TWM617553U - Indoor Active Epidemic Prevention Monitoring System - Google Patents

Abstract

This creation is about an indoor active anti-epidemic monitoring system, mainly through a biological footprint detection unit to detect the biological activity track in the space, a control unit can be used to immediately control the ultraviolet germicidal lamp along the biological activity track according to the biological activity track Projection, tracking, and sterilization. The control unit can also determine that the creatures in the space have left according to the detection result of the biological footprint detection unit, and then control the ultraviolet germicidal lamp to perform large-scale ultraviolet sterilization on the space. It can also be controlled The ultraviolet germicidal lamp only performs ultraviolet sterilization along the biological activity track. In this way, the creative passive epidemic prevention is active epidemic prevention, which automatically sterilizes through the system to prevent any infection of germs in the room.

Description

Indoor Active Epidemic Prevention Monitoring System

This creation is about a monitoring system, especially an indoor active anti-epidemic monitoring system.

As the new crown pneumonia continues to ravage the world, more and more people are beginning to pay attention to the isolation of the virus and environmental hygiene. In addition to carrying masks when going out, they also use cleaning products such as sterilizing hand sanitizer more frequently to eliminate the virus as much as possible. infect. For companies, virus prevention is even more important. Once people are infected in the workplace, they often need to stop work for overall disinfection and cleaning, and even a large number of employees must be isolated at home, causing the company to shut down as a whole and seriously affecting business operations.

However, most of the current indoor virus protection is passive epidemic prevention. For example, a body temperature sensor is installed at the entrance and exit. Once the human body temperature is found to rise, the person will be denied entry by activating the alarm; or by manually checking whether there are people entering and exiting the room. Wear a mask to prevent entry; or observe whether there are obvious symptoms on the person to determine whether to enter the room.

The disadvantage of this passive epidemic prevention is that if a person is infected with the virus, if the temperature rise, cough and other obvious symptoms are not specified, the above methods will not be effective. After the infected person enters the room, they may still cause the group through droplets, contact, etc. Poly infection and other issues. Therefore, the creator believes that there should be an active protection system that can be used to sterilize and disinfect the room immediately after people move indoors, so as to greatly reduce the probability of virus spreading indoors.

In view of the shortcomings described in the prior art, the creator of the present invention provides a solution to an indoor active epidemic prevention monitoring system, including: a sterilization unit: the sterilization unit can be placed in a space, the sterilization unit It may further include a circulating sterilizer, an ultraviolet germicidal lamp, a water sterilizer, and an indicator 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 to detect the activity status of creatures in the space to obtain a biological footprint detection result.

A control unit: the control unit information is connected to the sterilization unit to control the action of the sterilization unit.

An analysis and statistics unit: The analysis and statistics unit information is connected to the sterilization unit and the biological footprint detection unit. When the analysis and statistics unit determines that sterilization is required according to the biological footprint detection result, the control unit activates the sterilization unit.

This creation mainly focuses on passive epidemic prevention and active epidemic prevention for sterilization and disinfection. The biological footprint detection unit is mainly used to detect the activity of indoor creatures. The detection method can be monitored by a camera detection unit or a heat source image detection unit. For detection, or the camera detection unit cooperates with the heat source image detection unit to determine the activity track of the creature, which can be used as the detection result of the biological footprint. In addition, the concentration of carbon dioxide can also be used to evaluate the disease in the indoor space. The risk of bacteria exists, in addition, you can also judge whether the same person continues to have cough symptoms by collecting the sound and audio of coughing in the space, and the sterilization device can be activated synchronously to perform disinfection and cleaning.

When the biological footprint detection result is obtained, the control unit can use it as a basis to actively control the sterilization unit to sterilize. The method of sterilization can be to perform ultraviolet sterilization on the entire room after the organism is cleared, or it can be based on the activities of the organisms. The route for sterilization can also be the use of ultraviolet rays to sterilize and disinfect the area after the biological activity during the biological activity in the room, so that the probability of the virus in the space is greatly reduced, and the way to prevent the virus from spreading.

