CN111445999A

CN111445999A - Stuck point investigation and control method for infectious diseases

Info

Publication number: CN111445999A
Application number: CN202010117172.2A
Authority: CN
Inventors: 于程远; 万娟; 孔卓
Original assignee: Thinvent Digital Technology Co Ltd
Current assignee: Thinvent Digital Technology Co Ltd
Priority date: 2020-02-25
Filing date: 2020-02-25
Publication date: 2020-07-24

Abstract

The embodiment of the invention provides a checkpoint screening and management and control method for infectious diseases. The method comprises the steps that a plurality of card points are preset, at least one card port is arranged on each card point, and personnel information of personnel to pass through is collected at the card ports; whether the person to be passed accords with the passing condition or not is judged according to the collected person information, a certificate which is uniquely corresponding to the person to be passed is generated, the person to be passed who holds the certificate is identified, and the person to be passed passes through a bayonet or potential risk person isolation measures are started. In this way, can be through locating the collection personnel information at the checkpoint bayonet socket, screen potential risk personnel, measure such as difference access has reduced the infectious disease and has leaded to risk such as the regional epidemic situation outbreak of leading to in the intensive region of population, has improved prevention and control efficiency, has reduced the risk that monitoring personnel infected, has promoted joint defense joint control efficiency.

Description

Stuck point investigation and control method for infectious diseases

Technical Field

Embodiments of the present invention relate generally to the field of infectious disease prevention and control, and more particularly, to a method for checking and managing a stuck point with an infectious disease.

Background

Infectious Diseases (Infectious Diseases) are a group of Diseases caused by various pathogens that can be transmitted from person to person, animal to person or animal to animal. Generally, the disease can be caused by direct contact with infected individuals, the body fluids and excretions of infected persons, contaminated objects of infected persons, and can be transmitted through air, water, food, contact, soil, vertical (mother-baby), and the like.

Infectious diseases are spread very rapidly in large and medium-sized cities and densely populated areas represented by urban communities, so that the infectious diseases are difficult to control once the infectious diseases are outbreaked. Therefore, in the initial stage of epidemic situation outbreak of infectious diseases, how to rapidly investigate potential infected people and effectively control a large number of potential infected people becomes a key challenge needed by prevention and control work.

In the process of moving a large number of people, the people as infectious disease virus carriers can guide the infectious disease viruses into densely populated areas such as cities, and how to distinguish inflowing people according to the infectious disease infection risks is a key problem to be solved, and isolation and supervision are needed after potential infected people are separated.

The traditional infectious disease epidemic prevention and control is realized by observing isolation personnel and collecting and reporting information in a way of staring people, the mode has low working efficiency and increases the risk of infectious disease transmission, for example, in order to ensure that the isolation personnel stay at home all the time, a community or a street and other grid workers are required to frequently check the isolation personnel, so that the manpower is wasted, and the efficiency is low; as the grid staffs need to communicate with isolated potentially infected people face to supervise, once the protection measures of the grid staffs are not in place, the infection risk is increased.

Disclosure of Invention

According to an embodiment of the invention, a checkpoint screening and management scheme with infectious diseases is provided.

In a first aspect of the invention, a method for checking and managing a stuck point with an infectious disease is provided. The method comprises the following steps:

step 1: presetting a plurality of card points, arranging at least one card port at each card point, and collecting personnel information of personnel to be passed at the card ports;

step 2: judging whether the personnel to be passed conform to the passing condition or not according to the collected personnel information, if so, generating a personnel health certificate uniquely corresponding to the personnel to be passed, and sending the personnel health certificate to the personnel to be passed; if the person to be passed does not meet the passing conditions, defining the person to be passed as a potential risk person, and generating a potential risk person certificate uniquely corresponding to the potential risk person;

and step 3: identifying the person to pass who holds the certificate, and if the person to pass holds the health certificate, reading and recording the information of the person to pass, so that the person to pass passes through the card port; and if the person to be passed holds the certificate of the person with the potential risk, after reading and recording the person information of the person with the potential risk, starting a separation measure of the person with the potential risk.

