit.

The indoor active epidemic prevention monitoring system is characterized in that the biological footprint detection unit comprises a camera detection unit and a heat source image detection unit, the camera detection unit and the heat source image detection unit can be arranged in the space, the analysis and statistics unit is respectively in information connection with the camera detection unit and the heat source image detection unit, and the analysis and statistics unit can be used for analyzing a biological movement track as the biological footprint detection result according to the shooting result of the camera detection unit and the detection result of the heat source image detector; the sterilization unit comprises an ultraviolet sterilization lamp; the control unit can be used for controlling the ultraviolet germicidal lamp to carry out projection sterilization along the biological movement track.

The indoor active epidemic prevention monitoring system is characterized in that an illuminometer is further arranged in the space and is in information connection with the control unit, the ultraviolet germicidal lamp tracks and sterilizes along the biological movement track, meanwhile, the illuminometer detects the illuminance of ultraviolet light to obtain an illuminance detection result, and the control unit determines whether to improve the output power of the ultraviolet germicidal lamp according to the illuminance detection result.

The indoor active epidemic prevention monitoring system is characterized in that the sterilization unit comprises an indicating projection lamp arranged in the space and is in information connection with the control unit, and the control unit can control the indicating projection lamp and the ultraviolet sterilization lamp to project along the biological movement track in the same direction.

The indoor active epidemic prevention monitoring system is characterized in that the biological footprint detection unit comprises a microorganism detection unit arranged in the space, and the microorganism detection unit can be used for detecting the number of microorganisms in the space to obtain a microorganism number detection result as the biological footprint detection result; the biological footprint detecting unit comprises a carbon dioxide concentration detecting unit arranged in the space, and the carbon dioxide concentration detecting unit can be used for detecting the carbon dioxide concentration in the space to obtain a carbon dioxide concentration detecting result which is used as the biological footprint detecting result; the sterilization unit comprises a circulating sterilizer communicated with the space; the analysis and statistics unit is in information connection with the microorganism detection unit and the carbon dioxide concentration detection unit, and when the analysis and statistics unit judges that the detection result of the number of the microorganisms exceeds a default value or the detection result of the carbon dioxide concentration exceeds the default value, the control unit starts the circulating sterilizer.

The indoor active epidemic prevention monitoring system is characterized in that a prompt unit is arranged in the space and is in information connection with the control unit; when the analysis and statistics unit judges that sterilization is needed according to the microbial quantity detection result, the control unit starts the prompting unit, and when the analysis and statistics unit judges that no organism exists indoors according to the biological footprint detection result, the control unit starts the ultraviolet germicidal lamp and the circulating sterilizer.

The indoor active epidemic prevention monitoring system is characterized in that the analysis and statistics unit can judge the biological number of the space according to the photographic result of the camera detection unit and the detection result of the heat source image detection unit; in the process that the ultraviolet germicidal lamp is switched from starting to closing, the analysis and statistics unit analyzes according to the detection result of the microorganism detection unit to obtain a microorganism variation detection result, and the projection time, the projection power, the organism number and the microorganism variation detection result of the ultraviolet germicidal lamp are made into a sterilization record.

In the indoor active epidemic prevention monitoring system, the analysis and statistics unit can analyze the photographic result of the camera detection unit and judge the contact condition of the organism and the object in the space to obtain a contact track; the control unit can be used for controlling the ultraviolet germicidal lamp to project along the contact track.

In the indoor active epidemic prevention monitoring system, the sterilization unit further comprises a water sterilizer arranged in a water supply unit; the water supply unit is provided with a water quality detection unit which is in information connection with the analysis and statistics unit and is used for detecting the water outlet quality of the water supply unit to obtain a water quality detection result; and when the analysis and statistics unit judges that the water sterilizer needs to be sterilized according to the water quality detection result, the control unit starts the water sterilizer.

The indoor active epidemic prevention monitoring system is characterized in that the analysis and statistics unit can analyze the oral action of the organism in the space according to the photographing result of the camera detection unit and analyze a droplet track according to the oral action; the control unit can control the ultraviolet germicidal lamp to project along the spray track according to the spray track; the analysis statistical unit judges that the sound detection data contains cough sound, breath sound or sneeze sound, and the analysis statistical unit sends out a notification signal when the biological mouth part is judged to act according to the photographic result.