1: Biological footprint detection unit

11: Microbial detection unit

12: Carbon dioxide concentration detection unit

13: Camera detection unit

14: Heat source image detection unit

15: Microphone radio unit

2: Analysis and Statistics Unit

3: control unit

30: Sterilization unit

31: Circulating sterilizer

32: UV sterilization unit

33: Indicator lamp

34: Water sterilizer

4: Water quality detection unit

5: Prompt unit

6: Illuminance meter

Figure 1 is a schematic diagram of the connection of each component of this creation

With the aid of the diagram, the structure, characteristics and embodiments of this creation are explained below, so that your reviewers can have a better understanding of this creation.

This creation is mainly to turn passive epidemic prevention into active epidemic prevention, using a biological footprint detection unit 1 to collect the footprints of space creatures in order to grasp the risk of space infection. An analysis and statistics unit 2 performs statistics and data analysis on all the detection results of the biological footprint detection unit 1, and determines whether a control unit 3 is required to activate a sterilization unit 30 to sterilize the space. In this way, the survival rate of viruses and bacteria in the space can be greatly reduced, and the way of infection can be eliminated.

Then, the specific sterilization method of this creation is introduced as follows: The following is an explanation of the biological footprint detection unit 1; please refer to Fig. 1. The biological footprint detection unit 1 can be placed in the space and can be detected in the space. A biological footprint detection result is obtained from the activity status of the creature. The biological footprint detection unit 1 includes a microbe detection unit 11, which uses a space collection method, Collect the status of microorganisms in the space as the detection result of the biological footprint. The biological footprint detection unit 1 may further include a carbon dioxide concentration detection unit 12, which collects the carbon dioxide concentration in the confined space as the biological footprint detection result. According to the level of the carbon dioxide concentration, It is used to judge the number of organisms in the room, and it also means the level of infection risk. In addition, the biological footprint detection unit 1 also includes a camera detection unit 13, which uses the photographic result of the camera detection unit 13 as the biological footprint detection result. The biological footprint detection unit 1 can also be a heat source image detection unit. The detection unit 14 uses the residual thermal radiation of the living thing as a detection source to obtain the moving track of the living thing as the result of the biological footprint detection. In addition, the biological footprint detection unit 1 can also use the camera detection unit 13 The heat source image detection unit 14 is matched with each other to obtain a more accurate biological movement track, including biological activity track, biological movement track, biological contact track, and the like. For organisms, hands are one of the important ways to spread viruses and bacteria. In order to prevent symptomatic patients' hands from touching objects in the space, other people may touch the same objects and cause virus infection. The thermal image residual image result of the heat source image detection unit 14 determines the contact status of the symptom patient with the objects in the space to obtain the biological contact trajectory; the control unit 3 can control the ultraviolet germicidal lamp 32 to track along the biological contact trajectory, Disinfection, in this way, eliminates any way the virus can be transmitted.

In addition, because the droplet infection range of organisms is wider and more random, it is better to include the droplet trajectory of the organism when detecting the biological footprint. The detection method of this creation is mainly through the detection of organisms. The movement of the mouth is to analyze the possible trajectory and path of the droplet to obtain a droplet trajectory. The implementation is as follows: the biological footprint detection unit 1 can analyze the heat source distribution result of the heat source image detection unit 14 The mouth movements of the creatures in the space, and the droplet trajectory is analyzed according to the mouth movements; the control unit 3 can control the ultraviolet germicidal lamp 32 to track and disinfect along the droplet trajectory according to the droplet trajectory.

Since droplet infection and contact infection are both viral and bacterial infections, through the The above method can effectively sterilize various viruses and bacteria infection paths to ensure that the bacteria in the space are difficult to survive, so as to greatly reduce the possibility of infection. In addition, in the above-mentioned sterilization method, it is mentioned that the control unit 3 can perform immediate sterilization and disinfection according to the biological footprint detection result when there is biological activity in the space. Since ultraviolet rays are harmful to biological skins, in order to prevent ultraviolet rays from being projected during sterilization in real time. Therefore, in this creation, it is better to install an indicator projection lamp 33 in the space. The control unit 3 can control the indicator projection lamp 33 and the ultraviolet germicidal lamp 32 to project along the biological movement track at the same time. The light emitted by the indicator projection lamp 33 serves as an indicator to remind people to avoid the ultraviolet rays.

