KR102516240B1 - Access control system with quarantine mode - Google Patents

Abstract

The present technology relates to a self-diagnosis access control system equipped with a quarantine mode. According to the implementation example of this technology, in addition to the general access mode, the quarantine mode can be operated during the epidemic of fatal viruses to control access without requiring a separate fever checker to reside, and to self-diagnose and recover whether the system's communication network is operating. There is an advantage that access control can be performed without interruption.

Description

Access control system with quarantine mode {Access control system with quarantine mode}

The present invention relates to an access control system equipped with a quarantine mode, and more specifically, a quarantine mode capable of controlling access by an authentication means, controlling access by checking fever when the quarantine mode is operating, and self-diagnosing system network errors. It is about the access control system equipped.

Due to the spread of the corona virus, the need for quarantine access management is emerging more than ever. The access authentication method of the existing access control system performs only the function of simply reading the iris, fingerprint, face, RF card, and barcode information data without considering quarantine. It consumes a lot of time and money for entry and exit by inspecting, and there is a risk of virus infection by the inspector, displeasure and rejection of the entry and exit.

In addition, when access control equipment suddenly fails, civil complaints arise that many people cannot enter or exit while waiting for entry. In order to deal with failure, maintenance personnel are dispatched to the site to analyze the cause and solve the problem by resetting equipment power, network resetting, or replacing equipment, so it takes a lot of time to deal with failure and the time and cost increase or decrease depending on the ability of the maintainer. there is

1. Korean Patent Registration No. 10-1610657

The present invention is intended to solve the above problems, and in addition to the general access mode, the quarantine mode can be operated during the prevalence of deadly viruses, so that access can be controlled without a separate fever check person stationed, and whether the system's communication network is operating or not The purpose is to provide an access control system equipped with a quarantine mode in which access control can be performed without interruption by self-diagnosing and restoring the

The present invention for achieving the above object is a quarantine reader that recognizes the visitor information from the RF card presented by the visitor when entering the room and measures the fever temperature of the visitor and whether or not the person is wearing a mask; A locking device that locks the door and unlocks it when access is permitted; A quarantine exit button for releasing the locking device with a contact or non-contact switch when leaving the room; And it is possible to select an operating mode from a general mode and a quarantine mode, and if the accessor information recognized by the quarantine reader is authenticated, access is permitted and the lock is released if the user is authenticated, and the operation mode is quarantine mode, a management operation server that permits access and releases the locking device in consideration of the fever temperature measured from the quarantine reader of the authenticated visitor and whether or not the person is wearing a mask; wherein the quarantine reader operates the management operation server When the mode is the quarantine mode, the fever temperature of the authenticated visitor is measured, and the quarantine exit button operates only as a non-contact switch when the operation mode of the management operation server is the quarantine mode.

Preferably, a self-diagnosis controller that relays communication between the management operation server, the quarantine reader, the locking device, and the quarantine exit button, monitors the state of the quarantine reader, and attempts automatic recovery when an abnormal state is detected. include

Preferably, the non-contact switch of the quarantine exit button unlocks the locking device when a person's hand is brought to a predetermined distance in a non-contact manner using a motion sensor.

Preferably, the self-diagnosis controller performs TCP/IP communication with the quarantine reader and the PoE device, and determines the status of the quarantine reader according to whether or not transmission/reception data is detected from the Ethernet IC chip to provide PoE power for the quarantine reader. It is automatically restored by resetting the .

Preferably, the self-diagnosis controller performs TCP/IP communication with the quarantine reader and the PoE device, and monitors the power consumption value of the quarantine reader in real time and averages the power consumption value of the quarantine reader monitored in real time. According to the difference in power consumption value, the state of the quarantine reader is determined and automatically restored by resetting the PoE power for the quarantine reader.

Preferably, the self-diagnosis controller communicates with the management and operation server through TCP/IP, determines its own state according to whether data transmitted and received from the Ethernet IC chip to the management and operation server is detected, and resets its own power. By doing so, the power consumption value is monitored in real time, and the state of the power consumption is judged according to the difference between the power consumption value and the average power consumption value, and the power is automatically restored by resetting the power.