Through collecting personnel's information in checkpoint bayonet socket department, screen potential risk personnel, measure such as difference access has reduced the infectious disease and has leaded to risk such as the outbreak of epidemic situation in the region in leading to population intensive area, has improved prevention and control efficiency, has reduced the risk that monitoring personnel infected, has promoted joint defense joint control efficiency.

Further, the potentially risky personnel isolation measures include:

step 3.1: setting isolation time and an isolation place according to the personnel information of the potential risk personnel, setting an isolation area by taking the isolation place as a center, and adding the isolation time, the isolation place and the isolation area to the personnel information of the potential risk personnel;

step 3.2: enabling the potential risk personnel holding the potential risk personnel voucher to pass through a gate under an isolated condition, isolating the potential risk personnel at the isolation place, and adding the time of the potential risk personnel who pass through the gate into personnel information of the potential risk personnel;

step 3.3: and judging whether the potential risk personnel exceed the isolation area within the isolation time, if so, generating alarm information and sending a monitoring platform.

Further, the determining whether the potentially risky person exceeds the isolation region includes:

and starting GPS positioning of the mobile terminal held by the potential risk personnel, acquiring GPS positioning information in real time, and judging that the potential risk personnel exceed the isolation area if the GPS positioning information exceeds the preset isolation area.

And further, after the monitoring platform receives the alarm information, the alarm information is sent to a corresponding supervisor.

Further, the stuck point is a node that can be a limiting point of population movement.

Further, after the person to pass through the bayonet, the time for the person to pass through the bayonet is added to the person information.

Further, before generating the personnel health voucher or the potential risk personnel voucher, the collected personnel information of the personnel to be passed is compared with the personnel information in the database, and error information is prompted.

Further, the personnel information comprises basic information, journey information, health information and checkpoint registration time information; wherein

The basic information comprises name, identification card number, mobile phone number and address information;

the journey information comprises source places, destinations, vehicle information, route point information, travel time information and epidemic situation contact history information;

the health information comprises current health condition information and past medical history information.

In a second aspect of the present invention, a checkpoint screening and management device with infectious diseases is provided. The device includes:

the bayonet platform module is used for presetting a plurality of bayonet points, arranging at least one bayonet at each bayonet point and collecting personnel information of personnel to be passed at the bayonet;

the certificate generation module is used for judging whether the personnel to pass the certificate accords with the passing condition or not according to the collected personnel information, if so, generating a personnel health certificate uniquely corresponding to the personnel to pass the certificate, and sending the personnel health certificate to the personnel to pass the certificate; if the person to be passed does not meet the passing conditions, defining the person to be passed as a potential risk person, and generating a potential risk person certificate uniquely corresponding to the potential risk person;

the card passing judgment module is used for identifying the person to pass who holds the certificate, and if the person to pass holds the health certificate, reading and recording the information of the person to pass, so that the person to pass passes through the card port; and if the person to be passed holds the certificate of the person with the potential risk, after reading and recording the person information of the person with the potential risk, starting a separation measure of the person with the potential risk.

It should be understood that the statements herein reciting aspects are not intended to limit the critical or essential features of any embodiment of the invention, nor are they intended to limit the scope of the invention. Other features of the present invention will become apparent from the following description.

According to the invention, through collecting the personnel information at the card point bayonet, potential risk personnel are screened, and measures such as access are distinguished, so that the risks such as epidemic outbreak in the area caused by introducing infectious diseases into the densely populated area are reduced, the prevention and control efficiency is improved, the risk of infection of monitoring personnel is reduced, and the joint defense and joint control efficiency is improved.

Drawings

The above and other features, advantages and aspects of various embodiments of the present invention will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. In the drawings, like or similar reference characters designate like or similar elements, and wherein:

FIG. 1 shows a flow diagram of a checkpoint screening and management method with infectious diseases according to an embodiment of the present invention;

FIG. 2 shows a flow diagram for implementing a potentially risky personnel isolation measure, according to an embodiment of the invention;

fig. 3 shows a block diagram of a checkpoint screening and control device with infectious diseases according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

According to the invention, through collecting the personnel information at the card point bayonet, potential risk personnel are screened, and the measures such as access are distinguished, so that the risks such as epidemic outbreak in the area caused by the introduction of infectious diseases into the densely populated area are reduced, the prevention and control efficiency is improved, the risk of infection of monitoring personnel is reduced, and the joint defense and joint control efficiency is improved.