Next, the biological footprint detection unit 1 further includes a microphone radio unit 15 which can detect the sounds made by living creatures in the confined space. The sounds include language, coughing, sneezing, crying, Laughter, etc., especially for coughing caused by the unique symptoms of new coronary pneumonia. When a continuous cough of the same person or multiple coughs is detected in the indoor space, the analysis and statistics unit 2 immediately determines the next action. Furthermore, the microphone receiving unit 15 collects in the confined space, recognizes that the coughing, sneezing, crying, etc. of the same creature exceeds a certain upper limit, and then notifies the background to increase alertness. Regardless of the implementation of the biological footprint detection unit 1, all those that can detect biological activity footprints in the space are the biological footprint detection unit 1 referred to in this specification.

The following description is directed to the water quality detection unit 4; please refer to FIG. 1, the sterilization unit 30 includes a water sterilizer 34, the water quality detection unit 4 and the water sterilizer 34 can be placed in a water supply unit, such as a building The water tower and drinking water environment are used to detect the water quality status and obtain a water quality detection result. The main function of the water quality detection unit 4 is to detect the water quality in real time, whether it is polluted, infected, poisoned, and other high-risk conditions. The water quality detection unit 4 transmits the detected water quality detection results to the analysis and statistics unit 2 at any time. If the analysis and statistics unit 2 determines that sterilization is required based on the water quality detection result, the control unit 3 will start Move the water sterilizer 34.

The following is a description of the analysis and statistics unit 2; please refer to Figure 1. The analysis and statistics unit 2 can be placed anywhere, such as in the space, cloud servers, etc. The analysis and statistics unit 2 has two main functions: one is Connect to the biological footprint detection unit 1, and receive the detection result from the biological footprint detection unit 1, and record statistics. Simultaneously analyze whether the received detection result reaches the set threshold. If the threshold is not reached, continue to receive messages; if the set threshold is reached, analyze which unit signal value exceeds the threshold, and then activate the corresponding sterilization device. For example: the microorganism detection unit 11, the carbon dioxide concentration detection unit 12, and the microphone unit 15 activate a circulating sterilizer 31; if it is the camera detection unit 13 or the heat source image detection unit 14, Then the ultraviolet germicidal lamp 32 is activated. The water quality detection unit 4 activates a water sterilizer 34. Regardless of the implementation of the analysis and statistics unit 2, everything that can be connected to the biological footprint detection unit 1 and the control unit 3 is the analysis and statistics unit 2 referred to in this specification.

The control unit 3 is described below; please refer to FIG. In the space, it can also be set up in the central control room through remote monitoring for remote monitoring and sterilization. Referring to FIG. 1, the ultraviolet germicidal lamp 32 can be placed in a space. Taking this specification as an example, the number of the ultraviolet germicidal lamp 32 is preferably plural, and they are scattered throughout the space for comparison. Sterilization is performed everywhere in the space without dead corners. In addition, when the ultraviolet germicidal lamp 32 is installed, it is better to be located at the top of the space, so that it can be sterilized through a top-down projection method. It is even possible to install a track conveying unit indoors, and the ultraviolet germicidal lamp 32 can be moved around in the space through the conveying of the track, so that the ultraviolet sterilization has no dead spots.

This kind of sterilization method belongs to the accurate projection sterilization method, mainly through the heat source image detection unit The element 14 and the camera detection unit 13 accurately analyze the movement trajectory of the creature, and control the ultraviolet germicidal lamp 32 to sterilize the movement trajectory of the creature. For example, when a creature enters the space, the biological footprint detection unit 1 will start to detect, and the biological movement trajectory is transmitted to the analysis and statistics unit 2 for judgment, and then a message is sent to the control unit 3 , The control unit 3 immediately controls the ultraviolet germicidal lamp 32 to project, track, and disinfect along the biological movement trajectory according to the biological movement trajectory, so as to reduce the residual probability of viruses and bacteria in the space.