Preferably, the self-diagnosis controller is connected to the quarantine reader through a UTP cable, and monitors a disconnection state of the UTP cable.

According to the present invention as described above, in addition to the general access mode, the quarantine mode is activated during the prevalence of fatal viruses, so that access can be controlled without a separate fever check person stationed, and the system self-diagnoses whether the communication network is operating or not There is an advantage in that access control can be performed without interruption by restoring and restoring.

1 is a block diagram of a self-diagnosis access control system equipped with a quarantine mode according to an embodiment of the present invention.
2 is a detailed block diagram of another embodiment of a self-diagnosis access control system equipped with a quarantine mode according to an embodiment of the present invention.
3 illustrates an example of access control information stored in a management operation server and monitoring information through a self-diagnosis controller according to an embodiment of the present invention.
4 is a conceptual diagram of the overall configuration of an access control system equipped with a quarantine mode according to an embodiment of the present invention.

The above objects, other objects, features and advantages of the present invention will be easily understood through the following preferred embodiments in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed content will be thorough and complete and the spirit of the present invention will be sufficiently conveyed to those skilled in the art. In this specification, when an element is referred to as being on another element, it means that it may be directly formed on the other element or a third element may be interposed therebetween.

Terminology used herein is for describing the embodiments and is not intended to limit the present invention. In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. The terms 'comprises' and/or 'comprising' used in the specification do not exclude the presence or addition of one or more other elements.

Hereinafter, the present invention will be described in detail with reference to the drawings. In describing the specific embodiments below, various characteristic contents have been prepared to more specifically describe the invention and aid understanding. However, readers who have knowledge in this field to the extent that they can understand the present invention can recognize that it can be used without these various specific details. In some cases, it is mentioned in advance that parts that are commonly known in describing the invention and are not greatly related to the invention are not described in order to prevent confusion for no particular reason in explaining the present invention.

1 shows a block diagram of a self-diagnosis access control system equipped with a quarantine mode according to an embodiment of the present invention, and FIG. 2 shows another embodiment of a self-diagnosis access control system equipped with a quarantine mode according to an embodiment of the present invention. A detailed block diagram of an example is shown.

Referring to FIG. 1, the self-diagnosis access control system equipped with a quarantine mode includes a quarantine reader 100, a locking device 200, a quarantine exit button 300, and a management operation server 500. In addition, referring to FIG. 2 , the self-diagnosis access control system equipped with a quarantine mode includes a quarantine reader 100, a locking device 200, a quarantine exit button 300, a self-diagnosis controller 400, and a management operation server 500. can include

The quarantine reader 100 recognizes the visitor information from the RF card presented by the visitor when entering the room, and measures the fever temperature of the visitor.

Referring to FIG. 2, the quarantine reader 100 may be composed of an RF recognition module 101, a distance detection module 102, a heat check module 103, a screen module 104, and a communication module 105.

The RF recognition module 101 can recognize information such as a name, phone number, address, etc. of a visitor stored in an RF card.

The distance detection module 102 is a module including a distance detection sensor for maintaining an appropriate distance between the visitor and the quarantine reader 100 for checking fever, and a buzzer sounds to indicate that the visitor is located at an appropriate distance from the quarantine reader 100. to maintain an appropriate distance while measuring body temperature.

For example, the distance detection module 102 measures the distance between the visitor's face and the quarantine reader 100, and the appropriate distance between the visitor's face and the quarantine reader 100 can be set to, for example, 20 cm, 30 cm, etc. there is.

The heat check module 103 may measure heat from the face of the visitor using a non-contact infrared measuring device or the like. The heat check module 103 can read whether or not a mask is worn according to the temperature distribution of the visitor's face by using the fact that the temperature distribution of the part wearing the mask differs by about 1 to 3 degrees from the temperature of other parts of the face. there is.

The screen module 104 displays the reasons for permitting or disallowing access and the operator's contact information so that the unauthorized access person can take appropriate measures. The screen module 104 may be made of an LCD module.

