CN110992567A - Intensive management corridor machine control method and device - Google Patents

Abstract

The invention discloses a corridor control method and a corridor control device with intensive management, wherein the method comprises the following steps: binding and storing identification information of the unit building users and the security room with the corridor machine; if the output signal of the infrared enclosure alarm is not detected, the corridor machine is not triggered to carry out closing detection on the corridor unit door, and the corridor machine is in a dormant state; if the output signal of the infrared enclosure alarm is detected, triggering the corridor machine to carry out closing detection on the corridor unit door, and activating the working state of the corridor machine; if the corridor machine detects that the corridor unit door is in a closed state, the working state of the corridor machine is cancelled and the corridor machine enters a dormant state again; and if the corridor machine detects that the corridor unit door is in an open state, triggering an alarm prompt of the corridor machine, and performing user side alarm based on the bound identification information of the unit building user. The invention supports fence alarm association, does not need to configure an indoor unit and reduces the use cost.

Description

Intensive management corridor machine control method and device

Technical Field

The invention belongs to the technical field of intelligent access control, and particularly relates to a corridor control method and a corridor control device with intensive management.

Background

With the continuous development of science and technology, the corridor machines of the community unit corridor doors are gradually replaced by high-tech corridor machine devices integrated with artificial intelligence through the traditional pure mechanical door locks, and the high-tech corridor machine devices on the market are eight-door, for example, the identity of a passer is identified by adopting radio frequency cards, mobile devices (mobile phones), password input, biological characteristics (such as fingerprints) and other modes.

However, the existing corridor machines have single functions, cannot form intensive management with an intelligent security system of a community, and cannot reasonably distribute resources, and most of the existing corridor machines need unit building residents to cooperate with indoor units installed at home for use, so that the access requirements of visitor personnel are invisibly limited, when a guest goes to do a guest, and the host just cannot go home, the host can only wait for the host to go home to enter the home, which is very inconvenient.

Disclosure of Invention

In order to solve the above-mentioned deficiencies in the prior art, the present invention aims to overcome the deficiencies in the prior art, and provides a corridor machine control method and device with integrated management, which support fence alarm association, enhance the accommodation safety of a user's unit building, do not need to configure an indoor unit, reduce the use cost, and facilitate the control of corridor machines in different places.

The invention discloses a corridor control method with intensive management, which comprises the following steps:

binding and storing identification information of the unit building users and the security room with the corridor machine;

if the output signal of the infrared enclosure alarm is not detected, the corridor machine is not triggered to carry out closing detection on the corridor unit door, and the corridor machine is in a dormant state;

if the output signal of the infrared enclosure alarm is detected, triggering the corridor machine to carry out closing detection on the corridor unit door, and activating the working state of the corridor machine;

if the corridor machine detects that the corridor unit door is in a closed state, the working state of the corridor machine is cancelled and the corridor machine enters a dormant state again;

and if the corridor machine detects that the corridor unit door is in an open state, triggering an alarm prompt of the corridor machine, and performing user side alarm based on the bound identification information of the unit building user.

As a further optimization of the scheme, after the operation instruction of the user side is obtained, the automatic closing or automatic alarm operation of the corridor machine is activated.

As a further optimization of the above solution, the automatic alarm operation includes the following steps:

if an automatic alarm instruction of the user side is obtained, the corridor machine alarms based on the identification information of the bound security room; and obtaining a receiving instruction fed back by the security room, feeding back the receiving instruction to the user side to complete the security room alarm and activate the sound alarm of the corridor machine.

As a further optimization of the above solution, the automatic closing operation includes the following:

if an automatic corridor door closing instruction of the user side is obtained, the corridor machine executes the automatic corridor door closing instruction, and when the corridor machine detects that the corridor door is closed, the corridor machine feeds back to the end of the successful execution instruction of the user side, and enters the dormant state again;

if an automatic corridor unit door closing instruction of the user side is obtained, the corridor machine executes the automatic corridor unit door closing instruction, and the corridor machine does not detect that the corridor unit door is closed and feeds back to the user side to execute the instruction abnormity; acquiring an active alarm instruction fed back by a user side, and alarming through the identification information of the bound security room; and obtaining a receiving instruction fed back by the security room, feeding back the receiving instruction to the user side to complete the security room alarm and activate the sound alarm of the corridor machine.