In addition, the spread of germs may also be transmitted from one space to the other through the air-conditioning system. Although the other space has no signs of biological activity, the interior may be full of germs, causing the risk of infection after people enter. To avoid this If this situation occurs, this creation can be further implemented as follows: a microorganism detection unit 11 is installed in the space, and the microorganism detection unit 11 can be used to indirectly evaluate the number of microorganisms in the space to obtain a detection result of the number of microorganisms; A carbon dioxide concentration detection unit 12 is installed in the space. The carbon dioxide concentration detection unit 12 can detect the carbon dioxide concentration in the space and obtain a carbon dioxide concentration detection result. Because the carbon dioxide concentration is positively correlated with the number of organisms, the space can be further examined. The number of internal organisms; the circulating sterilizer 31 is connected to the space; the control unit 3 is connected to the microorganism detection unit 11, the carbon dioxide concentration detection unit 12, and the circulating sterilizer 31. When the analysis and statistics unit 2 When it is determined that the detection result of the number of microorganisms exceeds a preset value, the control unit 3 activates the circulating sterilizer 31. Or when the analysis and statistics unit 2 determines that the carbon dioxide concentration detection result exceeds the preset value, it means that the increase in the number of organisms in the space increases the carbon dioxide concentration, which increases the risk of infection and transmission, so the control unit 3 will also start the cycle Sterilizer 31.

For example, although there is no sign of biological activity in the space, when the analysis and statistics unit 3 determines that the number of microorganisms in the space is too high according to the detection result of the number of microorganisms, the control unit 3 will activate the circulating sterilizer 31 at this time. In order to reduce the number of microorganisms in the space, in addition, the circulating sterilizer 31 not only performs air circulation, but also preferably purifies the air at the same time. (Such as sterilization) to eliminate microorganisms in the space. At the same time of starting, the control unit 3 can also synchronously control the ultraviolet germicidal lamp 32 to perform ultraviolet sterilization in the space, so as to improve the overall sterilization effect to the best.

In addition, the above is an implementation mode when there is no sign of biological activity in the space, but the number of microorganisms is high. When there is biological activity in the space and the number of microorganisms is measured, the creation is better in the space. A prompt unit 5 is provided, and the prompt unit 5 can be a warning light, a buzzer, a broadcast, etc., and all those with a prompt effect are the prompt unit 5 referred to in this specification. When the analysis and statistics unit 2 determines that the detection result of the number of microorganisms exceeds a preset value, the prompt unit 5 is activated, and the control unit 3 is activated until the analysis and statistics unit 2 determines that there is no organism in the room according to the biological footprint detection result. The ultraviolet germicidal lamp 32. In this way, when there is biological activity in the space and the measured number of microorganisms is high, the prompt unit 5 is used to drive away the organisms in the space before thorough sterilization.

In order to avoid the increase of the ultraviolet germicidal lamp with the use of time, the output power is not as expected and the sterilization effect is not obvious. Therefore, this creation further uses the illuminance meter 6 as a retrospective control. The implementation method is: an illuminance meter 6 is installed in the space. The illuminance meter 6 information is connected to the control unit 3. While the ultraviolet germicidal lamp 32 is projected along the biological movement track, the illuminance meter 6 detects the illuminance of ultraviolet rays to obtain an illuminance detection result, and the control unit 3 detects according to the illuminance The measurement result determines whether to increase the output power of the ultraviolet germicidal lamp 32.

For example, when the ultraviolet germicidal lamp 32 is activated, the illuminance meter 6 will operate at the same time to detect the illuminance of the ultraviolet germicidal lamp 32. When the control unit 3 judges that the illuminance is not as expected according to the illuminance detection result, then The ultraviolet germicidal lamp 32 is controlled to increase the output power so that the illuminance detection result meets the preset value. At the same time, the control unit 3 preferably sends the judgment result back to the central control room synchronously to inform the relevant management personnel to pay attention Or replace the ultraviolet germicidal lamp 32 to maintain the overall ultraviolet germicidal quality of the creation.