Fig. 1 shows a flowchart of a checkpoint screening and management method with infectious diseases according to an embodiment of the present invention.

The method comprises the following steps:

s110, presetting a plurality of card points, setting at least one card port at each card point, and collecting personnel information of personnel to be passed at the card ports.

The stuck point is a node that can be a restriction point for population movement. For example, train stations, airports, high-speed intersections, and the like are used as the points of sticking. One or more bayonets can be arranged at each card point, and the bayonets can be determined according to the passenger flow and the allocation condition of inspectors, for example, the passenger flow of a railway station is generally larger, 3-5 bayonets can be arranged at the outlet of the railway station, and each bayonet is allocated with at least one inspector. And for example, if the traffic flow at the high-speed intersection is not very large, a bayonet is arranged, and one inspector can inspect the traffic flow. The information input two-dimensional code can be set at the bayonet for collecting the personnel information of the personnel to be passed through, and the personnel information is input by scanning the two-dimensional code and linking the two-dimensional code to an information input page. The two-dimensional code is scanned to enter the information entry page, so that a unified template is provided for information entry, and the information entry uniformity and efficiency are improved.

The personnel information comprises basic information, journey information, health information and checkpoint registration time information; wherein:

the basic information comprises a name, an identity card number, a mobile phone number and address information; for example, the basic information table is as follows:

TABLE 1

The journey information comprises source places, destinations, vehicle information, route point information, travel time information and disease source contact history information; taking the checkpoint as a railway station as an example, the journey information table is as follows:

TABLE 2

If the checkpoint is an airport, the vehicle information may be flight information; if the stuck point is a highway intersection, the vehicle information may be license plate number information.

The health information comprises current health condition information and past medical history information; for example, the health information table is as follows:

serial number	Current health status information	Past medical history information
			1	Fever with fever	Hypertension, hyperlipemia and myocarditis
2	Good health condition	Appendicitis excision surgery
			3	Diabetes mellitus	Hepatitis B and hysteromyoma excision operation

TABLE 3

The card port registers time information for recording the time when the two-dimensional code is to be recorded by the person scanning information, for example, 10:20 in 1 month, 19 months and 2020.

S120, judging whether the person to pass meets a passing condition or not according to the collected person information, if so, generating a person health certificate uniquely corresponding to the person to pass, and sending the person health certificate to the person to pass; and if the person to be passed does not meet the passing condition, defining the person to be passed as a potential risk person, and generating a potential risk person certificate uniquely corresponding to the potential risk person.

In the step S110, the personnel information collection of the personnel to be passed is completed, and according to the collected information, the potential risk personnel need to be screened out first. And constructing passing conditions, namely potential risk personnel screening conditions according to preset information such as characteristics of the infectious diseases, the incubation period, areas with more infected persons and the like. For example, influenza A H1N1, which is characterized by fever, latency period of 1-7 days, Shenyang City in Liaoning province in areas with a large number of infected people, judges whether a coincidence item exists according to the personnel information collected by the infectious disease characteristic control, and if the coincidence item exists, the passing personnel is regarded as potential risk personnel. Through condition screening, people choose with potential risks can be selected, and special measures are taken to reduce the risk of uncontrolled transmission of infectious diseases.

Preferably, the potentially risky personal credential is not visually distinct from the personal health credential, and does not allow the person to be identified by the naked eye. And the detection device of the detection personnel at the bayonet can identify the risk prompt tag added in the potential risk personnel voucher so as to identify the potential risk personnel voucher.

