CN114973475A - Movable entry security equipment system - Google Patents

Abstract

The application relates to a movable entrance security equipment system, which comprises a forensics subsystem and a verification subsystem, wherein the forensics subsystem is used for printing entrance certificates for users in real time, and the verification subsystem is used for verifying the entrance certificates printed by the forensics subsystem. This ensures that the persons entering the field are qualified persons. In the process of evidence collection and entrance, all processes can keep parallel work as much as possible, so that the waiting time of the user in the process of evidence collection and verification is reduced.

Description

Movable entry security equipment system

Technical Field

The application relates to the field of security protection, in particular to a movable approach security protection equipment system.

Background

With the wide application of the informatization system in various activities, each link of the activity is assisted by an informatization means. In the stage of reporting the name or on-site reporting, other users such as audiences participating in various activities report the names to participate in the activities through a network or other modes, and fill in information required by the names, or report the names and fill in the information on the site of the activities. After registration is completed, audiences draw certificates on site and participate in activities by means of various registered certificates, wherein common certificates comprise bar codes, two-dimensional codes, driving licenses, identity cards and contract certificates. At present, informationized equipment is generally used on an activity site to assist in printing and picking up certificates and check certificate information when the certificates enter and exit the site. The equipment and the corresponding system firstly verify audience information to obtain registration information, and after the verification is successful, the certificate is printed, and other accessories of the certificate can be issued in a manual mode after the certificate is printed, or the certificate is directly used for entering a field to participate in an activity. And checking the certificate of the user to pass or block the certificate when entering the field.

The existing evidence obtaining system and equipment need the user to provide the obtained registration information, check the registration information, obtain the registration information of the user, and further use various certificate making equipment such as thermal printing equipment, RFID certificate making machine and the like to make the certificate. The prior evidence obtaining system needs a user to provide entry information before walking to a machine from a queuing position to start checking and obtaining the entry information, and in the process, printing equipment is in an idle state. The length of the certificate is usually between 3 and 13 centimeters, the time for printing one certificate by the thermal printing device and the thermal printing device is about 3 to 5 seconds, and in addition, the time for a user to walk from a queuing position to the forensics system and the time for the system to acquire information and verify, each user usually needs more than 8 seconds to acquire the certificate. For hundreds of thousands of large-scale activities, the forensics time of each user is too long, so that the personnel are jammed, and the activity site is disordered. Therefore, how to improve the verification speed and reduce the waiting time of the participants in the approach stage under the condition of preventing the irrelevant personnel from being mixed is an urgent problem to be solved.

Disclosure of Invention

Therefore, it is necessary to provide a movable approach security equipment system for solving the problems of increasing the verification speed and reducing the waiting time of the participants in the approach stage under the condition of preventing irrelevant personnel from being mixed.

The application provides a movable approach security protection equipment system in a first aspect, which comprises a forensics subsystem and a verification subsystem, wherein,

the forensics subsystem comprises a qualification verification device and a printing device, wherein the qualification verification device and the printing device are arranged along a forensics channel, a preset distance is reserved between the qualification verification device and the printing device, and the qualification verification device is closer to an inlet of the forensics channel relative to the printing device; the qualification verification equipment is used for acquiring the registration information of the registration person, verifying the registration information of the registration person and sending a printing command to the printing equipment according to a verification result; the printing device receives a printing command sent by the qualification verification device and responds to the printing command to print a user certificate;

the verification subsystem comprises information reading equipment and a gate, the gate and the information reading equipment are arranged along a verification channel, the gate is positioned at the tail end of the verification channel, and the information reading equipment is arranged in front of the gate and has a preset distance from the gate; the gate comprises a gate and a gate control system, and the gate control system is used for controlling the opening and closing of the gate;

the information reading equipment is used for interacting with the user certificate to acquire user information carried on the user certificate; the user information is personal information printed on a user certificate by the printing equipment according to the registration information of the registration person; the information reading equipment is connected to the gate control system and sends the read user information to the gate control system; the gate control system controls opening and closing of the gate according to whether user information is received.

In one embodiment, the sending, by the qualification verification device, the print command to the printing device according to the verification result specifically includes:

when the result of the registration information verification of the registration person is passed, the qualification verification equipment sends a voucher printing command to the printing equipment; when the result of the authentication of the entry information of the entry man is negative, the qualification apparatus does not send a print command.

