CN112614266A - Inspection type monitoring method and system of fireproof door monitoring system and storage medium - Google Patents

Abstract

The application relates to a routing inspection type monitoring method, a routing inspection type monitoring system and a storage medium of a fireproof door monitoring system, and belongs to the field of intelligent fire protection, wherein the method acquires the state information of a current fireproof door, and the state information comprises the serial number and the state identification of the current fireproof door; judging whether the state identifier of the state information is consistent with the standard state identifier of the current fireproof door or not; if the state identifier of the state information is inconsistent with the standard state identifier of the current fireproof door, adding 1 to the original base of the correction times of the current fireproof door, presetting the correction times to be zero, and corresponding to the serial numbers of the fireproof door one by one; judging whether the correction times exceed a preset correction threshold value or not; and if the correction times exceed a preset correction threshold, generating a correction instruction and feeding back the correction instruction to the administrator, and modifying the standard state identifier corresponding to the fireproof door number into another state, wherein the correction instruction is used for indicating the administrator to change the current fireproof door into another fireproof door. The application has the effect of taking safety and convenience into account.

Description

Inspection type monitoring method and system of fireproof door monitoring system and storage medium

Technical Field

The application relates to the field of intelligent fire fighting, in particular to a patrol type monitoring method and system of a fireproof door monitoring system and a storage medium.

Background

The fireproof door is made of a flame-retardant material, can meet the requirements of fire-resistant stability, integrity and heat-insulating performance within a certain time, and is often installed at a stair opening, an elevator room, a pipeline inspection door and the like. The fire doors are classified into normally open type fire doors and normally closed type fire doors, and the normally closed type fire doors are generally installed in places where the flow of people is small, such as staircases of high-rise residential buildings, control rooms and the like. Normally closed fire doors should be closed both under normal conditions and in the event of a fire, so that people can push the fire door through it. Because the normally closed fireproof door is in a closed state for a long time, the normally closed fireproof door has a more timely effect under the condition of stopping the fire from spreading. The normally open type fireproof door is in a door opening state for a long time, receives a control signal and starts the electric door closer to close the fireproof door.

Existing, install electromagnetic switch on the fire door is prevented to normal close formula, can transmit the switch condition that corresponds to prevent fire door for preventing fire door monitored control system, prevent that fire door monitored control system can this all prevent fire door's of remote monitoring switch.

The related art described above has the following drawbacks: in daily life, the selection of the fireproof door is often determined according to the general characteristics of the building where the fireproof door is located, however, in the same building, the fireproof doors on different floors have different requirements according to actual conditions, and people sometimes modify the fireproof door for their own convenience, for example, use sundries to block the door, even remove a door closer, and the like, so that the fireproof door monitoring system cannot effectively manage the fireproof door.

Disclosure of Invention

In order to guarantee the life safety of people and the passing convenience at the same time, the application provides a polling type monitoring method and system of a fireproof door monitoring system and a storage medium.

In a first aspect, the application provides a fire door monitoring system's inspection formula monitoring method, adopts following technical scheme:

a routing inspection type monitoring method of a fireproof door monitoring system comprises the following steps:

acquiring state information of a current fireproof door, wherein the state information comprises a fireproof door number and a state identification of the current fireproof door;

judging whether the state identifier of the state information is consistent with a standard state identifier of a current fireproof door, wherein the standard state identifier is 'off' and corresponds to the fireproof door one by one;

if the state identifier of the state information is inconsistent with the standard state identifier of the current fireproof door, adding 1 to the original base of the correction times of the current fireproof door, wherein the correction times are preset to be zero and are in one-to-one correspondence with the serial numbers of the fireproof door;

judging whether the correction times exceed a preset correction threshold value or not;

and if the correction times exceed a preset correction threshold, generating a correction instruction and feeding back the correction instruction to an administrator, and correcting the standard state identifier corresponding to the fireproof door number to be 'on', wherein the correction instruction is used for indicating the administrator to change the current fireproof door into a normally-open fireproof door, and the correction instruction comprises the fireproof door number of the current fireproof door.

Through adopting above-mentioned technical scheme, can generate the modification instruction according to the actual long-term switch condition of preventing fire door, guide the administrator to carry out the installation of preventing fire door electromagnetic release ware for the distribution that fire door and normal close formula were prevented to normal open type accords with the actual required distribution condition, according to local conditions, has avoided the appearance of the circumstances such as debris stifled door, when guaranteeing people life safety, is convenient for people's the current, helps balanced security and convenience.

