CN112991601A - CTID (computer telephony integration) access control system combining health code and temperature monitoring and use method - Google Patents

Abstract

The invention provides a CTID (computer telephony integration) access control combining a health code and temperature monitoring and a using method thereof, belonging to the technical field of intelligent access control, wherein the access control comprises the following steps: MCU; the gate is connected with the MCU; the CTID code scanning module is connected with the MCU; the camera is connected with the MCU; the display screen is connected with the MCU; the infrared temperature measurement sensing module is connected with the MCU; the proximity sensing module is connected with the MCU; and the communication module is connected with the MCU. The invention has the advantages that: on the premise of ensuring safety, the passing efficiency is greatly improved.

Description

CTID (computer telephony integration) access control system combining health code and temperature monitoring and use method

Technical Field

The invention relates to the technical field of intelligent access control, in particular to a CTID access control combining a health code and temperature monitoring and a using method thereof.

Background

With the increasing importance of people on body health, safety measures need to be taken for risks with hidden dangers. Therefore, in places where people gather, the body temperature of people needs to be measured at the entrance and exit, and the health codes are checked.

Nowadays, the health code covers the use scenes of community management, enterprise rework, traffic trip, school study, medicine buying registration, supermarket shopping and the like, and can assist communities, enterprises, schools and the like to well perform epidemic prevention management and epidemic situation control. In epidemic situation prevention and control and repeated production and rework, the health code can realize efficient personnel flow management, improve the over-detection efficiency in places with dense pedestrian flows, such as office buildings, markets, subways, railway stations and the like, and avoid contact and aggregation of excessive personnel. However, at present, most places are manually checked for health codes, and the body temperature needs to be measured manually, so that the passing efficiency is influenced.

Therefore, how to provide a CTID entrance guard combining health codes and temperature monitoring and a use method thereof, the traffic efficiency is improved on the premise of ensuring the safety, and the problem to be solved urgently is formed.

Disclosure of Invention

The invention aims to solve the technical problem of providing a CTID (computer telephony integration) access control system combining a health code and temperature monitoring and a use method thereof, so that the traffic efficiency is improved on the premise of ensuring the safety.

In a first aspect, the present invention provides a CTID access control device combining health code and temperature monitoring, including:

MCU；

the gate is connected with the MCU;

the CTID code scanning module is connected with the MCU;

the camera is connected with the MCU;

the display screen is connected with the MCU;

the infrared temperature measurement sensing module is connected with the MCU;

the proximity sensing module is connected with the MCU;

and the communication module is connected with the MCU.

Further, still include:

the power supply module is connected with the MCU;

the indicator light is connected with the MCU;

the loudspeaker is connected with the MCU;

and the sound pickup is connected with the MCU.

Further, the display screen is a touch display screen.

Furthermore, the proximity sensing module is an infrared sensing module or an ultrasonic sensing module.

Further, the communication module is a 3G communication module, a 4G communication module, a WIFI communication module, a Bluetooth communication module or a wired network module.

In a second aspect, the invention provides a use method of a CTID (computer telephony integration) access control combining a health code and temperature monitoring, which comprises the following steps:

step S10, when the MCU detects that a person approaches through the proximity sensing module, the camera is started, and the user is guided to be at a designated position through the camera, the display screen and the loudspeaker;

step S20, the MCU acquires the body temperature of the user through the infrared temperature measurement sensing module, judges whether the body temperature of the user exceeds a preset temperature threshold value, and prompts the temperature abnormity through a display screen or a loudspeaker if the body temperature of the user exceeds the preset temperature threshold value, so that the user cannot pass through the MCU; if not, go to step S30;

step S30, the MCU prompts the user to show the health code through a display screen or a loudspeaker, and the health code shown by the user is scanned through the CTID code scanning module to obtain an encrypted message;

step S40, the MCU decrypts the encrypted message to obtain personal information, and sends the personal information to the server through the communication module;

step S50, the server sends corresponding health data to the MCU based on the received personal information; the health data at least comprises name, household registration, historical location track and whether to go to an excessive risk area;

and step S60, the MCU controls the on and off of the gate based on the health data.