In one embodiment, the information on the user certificate comprises a public information part and a personal information part, wherein the personal information part is printed on the user certificate by the printing device according to the registration information acquired by the qualification device;

the printing apparatus prints the common information portion in advance before acquiring the personal information of the applicant.

In one embodiment, the printing device obtains entry information of an entry during printing of the common information portion by the qualification apparatus.

In one embodiment, the printing device is provided with a preset printing queue template, the printing queue template comprises a public queue and a real-time queue which are arranged periodically, and the printing device fills the real-time queue according to entry information after receiving the entry information transmitted by the qualification verification device; the printing of the user certificate is completed by the public queue and the real-time queue of one period, the printing of the public information part is completed by the public queue, and the printing of the personal information part is completed by the real-time queue.

In one embodiment, the printing of the real-time queue is activated according to a signal of the qualification device received by the printing device, and the printing process of the real-time queue is activated only after the signal of the qualification device is received and the completion information is filled.

In one embodiment, the printing device automatically initiates printing of the common queue after printing of the real-time queue is completed.

In one embodiment, the initial state of the gate is an open state, and the gate control system controls the opening and closing of the gate according to whether user information is received, specifically including:

when the gate control system receives user information, maintaining the gate in an open state;

and when the gate control system does not receive the user information, responding to the non-reception of the user information to generate a closing instruction, and responding to the closing instruction to close the gate.

In one embodiment, the verification subsystem further comprises an infrared sensor connected to the gate control system, the infrared sensor is used for sensing whether a person passes through the gate control system, and when the infrared sensor senses that the person passes through the gate control system, the infrared sensor sends a signal to the gate control system;

the gate control system controls the opening and closing of the gate according to whether user information is received and the signal sent by the infrared sensor, and when the gate control system does not receive the user information and receives the signal of the infrared sensor, a closing instruction is generated, and the gate is closed in response to the closing instruction; when the gate control system receives user information and receives signals of the infrared sensor, the gate is maintained to be in an open state.

In one embodiment, the gate control system is further used for counting the number of people entering the field, and when the gate control system receives the signal of the infrared sensor, the total number of people entering the field is counted, and the total number of people entering the field is added by one; when the gate control system receives the user information sent by the information reading equipment, adding one to the actual number of the persons who enter the gate; and if the gate control system does not receive the user information sent by the information reading equipment, adding one to the number of illegal entrances.

According to the movable entrance security equipment system, the evidence obtaining subsystem starts printing of the certificate of the applicant before acquiring the registration information of the applicant, prints the public information part of the certificate, and prints the personal information part of the certificate after acquiring the registration information of the applicant. The acquired entry information of the entry person and the printing certificate are respectively controlled by two processes, so that two processes can be performed in parallel instead of the traditional serial process, and the printing time is reduced. The verification subsystem maintains the gate of the gate machine to be opened under the condition that the user certificate is read, repeated gate opening and gate closing are not needed, passing efficiency is improved, and meanwhile, the fact that a user can not enter the gate is guaranteed.

Drawings

Fig. 1 is a schematic structural diagram of a framework of a mobile approach security equipment system according to an embodiment of the present application;

fig. 2 is a flowchart illustrating a process of the evidence obtaining subsystem of the active approach security equipment system according to an embodiment of the present application;

fig. 3 is a schematic diagram of a forensics subsystem of an active approach security equipment system according to an embodiment of the present application;

FIG. 4 is a flowchart illustrating the operation of a verification subsystem of the active approach security equipment system according to an embodiment of the present application;

fig. 5 is a schematic diagram of a verification subsystem of the active approach security equipment system according to an embodiment of the present application.

Detailed Description

In order that the above objects, features and advantages of the present application can be more clearly understood, a detailed description of the present application will be given below with reference to the accompanying drawings and detailed description. In addition, the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Referring to fig. 1, the active approach security equipment system 1000 provided by the present application includes a forensics subsystem 10 and a verification subsystem 20. The forensics subsystem 10 is used for printing user credentials for admission in real time for a user, and the verification subsystem 20 is used for verifying the user credentials printed by the forensics subsystem 10. This ensures that the persons entering the field are qualified persons. In the process of evidence collection and entrance, all processes can keep parallel work as much as possible, so that the waiting time of the user in the process of evidence collection and verification is reduced.