Optionally, the obtaining of the state information of the current fireproof door specifically includes:

acquiring a polling instruction sent by an administrator;

circularly acquiring initial state information of each fireproof door according to the routing inspection instruction, wherein the initial state information comprises a fireproof door number and an initial state identifier of the current fireproof door;

judging whether the initial state identification of the current fireproof door is consistent with the standard state identification of the current fireproof door; if the initial state identifier of the current fireproof door is consistent with the standard state identifier of the current fireproof door, defining the initial state information as the state information of the current fireproof door;

if the primary state identifier of the current fireproof door is inconsistent with the standard state identifier of the current fireproof door, acquiring a secondary state identifier of the current fireproof door after a preset time period;

judging whether the secondary state identification is consistent with the primary state identification of the current fireproof door or not;

if the secondary state identification is consistent with the primary state identification of the current fireproof door, defining the secondary state identification as the state identification of the state information of the current fireproof door;

if secondary state sign is inconsistent with the first state sign of preventing fire door at present, after the predetermined time quantum, acquires the cubic state sign of preventing fire door at present, according to cubic state sign and the fire door serial number of preventing fire door at present generate the state information of preventing fire door at present.

Through adopting above-mentioned technical scheme, detect at every turn that first state sign appears changing the back, all need verify, carry out the secondary through the state sign to this fire door, perhaps cubic acquirees, finally confirm the state of preventing fire door, improve the accuracy of control.

Optionally, the inspection instruction may be automatically sent by the system when a preset time point is reached.

Through adopting above-mentioned technical scheme, administrator's accessible preset time's mode for the system is automatic regularly patrolled and examined each prevents fire door, makes the control more regular and effective.

Optionally, after determining whether the correction times exceeds a preset correction threshold, the method further includes:

if the correction times exceed a preset correction threshold, acquiring the number of the fireproof door corresponding to the correction times;

and adding the fireproof door number into a normally open fireproof door list, and feeding back the fireproof door number to an administrator, wherein the normally open fireproof door list is used for recording the fireproof door number corresponding to the standard state identifier of 'open', and the normally open fireproof door list is preset to be empty.

Through adopting above-mentioned technical scheme, the list of preventing fire door is prevented to open in usual after the automatic generation repacking to feed back the administrator with this list, the administrator of being convenient for looks over, and the management in later stage maintains etc..

Optionally, the method further includes:

acquiring corridor monitoring near a fireproof door corresponding to the fireproof door number in real time according to the fireproof door number in the normally open fireproof door list;

judging whether sundries blocking the opening and closing of the fireproof door exist in the corridor or not according to the corridor monitoring;

and if the sundries in the corridor block the fireproof door, generating a sundry removing instruction and feeding back the sundry removing instruction to the administrator.

Through adopting above-mentioned technical scheme, to being changed into normally open prevent fire door, through corridor control, whether have debris to pile up in the corridor that real time monitoring corresponds, avoid normally open prevent that fire door can't normally close the condition appearance, under the prerequisite of limited manpower and energy, ensure the unobstructed of corridor.

Optionally, the method further includes:

acquiring a fire alarm signal;

according to the fire door list is prevented to open in usual, generate control command and transmit and prevent fire door terminal for each, control command prevents fire door serial number including each in the fire door list is prevented to open in usual to and be used for closing the instruction of closing the door of preventing fire door.

Through adopting above-mentioned technical scheme, after taking place the condition of a fire, according to the fire door list is prevented to open in the usual that generates before, send control command release all fire doors that open in the usual for the fire door is closed, and the instruction is conveyed more pertinence and fast, traversably opens and compare with simple all fire doors, and is more rapid to the reaction of the condition of a fire.

Optionally, after determining whether the correction times exceeds a preset correction threshold, the method further includes:

if the correction times do not exceed the preset correction threshold, generating a warning instruction to be fed back to the administrator and the corresponding household,

through adopting above-mentioned technical scheme, when detecting that should close prevent that fire door is in the open mode, warn the resident family earlier to communicate with the resident family through the administrator, hinder the condition appearance of preventing fire door as far as possible.