Further, the step S10 specifically includes:

step S11, when the MCU detects that a person approaches through the proximity sensing module, the camera is started;

step S12, the MCU sets an identification area of the camera, previews a shooting picture in real time through the display screen, and displays the outline of the identification area on the display screen;

step S13, the MCU prompts the user to place the face in the identification area through the loudspeaker;

step S14, the MCU judges whether the human face is in the recognition area through a human face recognition algorithm of a machine learning technology based on the video collected by the camera, if so, the MCU enters step S20; if not, the process proceeds to step S13.

Further, in step S20, the acquiring, by the MCU through the infrared temperature measurement sensing module, the body temperature of the user specifically includes:

the MCU sends a temperature acquisition instruction to the infrared temperature measurement sensing module through the serial port, and the infrared temperature measurement sensing module acquires a temperature signal of a user based on the received temperature acquisition instruction and sends the temperature signal to the MCU.

Further, in step S50, the health data is in JSON format.

The invention has the advantages that:

by arranging the camera, the display screen, the infrared temperature measurement sensing module, the proximity sensing module and the CTID code scanning module, when the proximity sensing module detects that a person approaches, the camera is started, the shooting content of the camera is displayed through the display screen, the outline of a preset identification area of the MCU is displayed, the user is guided to stand at an appointed position through the display screen and the loudspeaker, the face is placed in the identification area, and the infrared temperature measurement sensing module is used for collecting the body temperature of the face; if the body temperature is normal, prompting the user to show the health code, and scanning the health code by using the CTID code scanning module to check whether the user goes to the high-risk area; carry out automatic body temperature measurement and health code to the user and verify promptly, just open the floodgate machine only body temperature is normal and do not go too high risk area, does not need manual operation, finally realizes under the prerequisite of guaranteeing safety, very big promotion current efficiency.

Drawings

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of a CTID gate incorporating health code and temperature monitoring according to the present invention.

Fig. 2 is a flow chart of a method for using the CTID door control in combination with health code and temperature monitoring according to the present invention.

Description of the labeling:

100-a CTID entrance guard combining health codes and temperature monitoring, 1-MCU, 2-a gate machine, a 3-CTID code scanning module, 4-a camera, 5-a display screen, 6-an infrared temperature measurement sensing module, 7-a proximity sensing module, 8-a communication module, 9-a power module, 10-an indicator light, 11-a loudspeaker and 12-a sound pickup.

Detailed Description

The technical scheme in the embodiment of the application has the following general idea: when the proximity sensing module 7 detects a person, the user is guided to be at an appointed position through the camera 4, the display screen 5 and the loudspeaker 11, the face is placed in the identification area, and then the body temperature of the face is collected by the infrared temperature measurement sensing module 6; body temperature is unusual then remind, body temperature is normal then utilizes megaphone 11 to indicate the user to show the health code and utilizes CTID to sweep a yard module 3 scanning, the encrypted message that will scan the acquisition is deciphered and is obtained personal information, obtain corresponding health data from server (not shown) based on personal information, judge whether go too high risk area based on health data, open floodgate machine 2 if not going, it then indicates to have the infection risk to go, the equal automation mechanized operation of overall process, need not manual operation, realize guaranteeing under the prerequisite of safety, promote traffic efficiency.

Referring to fig. 1 to 2, a preferred embodiment of a CTID door control 100 combining health code and temperature monitoring according to the present invention includes:

the MCU1 is used for controlling the work of the CTID access control 100;

the gate 2 is connected with the MCU1 and is used for opening and closing a channel;

the CTID code scanning module 3 is connected with the MCU1 and is used for scanning health codes or network Certificates (CTID);

the camera 4 is connected with the MCU1 and is used for identifying the position of a user;

the display screen 5 is connected with the MCU1 and is used for displaying the content shot by the camera 4, displaying the outline of an identification area set by the MCU1, displaying related prompting characters and operating the CTID access control 100;

the infrared temperature measurement sensing module 6 is connected with the MCU1 and is used for measuring the body temperature of a person;

the proximity sensing module 7 is connected with the MCU1 and used for judging whether a person approaches, when the person approaches, the gpio node state of the proximity sensing module 7 is 1, otherwise, the gpio node state is 0;

and a communication module 8 connected to the MCU1 for communicating with a server (not shown).