The forensics subsystem 10 includes a qualification device 110 and a printing device 120, the qualification device 110 and the printing device 120 being disposed along a forensics tunnel, the qualification device 110 being at a predetermined distance from the printing device 120, and the qualification device 110 being closer to an entrance of the forensics tunnel than the printing device 120.

The qualification verification device 110 is configured to obtain entry information of an entry, verify the entry information of the entry, and send a print command to the printing device 120 according to a verification result. Specifically, when the entry information verification result of the entry man is pass, the qualification apparatus 110 transmits a voucher print command to the printing apparatus 120; when the entry information verification result of the entry person is not passed, the qualification apparatus 110 does not transmit the print command. Thus, by post-printing the user credentials prior to qualifying, it is ensured that each user who has access to the credentials is qualified to engage in an activity. Meanwhile, the real-time verification and printing mode avoids the problem that unqualified personnel are mixed in due to the fact that qualification is printed in advance, the certificate and the nameplate person are in one-to-one correspondence, the certificate is printed only after the registration qualification passes verification, and waste of resources is reduced as much as possible. The voucher printing process and the registration qualification verification process are performed in parallel, and the waiting time of the registration personnel in the voucher obtaining process is reduced by the mode that the qualification verification device 110 verifies in advance.

Qualification device 110 may be configured with sensors to obtain entry information for an entry by the sensor. For example, an RFID card reader, a two-dimensional code/barcode scanner, a camera, and the like are configured. For example, the qualification apparatus 110 may configure a camera to obtain an avatar of the applicant, and perform qualification verification on the applicant by means of face verification; or, the qualification is verified in a card reading and face verification mode; or the verification is performed by registering the two-dimensional code, and the verification means of the specific qualification verification is not limited.

Authentication device 110 is signally connected to printing device 120, and printing device 120 receives a print command sent by authentication device 110 and prints user credentials in response to the print command. Specifically, the qualification apparatus 110 transmits the information of the applicant to the printing apparatus 120 when the result of the authentication of the applicant information is passed, and the printing apparatus 120 prints the user certificate in accordance with a preset template. The entry information, such as entry ID, name, position, seat, etc., may be presented on the user credential directly in text form, or may be presented on the user credential in a form of two-dimensional code, etc.

The authentication subsystem 20 includes an information reading device 210, a gate 220, and an infrared sensor 230, the gate 220, the infrared sensor 230, and the information reading device 210 are disposed along an authentication passage, the gate 220 is located at an end of the authentication passage, and the information reading device 210 and the infrared sensor 230 are disposed in front of the gate 220 with a predetermined distance from the gate 220.

Gate 220 includes a gate 222 and a gate control system 224, gate control system 224 being configured to control the opening and closing of gate 222 such that an applicant can pass through gate 220 when gate 222 is open and cannot pass through gate 220 when gate 222 is closed.

The infrared sensor 230 is used to sense whether a person is passing and is connected to the gate control system 224. When the infrared sensor 230 senses the passage of a person, a signal is sent to the gate control system 224. For example, the gate control system 224 may count the total number of participants, the actual number of participants, and the illegal number of participants based on the signals transmitted by the infrared sensor 230, via the signals transmitted by the infrared sensor 230.

The information reading device 210 is configured to interact with the user credential to obtain the user information carried on the user credential. The user information is personal information that the printing device 120 prints on the user certificate according to the entry information of the entry, i.e., the user information may be partial entry information or full entry information. The information reading device 210 is connected to the gate control system 224, and transmits the read user information to the gate control system 224. The information reading device 210 may interact with the user credentials in a two-way manner or in a one-way manner. Bidirectional interaction, for example, a communication link is established between the information reading device 210 and the user credential, and the user information carried on the user credential is obtained in a communication manner; for example, the information reading device 210 is configured with an RFID collecting antenna, and reads the RFID tag on the user credential, so as to obtain the user information carried on the user credential. One-way interaction, for example, by placing the user credential in a specific area, the sensor on the information reading device 210 can directly scan the user credential, thereby obtaining the user information carried on the user credential; for example, a barcode/two-dimensional code is scanned by a camera to obtain user information carried on the user credential.