The second aspect, the application provides a prevent fire door monitored control system's formula monitored control system of patrolling and examining adopts following technical scheme:

a fire door monitored control system's patrolling and examining formula monitored control system includes:

the state acquisition module is used for acquiring the state information of the current fireproof door, and the state information comprises the fireproof door number and the state identification of the current fireproof door;

the correction frequency module is used for judging whether the state identifier of the state information is consistent with the standard state identifier of the current fireproof door or not, and the standard state identifier is preset to be closed and is in one-to-one correspondence with the fireproof door; if the state identifier of the state information is inconsistent with the standard state identifier of the current fireproof door, adding 1 to the original base of the correction times of the current fireproof door, wherein the correction times are preset to be zero and are in one-to-one correspondence with the serial numbers of the fireproof door;

the correction judging module is used for judging whether the correction times exceed a preset correction threshold value or not; and if the correction times exceed a preset correction threshold, generating a correction instruction and feeding back the correction instruction to an administrator, and correcting the standard state identifier corresponding to the fireproof door number to be 'on', wherein the correction instruction is used for indicating the administrator to change the current fireproof door into a normally-closed fireproof door, and the correction instruction comprises the fireproof door number of the current fireproof door.

Through adopting above-mentioned technical scheme, to being detected many times and being in the fire door of the state of opening the door, feeding back it to the administrator and looking over, instruct the administrator to refit this fire door into fire door is prevented to normal close formula, avoid the resident family oneself to plug up fire door with debris.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:

an intelligent terminal comprising a memory and a processor, said memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to the first aspect.

Through adopting above-mentioned technical scheme, can be according to actual demand, prevent the fire door suggestion with the fire door of the part normal close formula in the corridor and revise into the fire door of normal open formula to reduce the resident family and block the condition appearance of preventing fire door for current convenience with debris, help balanced security and convenience.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium comprising a computer program stored thereon which is loadable by a processor and adapted to carry out the method of the first aspect.

Through adopting above-mentioned technical scheme, can prevent fire door suggestion modification into the fire door of open in normal close formula that satisfies the condition, help balanced security and convenience.

In summary, the present application includes at least one of the following beneficial technical effects:

1. recording the times of inconsistent state of the fire door and the standard state during inspection, and modifying the prompt of some normally closed fire doors into normally open fire doors according to the times, so that the convenience is improved while the safety is ensured;

2. the fireproof door with changed state information is confirmed for many times, and the monitoring accuracy of the fireproof door monitoring system is improved.

Drawings

Fig. 1 is a schematic flow chart of a polling monitoring method of a fire door monitoring system according to an embodiment of the present application;

FIG. 2 is a flow chart illustrating the substeps of S200 according to an embodiment of the present application;

FIG. 3 is a schematic flow chart diagram for generating an instruction to remove sundries according to an embodiment of the present application;

fig. 4 is a block diagram of an inspection type monitoring system of the fireproof door monitoring system according to the embodiment of the present application.

Description of reference numerals: 1. a state acquisition module; 2. a correction frequency module; 3. a correction judgment module; 4. a fire control module; 5. and a monitoring judgment module.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a patrol inspection type monitoring method of a fireproof door monitoring system. Referring to fig. 1, a polling type monitoring method of a fire door monitoring system includes:

s100: and acquiring a polling instruction.

The inspection instruction can be sent by an administrator by pressing a certain mechanical button for controlling the system or clicking a certain virtual button displayed on the interface of the fireproof door monitoring system; the patrol command can also be generated by the system itself, and the administrator can preset a time point in the system in advance, such as monday every week, number 1 every month, and the like, and when the time point is reached, the system automatically generates the patrol command and acquires the patrol command.

S200: and acquiring the current state information of the fireproof door.

Specifically, the system can acquire the state information of all the fireproof doors in sequence through cyclic query. To a certain present prevent fire door, its state information includes present prevent fire door serial number and the state sign of fire door. The fire door numbers correspond to fire doors one-to-one, and the fire door numbers are numbers related to specific positions of the fire doors, for example, the fire door number of the second fire door located at the twelfth floor from north to south is 1202, the fire door number of the third fire door located at the ninth floor from north to south is 0903; the state identifier is used for representing the current state of the current fireproof door and is one of two identifiers of 'on' and 'off'. Specifically, in connection with fig. 2, S200 includes the following sub-steps:

s201: and acquiring the initial state information of the current fireproof door.