The utility model mainly changes passive epidemic prevention into active epidemic prevention for sterilization and disinfection, and mainly utilizes the biological footprint detection unit to detect the activity condition of indoor organisms, and the detection mode can be monitored by a camera detection unit, or detected by a heat source image detection unit, or the activity track of the organisms can be judged by the camera detection unit and the heat source image detection unit to be used as the biological footprint detection result. In addition, the risk of the existence of the pathogenic bacteria in the indoor space can be evaluated through the concentration of the carbon dioxide, and whether the cough symptom continues to exist in the same person can be judged by collecting the sound audio frequency of the cough in the space, and the sterilizing device can be synchronously started to sterilize and clean.

After the biological footprint detection result is obtained, the control unit can actively control the sterilization unit to sterilize, wherein the sterilization mode can be that after indoor organisms are emptied, ultraviolet sterilization is carried out on the whole indoor environment, sterilization is carried out according to the activity route of the organisms, and the organisms are sterilized and disinfected by ultraviolet rays in the area after the organisms are in the indoor activity process, so that the survival probability of the viruses in the space is greatly reduced, and the way of virus infection is avoided.

Drawings

FIG. 1 is a schematic view of the linking of components of the present invention.

Illustration of the drawings:

1 biological footprint detecting unit

11 microorganism detection unit

12 carbon dioxide concentration detecting unit

13 camera detecting unit

14 heat source image detection unit

15 microphone sound receiving unit

2 analysis statistical Unit

3 control unit

30 Sterilization unit

31 circulation sterilization unit

32 ultraviolet ray sterilization unit

33 indicating projection lamp

34 water sterilizer

4 water quality detecting unit

5 prompt unit

6 illuminometer

Detailed Description

The utility model mainly changes passive epidemic prevention into active epidemic prevention, and utilizes a biological footprint detection unit 1 to collect the footprint of space organisms so as to master the space epidemic risk. An analysis and statistics unit 2 performs statistics and data analysis on all detection results of the biological footprint detection unit 1, and analyzes whether a control unit 3 is needed to start a sterilization unit 30 to sterilize the space. Therefore, the survival probability of the virus and bacteria in the space can be greatly reduced, the infection way is stopped, and then, the specific sterilization mode of the utility model is introduced in the following.

The following description is made with respect to the biological footprint detection unit 1;

referring to fig. 1, the biological footprint detecting unit 1 can be placed in the space for detecting the activity status of the organisms in the space to obtain a biological footprint detecting result, the biological footprint detecting unit 1 includes a microorganism detecting unit 11, and the microorganism detecting unit 11 collects the status of the microorganisms in the space by using a space collecting method to serve as the biological footprint detecting result. The biological footprint detection unit 1 may further include a carbon dioxide concentration detection unit 12, wherein the carbon dioxide concentration detection unit 12 collects the carbon dioxide concentration in the enclosed space to serve as the biological footprint detection result, and can be used for determining the number of indoor organisms according to the carbon dioxide concentration, which also means the infection risk. In addition, the biological footprint detecting unit 1 also includes a camera detecting unit 13, the photographing result of the camera detecting unit 13 is used as the biological footprint detecting result, the biological footprint detecting unit 1 also can be a heat source image detecting unit 14, the heat radiation remaining in the organism is used as the detecting source to obtain the biological movement track, which is used as the biological footprint detecting result, in addition, the biological footprint detecting unit 1 also can utilize the camera detecting unit 13 and the heat source image detecting unit 14 to match with each other to obtain the more precise biological movement track, which includes a biological activity track, a biological movement track, a biological contact track, and the like. In the case of living things, hands are one of the important routes for infection, virus and bacteria dissemination, and it is avoided that when the hands of a patient are touched by an object in the space, other people touch the same object to cause virus infection. Judging the contact condition of the symptomatic patient and the object in the space according to the thermal image residual image result of the heat source image detection unit 14 to obtain the biological contact track; the control unit 3 can control the ultraviolet germicidal lamp 32 to track and disinfect along the biological contact track, thereby avoiding any way that viruses can be infected.