When the information reading device 210 does not read the user information, it is indicated that someone has entered the field illegally or through a counterfeit user certificate.

Gate control system 224 controls the opening and closing of gate 222 based on whether user information is received. Specifically, the gate 222 is initially opened, and when the gate control system 224 receives the user information, the gate 222 is maintained in the opened state; when the gate control system 224 does not receive the user information, it generates a close command in response to not receiving the user information, and closes the gate 222 in response to the close command.

The information reading device 210 may be disposed corresponding to the infrared sensor 230 such that a time interval between a process in which the information reading device 210 reads the user's credentials and a process in which the infrared sensor 230 detects whether there is a person is less than a preset time, for example, 1s, and thus, an illegal entry user may be detected based on two processes occurring at approximately the same time.

Gate control system 224 may also control the opening and closing of gate 222 based on whether user information is received and the signal sent by infrared sensor 230. For example, when the infrared sensor 230 detects a person, a signal is sent to the gate control system 224, and the information reading device 210 does not read the user information, the user information is not sent to the gate control system 224, and when the gate control system 224 does not receive the user information and receives the signal of the infrared sensor 230, a closing instruction is generated, and the gate 222 is closed in response to the closing instruction; when the gate control system 224 receives the user information and receives the signal from the infrared sensor 230, the gate 222 is maintained in the open state.

When the gate 222 is closed, indicating that manual intervention is required, the gate control system 224 generates a command to remain open even if the next user qualifies for a meeting, and the gate control system 224 remains closed with the gate 222.

The gate control system 224 may also perform qualification of the user information and control the switching of the gates 220 based on the qualification results. Specifically, the gate 222 of the gate 220 is in an open state initially, and when the qualification result is passed, the gate control system 224 generates a maintenance gate 222 in an open state; when the qualification verification result is non-pass, the gate control system 224 generates a closing instruction in response to the non-pass of the qualification verification result, and closes the gate 222 in response to the closing instruction. It is understood that the qualification process of the gate control system 224 can be performed locally or by communicating with the cloud/server.

The operation of the forensics subsystem 10 and the validation subsystem 20 will now be described.

Fig. 2 and 3 illustrate the operation of the forensics subsystem 10.

S102: the printing device 120 prints the public information portion of the user's certificate, wherein the information on the user's certificate includes the public information portion and the personal information portion;

the user credentials, which are the credentials of the entry into the event, typically include two parts, one being the name, identity, etc. of the entry, i.e., a personal information part, which is printed on the user credentials by the printing device 120 based on the entry information obtained by the authentication device 110. The other part is a public information part, which can be activity related information or advertisement information. For example, when a meeting type activity is participated, a meeting schedule can be printed on the certificate; the public information may be advertising information of a sponsor when participating in an exhibition-like activity.

The common information portion on the user certificates of all the registrars is the same, and therefore, the common information portion may be printed first, and in a subsequent process, the registration information of the registrars is obtained from the registration information acquired by the qualification apparatus 110, and the personal information portion is printed from the registration information. The personal information portion may include partial or full entry information. By the mode that the personal information acquisition process and the personal information printing process are parallel, the time for waiting certificate printing when the user certificate is printed by the namer is reduced.

It should be pointed out that user's voucher usually can adopt comparatively stereoplasm material to print, when adopting hard material to print, can't use A4 paper duplex printing's mode to print, if need duplex printing, then need artifical readjustment user's voucher place the direction, print again, consequently, traditional duplex printing technique can't be applicable to the scene of collecting evidence of user's voucher.

In various practical activity scenes, due to various reasons, the number of people who report can not timely participate in the activity is inevitable, the number of people who report can be possibly more than the number of people who actually participate in the activity is caused, if user certificates are printed in advance according to the number of people who report, the waste of materials and cost is caused, meanwhile, the certificates often do not have the function of secondary utilization, and the environment is not beneficial to environmental protection.

It will be appreciated that the public information portion and the personal information portion of the document may have a dividing line, and that after printing the public information, the printing device 120 may remain substantially near the dividing line, and print down after receiving a continue printing instruction.