As a further optimization of the above scheme, after the command of closing the corridor unit door is executed and the corridor machine does not detect that the corridor unit door is closed,

activating a timer of the corridor machine, and giving an alarm based on the identification information of the bound security room if a feedback instruction of a user side is not received within t time based on timing time t set by the timer; and obtaining a receiving instruction fed back by the security room, feeding back the receiving instruction to the user side to complete the security room alarm and activate the sound alarm of the corridor machine.

As a further optimization of the above solution, the method comprises the following steps:

binding and storing identification information of the unit building users and the security room with the corridor machine;

acquiring a house number of resident access requirements of an access person of a corridor unit door, calling a camera and a microphone by a corridor machine based on call instruction operation of a user, and acquiring a video stream, an audio stream and a video session request based on an SMTP protocol of the access person;

digital information of the visitor acquired by the transmission camera and the microphone is forwarded to the network server, and is forwarded to the user side through the network server based on the bound unit building user identification information;

acquiring a feedback request of a user side, and transmitting a feedback operation instruction based on the user side to a network server;

and reading a user side feedback operation instruction transferred by the network server, issuing an instruction of the corridor machine based on an SMTP protocol, responding to an access request of an access person, and finishing door opening operation by the corridor machine.

As a further optimization of the scheme, the identification information bound between the users in the unit building and the corridor machine comprises the names, identification numbers, mobile phone numbers and fixed-line numbers of the users; the identification information bound between the security room and the corridor machine comprises the name of an attendant and a mobile phone number of the security room.

The invention also discloses a corridor machine control device with intensive management, which comprises the following structure:

the main control module is used for intensive management and control of the corridor machine;

the digital information acquisition module is used for acquiring video stream data and audio stream data of an access person by the corridor machine;

the judging module is used for carrying out infrared alarm detection on the corridor machine, detection on closing state of a corridor unit door and instruction execution detection on the corridor machine;

the alarm module is used for automatic alarm and active alarm of the corridor machine and calling the sound alarm to perform audio alarm;

the timing module is used for timing the time when the feedback instruction of the user side is not received after the corridor machine does not detect that the corridor unit door is closed when the command of closing the corridor unit door is executed;

and the communication module is used for data communication between the corridor machine and the user side, the security side and the network server.

As a further optimization of the above scheme, the corridor machine control device further comprises a user-side client, wherein the user-side client comprises a processing module for answering or rejecting an opening request of an access person; the door opening module is used for controlling a door opening instruction of the corridor machine; and the alarm module is used for actively alarming the corridor machine.

As a further optimization of the above solution, the determining module further includes the following:

the infrared alarm detection unit is used for judging whether an infrared enclosure alarm is acquired by the corridor machine; if the infrared fence alarm is not detected, the sleep state is kept; if the infrared enclosing wall alarm is detected, activating the working state;

the corridor machine self-checking unit is used for closing a corridor unit door related to the corridor machine; if the power is detected to be turned off, entering a dormant state; if the state is detected to be not closed, a user side alarm is carried out;

the corridor machine execution unit is used for detecting the instruction execution condition of the corridor machine and automatically giving an alarm if an automatic alarm instruction is obtained; and if the automatic closing instruction is acquired, closing the corridor unit door.

By adopting the technical scheme, compared with the prior art, the control method and the control device for the corridor machine with intensive management have the following technical effects:

1. according to the invention, by carrying out intensive management control on the enclosure infrared alarm and the corridor machine, after the enclosure infrared alarm is detected, the corridor machine which is configured in a correlated manner is used for carrying out user early warning of the cell unit building and alarm notification of security personnel, so that the safety of residents in the cell can be enhanced, the users are supported to participate in the cell safety early warning, the workload of the security personnel is effectively reduced, and the working efficiency is improved.