In addition, because the biological droplet has a wider range of infection and more random, the droplet trajectory including the biological is preferably detected when the biological footprint is detected, and the detection method of the present invention mainly analyzes the possible flight trajectory and path of the droplet by detecting the movement of the mouth of the biological, so as to obtain a droplet trajectory, and the implementation method thereof is as follows: the biological footprint detection unit 1 can analyze the oral motion of the organism in the space according to the heat source distribution result of the heat source image detection unit 14, and analyze the droplet trajectory according to the oral motion; the control unit 3 can control the ultraviolet germicidal lamp 32 to track and disinfect along the spray trajectory according to the spray trajectory.

As droplet infection and contact infection belong to one of virus and bacterium infection routes, the ultraviolet sterilization can be effectively carried out on various virus and bacterium infection routes in the mode, so as to ensure that germs in the space are difficult to survive and greatly reduce the possibility of germ infection. In addition, in the above sterilization manner, it is mentioned that the control unit 3 can perform sterilization and disinfection in real time according to the biological footprint detection result when there is biological activity in the space, and since ultraviolet rays are harmful to biological skin, in order to prevent ultraviolet rays from being projected to biological skin during real-time sterilization, the control unit 3 is preferably further provided with an indication projection lamp 34 in the space, and the control unit 3 can control the indication projection lamp 34 and the ultraviolet sterilization lamp 32 to project along the biological movement track at the same time, and light rays emitted by the indication projection lamp 34 are used as indication to prompt personnel to avoid the ultraviolet rays.

The biological footprint detection unit 1 further comprises a microphone receiving unit 15, wherein the microphone receiving unit 15 is capable of detecting sounds made by the living being in the enclosed space, the sounds include language, coughing, sneezing, crying, laughing and the like, and particularly, the sounds made by the symptoms specific to new coronary pneumonia are identified. When the indoor space detects the continuous cough of the same person or the cough of a plurality of persons, the analysis and statistics unit 2 judges the next action. The microphone sound receiving unit 15 collects the sound from the closed space, recognizes that the coughing, sneezing, crying, etc. of the same creature exceed a certain upper limit, and notifies the background to increase the alertness. Regardless of the implementation of the biological footprint detection unit 1, it is the biological footprint detection unit 1 referred to in this specification for detecting the biological activity footprint in the space.

The following description is directed to the water quality detection unit 4;

referring to fig. 1, the sterilization unit 30 includes a water sterilizer 33, and the water quality detection unit 4 and the water sterilizer 33 can be disposed in a water supply unit, such as a water tower of a building or a drinking water environment, for detecting a water quality condition to obtain a water quality detection result. The water quality detection unit 4 is mainly used for detecting the water quality condition in real time, whether the water is polluted, infected, poisoned and other high-risk conditions. The water quality detection unit 4 transmits the detected water quality detection result to the analysis and statistics unit 2 at any time. If the analysis and statistics unit 2 determines that sterilization is required according to the water quality detection result, the control unit 3 activates the water sterilizer 33.

The following is explained for the analysis statistic unit 2;

referring to fig. 1, the analysis and statistics unit 2 can be placed at any position, such as the space, the cloud server, and the like, and the analysis and statistics unit 2 has two main functions: firstly, the device is connected with the biological footprint detection unit 1, receives the detection result from the biological footprint detection unit 1, and records the statistics. And simultaneously, synchronously analyzing whether the received detection result reaches a set threshold value. If the threshold value is not reached, continuing to receive the message; if the set threshold value is reached, analyzing which unit signal value exceeds the threshold value, and starting the corresponding sterilization device. For example: the microorganism detecting unit 11, the carbon dioxide concentration detecting unit 12, the microphone receiving unit 15, and the like start a circulating sterilizer 31; if the number is the camera detection unit 13 or the heat source image detection unit 14, the ultraviolet germicidal lamp 32 is activated. The water quality detecting unit 4 starts a water sterilizer 33. Regardless of the implementation of the analysis and statistics unit 2, it is the analysis and statistics unit 2 referred to in this specification that can be linked to the biometric footprint detection unit 1 and the control unit 3.