S104: the qualification apparatus 110 acquires entry information of an entry, transmits the entry information to the printing apparatus 120, and the printing apparatus 120 adds the entry information to a print queue;

the certificate can only become a certificate specific to the applicant after being printed with the personal information of the applicant, so that as a proof of admission, only the certificate of the public information part is invalid. Therefore, before printing the personal information, entry information of the user can be acquired to acquire the personal information of the user. For example, the name and entry number of the user are obtained. The entry information may include personal information, for example, the entry information includes an entry form filled with information such as personal data of an entry person, and in this case, the personal information may be acquired from the entry information. Or the entry information may be directly personal information, for example, sending the entry form directly to the queue to be printed.

In an embodiment of the present application, a sensor may be configured to capture entry information of the user, and the sensor is connected to the printing device 120, so that after the sensor obtains the entry information of the user, the sensor transmits the entry information to the printing device 120, so that the printing device 120 continues to print the personal information part of the document. The sensor can be one or more of an RFID card reader, a two-dimensional code scanner, a bar code scanner, a Bluetooth device and a WIFI device. For example, after the user registers through cell-phone APP, a two-dimensional code is fed back to the registration person, registration information of the registration person is included in the two-dimensional code, when the registration person takes a certificate on site, the sensor is a two-dimensional code scanner, the user shows the two-dimensional code fed back, the sensor scans the two-dimensional code, and analyzes registration information contained in the two-dimensional code, and after the registration information is analyzed, the registration information is sent to the printing equipment 120 to be printed.

In the embodiment of the present application, the printing device 120 may be associated with a buffer, the authentication device 110 and the printing device 120 are both connected to the buffer, the sensor continuously acquires entry information of an entry, and after obtaining personal information through analysis, stores the personal information of the entry in the buffer, the printing device 120 continuously sends an instruction for acquiring the personal information to the buffer, and after receiving the acquisition instruction sent by the printing device 120, the buffer sends an entry to the printing queue of the printing device 120. For example, the entry information may be stored in a queue, and the buffer, upon receiving an acquisition instruction from the printing apparatus 120, transmits the entry information that is first inserted into the queue to a print list of the printing apparatus 120.

The printing device 120, upon receiving the entry information, establishes a print queue based on the entry information.

In some of these embodiments, printing device 120 obtains entry information for an entry by qualification device 110 during printing of the common information portion. For example, after the printing device 120 starts printing the public information, the printing device obtains the personal information of the entry person from the buffer, the buffer adds the entry information to the queue to be printed of the printing device 120, and after the public information part of the certificate is printed, the printing device can start printing the personal information part, so that the printing device 120 does not need to stop in the middle, and on one hand, the time for stopping in the middle is reduced, and on the other hand, the time for restarting the printing process by the printing device 120 is also reduced.

S106: the printing device 120 prints the personal information portion of the user's credentials.

When the public information portion is printed and the printing device 120 obtains the entry information of the entry, the printing of the personal information portion of the user credential can begin.

For example, the printing device 120 has a preset printing queue template including a common queue and a real-time queue arranged periodically, and the printing device 120 fills the real-time queue according to entry information after receiving the entry information transmitted by the qualification apparatus 110. Thus, the printing of the user certificate is completed by the public queue and the real-time queue of one period together, the printing of the public information part is completed by the public queue, and the printing of the personal information part is completed by the real-time queue.

The printing of the real-time queue is activated according to the signal of the qualification apparatus 110 received by the printing apparatus 120, and the printing process of the real-time queue is activated only after the signal of the qualification apparatus 110 is received and the completion information is filled.

In some of these embodiments, to avoid a credential printing error, only one entry at a time may be allowed to pass between the sensor and the printing device 120, with the sensor beginning or capturing the next entry's personal information as the printing device 120 prints the personal information portion of the credential.

S108: the applicant is notified to take away the certificate.

After the personal information part is printed, the user certificate is printed, and the user can take the certificate and enter the authentication subsystem 20 for entering the qualification authentication. The manner of notification may be various, for example, the user may be prompted to take the credential by way of a voice prompt. Or notify the user through pictures, characters and the like.