In addition, the ultraviolet sterilization effect is mainly affected by the projection time, projection power, and even the type of germs. In order to maintain the best sterilization effect of this creation, this creation further provides intelligent learning functions. The implementation method is as follows: The control unit 3 can determine the number of organisms in the space according to the photography result of the camera detection unit 13 and the detection result of the heat source image detection unit 14; when the ultraviolet germicidal lamp 32 is switched from on to off, The control unit 3 can control the action of the microorganism detection unit 1 to obtain a detection result of a microorganism change, and the projection time, projection power, the number of organisms, and the detection result of the microorganism change of the ultraviolet germicidal lamp 32 Make a sterilization record.

In this way, subsequent learning can be performed based on the sterilization record, for example, based on the detection result of the microbial change, to determine how to adjust the projection time and the projection power to have the best sterilization effect, or to change the number according to the number of organisms. The projection time and the projection power make this creation have the best antiseptic protection effect.

In order to eliminate as much as possible the possible spread of germs in the space, this creation further uses the camera detection unit 13 to determine whether the person in the space is wearing a mask. Once it is determined that the person in the space is not wearing a mask, then The analysis and statistics unit 2 controls the reminder unit 5 to act, so as to remind people in the space to wear a mask immediately. At the same time, the detection result is preferably also sent to the central control room simultaneously to notify the management personnel of the central control room to pay attention or go to Exhort.

In addition, in view of the continuous increase in the global COVID-19 disaster, in order to effectively find out who may be diagnosed in advance, this creation has installed the radio unit 15 in the space. The radio unit 15 mainly collects various sounds in the space to obtain a sound detection. Data, and then send the sound detection data to the analysis and statistics unit 2. Then, the analysis and statistics unit 2 will start to analyze the sound detection data. If the analysis result finds the sound of various new coronary pneumonia symptoms, such as coughing, shortness of breath, or sneezing, the analysis and statistics unit 2 Also judge the health based on the result of the photography When there is movement in the mouth of the object, it means that people in the space have a certain probability of suffering from coronary pneumonia, bronchial-related diseases, or other diseases with similar symptoms. At this time, the analysis and statistics unit 2 will send out a notification signal, and the notification signal can be It is sent to the central control center, and can also be linked to the government's epidemic prevention center.

In summary, this case complies with the requirements of the Patent Law, so a patent application was filed in accordance with the law, and the above description only lists the preferred embodiments of this creation, and the scope of rights in this case is still mainly listed in the claims.

1: Biological footprint detection unit

11: Microbial detection unit

12: Carbon dioxide concentration detection unit

13: Camera detection unit

14: Heat source image detection unit

15: Microphone radio unit

2: Analysis and Statistics Unit

3: control unit

30: Sterilization unit

31: Circulating sterilizer

32: UV sterilization unit

33: Indicator lamp

34: Water sterilizer

4: Water quality detection unit

5: Prompt unit

6: Illuminance meter

Claims (10)