2. According to the invention, the access requirement of the visitor is acquired through the corridor machine, the corridor machine carries out feedback operation based on the network server bound with the corridor machine and the client side of the user, and the corridor machine carries out feedback operation based on the digital information of the visitor acquired by the camera and the microphone and the confirmation state of the user, so that the portability of the user is enhanced, and the situation that the user refuses to leave the door because the user is not at home is avoided.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a schematic flow chart of an intensive management corridor control method according to the present invention;

FIG. 2 is a schematic view of an alarm process of an intensive management corridor control method according to the present invention;

fig. 3 is a block diagram showing the construction of an intensive management corridor controller according to the present invention;

fig. 4 is a block diagram showing the structure of a determination module of a corridor controller with intensive management according to the present invention.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1-4, the embodiment of the invention discloses a corridor control method with centralized management, which comprises the following steps:

binding and storing identification information of the unit building users and the security room with the corridor machine; specifically, the identification information bound between the unit building user and the corridor machine comprises the name, the identity card number, the mobile phone number and the landline number of the user; the identification information bound between the security room and the corridor machine comprises the name of an attendant of the security room and a mobile phone number;

step 100, if the output signal of the infrared enclosure alarm is not detected, the corridor machine is not triggered to carry out closing detection on the corridor unit door, and the corridor machine is in a dormant state;

step 200, if an output signal of the infrared enclosure alarm is detected, triggering a corridor machine to carry out closing detection on a corridor unit door, and activating the working state of the corridor machine; by electrically connecting the output of the infrared enclosure alarm with the corridor machine, the intensive management of the infrared enclosure alarm device and the corridor machine can be realized, corresponding safety measures can be made for the infrared enclosure alarm in time, and safety guarantee is provided for users of the unit building;

step 300, if the corridor machine detects that the corridor unit door is in a closed state, canceling the activation of the working state of the corridor machine, and entering the dormant state again;

step 400, if the corridor machine detects that the corridor unit door is in an open state, triggering an alarm prompt of the corridor machine, and performing user side alarm based on the bound identification information of the unit building user:

step 410, if an automatic alarm instruction of the user side is obtained, the corridor machine alarms based on the identification information of the bound security room; acquiring a receiving instruction fed back by the security room, feeding back the receiving instruction to the user side to finish the security room warning and activate a sound alarm of the corridor machine; by setting an automatic alarm instruction at the user side, the security room can be effectively and timely alarmed through the corridor machine at the first time, the user is prevented from taking care of corridor machine alarm in the event of non-interruptible, and meanwhile, the loss caused by the blank period of infrared enclosure alarm due to the interference time generated in the communication process between the user and the corridor machine is also avoided;

step 420, if an instruction of automatically closing the corridor unit door at the user side is obtained, the corridor machine executes the instruction of automatically closing the corridor unit door, and when the corridor machine detects that the corridor unit door is closed, the corridor machine feeds back the closing of the corridor unit door to the end of successfully executing the instruction at the user side, and enters the dormant state again; by setting an automatic closing instruction at the user side, the most direct and effective measures can be effectively taken for alarming in time and in the first time, and the lodging safety of the users in the residential building is guaranteed;

step 430, if an automatic corridor unit door closing instruction of the user side is obtained, the corridor machine executes the automatic corridor unit door closing instruction, and the corridor machine does not detect that the corridor unit door is closed and feeds back to the user side to execute the instruction abnormity; acquiring an active alarm instruction fed back by a user side, and alarming through the identification information of the bound security room; acquiring a receiving instruction fed back by the security room, feeding back the receiving instruction to the user side to finish the security room warning and activate a sound alarm of the corridor machine;

step 440, after the command of closing the corridor unit door is executed and the corridor machine does not detect that the corridor unit door is closed, activating a timer of the corridor machine, and giving an alarm based on the identification information of the bound security room if a feedback command of a user side is not received within t time based on the timing time t set by the timer; acquiring a receiving instruction fed back by the security room, feeding back the receiving instruction to the user side to finish the security room warning and activate a sound alarm of the corridor machine; the timer is arranged on the corridor machine, so that the situation that the current communication operation is finished after a user sends an active alarm instruction and a corridor unit door cannot be normally closed under unknown factors is avoided, the fault tolerance of the corridor machine is improved, and the safety of residents of corridor units in a community is further guaranteed;

in particular, the invention mainly provides intelligent control of corridor machines through cloud services, which are internet-based related service adding, using and delivering modes, and generally relates to providing dynamic and easily-expandable and often-virtualized resources through the internet. Cloud is a metaphor of network and internet. The cloud service means that required services are obtained through a network in an on-demand and easily-extensible mode;