The communication module 105 enables the quarantine reader 100 to communicate with the self-diagnosis controller 400 or the management operation server 500 through TCP/IP or the like.

The locking device 200 locks the door and releases the lock when access is permitted. Referring to FIG. 2, the locking device 200 is composed of an EM LOCK 201, a deadbolt 202, a strike 203, or an automatic door 204 to open and close the door. The locking device 200 is connected to the quarantine reader 100, the quarantine exit button 300 or the management operation server 500, and can be unlocked according to each control.

Preferably, the lock device 200 is connected to the self-diagnosis controller 400 relaying the quarantine reader 100, the lock device 200, the quarantine exit button 300 and the management operation server 500 in a relay contact method. It is possible to release the lock and open and close the door according to the control of the quarantine exit button 300 or the management operation server 500.

The quarantine exit button 300 unlocks the locking device with a contact or non-contact switch when leaving the room. In addition, the quarantine exit button 300 operates only as a non-contact switch when the operation mode of the management operation server 500 is the quarantine mode.

Referring to FIG. 2, the quarantine exit button 300 uses a general contact button 301 that can be used for normal mode access control and a motion detection sensor 302 as a non-contact sensor that can be used for quarantine mode access control. The locking device 200 may be unlocked when an entrant's hand touches it at a predetermined distance.

The management operation server 500 can select an operation mode from a normal mode and a quarantine mode, and certifies whether or not the visitor information recognized from the quarantine reader 100 is permitted, and if the authenticated visitor is an authorized visitor, the access is permitted and the lock device 200 is released, and if the operation mode is the quarantine mode, entry is permitted and the locking device 200 can be unlocked considering the fever temperature measured from the quarantine reader 100 of the authenticated visitor or whether or not he is wearing a mask.

The quarantine reader 100 measures the fever temperature of the authenticated visitor when the operation mode of the management operation server 500 is the quarantine mode.

In addition, referring to FIG. 2, the self-diagnosis access control system equipped with a quarantine mode includes a quarantine reader 100, a locking device 200, a quarantine exit button 300, a self-diagnosis controller 400, and a management operation server 500. ) may be included.

The self-diagnosis controller 400 relays communication between the quarantine reader 100, the locking device 200, the quarantine exit button 300, and the management operation server 500, and monitors the status of the quarantine reader 100 so that an abnormal state is detected. If detected, automatic recovery is attempted.

Referring to FIG. 2 , the self-diagnosis controller 400 may include a central processing unit 401, a communication module 402, a lock module 403, an exit module 404, and a self-diagnosis unit 405.

In the central processing unit 401, the self-diagnosis controller 400 processes control commands for a plurality of quarantine readers 100, locking devices 200, and quarantine exit buttons 300, and transmits a communication module 402 to the management operation server. Data can be transmitted through

The communication module 402 enables the self-diagnosis controller 400 to communicate with the quarantine reader 100 in a method such as TCP/IP, PoE, or Serial, and to perform TCP/IP communication with the management operation server 500. .

The locking device module 403 allows the self-diagnosis controller 400 to control the opening and closing of the locking device 200 by being connected to the locking device 200 through a relay contact.

The exit module 404 enables the self-diagnosis controller 400 to open and close the lock 200 through the lock module 403 by obtaining a signal according to the switch operation of the quarantine exit button 300 .

The self-diagnosis unit 405 allows the self-diagnosis controller 400 to diagnose the disease prevention reader 100 and its own state and perform self-recovery through automatic power reset and automatic network reset. The self-diagnosis controller 400 It is possible to communicate with the quarantine reader 100 and the management operation server 500 through the TCP/IP communication module including the Ethernet IC chip, and the relay contact method of the lock 200 and the quarantine exit button 300 In addition, the self-diagnosis controller 400 can perform TCP/IP communication with the quarantine reader 100 and a PoE device that transmits power and data through a single cable, and the status of the quarantine reader 100 It may be automatically restored by resetting the power of the quarantine reader 100 by determining whether transmission/reception data is detected from the Ethernet IC chip.