Specifically, with fire door serial number as the circulation characteristic, in a circulation, prevent that fire door serial number is unchangeable, can acquire the first state information of each preventing fire door through sending inquiry signal to each prevent fire door terminal in proper order. Wherein, each prevent fire door terminal when receiving inquiry signal, all can acquire the on-off state that corresponds the door magnetic switch who prevents the installation on the fire door, and this on-off state that acquires is the first state information of present preventing fire door promptly, and the first state information that will acquire present preventing fire door finally transmits the system. The initial state information is information about a current fireproof door acquired by the system for the first time, specifically comprises a fireproof door number and an initial state identification of the current fireproof door, the fireproof door number corresponds to the initial state identification in a one-to-one mode, and the initial state identification is one of two identifications of 'on' and 'off'.

S202: and judging whether the initial state identification of the current fireproof door is consistent with the standard state identification.

Wherein, first state sign and standard state sign are virtual sign, and standard state sign and prevent the door serial number one-to-one, and for one of two kinds of signs of "opening" and "close", if standard state sign is "opening" then represent this to prevent that fire door is the fire door of normally open type, if standard state sign is "close" then represent this to prevent that fire door is the fire door of normally closed type. In the initial state, all prevent fire door and be the fire door of normal close formula, all corresponding standard state signs all preset "close".

Specifically, under the same fire door number, the initial state identifier is compared with the standard state identifier, if the initial state identifier is consistent with the standard state identifier, for example, both the initial state identifier and the standard state identifier are "on" or "off", the system does not process the current fire door, and returns to S201 to continue to perform the cycle of the next fire door number; and if the primary state identifier is not consistent with the standard state identifier, jumping to S203.

S203: after a period of time, the secondary state identification of the current fireproof door is obtained.

Wherein, the period of time is a preset time period L, L is more than or equal to 0, and the time period L can be five seconds, ten seconds and the like. After the time period L, the system acquires the status identifier of the current fireproof door for the second time by the same method as in S201, and obtains a secondary status identifier, which is also one of the two identifiers of "on" and "off".

S204: and judging whether the secondary state identification of the current fireproof door is consistent with the primary state identification.

Specifically, if the secondary state identifier of the current fireproof door is consistent with the primary state identifier, defining primary state information corresponding to the primary identifier as the state information of the current fireproof door, and skipping to S300; and if the secondary state identifier of the current fireproof door is inconsistent with the primary state identifier, skipping to S205.

S205: after a period of time, acquiring the cubic state identifier of the current fireproof door, and generating the state information of the current fireproof door according to the cubic state identifier.

After the time period L is over, the system acquires the state identifier of the current fireproof door for the third time by the same method as the method in S201 to obtain the state identifier for the third time, wherein the state identifier for the third time is one of the two identifiers of 'on' and 'off'.

Because all the state identifications are only of two types, on the premise that the primary state identification and the secondary state identification are different, the tertiary state identification is necessarily the same as the primary state identification or the secondary state identification, and therefore the tertiary state identification is necessarily one of the two state identifications of 'on' and 'off' in a large quantity. Therefore, the three-time state identification is directly defined as the state identification of the current fireproof door, and the state information of the current fireproof door is generated according to the state identification of the current fireproof door and the serial number of the fireproof door.

S300: and judging whether the state information is consistent with the standard state information.

Each fireproof door is provided with standard state information, the standard state information comprises the fireproof door number and the standard state identification of the current fireproof door, and the standard state identification is the standard state identification in the S202.

Specifically, if the state information matches the standard state information, the system jumps to S200 to enter the next cycle of the fire door number, and if the state information does not match the standard state information, the system jumps to S400.

S400: and adding 1 to the number of times of correction of the current fireproof door.

The correction times correspond to the serial numbers of the fireproof doors one by one, 0 is preset in the system, 1 is added to the original correction times of the current fireproof doors when S400 is executed every time, and an administrator can clear all the correction times by pressing a certain mechanical button or clicking a certain virtual button of the fireproof door monitoring system.

S500: and judging whether the correction times exceed a preset correction threshold value.