aiming at the corridor machine based on the cloud service technology, a user carries out installation and registration of a management client corresponding to the corridor machine, and carries out installation of a user side client through portable mobile electronic equipment such as a mobile phone, a tablet personal computer and the like, the registered cloud account information comprises the name, the identity card number, the mobile phone number, a fixed phone number (optional) and an email of the user, and the registered information of the user is stored in a network server for later information verification and information query;

the corridor machine can carry out data communication with a network server and a user side management client side, so that the corridor machine is inevitably provided with a network card, the identification of an intelligent corridor machine device of a cell unit can be carried out through the uniqueness of a physical address of the network card, and the cell unit number corresponding to the address and the bound personnel information under the corridor machine can be locked by searching an MAC address;

it should be noted that, because the cloud service has the characteristics of big data and batch operation, based on the characteristics, a plurality of different persons can be bound under the same corridor machine, and at least the authenticated user of the unit building where the corridor machine is located (the authenticated user is a legal resident registered in the property of the community) and the security personnel of the community; similarly, the same user can be bound with a plurality of different corridor machines supporting cloud services, and the user is an authenticator authenticated by a management unit where the corridor machine is located;

based on the uniqueness of the MAC address of the corridor machine and the diversified characteristics of the cloud service of the corridor machine, the user and the corridor machine are closely related, so that the accommodation safety and the travel safety of the user are greatly facilitated;

the network server can send the data of the corridor machine to the network server based on an SMTP protocol after acquiring the account information registered by the user and the identification information of the corridor machine, and can also complete the data communication between the network server and the user side client based on the SMTP protocol;

according to the invention, the infrared fence alarm of the community and the corridor machine of the community unit building are managed intensively, the safety self-checking function of the corridor machine is triggered through the infrared fence alarm, when the safety risk is detected, the unit building user is informed in time, and the user is reminded to close the corridor unit door based on cloud service, so that the user safety of the community unit building is effectively enhanced, and the damage caused by the fact that some corridor unit doors are rushed into the corridor by illegal molecules while the corridor machine is in the state of forgetting to lock the doors by the unit building user is avoided;

specifically, the invention also provides the following method:

binding and storing identification information of the unit building users and the security room with the corridor machine;

acquiring a house number of resident access requirements of an access person of a corridor unit door, calling a camera and a microphone by a corridor machine based on call instruction operation of a user, and acquiring a video stream, an audio stream and a video session request based on an SMTP protocol of the access person;

digital information of the visitor acquired by the transmission camera and the microphone is forwarded to the network server, and is forwarded to the user side through the network server based on the bound unit building user identification information;

acquiring a feedback request of a user side, and transmitting a feedback operation instruction based on the user side to a network server;

and reading a user side feedback operation instruction transferred by the network server, issuing an instruction of the corridor machine based on an SMTP protocol, responding to an access request of an access person, and finishing door opening operation by the corridor machine.

Specifically, a user can send a door opening operation instruction to a network server through a management client based on an SMTP (simple message transfer protocol), the network server analyzes the instruction after acquiring the instruction sent by the user side, acquires the position of a corridor machine to be subjected to door opening operation after processing and analysis, and performs data transmission based on an MAC (media access control) address of the corridor machine, and the corridor machine performs door opening operation of a corridor unit door after receiving the door opening operation instruction analyzed by the network server;

based on the above description, the invention replaces the traditional key with the intelligent terminal (such as mobile phone), and based on the rapid progress of science and technology, the traditional entity key is easy to cause the trouble that the user passes through the corridor unit door because the user forgets to go home or is lost; based on the corridor machine control device, a user unlocks a corridor unit door through a bound client through cloud service; therefore, remote control unlocking of the corridor door can be performed through cloud service, and the situation that visitors are rejected from the door when the corridor resident is not at home and suddenly get on the door because the visitor gets on the door is avoided;

in another embodiment provided by the invention, the invention discloses a corridor machine control device with intensive management, which comprises the following structures:

a main control module 100 for intensive management and control of the corridor machine; the main control module 100 mainly performs behavior operation of the corridor machine and performs corresponding feedback response operation based on the instruction behavior of the user;