In the above example, plum XX from shenyang, riding K54 trains to beijing, is currently in a fever state, and there is a history of pathogenic contact within 7 days of the incubation period, i.e. a person stubborn vigorously under the train he is riding on and with fever symptoms. From the above information, lie XX can be classified as a potentially risky person. And generating a potential risk personnel certificate uniquely corresponding to the Li XX by the system, wherein the certificate records personnel information of the Li XX and risk items with potential risks, and a risk prompt tag for prompting the risks after being scanned.

From Shanghai, people take the Wang XX from G2 times of high-speed rail to Beijing, and after the personnel information is compared with the infectious disease characteristics, no item is met, so the Wang XX is regarded as a healthy person, a personnel health certificate uniquely corresponding to the Wang XX is generated by the system, the personnel information of the Wang XX is recorded by the health certificate, and a passing prompt label is used for prompting that the person can pass after being scanned.

From Jinan, Zhang XX from G80 times of high-speed rail to Beijing has a history of Shenyang within 7 days after comparison of personnel information and infectious disease characteristics, although there is no infectious characteristics, Shenyang city is a city with the most infectious disease infection number, so it needs to be regarded as a potential risk personnel with potential risk, and a system generates a potential risk personnel voucher uniquely corresponding to Zhang XX, which records the personnel information of Li XX and the risk item with potential risk, and a risk prompt label for prompting risk after being scanned.

Optionally, before generating the personal health voucher or the potentially risky personal voucher, the method may further include: and comparing the collected personnel information of the personnel to be passed with the personnel information in the database, and prompting error information. For example, if the identification number of the li XX is not consistent with the identification number in the system database, the li XX is prompted to input an error after the identification number is input. Therefore, error information detection is carried out, difficulty in later period tracing caused by error information is prevented, and the information input accuracy is improved.

In the above embodiment, optionally, when a certain item to be entered by the person has an error in comparison with the information in the database, the system may not complete the submission. Therefore, the error information detection is carried out, the error information is prevented from causing difficulty to the later tracing, and the situation that people maliciously conceal or provide false information is avoided.

In the above embodiment, optionally, after a certain piece of information is input correctly, the system can automatically fill the unfilled information in the information-corresponding person information. For example, after the Li XX is filled with K54 trains, if the train is verified to be correct, if the source and destination are not filled, the system will automatically fill Shenyang and Beijing. Therefore, filling efficiency is improved, accuracy of information input is improved, and difficulty in later-period tracing caused by error information input is avoided.

S130, identifying the person to pass who holds the certificate, and if the person to pass holds the health certificate, reading and recording the information of the person to pass, so that the person to pass passes through the card port; and if the person to be passed holds the certificate of the person with the potential risk, after reading and recording the person information of the person with the potential risk, starting a separation measure of the person with the potential risk.

After the personnel information to be passed is correctly input, the personnel health voucher or the potential risk personnel voucher can be received according to personal conditions, the voucher in the hand can be held at a bayonet of a card point for identification, for example, a two-dimensional code scanning personnel can be arranged at the bayonet, when the personnel to be passed holding the voucher needs to pass through the bayonet, the voucher in the hand is scanned, whether the personnel to be passed is the potential risk personnel can be fed back, meanwhile, the personnel information of the personnel to be passed is read and recorded, and the scanning time is merged into the personnel information for storage; and if the person to be passed is the potential risk person, starting a potential risk person isolation measure.

Specifically, the isolation measures for the potential risk personnel include:

s131, setting isolation time and an isolation place according to the personnel information of the potential risk personnel, setting an isolation area by taking the isolation place as a center, and adding the isolation time, the isolation place and the isolation area to the personnel information of the potential risk personnel.

The isolation time is the latent period of the infectious diseases, and is calculated from the time of potential risk personnel passing through the gate; for example, in the above embodiment, the incubation period of the influenza a with the infectious disease H1N1 is 1-7 days, and 7 days from the time when the two-dimensional code scanner at the gate scans the certificate in the hand of the person at risk need to be taken as the isolation time of the person at risk.

The setting of the isolation site needs to take isolation conditions into consideration, such as preferentially selecting the residences of potentially risky people, and if potentially risky people do not frequently live in the city, such people are set to fix the isolation site as the isolation site.