The following is explained for the control unit 3;

referring to fig. 1, the control unit 3 is in communication with the ultraviolet germicidal lamp 32, the circulating sterilizer 31 and the water sterilizer 33, and the control unit 3 may be disposed in the space or may be disposed in a central control room in a remote monitoring manner for remote monitoring and sterilization. Referring to fig. 1, the ultraviolet germicidal lamps 32 may be disposed in a space, and for example, the number of the ultraviolet germicidal lamps 32 is preferably plural, and the plural ultraviolet germicidal lamps are disposed at different positions in the space in a distributed manner so as to sterilize the space without dead angles, and the ultraviolet germicidal lamps 32 are preferably disposed at the top of the space so as to sterilize the space by projection from top to bottom. Even by installing a rail conveying unit indoors, the ultraviolet germicidal lamp 32 can be moved everywhere in the space by the rail conveying, so that the ultraviolet germicidal lamp has no dead angle.

The sterilization method belongs to a precise projection sterilization method, and the heat source image detection unit 14 and the camera detection unit 13 are mainly used for precisely analyzing the biological movement track and controlling the ultraviolet germicidal lamp 32 to sterilize the biological movement track. For example, when a living being enters the space, the living being footprint detection unit 1 starts to detect, the moving track of the living being is transmitted to the analysis and statistics unit 2 for determination, and then a message is sent to the control unit 3, and the control unit 3 immediately controls the uv-germicidal lamp 32 to project, track and sterilize along the moving track of the living being according to the moving track of the living being, so as to reduce the probability of virus and bacteria remaining in the space.

In addition, the transmission of germs may also be transmitted from one space to another space through the air conditioning system, so that the other space has no evidence of biological activity, but may be filled with germs inside, so that the personnel still have the risk of infection after entering, and in order to avoid the situation, the utility model further can be implemented as follows: a microorganism detecting unit 11 is arranged in the space, and the microorganism detecting unit 11 can indirectly evaluate the microorganism quantity in the space to obtain a microorganism quantity detecting result; a carbon dioxide concentration detection unit 12 is further arranged in the space, the carbon dioxide concentration detection unit 12 can be used for detecting the carbon dioxide concentration in the space to obtain a carbon dioxide concentration detection result, and the carbon dioxide concentration is positively correlated with the biomass, so that the biomass in the space can be further knocked; the circulating sterilizer 31 is further arranged to be communicated with the space; the control unit 3 is in information connection with the microorganism detection unit 11, the carbon dioxide concentration detection unit 12, and the circulating sterilizer 31, and when the analysis and statistics unit 2 determines that the detection result of the number of microorganisms exceeds a default value, the control unit 3 starts the circulating sterilizer 31. Or when the analyzing and counting unit 2 determines that the detected result of the carbon dioxide concentration exceeds the default value, it indicates that the carbon dioxide concentration is increased due to the increase of the number of living organisms in the space, which results in the increase of infection and propagation risks, so the control unit 3 also starts the circulating sterilizer 31.

For example, although there is no evidence of biological activity in the space, when the analyzing and counting unit 3 determines that the number of microorganisms in the space is too high according to the detected result of the number of microorganisms, the control unit 3 will activate the circulating sterilizer 31 to reduce the number of microorganisms in the space, and the circulating sterilizer 31 not only performs the operation of circulating air, but also preferably simultaneously purifies (e.g., sterilizes) the air to kill the microorganisms in the space. And when the ultraviolet sterilizing lamp 32 is started, the control unit 3 can also synchronously control the ultraviolet sterilizing lamp 32 to perform ultraviolet sterilization on the space, so that the overall sterilizing effect is improved to the best.

In addition, in the above-mentioned embodiment when the number of the microorganisms is measured to be high when there is no sign of biological activity in the space, when there is biological activity in the space and the number of the microorganisms is measured to be high, the present invention preferably arranges a prompting unit 5 in the space, wherein the prompting unit 5 can be a warning light, a buzzer, a broadcast, etc., and all those having a prompting effect are the prompting unit 5 referred to in this specification. When the analyzing and counting unit 2 determines that the detection result of the number of microorganisms exceeds the default value, the prompting unit 5 is started, and until the analyzing and counting unit 2 determines that no organisms exist in the room according to the detection result of the biological footprint, the control unit 3 starts the ultraviolet germicidal lamp 32. In this way, when the biological activity is present in the space and the number of microorganisms is measured to be high, the organisms in the space are first removed by the prompting unit 5, and then the space is thoroughly sterilized.