a digital information acquisition module 200, which is used for the corridor machine to acquire the video stream data and audio stream data of the visiting person; specifically, the digital information obtaining module 200 may obtain, through the main control module 100, an access request instruction of an visitor sent by the main control module 100, perform a video stream and an audio stream of the visitor and a video session request based on an SMTP protocol by calling a camera and a microphone provided in the corridor machine, and complete digital information uploading operation of the visitor based on the module;

a judging module 300, which is used for detecting the infrared alarm of the corridor machine, the closing state of the corridor unit door and the instruction execution of the corridor machine; by arranging the judging module 300, the corridor machine device can effectively cooperate with the main control module 100 to execute a selective command when the main control module 100 performs response instruction operation based on other conditions such as visitor, user or infrared enclosure warning, and the like, thereby providing diversified operation of the corridor machine device and facilitating diversified selection of users in various emergency situations;

an alarm module 400, which is used for automatic alarm and active alarm of the corridor machine and calling the sound alarm to perform audio alarm; specifically, the alarm module 400 selectively gives an alarm by cooperating with an issued instruction based on the operation instructions of the main control module 100 and the judgment module 300, the alarm module 400 acquires user registration information stored in a network server and storage information of a cell security room, performs short message or telephone paging alarm based on stored contact information after the alarm operation is acquired, and calls a sound alarm set in a corridor machine device to perform physical alarm based on the module;

it should be particularly noted that in this embodiment, it is emphasized that the physical alarm is performed, the alarm is performed according to the sound frequency and the sound volume set by the sound alarm, and when the security personnel arrives at the corridor device that gives an alarm, the security personnel close the alarm through the client of the security personnel, which is not described in detail herein;

the timing module 500 is used for timing the time when the feedback instruction of the user side is not received after the corridor machine does not detect that the corridor unit door is closed when the command of closing the corridor unit door is executed;

a communication module 600, configured to perform data communication between the corridor machine and the user side, the security side, and the network server, and it is specifically described herein that, since the corridor machine and the user side, the security side, and the network server all need to perform data communication with each other, the communication module is provided for each of the client sides based on the corridor machine device, the user side, and the security side, and the network server, the communication module supports SMTP protocol communication and also supports data communication based on the ethernet network, and the client sides of the user side and the security side can perform data communication with each other through data traffic;

specifically, the corridor machine control device further comprises a user side client, wherein the user side client comprises a processing module used for answering or refusing the door opening request of an access person; the door opening module is used for controlling a door opening instruction of the corridor machine; and the alarm module is used for actively alarming the corridor machine.

Specifically, the determining module 300 further includes the following steps:

the infrared alarm detection unit 310 is used for judging whether an infrared enclosure alarm is acquired by the corridor machine; if the infrared fence alarm is not detected, the sleep state is kept; if the infrared enclosing wall alarm is detected, activating the working state;

the corridor machine self-checking unit 320 is used for closing a corridor unit door related to a corridor machine; if the power is detected to be turned off, entering a dormant state; if the state is detected to be not closed, a user side alarm is carried out;

the corridor machine execution unit 330 is used for detecting the instruction execution state of the corridor machine, and performing automatic alarm if an automatic alarm instruction is obtained; and if the automatic closing instruction is acquired, closing the corridor unit door.

Aiming at the corridor machine based on the cloud service technology, a user carries out installation and registration of a management client corresponding to the corridor machine, and carries out installation of a user side client through portable mobile electronic equipment such as a mobile phone, a tablet personal computer and the like, the registered cloud account information comprises the name, the identity card number, the mobile phone number, a fixed phone number (optional) and an email of the user, and the registered information of the user is stored in a network server for later information verification and information query;

the corridor machine can carry out data communication with a network server and a user side management client side, so that the corridor machine is inevitably provided with a network card, the identification of an intelligent corridor machine device of a cell unit can be carried out through the uniqueness of a physical address of the network card, and the cell unit number corresponding to the address and the bound personnel information under the corridor machine can be locked by searching an MAC address;