Further comprising:

the power supply module 9 is connected with the MCU1 and used for supplying power to the CTID access control 100;

the indicating lamp 10 is connected with the MCU1 and used for indicating the working state of the CTID entrance guard 100 and carrying out risk reminding on people who recognize temperature abnormality and go to an excessively high risk area;

the loudspeaker 11 is connected with the MCU1 and used for playing prompt tones;

and the sound pickup 12 is connected with the MCU1 and is used for collecting the voice of a user.

Display screen 5 is touch display screen, is convenient for operate CTID entrance guard 100.

The proximity sensing module 7 is an infrared sensing module or an ultrasonic sensing module.

The communication module 8 is a 3G communication module, a 4G communication module, a WIFI communication module, a Bluetooth communication module or a wired network module.

The invention relates to a better embodiment of a use method of a CTID (computer telephony integration) access control combining a health code and temperature monitoring, which comprises the following steps of:

step S10, when the MCU detects that a person approaches through the proximity sensing module, the camera is started, the user is guided to stand at the designated position through the camera, the display screen and the loudspeaker, and the human face is placed in a preset identification area, so that body temperature measurement is facilitated;

step S20, the MCU acquires the body temperature of the head of the user through the infrared temperature measurement sensing module, judges whether the body temperature of the user exceeds a preset temperature threshold value, and prompts temperature abnormity through a display screen or a loudspeaker if the body temperature of the user exceeds the preset temperature threshold value, so that the user cannot pass through the temperature measurement sensing module; if not, go to step S30; the temperature threshold is preferably 37 ℃;

step S30, the MCU prompts the user to show the health code through a display screen or a loudspeaker, and the health code shown by the user is scanned through the CTID code scanning module to obtain an encrypted message;

step S40, the MCU decrypts the encrypted message to obtain personal information, and the personal information is sent to the server by the communication module through HTTP; the personal information at least comprises name, gender, household registration and age; the personal information generates a health code by using an encryption algorithm, and the health code needs to be decrypted by using the encryption algorithm after being scanned; the encryption algorithm is used for protecting the privacy of the user, is not limited to a specific algorithm, and can be selected to realize the function in specific implementation, which can be obtained by those skilled in the art without creative labor;

step S50, the server sends corresponding health data to the MCU based on the received personal information; the health data at least comprises name, household registration, historical location track and whether to go to an excessive risk area;

and step S60, the MCU controls the on-off of the gate based on the health data, namely the gate is opened if the high risk area is not reached, otherwise, the gate is kept in a closed state.

The step S10 specifically includes:

step S11, when the MCU detects that a person approaches through the proximity sensing module, the camera is started;

step S12, the MCU sets an identification area of the camera, previews a shooting picture in real time through the display screen, and displays the outline of the identification area on the display screen;

step S13, the MCU prompts the user to place the face in the identification area through the loudspeaker;

step S14, the MCU judges whether the human face is in the recognition area through a human face recognition algorithm of a machine learning technology based on the video collected by the camera, if so, the MCU enters step S20; if not, the process proceeds to step S13.

In step S20, the MCU specifically obtains the body temperature of the user through the infrared temperature measurement sensing module as follows:

MCU passes through the serial ports and sends temperature acquisition instruction to infrared temperature measurement sensing module, and infrared temperature measurement sensing module is based on receiving temperature acquisition instruction gathers user's temperature signal, and data processing converts body temperature (degree centigrade) and sends for MCU.

In step S50, the health data is in JSON format and in lightweight data exchange format, which is convenient for transmission and reading.

In summary, the invention has the advantages that:

by arranging the camera, the display screen, the infrared temperature measurement sensing module, the proximity sensing module and the CTID code scanning module, when the proximity sensing module detects that a person approaches, the camera is started, the shooting content of the camera is displayed through the display screen, the outline of a preset identification area of the MCU is displayed, the user is guided to stand at an appointed position through the display screen and the loudspeaker, the face is placed in the identification area, and the infrared temperature measurement sensing module is used for collecting the body temperature of the face; if the body temperature is normal, prompting the user to show the health code, and scanning the health code by using the CTID code scanning module to check whether the user goes to the high-risk area; carry out automatic body temperature measurement and health code to the user and verify promptly, just open the floodgate machine only body temperature is normal and do not go too high risk area, does not need manual operation, finally realizes under the prerequisite of guaranteeing safety, very big promotion current efficiency.