In addition, the self-diagnosis controller 400 may perform PoE communication with the quarantine reader 100, and monitor the power consumption value of the quarantine reader 100 in real time to monitor the power consumption value of the quarantine reader 100 in real time. It may be automatically restored by resetting the PoE power for the quarantine reader 100 by determining the state of the camera module according to the difference between and average power consumption value.

At this time, the average power consumption value may be a value obtained by averaging and storing the power consumption values of the quarantine reader 100 monitored in real time for a certain period of time, and may be the same in other cases.

In addition, the self-diagnosis controller 400 may perform TCP/IP communication with the management operation server 500, and judges its own state according to whether transmission/reception data is detected from the Ethernet IC chip to the management operation server 500, It may be automatically restored by resetting the power of, and by monitoring its own power consumption value in real time, determining its own state according to the difference between its own power consumption value and the average power consumption value, and automatically recovering by resetting the power itself. it could be

The self-diagnosis controller 400 may provide a remote reset function to an administrator through a control screen of the management operation server 500 as well as an automatic recovery function.

In addition, the self-diagnosis controller 400 may be connected to the quarantine reader 100 through a UTP cable, and may monitor a disconnection state of the UTP cable.

In addition, the self-diagnosis controller 400 can monitor the state of the heating check module 103, and can monitor the accuracy of the heating check by checking the measured distance and emissivity of the heating temperature of the visitor through the distance detection module 102. there is.

For example, the self-diagnosis controller 400 determines the disconnection state of the UTP cable connected to the quarantine reader 100 in units of No. 1 No. 2 core wire, No. 3 No. 5 wire, No. 4 No. 6 wire, and No. 7 No. 8 wire. status can be monitored.

In addition, the self-diagnosis controller 400 can ping the quarantine reader 100, the camera module 104 or its own network under the control of the management operation server 500, and the management operation server 500 is a quarantine reader (100), the camera module 104, or the IP of the self-diagnosis controller 400 can be automatically searched.

Referring to FIG. 2, the management operation server 500 includes a communication module 501, quarantine mode access control 510, normal mode access control 520, access authentication unit 530, database 540, and self-diagnosis program. (550).

The communication module 501 enables the management operation server 500 to perform TCP/IP communication with the self-diagnosis controller 400 .

In the quarantine mode access control 510 and normal mode access control 520, the management operation server 500 obtains additional information from the quarantine reader 100 in the quarantine mode and controls the locking device 200 according to the administrator's mode selection. Allow access control. At this time, the management operation server 500 can communicate with the quarantine reader 100 through the self-diagnosis controller 400, and through the self-diagnosis controller 400, automatic recovery and monitoring of communication failures and device failures may be possible. there is.

The access authentication unit 530 verifies and authenticates whether the access person information of the RF card recognized by the quarantine reader 100 is a person authorized to enter, and when access control is performed in the quarantine mode, the fever temperature of the person and whether or not the person is wearing a mask are additionally checked. You can judge and allow access.

The database 540 can store RF card recognition information of the visitor obtained from the quarantine reader 100, heating temperature, photo or video information, and access control records for a certain period of time.

3 illustrates an example of access control information stored in a management operation server and monitoring information through a self-diagnosis controller according to the present invention.

Referring to FIG. 3, the self-diagnosis program 550 of the management operation server 500 can display the IP of the quarantine reader connected to the self-diagnosis controller, and monitors the amount of packet loss and packet transmission speed to display communication status information as an icon. It can be displayed in color and can provide a communication remote reset function. For example, an icon representing communication state information may be displayed in green for a normal state, red for a disconnected communication state, and gray for an unconnected state.

In addition, the self-diagnosis program 550 can identify the failure state of the quarantine reader 100 by indicating the power consumption status of the monitoring reader 100 in the color of the icon, and can perform a remote power reset function in case of failure. there is.

In addition, the self-diagnosis program 550 may test the state of the line and indicate a green icon when the line is normal and a red icon when the line is disconnected.

In addition, the self-diagnosis program 550 provides the quarantine reader 100 for fever check and a face distance setting mode for visitors, so that, for example, a fever check can be set at a distance of 20 cm and a distance of 30 cm.