In one or more embodiments, when the personal information portion of a document is printed, printing device 120 immediately begins printing the public information portion of the next document. For example, the printing device 120 may automatically initiate printing of the common queue after printing of the real-time queue is completed. Therefore, after the printing device 120 completely prints one certificate, the printing of the next certificate is started immediately without stopping and waiting, so that continuous printing is realized. Thus, printing of a document can be completed when the applicant walks from the location of the sensor to the location of the printing device 120 by simply controlling the distance between the location where the entry information is captured by the qualification apparatus 110 and the location of the printing device 120.

Referring to fig. 3, the forensic subsystem 10 is operating with the printing device 120 printing the public information portion of a document first, then pausing the printing and waiting for the personal information portion of the document to be printed. When the entry of the certificate owner is started, the first certificate owner presents the registration certificate, such as an identity card, a two-dimensional code and the like, the qualification verification device 110 scans the certificate and obtains registration information of the certificate owner, the registration information is stored in the buffer, before the certificate owner sends an instruction for obtaining the registration information to the buffer, after the registration information is stored in the buffer, the latest registration information is sent to the printing device 120, the printing device 120 continues to print the personal information part of the certificate, when the certificate is printed, the first certificate owner moves from the position of the qualification verification device 110 to the position of the printing device 120, when the certificate owner moves to the position of the printing device 120, the certificate owner finishes printing, and the first certificate owner takes away the certificate. When the personal information of the certificate is printed, the printing device 120 immediately starts printing of the public information part of the next certificate without waiting.

While a first entry is walking to printing device 120, eligibility verification device 110 obtains entry information for a second entry and stores the entry information in a buffer, and when printing device 120 prints a public information portion of a second document, sends an instruction to the buffer to obtain the entry information and fills the entry information into a real-time queue to directly continue printing the personal information portion after printing the public information portion. The third applicant repeats the process of the second applicant. Therefore, as long as the newspapers are queued continuously, the printing equipment 120 is always in a working state, and does not need to be stopped for waiting in the middle, so that the continuous printing of the newspapers and the certificates can be realized, and the time for the newspapers to wait for the certificates to be printed is greatly reduced.

It is to be understood that the buffer functions as a buffer, and when the buffer is not set, the qualification apparatus 110 may directly send the entry information to the printing apparatus 120 for printing.

Fig. 4 and 5 illustrate the working principle of the authentication subsystem 20.

202: the infrared sensor 230 detects whether a person passes;

after the user certificate is received by the nameer, the entry can be carried out by the user certificate. At the time of entry, entry verification is performed by the verification subsystem 20. An infrared sensor 230 may be disposed at the entrance of the verification tunnel to detect how many newspapers pass.

When the infrared sensor 230 detects the passage of a person, the infrared sensor 230 may send a signal to the gate control system 224 to facilitate the gate control system 224 to count the number of people entering the venue.

204: the information reading device 210 acquires the user information on the user credential and sends the acquired user information to the gate control system 224.

When the passing person has the user credential, the information reading device 210 can interact with the user credential to obtain the user information on the user credential. When information on the user credentials is read, the information reading device 210 sends the read user information to the gate control system 224.

The information reading device 210 may interact with the user credentials in a two-way manner or in a one-way manner. Bidirectional interaction, for example, a communication link is established between the information reading device 210 and the user credential, and the user information carried on the user credential is obtained in a communication manner; for example, the information reading device 210 is configured with an RFID collecting antenna, and reads the RFID tag on the user credential, so as to obtain the user information carried on the user credential. One-way interaction, for example, by placing the user credential in a specific area, the sensor on the information reading device 210 can directly scan the user credential, thereby obtaining the user information carried on the user credential; for example, a barcode/two-dimensional code is scanned by a camera to obtain user information carried on the user credential.

When the information reading device 210 does not read the user entry information, it is indicated that someone has entered the field illegally or through a forged user credential.

206: gate control system 224 determines whether to close gate 222 based on whether user information is received.

Gate control system 224 controls the opening and closing of gate 222 based on whether user information is received. Specifically, the gate 222 is initially opened, and when the gate control system 224 receives the user information, the gate 222 is maintained in the opened state; when gate control system 224 does not receive user information, a close command is generated in response to not receiving user information, and gate 222 is closed in response to the close command.