it should be noted that, because the cloud service has the characteristics of big data and batch operation, based on the characteristics, a plurality of different persons can be bound under the same corridor machine, and at least the authenticated user of the unit building where the corridor machine is located (the authenticated user is a legal resident registered in the property of the community) and the security personnel of the community; similarly, the same user can be bound with a plurality of different corridor machines supporting cloud services, and the user is an authenticator authenticated by a management unit where the corridor machine is located;

based on the uniqueness of the MAC address of the corridor machine and the diversified characteristics of the cloud service of the corridor machine, the user and the corridor machine are closely related, so that the accommodation safety and the travel safety of the user are greatly facilitated;

the network server can send the data of the corridor machine to the network server based on an SMTP protocol after acquiring the account information registered by the user and the identification information of the corridor machine, and can also complete the data communication between the network server and the user side client based on the SMTP protocol;

according to the invention, the infrared fence alarm of the community and the corridor machine of the community unit building are managed intensively, the safety self-checking function of the corridor machine is triggered through the infrared fence alarm, when the safety risk is detected, the unit building user is informed in time, and the user is reminded to close the corridor unit door based on cloud service, so that the user safety of the community unit building is effectively enhanced, and the damage caused by the fact that some corridor unit doors are rushed into the corridor by illegal molecules while the corridor machine is in the state of forgetting to lock the doors by the unit building user is avoided;

specifically, the user can also send a door opening operation instruction to the network server through the management client based on the SMTP protocol, the network server performs instruction analysis after acquiring the instruction sent by the user side, acquires the position of a corridor machine to be subjected to door opening operation after processing and analysis, performs data transmission based on the MAC address of the corridor machine, and performs door opening operation of a corridor unit door after the corridor machine receives the door opening operation instruction analyzed by the network server;

based on the above description, the invention replaces the traditional key with the intelligent terminal (such as mobile phone), and based on the rapid progress of science and technology, the traditional entity key is easy to cause the trouble that the user passes through the corridor unit door because the user forgets to go home or is lost; based on the corridor machine control device, a user unlocks a corridor unit door through a bound client through cloud service; therefore, remote control unlocking of the corridor door can be performed through cloud service, and the situation that visitors are rejected from the door when the corridor resident is not at home and suddenly get on the door because the visitor gets on the door is avoided;

it should be noted that the embodiment of the present invention is directed to providing a corridor controller with centralized management, but the present invention is not limited to the hardware composition and implementation means of the existing corridor controller, and in another embodiment of the present invention, besides the same as above, the corridor controller further includes an RFID module supporting RFID radio frequency unlocking; a DI/DO circuit and a power supply system for providing the modules;

in another embodiment provided by the present invention, the corridor control device further comprises an electronic display screen and a key input module, which are not the main protection points of the present invention and will not be described herein.

In another embodiment of the present invention, after the account registered by the user is bound with the identification information of the corridor device, the user-side client can directly communicate with the network server through the wireless network, and the corridor device generally communicates with the network server through the wireless network of the household wireless router.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of the invention as referred to in the present application is not limited to the embodiments with a specific combination of the above-mentioned features, but also covers other embodiments with any combination of the above-mentioned features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (10)

1. An intensive management corridor machine control method is characterized by comprising the following steps:

binding and storing identification information of the unit building users and the security room with the corridor machine;

if the output signal of the infrared enclosure alarm is not detected, the corridor machine is not triggered to carry out closing detection on the corridor unit door, and the corridor machine is in a dormant state;

if the output signal of the infrared enclosure alarm is detected, triggering the corridor machine to carry out closing detection on the corridor unit door, and activating the working state of the corridor machine;

if the corridor machine detects that the corridor unit door is in a closed state, the working state of the corridor machine is cancelled and the corridor machine enters a dormant state again;

and if the corridor machine detects that the corridor unit door is in an open state, triggering an alarm prompt of the corridor machine, and performing user side alarm based on the bound identification information of the unit building user.

2. A corridor control method with intensive management as set forth in claim 1, characterized in that after the operation instruction of the user side is obtained, the automatic shutdown or automatic alarm operation of the corridor machine is activated.

3. A method for controlling an intensively managed corridor according to claim 2, wherein said automatic alarm operation comprises the following:

if an automatic alarm instruction of the user side is obtained, the corridor machine alarms based on the identification information of the bound security room; and obtaining a receiving instruction fed back by the security room, feeding back the receiving instruction to the user side to complete the security room alarm and activate the sound alarm of the corridor machine.