Specifically, if the number of times of correction does not exceed a preset correction threshold, a warning instruction including the fire door number of the current fire door is generated, and then the fire door number is decoded. For example, for a fire door with the fire door number of 1203, the decoding result shows that the fire door is 12 layers and the 3 rd fire door is turned from north to south. After the specific position of the current fireproof door is obtained, the specific position is displayed on a display interface of a fireproof door monitoring system to be checked by an administrator, and a warning is sent to a resident corresponding to the floor where the fireproof door is located in a short message mode and the like.

And if the correction times exceed a preset correction threshold, synchronously jumping to S600 and S700.

S600: and generating a correction instruction and feeding back the correction instruction to an administrator.

Specifically, firstly, the number of the fireproof door of the current fireproof door is decoded by the same method as that in the step S500 to obtain a specific position, a correction instruction is generated according to the decoded specific position, and the specific position of the fireproof door is displayed on a display interface of the fireproof door monitoring system through characters to be checked by an administrator.

If the standard state identification of the current fireproof door is 'off', the administrator receives the correction instruction and then can install the electromagnetic releaser of the fireproof door for the current fireproof door, and the electromagnetic releaser of the fireproof door is connected to the fireproof door terminal corresponding to the fireproof door. Prevent fire door electromagnetic release for having the door-inhale of electro-magnet, under normal conditions, the electro-magnet circular telegram is adsorbed and is prevented fire door and make to prevent that fire door keeps normally open state, and when taking place the condition of a fire, the electro-magnet outage for prevent that fire door is closed automatically under the effect of door closer. Meanwhile, the system automatically modifies the standard state identification of the current fireproof door to be 'on'.

If the standard state identifier of the current fireproof door is modified to be 'on', an administrator receives an instruction, which means that the fireproof door is in a closed state in the current period, and the normally open state is not required to be maintained any more, so that the electromagnetic releaser of the current fireproof door can be detached, and meanwhile, the system automatically modifies the standard state identifier of the current fireproof door to be 'off'.

And S700, updating the list of the normally-open fireproof doors.

The normally-open fireproof door list is a list preset to be empty in a system, and if the original standard state mark of the fireproof door in the S600 is 'off', the serial number of the fireproof door in the current cycle is added into the normally-open fireproof door list; if the original standard status of the fire door in S600 is "on", the fire door number in the current cycle is deleted from the normally-open fire door list. Finally, all the fire doors with the standard state marked as "on" are recorded in the normally-open fire door list.

According to the normally-open fireproof door list updated in S700, the method further includes:

s11: and acquiring a fire alarm signal.

Wherein, fire alarm signal can be sent through pressing a certain mechanical button by the administrator, perhaps clicks the virtual button that shows interface and sends, perhaps many dwellings are in predetermined time interval, through modes such as APP upload the transmission, perhaps catch automatic transmission behind the environmental signal by sensors such as smoke alarm.

S12: according to the normally open fireproof door list, a control instruction is generated and transmitted to the fireproof door terminal.

Specifically, after the fire alarm signal is acquired, the control instruction is generated and transmitted to each corresponding fireproof door terminal according to the fireproof door number recorded in the normally-open fireproof door list. The control command is including instructing the door instruction of closing of preventing fire door electromagnetic release outage to and the fire door serial number of record in the list is prevented to the fire door of preventing open in usual, prevent that fire door does not receive the control back of electromagnetic release, can be automatic closure under the effect of door closer, play the effect that hinders the intensity of a fire and spread.

With reference to fig. 3, according to the normally-open fire door list updated in S700, the method further includes:

s21: and acquiring corridor monitoring corresponding to the fire door number in the normally open fire door list in real time.

Specifically, the fire door number recorded in the normally open fire door list is decoded according to the method in S500 to obtain the specific position of the corresponding fire door, and corridor monitoring around the specific position is obtained in real time.

S22: and judging whether sundries in the corridor block the opening and closing of the fireproof door or not according to corridor monitoring.

Specifically, image processing is carried out on the obtained corridor monitoring, whether a complete fireproof door image can be obtained or not is judged, whether other objects are included in the range where the fireproof door image is located or not is judged, if the complete unshielded fireproof door image can be obtained, S21 is returned to continue real-time monitoring, if the complete unshielded fireproof door image cannot be obtained at a certain moment, timing is started, and after a preset time threshold value is reached, the complete unshielded fireproof door image cannot be obtained, and S23 is skipped to.