In addition, the self-diagnosis program 550 turns on/off the function for each of the RF authentication mode, heat authentication mode, or mask authentication mode for the access mode through the quarantine reader 100, and uses each access mode in combination as necessary can make it

Figure 4 shows an embodiment of the overall configuration of the access control system equipped with a quarantine mode. The management operation server 500 can monitor and control by communicating with a plurality of self-diagnosis controllers 400, and each self-diagnosis controller 400 includes a plurality of quarantine readers 100, a locking device 200, and a quarantine exit button. (300) can be monitored and controlled.

The above description of the present invention is for illustrative purposes, and those skilled in the art can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be construed as being included in the scope of the present invention. do.

100 Quarantine Reader 101 RF Recognition Module
102 Distance detection module 103 Thermal check module
105 display module 106 communication module
200 LOCK 201 EM LOCK
202 Deadbolt 203 Strike
204 Automatic door 300 Quarantine exit button
301 contact button 302 motion detection sensor
400 Self-diagnosis controller 401 Central processing unit
402 Communication Module 403 Lock Module
404 exit module 405 self-diagnosis unit
500 Management operation server 501 Communication module
510 Quarantine mode access control 520 Normal mode access control
530 Access Authorization Department 540 Database
550 self-diagnosis program

Claims (7)

delete A quarantine reader that recognizes the visitor information from the RF card presented by the visitor when entering the room and measures the fever temperature of the visitor and whether or not the person is wearing a mask;
A locking device that locks the door and unlocks it when access is permitted;
A quarantine exit button for releasing the locking device with a contact or non-contact switch when leaving the room; and
It is possible to select an operation mode between a normal mode and a quarantine mode, and if the accessor information recognized by the quarantine reader is authenticated, access is permitted and the lock is released if the user is authenticated, and the operation mode is a quarantine mode. A management operation server that permits entry and unlocks the locking device in consideration of the fever temperature measured from the quarantine reader and whether or not the authenticated visitor is wearing a mask,
The quarantine reader measures the fever temperature of the authenticated visitor when the operation mode of the management operation server is the quarantine mode,
The quarantine exit button is provided to operate only as a non-contact switch when the operation mode of the management operation server is the quarantine mode,
It further includes a self-diagnosis controller that relays communication between the management operation server, the quarantine reader, the locking device, and the quarantine exit button, monitors the state of the quarantine reader, and attempts automatic recovery when an abnormal state is detected. An access control system equipped with a quarantine mode.
According to claim 2,
The access control system equipped with a quarantine mode, characterized in that the non-contact switch of the quarantine exit button unlocks the locking device when a person's hand is brought to a predetermined distance in a non-contact manner using a motion sensor.
According to claim 2,
The self-diagnosis controller,
To perform TCP / IP communication with the quarantine reader and PoE device,
A self-diagnosis access control system equipped with a quarantine mode, characterized in that the state of the quarantine reader is automatically restored by resetting the PoE power for the quarantine reader by determining whether the transmission and reception data is detected from the Ethernet IC chip.
According to claim 2,
The self-diagnosis controller performs TCP/IP communication with the quarantine reader and PoE device,
By monitoring the power consumption value of the quarantine reader in real time, determining the state of the quarantine reader according to the difference between the power consumption value of the quarantine reader monitored in real time and the average power consumption value, and resetting the PoE power for the quarantine reader. Access control system equipped with a quarantine mode characterized by automatic recovery
According to claim 2,
The self-diagnosis controller,
To communicate with the management operation server and TCP / IP,
It judges its own state according to whether or not the transmission/reception data is detected from the Ethernet IC chip to the management operation server and automatically recovers by resetting its own power.
Self-diagnosis equipped with quarantine mode, characterized by monitoring its own power consumption value in real time, determining its own state according to the difference between its own power consumption value and average power consumption value, and automatically recovering by resetting the power itself access control system.
According to claim 2,
The self-diagnosis controller,
It is connected to the quarantine reader and UTP cable,
A self-diagnosis access control system equipped with a quarantine mode, characterized in that for monitoring the disconnection state of the UTP cable.

Images