In order to avoid that the output power is not as expected to cause poor sterilization effect due to the increase of the ultraviolet germicidal lamp along with the use time, the utility model further utilizes the illuminometer 6 as backtracking control, and the implementation mode is as follows: an illuminometer 6 is further arranged in the space, the illuminometer 6 is in information connection with the control unit 3, the ultraviolet germicidal lamp 32 projects along the biological movement track, meanwhile, the illuminometer 6 detects the illuminance of ultraviolet rays to obtain an illuminance detection result, and the control unit 3 determines whether to improve the output power of the ultraviolet germicidal lamp 32 according to the illuminance detection result.

For example, when the ultraviolet germicidal lamp 32 is turned on, the illuminometer 6 is simultaneously operated to detect the illuminance of the ultraviolet germicidal lamp 32, and when the control unit 3 determines that the illuminance is not as expected according to the illuminance detection result, the control unit 3 controls the ultraviolet germicidal lamp 32 to increase the output power so that the illuminance detection result meets a default value, and simultaneously, the control unit 3 preferably synchronously transmits the determination result back to the central control room to inform relevant managers that the ultraviolet germicidal lamp 32 needs to be noticed or replaced, so as to maintain the overall ultraviolet germicidal quality of the present invention.

In addition, the ultraviolet sterilization effect mainly influences the sterilization effect along with the projection time and the projection power, even the types of germs, and in order to maintain the best sterilization effect, the utility model further provides an intelligent learning function, and the implementation mode is as follows: the control unit 3 is configured to determine the biological number of the space according to the photographing result of the camera detecting unit 13 and the detecting result of the heat source image detector 14; in the process of turning the ultraviolet germicidal lamp 32 from on to off, the control unit 3 can control the microorganism detecting unit 1 to operate to obtain a microorganism variation detecting result, and the projection time, the projection power, the biomass number and the microorganism variation detecting result of the ultraviolet germicidal lamp 32 are made into a sterilization record.

Therefore, the sterilization record can be learned subsequently, for example, the projection time and the projection power can be adjusted and controlled to have the best sterilization effect according to the detection result of the microorganism variation, or the projection time and the projection power can be changed according to the number of the organisms, so that the utility model has the best sterilization protection effect.

In order to prevent any possible transmission path of germs in the space as much as possible, the utility model further judges whether a person in the space wears a mask through the camera detection unit 13, once the person in the space is judged not to wear the mask, the analysis and statistics unit 2 controls the prompting unit 5 to actuate to prompt the person in the space to wear the mask immediately, and simultaneously the detection result is preferably synchronously transmitted to the central control room to inform a manager of the central control room to pay attention or go to the central control room to advise.

In addition, in view of the rising of global new coronary pneumonia, in order to effectively find out the person who can be diagnosed in advance, the sound receiving unit 15 is further arranged in the space, the sound receiving unit 15 mainly collects various sounds in the space to obtain sound detection data, and then the sound detection data is transmitted to the analysis and statistics unit 2. Then, the analyzing and counting unit 2 will start to analyze the sound detection data, if the analysis result finds out the sounds generated by the possible symptoms of various new coronary pneumonia symptoms such as coughing, acute respiration, sneezing, etc., and at the same time, the analyzing and counting unit 2 will judge that the mouth of the living body is moving according to the photographing result, which indicates that the person in the space has a certain probability of suffering from coronary pneumonia, bronchial related diseases or other diseases with similar symptoms, at this time, the analyzing and counting unit 2 will generate an informing signal, and the informing signal can be transmitted to a central control center or a quarantine center of the government.

In summary, the present application is consistent with the principles defined by the patent laws, and the following descriptions are provided for describing the preferred embodiments of the present invention only, and the claims of the present application are mainly listed in the claims.

Claims (10)

1. The utility model provides an indoor initiative epidemic prevention monitored control system which characterized in that includes:

a sterilization unit: can be placed in a space;

a biological footprint detection unit: the biological footprint detection unit can be placed in a space, and can be used for detecting the activity condition of organisms in the space to obtain a biological footprint detection result;

a control unit: the information is connected with the sterilization unit and is used for controlling the activation of the sterilization unit;

an analysis statistics unit: the information is connected with the sterilization unit and the biological footprint detection unit, and the control unit is used for controlling the sterilization unit to actuate.