The information reading device 210 may be disposed corresponding to the infrared sensor 230 such that a time interval between a process in which the information reading device 210 reads the user's credentials and a process in which the infrared sensor 230 detects whether there is a person is less than a preset time, for example, 1s, and thus, an illegal entry user may be detected based on two processes occurring at approximately the same time.

Gate control system 224 may also control the opening and closing of gate 222 based on whether user information is received and the signal sent by infrared sensor 230. For example, when the infrared sensor 230 detects a person, a signal is sent to the gate control system 224, and the information reading device 210 does not read the user information, the user information is not sent to the gate control system 224, and when the gate control system 224 does not receive the user information and receives the signal of the infrared sensor 230, a closing instruction is generated, and the gate 222 is closed in response to the closing instruction; when the gate control system 224 receives the user information and receives the signal from the infrared sensor 230, the gate 222 is maintained in the open state.

When the gate 222 is closed, indicating that manual intervention is required, the gate control system 224 generates a command to remain open even if the next user qualifies for a meeting, and the gate control system 224 remains closed with the gate 222.

The gate control system 224 may also perform qualification of the user information and control the switching of the gates 220 based on the qualification results. Specifically, the gate 222 of the gate 220 is initially in an open state, and when the qualification result is passed, the gate control system 224 generates a maintenance gate 222 in the open state; when the qualification verification result is non-pass, the gate control system 224 generates a closing instruction in response to the non-pass of the qualification verification result, and closes the gate 222 in response to the closing instruction. It is understood that the qualification process of the gate control system 224 can be performed locally or can be performed by communicating with the cloud/server.

208: the gate control system 224 counts the number of actual entries and the number of illegal entries.

When the gate control system 224 receives the signal of the infrared sensor 230, the total number of the entering people is counted, and one is added to the total number of the entering people. When the gate control system 224 receives the user information sent by the information reading device 210 or receives the information that the qualification result is passed, the number of actual entrants is increased by one, and if the gate control system 224 does not receive the user information sent by the information reading device 210, the number of illegal entrants is increased by one.

Referring to fig. 5, when the verification subsystem 20 is in operation, a first applicant passes through the infrared sensor 230, and assumes that the first applicant is a qualified user and a second applicant is an unqualified user, that is, the second applicant skips the evidence obtaining subsystem 10 by using an illegal method, and enters the link of the verification subsystem 20 without obtaining a certificate. When the first celebrity passes the infrared sensor 230, the infrared sensor 230 detects the passage of a person and sends a signal to the gate control system 224 to count one more total participants. After passing through the infrared sensor 230, the information reading device 210 interacts with the user credential of the first applicant, reads the user information on the user credential, and transmits the user information to the gate control system 224, and after the gate control system 224 receives the user information, the number of actual persons entering the field is increased by one. Since the first entry is a qualified user, the gate control system 224 can receive the user information transmitted from the information reading device 210, the gate 222 of the gate 220 is maintained in an open state, and the first entry is entered through the gate 220. When the second entry passes the infrared sensor 230, the infrared sensor 230 sends a signal to the gate control system 224, which increments the total attendee number by one. The information reading device 210 does not read the user certificate, the gate control system 224 closes the gate 222 in response to not receiving the user information sent by the information reading device 210, the gate 220 is closed, the second registered person cannot enter the room, and the number of illegal entrances is increased by one.

The verification subsystem 20 maintains the gate 222 of the gate 220 to be opened under the condition that the user certificate is read, and the gate 222 does not need to be opened and closed repeatedly, so that the passing efficiency is improved, and meanwhile, the condition that a very large number of users cannot enter the field is ensured.