The isolation area needs to be set according to isolation needs and surrounding environment conditions, for example, if a fence is arranged around an isolation place in a square circle of 50 square meters, it is reasonable to set the isolation area to 50 square meters.

S132, the potential risk personnel holding the potential risk personnel voucher pass through a bayonet under the isolated condition, are isolated at the isolation place, and the time of the potential risk personnel carrying the potential risk personnel voucher passing through the bayonet is added into the personnel information of the potential risk personnel.

When the person to be passed is identified as a person with potential risk, the person to be passed needs to be protected under the condition of being isolated, such as wearing a mask, wearing isolation clothes, passing by a special car and the like. And after passing through the card point, the user needs to go to the isolation place directly to enter the isolation state.

Through the isolation measure for the potential risk personnel, the isolation measure can be taken when the potential risk personnel do not enter the bayonet, the isolation is carried out at the first time, and the risk of cross infection is reduced.

S133, whether the potential risk personnel exceed the isolation area is judged within the isolation time, and if yes, alarm information is generated and sent to a monitoring platform.

Specifically, the determining whether the person at risk exceeds the isolation area includes:

In some embodiments, the isolation automatic monitoring of potential risk personnel isolated at home is realized by using the GPS positioning function of a mobile phone, and when the potential risk personnel leave the isolation place and exceed the range of an isolation area, the system automatically prompts an alarm and sends alarm information to a monitoring platform.

Specifically, after receiving the alarm information, the monitoring platform sends the alarm information to a corresponding supervisor.

And binding the potential risk personnel with the corresponding monitoring personnel responsible for the isolation site according to the isolation site of the potential risk personnel, and if the monitoring platform receives the alarm information, sending the alarm information to the monitoring personnel bound with the monitoring platform at a first time, and taking verification or control action by the monitoring personnel.

As an example of the present invention, the infectious disease is influenza a H1N1, the cassette point is a railway station, a cassette is set at the railway station, and an inspector performs inspection. People in Beijing city returned to Beijing from Shenyang by XX riding K54 times. When a train passes through a train station exit after getting off a train, a mobile phone is required to scan an information acquisition two-dimensional code arranged at a card port, the mobile phone is connected to a personnel information filling page after scanning the code, personal information is filled, name XX, identity card number 210XXXXXXXXXXXXXXX, mobile phone number 132 XXXXXXXXXXX, address information XXK street XXXXXXX in western city of Beijing city, Shenyang of origin, Beijing at destination, and transportation tool information K54 times, car number 12, forming time is 2018, 1, 18, days 12, 41-17, 01, and people who are not infected with epidemic diseases are sojourned in the latent period, the current health condition is diabetic, and the operation of hepatitis B and uterine myoma removal operation is performed in the past medical history. And after filling, the system confirms that no error information exists, and then the system judges whether the information is a potential risk person or not after submitting. Since the number of infected people with Shenyang H1N1 influenza A is large in the system and is consistent with the source filled by Zhang XX, the system identifies Zhang XX as a potential risk person and generates a potential risk person certificate. When the XX ticket of the person with the potential risk passes through the outbound ticket checking port, the health two-dimensional code generated by the mobile phone app is displayed besides the ticket; the detection personnel of the railway station sweep the code through healthy two-dimensional code sweep yard equipment or software, generate and sweep yard time record in personnel's information, discern a XX simultaneously and be the potential risk personnel. At this time, an isolation measure needs to be implemented on the stretched XX, and the mask is worn for the stretched XX. Since XX has a fixed residence in beijing, its home is taken as an isolation place, the isolation time is set to 7 days from the time of code scanning, and the isolation area is set to 20 square meters in the vicinity of the home. According to the home address, the page XX is distributed to the gridding member Wu XX responsible for the home address, and the page XX is directly sent to the home by a special vehicle. Through the GPS positioning function of the XX mobile phone, if the XX exceeds the 20 square meters of the isolation area during isolation, the XX is judged to exceed the isolation area, at the moment, alarm information is generated and sent to the monitoring platform, the monitoring platform pushes the alarm information to Wu XX, and the Wu XX takes verification or management and control actions.