Although specific embodiments of the invention have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the invention, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the invention, which is to be limited only by the appended claims.

Claims (9)

1. The utility model provides a CTID entrance guard that combines health sign indicating number and temperature monitoring which characterized in that: the method comprises the following steps:

MCU；

the gate is connected with the MCU;

the CTID code scanning module is connected with the MCU;

the camera is connected with the MCU;

the display screen is connected with the MCU;

the infrared temperature measurement sensing module is connected with the MCU;

the proximity sensing module is connected with the MCU;

and the communication module is connected with the MCU.

2. The CTID entrance guard that combines health code and temperature monitoring of claim 1, characterized by: further comprising:

the power supply module is connected with the MCU;

the indicator light is connected with the MCU;

the loudspeaker is connected with the MCU;

and the sound pickup is connected with the MCU.

3. The CTID entrance guard that combines health code and temperature monitoring of claim 1, characterized by: the display screen is a touch display screen.

4. The CTID entrance guard that combines health code and temperature monitoring of claim 1, characterized by: the proximity sensing module is an infrared sensing module or an ultrasonic sensing module.

5. The CTID entrance guard that combines health code and temperature monitoring of claim 1, characterized by: the communication module is a 3G communication module, a 4G communication module, a WIFI communication module, a Bluetooth communication module or a wired network module.

6. The utility model provides a CTID entrance guard's application method who combines health code and temperature monitoring which characterized in that: the method requires the use of a CTID gate control as claimed in any of claims 1 to 5, comprising the steps of:

step S10, when the MCU detects that a person approaches through the proximity sensing module, the camera is started, and the user is guided to be at a designated position through the camera, the display screen and the loudspeaker;

step S20, the MCU acquires the body temperature of the user through the infrared temperature measurement sensing module, judges whether the body temperature of the user exceeds a preset temperature threshold value, and prompts the temperature abnormity through a display screen or a loudspeaker if the body temperature of the user exceeds the preset temperature threshold value, so that the user cannot pass through the MCU; if not, go to step S30;

step S30, the MCU prompts the user to show the health code through a display screen or a loudspeaker, and the health code shown by the user is scanned through the CTID code scanning module to obtain an encrypted message;

step S40, the MCU decrypts the encrypted message to obtain personal information, and sends the personal information to the server through the communication module;

step S50, the server sends corresponding health data to the MCU based on the received personal information; the health data at least comprises name, household registration, historical location track and whether to go to an excessive risk area;

and step S60, the MCU controls the on and off of the gate based on the health data.

7. The use method of the CTID entrance guard with the combination of the health code and the temperature monitoring as claimed in claim 6, is characterized in that: the step S10 specifically includes:

step S11, when the MCU detects that a person approaches through the proximity sensing module, the camera is started;

step S12, the MCU sets an identification area of the camera, previews a shooting picture in real time through the display screen, and displays the outline of the identification area on the display screen;

step S13, the MCU prompts the user to place the face in the identification area through the loudspeaker;

step S14, the MCU judges whether the human face is in the recognition area through a human face recognition algorithm of a machine learning technology based on the video collected by the camera, if so, the MCU enters step S20; if not, the process proceeds to step S13.

8. The use method of the CTID entrance guard with the combination of the health code and the temperature monitoring as claimed in claim 6, is characterized in that: in step S20, the MCU specifically obtains the body temperature of the user through the infrared temperature measurement sensing module as follows:

the MCU sends a temperature acquisition instruction to the infrared temperature measurement sensing module through the serial port, and the infrared temperature measurement sensing module acquires a temperature signal of a user based on the received temperature acquisition instruction and sends the temperature signal to the MCU.

9. The use method of the CTID entrance guard with the combination of the health code and the temperature monitoring as claimed in claim 6, is characterized in that: in step S50, the health data is in JSON format.

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