In the above-mentioned movable entrance security equipment system 1000, the evidence obtaining subsystem 10 starts printing the public information part of the certificate by printing the certificate of the applicant before acquiring the registration information of the applicant, and prints the personal information part of the certificate after acquiring the registration information of the applicant. The acquisition of the registration information of the registration person and the printing of the certificate are respectively controlled by two processes, so that the two processes can be performed in parallel instead of the traditional serial process, and the printing time is reduced. The verification subsystem 20 maintains the gate 222 of the gate 220 to be opened under the condition that the user certificate is read, and the gate 222 does not need to be opened and closed repeatedly, so that the passing efficiency is improved, and meanwhile, the condition that a very large number of users cannot enter the field is ensured.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, and these are all within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A movable approach security protection equipment system is characterized by comprising a forensics subsystem and a verification subsystem, wherein,

the forensics subsystem comprises an authentication device and a printing device, wherein the authentication device and the printing device are arranged along a forensics channel, a preset distance is reserved between the authentication device and the printing device, and the authentication device is closer to an inlet of the forensics channel relative to the printing device; the qualification verification equipment is used for acquiring the registration information of the registration person, verifying the registration information of the registration person and sending a printing command to the printing equipment according to a verification result; the printing device receives a printing command sent by the qualification verification device and responds to the printing command to print a user certificate;

the verification subsystem comprises information reading equipment and a gate, the gate and the information reading equipment are arranged along a verification channel, the gate is positioned at the tail end of the verification channel, and the information reading equipment is arranged in front of the gate and has a preset distance from the gate; the gate comprises a gate and a gate control system, and the gate control system is used for controlling the opening and closing of the gate;

the information reading equipment is used for interacting with the user certificate and acquiring user information carried on the user certificate; the user information is personal information printed on a user certificate by the printing equipment according to the entry information of the entry person; the information reading equipment is connected to the gate control system and sends the read user information to the gate control system; the gate control system controls opening and closing of the gate according to whether user information is received.

2. The system according to claim 1, wherein the qualification verification device sends a print command to the printing device according to the verification result, and the system specifically includes:

when the result of the registration information verification of the registration person is passed, the qualification verification equipment sends a voucher printing command to the printing equipment; when the result of the authentication of the entry information of the entry man is negative, the qualification apparatus does not send a print command.

3. The active approach security equipment system of claim 1, wherein the information on the user credentials comprises a public information part and a personal information part, wherein the personal information part is printed on the user credentials by the printing device according to the entry information acquired by the qualification device;

the printing apparatus prints the common information portion in advance before acquiring the personal information of the applicant.

4. The active approach security equipment system of claim 3, wherein the printing device obtains entry information of an entry person during printing of the common information portion by the qualification device.

5. The system according to claim 3, wherein the printing device has a preset printing queue template, the printing queue template comprises a public queue and a real-time queue which are arranged periodically, and the printing device fills the real-time queue according to entry information after receiving the entry information transmitted by the qualification verification device; the printing of the user certificate is completed by the public queue and the real-time queue of one period, the printing of the public information part is completed by the public queue, and the printing of the personal information part is completed by the real-time queue.

6. The system according to claim 5, wherein the printing of the real-time queue is activated according to the signal of the qualification device received by the printing device, and the printing process of the real-time queue is activated only after the signal of the qualification device is received and the completion information is filled.

7. The active approach security equipment system of claim 6, wherein the printing device automatically initiates printing of the common queue after printing of the real-time queue is completed.

8. The system according to claim 1, wherein the gate is in an open state, and the gate control system controls the opening and closing of the gate according to whether user information is received, specifically comprising:

when the gate control system receives user information, maintaining the gate in an open state;

and when the gate control system does not receive the user information, responding to the non-reception of the user information to generate a closing instruction, and responding to the closing instruction to close the gate.

9. The activity approach security equipment system according to claim 8, wherein the verification subsystem further comprises an infrared sensor, the infrared sensor is connected to the gate control system, the infrared sensor is used for sensing whether a person passes through, and when the infrared sensor senses that a person passes through, the infrared sensor sends a signal to the gate control system;

the gate control system controls the opening and closing of the gate according to whether user information is received and a signal sent by the infrared sensor, and generates a closing instruction when the gate control system does not receive the user information and receives the signal of the infrared sensor, and responds to the closing instruction to close the gate; when the gate control system receives user information and receives signals of the infrared sensor, the gate is maintained to be in an open state.

10. The system according to claim 9, wherein the gate control system is further configured to count the number of entrances, and when the gate control system receives the signal from the infrared sensor, count the total number of entrances, and add one to the total number of entrances; when the gate control system receives the user information sent by the information reading equipment, adding one to the number of the actual persons who enter the gate; and if the gate control system does not receive the user information sent by the information reading equipment, adding one to the number of illegal entrances.

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