2. The indoor active epidemic prevention monitoring system of claim 1, wherein the biological footprint detection unit comprises a camera detection unit and a heat source image detection unit, the camera detection unit and the heat source image detection unit are configured to be disposed in the space, the analysis and statistics unit is respectively in communication with the camera detection unit and the heat source image detection unit, and the analysis and statistics unit is configured to analyze a biological movement track as the biological footprint detection result according to a photographing result of the camera detection unit and a detection result of the heat source image detector; the sterilization unit comprises an ultraviolet sterilization lamp; the control unit can be used for controlling the ultraviolet germicidal lamp to carry out projection sterilization along the biological movement track.

3. The indoor active epidemic prevention monitoring system according to claim 2, wherein an illuminometer is further arranged in the space, the illuminometer is in information connection with the control unit, the ultraviolet germicidal lamp tracks and sterilizes along the biological movement track, the illuminometer detects the illuminance of ultraviolet light to obtain an illuminance detection result, and the control unit determines whether to increase the output power of the ultraviolet germicidal lamp according to the illuminance detection result.

4. The indoor active epidemic prevention monitoring system of claim 3 wherein the germicidal unit comprises an indicator projection lamp disposed in the space and in communication with the control unit, the control unit being configured to control the indicator projection lamp and the ultraviolet germicidal lamp to project along the biological movement path in the same direction.

5. The indoor active epidemic prevention monitoring system of claim 4 wherein the biological footprint detection unit comprises a microorganism detection unit disposed in the space, the microorganism detection unit being configured to detect the number of microorganisms in the space to obtain a microorganism detection result as the biological footprint detection result; the biological footprint detecting unit comprises a carbon dioxide concentration detecting unit arranged in the space, and the carbon dioxide concentration detecting unit can be used for detecting the carbon dioxide concentration in the space to obtain a carbon dioxide concentration detecting result which is used as the biological footprint detecting result; the sterilization unit comprises a circulating sterilizer communicated with the space; the analysis and statistics unit is connected with the microorganism detection unit and the carbon dioxide concentration detection unit in an information mode, and the control unit is used for controlling the action of the circulating sterilizer.

6. The indoor active epidemic prevention monitoring system of claim 5 wherein a prompt unit is provided in the space for information connection with the control unit; the control unit is used for controlling the actuation of the prompting unit.

7. The indoor active epidemic prevention monitoring system of claim 6 wherein the analysis and statistics unit is configured to determine the biomass of the space according to the result of the camera detection unit and the result of the heat source image detection unit; in the process that the ultraviolet germicidal lamp is switched from starting to closing, the analysis and statistics unit analyzes according to the detection result of the microorganism detection unit to obtain a microorganism variation detection result, and the projection time, the projection power, the organism number and the microorganism variation detection result of the ultraviolet germicidal lamp are made into a sterilization record.

8. The indoor active epidemic prevention monitoring system of claim 7 wherein the analysis and statistics unit is configured to analyze the camera result of the camera detection unit and determine the contact status between the living being and the object in the space to obtain a contact trajectory; the control unit can be used for controlling the ultraviolet germicidal lamp to project along the contact track.

9. The indoor active epidemic prevention monitoring system of claim 8 wherein the sterilization unit further comprises a water sterilizer disposed in a water supply unit; the water supply unit is provided with a water quality detection unit which is in information connection with the analysis and statistics unit and is used for detecting the water outlet quality of the water supply unit to obtain a water quality detection result; the control unit is used for controlling the action of the water sterilizer.

10. The indoor active epidemic prevention monitoring system of claim 9 wherein the analysis and statistics unit is configured to analyze the oral movements of the living being in the space according to the results of the camera detection unit and analyze a droplet trajectory according to the oral movements; the control unit can control the ultraviolet germicidal lamp to project along the spray track according to the spray track; a microphone sound receiving unit is further arranged in the space, the microphone sound receiving unit is in information connection with the analysis and statistics unit, and the sound receiving unit can be used for receiving the sound in the space to obtain sound detection data; the analysis and statistics unit can send out a notification signal.

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