An indoor active epidemic prevention monitoring system, including: a sterilization unit: can be placed in a space; a biological footprint detection unit: can be placed in a space, the biological footprint detection unit can be used to detect organisms in the space A biological footprint detection result is obtained; a control unit: information is connected to the sterilization unit to control the action of the sterilization unit; an analysis and statistics unit: information is connected to the sterilization unit and the biological footprint detection unit, When the analysis and statistics unit determines that sterilization is required according to the biological footprint detection result, the control unit activates the sterilization unit. The indoor active anti-epidemic monitoring system according to claim 1, wherein the biological footprint detection unit includes a camera detection unit, a heat source image detection unit, and the camera detection unit and the heat source image detection unit can be installed in In the space, the analysis and statistics unit is connected to the camera detection unit and the heat source image detection unit respectively, and the analysis and statistics unit can be used to base on the photography result of the camera detection unit and the detection result of the heat source image detection unit Analyzing a biological movement track as the biological footprint detection result; the sterilization unit includes an ultraviolet germicidal lamp; the control unit can be used to control the ultraviolet germicidal lamp to project and sterilize along the biological movement track. The indoor active anti-epidemic monitoring system according to claim 2, wherein an illuminance meter is installed in the space, the illuminance meter information is connected to the control unit, and the ultraviolet germicidal lamp tracks and sterilizes along the biological movement track, and the illuminance The meter detects the illuminance of the ultraviolet rays 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. The indoor active anti-epidemic monitoring system according to claim 3, wherein the sterilization unit includes an indicator projection lamp arranged in the space and information is connected to the control unit, and the control unit can be used to control the indicator projection The spotlight and the ultraviolet germicidal lamp simultaneously project along the moving track of the creature in the same direction. The indoor active anti-epidemic monitoring system according to any one of claims 1 to 4, wherein the biological footprint detection unit includes a microbial detection unit disposed in the space, and the microbial detection unit can detect microorganisms in the space Quantity, a microbial quantity detection result is obtained as the biological footprint detection result; the biological footprint detection unit includes a carbon dioxide concentration detection unit arranged in the space, and the carbon dioxide detection unit can detect the space A carbon dioxide concentration detection result is obtained as the biological footprint detection result; the sterilization unit includes a circulating sterilizer communicated with the space; the analysis and statistics unit information is connected to the microorganism detection unit and the carbon dioxide concentration detection The measuring unit, when the analysis and statistics unit determines that the detection result of the number of microorganisms exceeds a preset value, or the detection result of the carbon dioxide concentration exceeds the preset value, the control unit activates the circulating sterilizer. For example, the indoor active anti-epidemic monitoring system described in claim 5, wherein a prompt unit information is provided in the space to connect to the control unit; when the analysis and statistics unit determines that sterilization is required based on the detection result of the number of microorganisms, the control unit The prompt unit is activated until the analysis and statistics unit determines that there is no organism in the room according to the biological footprint detection result, then the control unit activates the ultraviolet germicidal lamp and the circulating sterilizer. The indoor active anti-epidemic monitoring system according to claim 6, wherein the analysis and statistics unit is capable of judging the number of organisms in the space according to the photography result of the camera detection unit and the detection result of the heat source image detection unit; During the process of turning the germicidal lamp from on to off, the analysis and statistics unit analyzes the detection result of the microorganism detection unit to obtain a detection result of the microbial change, and calculates the projection time, projection power, and The biological quantity and the detection result of the microbial variation are made into a sterilization record. The indoor active anti-epidemic monitoring system according to claim 7, wherein the analysis and statistics unit can be used to analyze the photography results of the camera detection unit, determine the contact status of the creature and the object in the space, and obtain a contact track; the control unit can be used for The ultraviolet germicidal lamp is controlled to project along the contact track. The indoor active epidemic prevention monitoring system according to claim 8, wherein the sterilization unit further includes a water sterilizer installed in a water supply unit; a water quality detection unit is provided in the water supply unit and connected to the analysis and statistics unit, and the water quality detection The unit is used to detect the water quality of the water supply unit to obtain a water quality detection result; when the analysis and statistics unit determines that sterilization is required according to the water quality detection result, the control unit activates the water sterilizer. The indoor active anti-epidemic monitoring system according to claim 9, wherein the analysis and statistics unit can analyze the mouth movements of creatures in the space according to the photographing results of the camera detection unit, and analyze a droplet according to the mouth movements Trajectory; the control unit can control the ultraviolet germicidal lamp to project along the droplet trajectory according to the droplet trajectory; a microphone radio unit is installed in the space, and the microphone radio unit information is connected to the analysis and statistics unit, and the radio unit can be used for Receive the sound in the space to obtain a sound detection data. When the analysis and statistics unit determines that the sound detection data contains coughing, shortness of breath, or sneezing, at the same time, it is judged that the biological mouth is moving according to the result of the photography When the time, the analysis and statistics unit sends out a notification signal.

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