S23: and generating a sundry removing instruction and feeding back the sundry removing instruction to an administrator.

Specifically, the sundry removing instruction comprises a specific position of the current fireproof door obtained by decoding in the step S21, and the specific position is displayed on a display interface of the fireproof door monitoring system in a text form for an administrator to view.

The implementation principle is as follows: according to a preset time point or a patrol request sent by an administrator, acquiring the state identifier of each fireproof door through a door magnetic switch arranged on the fireproof door, adding 1 to the correction times if the state identifier of the current fireproof door is different from the preset value, and sending a warning notice to the administrator aiming at the current fireproof door. After the number of times of correction surpassed predetermined threshold value, send the correction instruction to the administrator, the administrator can be for preventing fire door electromagnetic release ware is prevented in the installation of fire door now, prevents the refitting of fire door now and prevents fire door for normally open, avoids the resident family to pile up debris and blocks fire door, helps balanced security and convenience.

Based on the method, the embodiment of the application further discloses a routing inspection type monitoring system of the fireproof door monitoring system. Referring to fig. 4, the polling type monitoring system of the fireproof door monitoring system includes a state obtaining module 1, a correction frequency module 2, a correction judging module 3, a fire control module 4 and a monitoring judging module 5.

And the state acquisition module 1 is used for acquiring a primary state identifier, a secondary state identifier and a tertiary state identifier of the current fireproof door, comparing the primary state identifier, the secondary state identifier and the tertiary state identifier and finally generating the state information of the current fireproof door.

And the correction frequency module 2 is used for judging whether the state information of the current fireproof door is consistent with the preset standard state information or not, entering the next circulation of serial numbers of the fireproof door if the state information is consistent with the preset standard state information, and entering the next processing module if the state information is inconsistent with the preset standard state information.

The correction judgment module 3 is used for adding 1 to the original correction times of the current fireproof door, comparing the correction times with a correction threshold value, and generating a warning instruction if the correction times do not exceed the correction threshold value; and if the correction times exceed the correction threshold, generating a correction instruction and feeding back the correction instruction to the administrator, and updating the normally-open fireproof door list.

And the fire condition control module 4 is used for generating a control instruction according to the fire alarm signal and the normally-open fireproof door list and controlling the opening of the fireproof door in the standard state.

And the monitoring and judging module 5 is used for monitoring the fireproof door with the standard state mark of 'on' in real time, judging whether the fireproof door is blocked by sundries, and generating a sundry removing instruction and feeding back the sundry removing instruction to an administrator if the fireproof door is blocked by the sundries.

The embodiment of the application further discloses an intelligent terminal, the intelligent terminal comprises a memory and a processor, and the memory stores a computer program which can be loaded by the processor and can execute the inspection type monitoring method of the fireproof door monitoring system.

The embodiment of the present application further discloses a computer readable storage medium, which stores a computer program that can be loaded by a processor and executes the inspection type monitoring method of the fire door monitoring system, where the computer readable storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above examples are only used to illustrate the technical solutions of the present application, and do not limit the scope of protection of the application. It is to be understood that the embodiments described are only some of the embodiments of the present application and not all of them. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, are within the scope of the present application.

Claims (10)

1. The utility model provides a fire door monitored control system's inspection formula monitoring method which characterized in that includes:

acquiring state information of a current fireproof door, wherein the state information comprises a fireproof door number and a state identification of the current fireproof door;

judging whether the state identifier of the state information is consistent with a standard state identifier of a current fireproof door, wherein the standard state identifier is 'off' and corresponds to the fireproof door one by one;

if the state identifier of the state information is inconsistent with the standard state identifier of the current fireproof door, adding 1 to the original base of the correction times of the current fireproof door, wherein the correction times are preset to be zero and are in one-to-one correspondence with the serial numbers of the fireproof door;

judging whether the correction times exceed a preset correction threshold value or not;

and if the correction times exceed a preset correction threshold, generating a correction instruction and feeding back the correction instruction to an administrator, and correcting the standard state identifier corresponding to the fireproof door number to be 'on', wherein the correction instruction is used for indicating the administrator to change the current fireproof door into a normally-open fireproof door, and the correction instruction comprises the fireproof door number of the current fireproof door.

2. The inspection type monitoring method of the fireproof door monitoring system according to claim 1, wherein the acquiring of the current state information of the fireproof door specifically comprises:

acquiring a polling instruction sent by an administrator;

circularly acquiring initial state information of each fireproof door according to the routing inspection instruction, wherein the initial state information comprises a fireproof door number and an initial state identifier of the current fireproof door;

judging whether the initial state identification of the current fireproof door is consistent with the standard state identification of the current fireproof door; if the initial state identifier of the current fireproof door is consistent with the standard state identifier of the current fireproof door, defining the initial state information as the state information of the current fireproof door;

if the primary state identifier of the current fireproof door is inconsistent with the standard state identifier of the current fireproof door, acquiring a secondary state identifier of the current fireproof door after a preset time period;

judging whether the secondary state identification is consistent with the primary state identification of the current fireproof door or not;

if the secondary state identification is consistent with the primary state identification of the current fireproof door, defining the secondary state identification as the state identification of the state information of the current fireproof door;

if secondary state sign is inconsistent with the first state sign of preventing fire door at present, after the predetermined time quantum, acquires the cubic state sign of preventing fire door at present, according to cubic state sign and the fire door serial number of preventing fire door at present generate the state information of preventing fire door at present.

3. The inspection type monitoring method for the fire door monitoring system according to claim 2, wherein the inspection instruction can be automatically sent by the system when a preset time point is reached.

4. The polling type monitoring method of the fire door monitoring system according to claim 1, wherein after determining whether the number of corrections exceeds a preset correction threshold, the method further comprises:

if the correction times exceed a preset correction threshold, acquiring the number of the fireproof door corresponding to the correction times;

and adding the fireproof door number into a normally open fireproof door list, and feeding back the fireproof door number to an administrator, wherein the normally open fireproof door list is used for recording the fireproof door number corresponding to the standard state identifier of 'open', and the normally open fireproof door list is preset to be empty.

5. The inspection-type monitoring method of the fire door monitoring system according to claim 4, further comprising:

acquiring corridor monitoring near a fireproof door corresponding to the fireproof door number in real time according to the fireproof door number in the normally open fireproof door list;

judging whether sundries blocking the opening and closing of the fireproof door exist in the corridor or not according to the corridor monitoring;

and if the sundries in the corridor block the fireproof door, generating a sundry removing instruction and feeding back the sundry removing instruction to the administrator.

6. The inspection-type monitoring method of the fire door monitoring system according to claim 4, further comprising:

acquiring a fire alarm signal;

according to the fire door list is prevented to open in usual, generate control command and transmit and prevent fire door terminal for each, control command prevents fire door serial number including each in the fire door list is prevented to open in usual to and be used for closing the instruction of closing the door of preventing fire door.

7. The polling type monitoring method of the fire door monitoring system according to claim 1, wherein after determining whether the number of corrections exceeds a preset correction threshold, the method further comprises:

and if the correction times do not exceed a preset correction threshold value, generating a warning instruction and feeding the warning instruction back to the administrator and the corresponding household.

8. A patrol inspection type monitoring system of a fireproof door monitoring system is characterized by comprising,

the system comprises a state acquisition module (1) and a state identification module, wherein the state acquisition module is used for acquiring the state information of the current fireproof door, and the state information comprises the fireproof door number and the state identification of the current fireproof door;

the correction frequency module (2) is used for judging whether the state identifier of the state information is consistent with the standard state identifier of the current fireproof door or not, and the standard state identifier is preset to be 'off' and is in one-to-one correspondence with the fireproof door; if the state identifier of the state information is inconsistent with the standard state identifier of the current fireproof door, adding 1 to the original base of the correction times of the current fireproof door, wherein the correction times are preset to be zero and are in one-to-one correspondence with the serial numbers of the fireproof door;

the correction judging module (3) is used for judging whether the correction times exceed a preset correction threshold value; and if the correction times exceed a preset correction threshold, generating a correction instruction and feeding back the correction instruction to an administrator, and correcting the standard state identifier corresponding to the fireproof door number to be 'on', wherein the correction instruction is used for indicating the administrator to change the current fireproof door into a normally-closed fireproof door, and the correction instruction comprises the fireproof door number of the current fireproof door.

9. An intelligent terminal, comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any one of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.

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