4. A method for controlling an intensively managed corridor according to claim 2, wherein said automatic closing operation comprises the following:

if an automatic corridor door closing instruction of the user side is obtained, the corridor machine executes the automatic corridor door closing instruction, and when the corridor machine detects that the corridor door is closed, the corridor machine feeds back to the end of the successful execution instruction of the user side, and enters the dormant state again;

if an automatic corridor unit door closing instruction of the user side is obtained, the corridor machine executes the automatic corridor unit door closing instruction, and the corridor machine does not detect that the corridor unit door is closed and feeds back to the user side to execute the instruction abnormity; acquiring an active alarm instruction fed back by a user side, and alarming through the identification information of the bound security room; and obtaining a receiving instruction fed back by the security room, feeding back the receiving instruction to the user side to complete the security room alarm and activate the sound alarm of the corridor machine.

5. The corridor control method with intensive management according to claim 4, wherein after the corridor entrance closing instruction is executed and the corridor entrance is not detected by the corridor entrance machine,

activating a timer of the corridor machine, and giving an alarm based on the identification information of the bound security room if a feedback instruction of a user side is not received within t time based on timing time t set by the timer; and obtaining a receiving instruction fed back by the security room, feeding back the receiving instruction to the user side to complete the security room alarm and activate the sound alarm of the corridor machine.

6. A method for intensively managing corridor control according to claim 1, wherein the method comprises the following steps:

binding and storing identification information of the unit building users and the security room with the corridor machine;

acquiring a house number of resident access requirements of an access person of a corridor unit door, calling a camera and a microphone by a corridor machine based on call instruction operation of a user, and acquiring a video stream, an audio stream and a video session request based on an SMTP protocol of the access person;

digital information of the visitor acquired by the transmission camera and the microphone is forwarded to the network server, and is forwarded to the user side through the network server based on the bound unit building user identification information;

acquiring a feedback request of a user side, and transmitting a feedback operation instruction based on the user side to a network server;

and reading a user side feedback operation instruction transferred by the network server, issuing an instruction of the corridor machine based on an SMTP protocol, responding to an access request of an access person, and finishing door opening operation by the corridor machine.

7. The corridor control method for intensive management as claimed in claim 1, wherein the identification information of the unit building user bound with the corridor machine includes the user's name, identification number, mobile phone number and landline number; the identification information bound between the security room and the corridor machine comprises the name of an attendant and a mobile phone number of the security room.

8. A corridor machine control device with intensive management is characterized by comprising the following structures:

the main control module is used for intensive management and control of the corridor machine;

the digital information acquisition module is used for acquiring video stream data and audio stream data of an access person by the corridor machine;

the judging module is used for carrying out infrared alarm detection on the corridor machine, corridor unit door closing state detection and corridor machine alarm detection;

the alarm module is used for automatic alarm and active alarm of the corridor machine and calling the sound alarm to perform audio alarm;

the timing module is used for timing the time when the feedback instruction of the user side is not received after the corridor machine does not detect that the corridor unit door is closed when the command of closing the corridor unit door is executed;

and the communication module is used for data communication between the corridor machine and the user side, the security side and the network server.

9. The control device of claim 8, further comprising a user-side client, wherein the user-side client comprises a processing module for receiving or rejecting an access person's door opening request; the door opening module is used for controlling a door opening instruction of the corridor machine; and the alarm module is used for actively alarming the corridor machine.

10. The intensively managed corridor machine control device according to claim 8, wherein the judging module further comprises:

the infrared alarm detection unit is used for judging whether an infrared enclosure alarm is acquired by the corridor machine; if the infrared fence alarm is not detected, the sleep state is kept; if the infrared enclosing wall alarm is detected, activating the working state;

the corridor machine self-checking unit is used for closing a corridor unit door related to the corridor machine; if the power is detected to be turned off, entering a dormant state; if the state is detected to be not closed, a user side alarm is carried out;

the corridor machine execution unit is used for detecting the instruction execution condition of the corridor machine and automatically giving an alarm if an automatic alarm instruction is obtained; and if the automatic closing instruction is acquired, closing the corridor unit door.

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