It should be noted that, for simplicity of description, the above-mentioned method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present invention is not limited by the order of acts, as some steps may occur in other orders or concurrently in accordance with the invention. Further, those skilled in the art should also appreciate that the embodiments described in the specification are exemplary embodiments and that the acts and modules illustrated are not necessarily required to practice the invention.

The above is a description of method embodiments, and the embodiments of the present invention are further described below by way of apparatus embodiments.

As shown in fig. 2, the checkpoint screening and managing device with infectious diseases includes:

the card passing judgment module is used for identifying the person to pass who holds the certificate, and if the person to pass holds the health certificate, reading and recording the information of the person to pass, so that the person to pass passes through the card port; and if the person to be passed holds the voucher of the person with the potential risk, after reading and recording the person information of the person with the potential risk, starting the isolation measure of the person with the potential risk by using the isolation measure starting module of the person with the potential risk.

The potential risk personnel isolation measure starting module comprises:

the isolation information presetting module is used for setting isolation time and an isolation place according to the personnel information of the potential risk personnel, setting an isolation area by taking the isolation place as a center, and adding the isolation time, the isolation place and the isolation area into the personnel information of the potential risk personnel; enabling the potential risk personnel holding the potential risk personnel voucher to pass through a gate under an isolated condition, isolating the potential risk personnel at the isolation place, and adding the time of the potential risk personnel who pass through the gate into personnel information of the potential risk personnel;

and the isolation monitoring module is used for judging whether the potential risk personnel exceed the isolation area within the isolation time, and if so, generating alarm information and sending a monitoring platform.

The isolation monitoring module specifically comprises:

And after receiving the alarm information, the monitoring platform sends the alarm information to a corresponding supervisor.

The stuck point is a node that can be a restriction point for population movement.

And after the person to pass through the bayonet, adding the time for passing through the bayonet into the person information.

The bayonet platform module further comprises a filling detection module, and before generating the personnel health voucher or the potential risk personnel voucher, the collected personnel information of the personnel to be passed is compared with the personnel information in the database, and error information is prompted.

The personnel information comprises basic information, journey information, health information and checkpoint registration time information; wherein

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the described module may refer to the corresponding process in the foregoing method embodiment, and is not described herein again.

Although the subject matter has been described in language specific to structural features and/or methodological acts, it is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features or acts described above. Rather, the specific features and acts described above are disclosed as example forms of implementing the claims.

Claims

1. A checkpoint screening and management and control method for infectious diseases is characterized by comprising the following steps:

2. The method of claim 1, wherein the potentially risky personnel isolation measure comprises:

3. The method of claim 2, wherein the determining whether the potentially risky person exceeds the isolation region comprises:

4. The method of claim 2, wherein the alarm information is sent to a corresponding supervisor after being received by the monitoring platform.

5. The method of claim 1, wherein the stuck point is a node that can be a restriction point for population movement.

6. The method of claim 1, wherein the time for the person to pass through a gate is added to the person information after the person passes through the gate.

7. The method of claim 1, wherein before generating the personnel health voucher or the potential risk personnel voucher, the collected personnel information of the personnel to be passed is compared with the personnel information in the database, and error information is prompted.

8. The method according to any one of claims 1, 2, 6, 7, wherein the personnel information includes basic information, trip information, health information, and checkpoint registration time information; wherein

9. The utility model provides a stuck point investigation and management and control device with infectious diseases which characterized in that includes:

the card passing judgment module is used for identifying the person to pass who holds the certificate, and if the person to pass holds the health certificate, reading and recording the information of the person to pass, so that the person to pass passes through the card port; and if the person to be passed holds the voucher of the person with the potential risk, after reading and recording the person information of the person with the potential risk, starting the isolation measure of the person with the potential risk through a module for starting the isolation measure of the person with the potential risk.

10. The apparatus of claim 9, wherein the potentially risky personnel isolation measure initiating module comprises: