阅读说明：本技术 一种消防安全控制方法和设备 (Fire safety control method and equipment ) 是由 牟剑刚 王德勇 敖乃翔 朱博 朱占生 于 2021-07-19 设计创作，主要内容包括：本发明公开了一种消防安全控制方法和设备,该方法包括：接收主机设备发送的报警信息,并将所述报警信息存入所述消防主机中,所述主机设备包括烟感报警器、温度传感器和手动报警器等；当所述消防主机接收到查询指令时,将所述报警信息发送到服务端,所述查询指令是通过数据采集盒向所述消防主机发送的；基于所述服务端的业务窗口对所述报警信息进行数据解读,以获取解读数据；通过所述解读数据的事件信息及设备编码确定业务逻辑,并执行所述业务逻辑对应的运行模式,所述运行模式包括：维保模式、演练模式、火情模式及正常监控模式,从而将消防安全系统的多个功能进行了整合,避免了消防系统功能单一且效率低下的问题。(The invention discloses a fire safety control method and equipment, wherein the method comprises the following steps: receiving alarm information sent by host equipment, and storing the alarm information into the fire fighting host, wherein the host equipment comprises a smoke detector alarm, a temperature sensor, a manual alarm and the like; when the fire fighting host receives an inquiry instruction, the alarm information is sent to a server side, and the inquiry instruction is sent to the fire fighting host through a data acquisition box; performing data interpretation on the alarm information based on a service window of the server to obtain interpretation data; determining a service logic through the event information and the equipment code of the interpretation data, and executing an operation mode corresponding to the service logic, wherein the operation mode comprises the following steps: the fire fighting safety system has the advantages that the maintenance mode, the exercise mode, the fire situation mode and the normal monitoring mode are adopted, so that multiple functions of the fire fighting safety system are integrated, and the problems of single function and low efficiency of the fire fighting system are solved.)

1. A fire safety control method is applied to a fire safety control system comprising a server, a fire host and a client, and comprises the following steps:

receiving alarm information sent by host equipment, and storing the alarm information into the fire fighting host, wherein the host equipment comprises a smoke detector alarm, a temperature sensor, a manual alarm and the like;

when the fire fighting host receives an inquiry instruction, the alarm information is sent to a server side, and the inquiry instruction is sent to the fire fighting host through a data acquisition box;

performing data interpretation on the alarm information based on a service window of the server to obtain interpretation data;

determining a service logic through the event information and the equipment code of the interpretation data, and executing an operation mode corresponding to the service logic, wherein the operation mode comprises the following steps: maintenance mode, exercise mode, fire mode and normal monitoring mode.

2. The method as claimed in claim 1, wherein the determining a service logic by the event information and the device code of the interpreted data and executing an operation mode corresponding to the service logic specifically include:

when the operation mode is a maintenance mode, distributing maintenance personnel based on maintenance task information so that the maintenance personnel execute a maintenance task according to the maintenance task information, wherein the maintenance task information is automatically generated by the fire safety control system;

when the operation mode is a fire drill mode, determining a fire condition based on the type of the fire drill mode, and executing a fire condition processing flow after the fire condition is determined to be successful, wherein the type of the fire drill mode comprises a first fire drill mode or a second fire drill mode;

and when the operation mode is a fire mode, executing a fire processing flow after the fire is confirmed to be successful.

3. The method according to claim 2, wherein when the operation mode is a maintenance mode, a maintenance worker is allocated based on maintenance task information so that the maintenance worker performs a maintenance task according to the maintenance task information, specifically:

after receiving the task information, confirming to enter a maintenance execution flow through the client;

triggering the host equipment to send alarm information to the fire fighting host;

if the triggering is successful, writing the triggering event data into a maintenance record and generating a maintenance record sheet;

and if the triggering fails, executing the hidden danger handling process.

4. The method of claim 2, wherein the first fire drill mode is specifically:

determining a host device to be exercised, wherein the host device to be exercised is provided with an exercise identifier;

triggering the host equipment to send alarm information to the fire fighting host;

and sending the alarm information to a server so that the server informs a regional responsible person to start a video recording function of the client and goes to the site to confirm the fire.

5. The method of claim 2, wherein the second fire drill mode is specifically:

issuing a exercise instruction through the server, wherein the exercise instruction comprises exercise places;

and after the person in charge of the area arrives at the exercise site, the person is confirmed through the client, and the fire video is recorded and reported.

6. The method according to claim 2, wherein when the operation mode is a fire mode, after the fire is confirmed to be successful, a fire processing procedure is executed, specifically:

when the user finds the fire, the client side carries out alarm confirmation, records a fire video and reports the fire video;

when the scene is abnormal, the host equipment is triggered to alarm, and the alarm information is sent to the fire-fighting host;

if the server receives alarm information sent by the fire-fighting host, distributing regional responsible persons according to the alarm information so that the regional responsible persons start the video recording function of the client and go to the site to confirm the fire;

if the fire is confirmed successfully, executing a fire processing flow;

and if the fire condition is confirmed to be wrong, executing a hidden danger handling process.

7. The method according to claim 2, wherein the fire handling process specifically comprises:

issuing fire rescue work to a first person in charge through a client;

sending message notification to other fire rescue forces to enable fire fighting teams to distribute fire fighting instructors, and the instructors receive the fire information and take the fire information to rescue sites;

after the fire extinguishing is finished, the fire mode is finished through the client or the server, and a fire finishing notice is sent to other fire rescue forces.

8. The method according to claim 3 or 6, wherein the hidden danger handling procedure is specifically:

generating a hidden trouble work order through the server, and distributing an executive responsible person to enable the executive responsible person to go to the site for repair;

if the repair is completed in a preset period, submitting a completed picture and completing a hidden danger disposal process;

if the repair is not completed in the preset period, generating an examination record sheet, informing fire control and enterprises, and feeding back the repair time again;

if the repair can not be carried out, the data is converted into a maintenance work order and is delivered to a maintenance company for processing.

9. The method of claim 1, further comprising:

issuing an inspection task to the staff through the server so that the staff can confirm to execute inspection work according to the inspection task;

after the staff confirms to execute the inspection work, starting a video recording and uploading function of the client;

if potential safety hazards are found in the routing inspection process, reporting is carried out through a screen capturing function of the client.

10. The utility model provides a fire safety control equipment which characterized in that, is applied to in the fire safety control system who includes server, fire control host computer and customer end, equipment includes:

the receiving module is used for receiving alarm information sent by host equipment and storing the alarm information into the fire fighting host, and the host equipment comprises a smoke detector alarm, a temperature sensor, a manual alarm and the like;

the sending module is used for sending the alarm information to a server side when the fire fighting host receives an inquiry instruction, and the inquiry instruction is sent to the fire fighting host through a data acquisition box;

the acquisition module is used for performing data interpretation on the alarm information based on a service window of the server to acquire interpretation data;

an execution module, configured to determine a service logic according to the event information of the interpreted data and the device code, and execute an operation mode corresponding to the service logic, where the operation mode includes: maintenance mode, exercise mode, fire mode and normal monitoring mode.

Technical Field

The application relates to the field of fire safety, in particular to a fire safety control method and equipment.

Background

The existing fire-fighting safety system mainly uses detection as a main part, mainly detects water pressure and liquid level data of fire fighting, and when the water pressure and the liquid level data are abnormal, the problems are discovered in actual operation by hardware facility early warning or applet and app pushing notification, linkage management and subsequent treatment work of a fire-fighting host computer are lacked, the problem is solved for the purpose of fire-fighting system government and enterprise users, only solution supervision is discovered, and the fact is only done in half and has no practical significance. The reason for this problem is that the existing hardware manufacturers or system manufacturers mainly use a single aspect of hardware and software, lack the idea of software and hardware interaction, lack the chance of merging the two, and do not consider the problem from the complementary perspective of the two parties.

Therefore, designing a fire safety control method for solving the technical problems of single function and low efficiency of the fire safety control system in the prior art is an urgent technical problem to be solved by technical personnel in the field.

Disclosure of Invention

Aiming at the problems of single function and low efficiency of a fire safety control system in the prior art, the invention provides a fire safety control method which is applied to a fire safety control system comprising a server, a fire host and a client, and the method comprises the following steps:

receiving alarm information sent by host equipment, and storing the alarm information into the fire fighting host, wherein the host equipment comprises a smoke detector alarm, a temperature sensor, a manual alarm and the like;

when the fire fighting host receives an inquiry instruction, the alarm information is sent to a server side, and the inquiry instruction is sent to the fire fighting host through a data acquisition box;

performing data interpretation on the alarm information based on a service window of the server to obtain interpretation data;

determining a service logic through the event information and the equipment code of the interpretation data, and executing an operation mode corresponding to the service logic, wherein the operation mode comprises the following steps: maintenance mode, exercise mode, fire mode and normal monitoring mode.

Preferably, the determining a service logic according to the event information of the interpreted data and the device code, and executing an operation mode corresponding to the service logic specifically include:

when the operation mode is a maintenance mode, distributing maintenance personnel based on maintenance task information so that the maintenance personnel execute a maintenance task according to the maintenance task information, wherein the maintenance task information is automatically generated by the fire safety control system;

when the operation mode is a fire drill mode, determining a fire condition based on the type of the fire drill mode, and executing a fire condition processing flow after the fire condition is determined to be successful, wherein the type of the fire drill mode comprises a first fire drill mode or a second fire drill mode;

and when the operation mode is a fire mode, determining the fire based on the type of the fire mode, and executing a fire processing flow after the fire is successfully determined, wherein the type of the fire mode comprises a first fire mode or a second fire mode.

Preferably, when the operation mode is the maintenance mode, the maintenance personnel is allocated based on the maintenance task information, so that the maintenance personnel executes the maintenance task according to the maintenance task information, specifically:

after receiving the task information, confirming to enter a maintenance execution flow through the client;

triggering the host equipment to send alarm information to the fire fighting host;

if the triggering is successful, writing the triggering event data into a maintenance record and generating a maintenance record sheet;

and if the triggering fails, executing the hidden danger handling process.

Preferably, the first fire drill mode is specifically:

determining a host device to be exercised, wherein the host device to be exercised is provided with an exercise identifier;

triggering the host equipment to send alarm information to the fire fighting host;

and sending the alarm information to a server so that the server informs a regional responsible person to start a video recording function of the client and goes to the site to confirm the fire.

Preferably, the second fire drill mode is specifically:

issuing a exercise instruction through the server, wherein the exercise instruction comprises exercise places;

and after the person in charge of the area arrives at the exercise site, the person is confirmed through the client, and the fire video is recorded and reported.

Preferably, when the operation mode is a fire mode, after the fire is determined to be successful, a fire processing procedure is executed, specifically:

when the user finds the fire, the client side carries out alarm confirmation, records a fire video and reports the fire video;

when the scene is abnormal, the host equipment is triggered to alarm, and the alarm information is sent to the fire-fighting host;

if the server receives alarm information sent by the fire-fighting host, distributing regional responsible persons according to the alarm information so that the regional responsible persons start the video recording function of the client and go to the site to confirm the fire;

if the fire is confirmed successfully, executing a fire processing flow;

and if the fire condition is confirmed to be wrong, executing a hidden danger handling process. Preferably, the fire processing flow specifically includes:

issuing fire rescue work to a first person in charge through a client;

sending message notification to other fire rescue forces to enable fire fighting teams to distribute fire fighting instructors, and the instructors receive the fire information and take the fire information to rescue sites;

after the fire extinguishing is finished, the fire mode is finished through the client or the server, and a fire finishing notice is sent to other fire rescue forces.

Preferably, the procedure for handling the hidden trouble is as follows:

generating a hidden trouble work order through the server, and distributing an executive responsible person to enable the executive responsible person to go to the site for repair;

if the repair is completed in a preset period, submitting a completed picture and completing a hidden danger disposal process;

if the repair is not completed in the preset period, generating an examination record sheet, informing fire control and enterprises, and feeding back the repair time again;

if the repair can not be carried out, the data is converted into a maintenance work order and is delivered to a maintenance company for processing.

Preferably, the method further comprises the following steps:

issuing an inspection task to the staff through the server so that the staff can confirm to execute inspection work according to the inspection task;

after the staff confirms to execute the inspection work, starting a video recording and uploading function of the client;

if potential safety hazards are found in the routing inspection process, reporting is carried out through a screen capturing function of the client.

Correspondingly, the invention also provides fire safety control equipment, which is characterized in that the equipment is applied to a fire safety control system comprising a server, a fire host and a client, and the equipment comprises:

the receiving module is used for receiving alarm information sent by host equipment and storing the alarm information into the fire fighting host, and the host equipment comprises a smoke detector alarm, a temperature sensor, a manual alarm and the like;

the sending module is used for sending the alarm information to a server side when the fire fighting host receives an inquiry instruction, and the inquiry instruction is sent to the fire fighting host through a data acquisition box;

the acquisition module is used for performing data interpretation on the alarm information based on a service window of the server to acquire interpretation data;

an execution module, configured to determine a service logic according to the event information of the interpreted data and the device code, and execute an operation mode corresponding to the service logic, where the operation mode includes: maintenance mode, exercise mode, fire mode and normal monitoring mode.

The invention discloses a fire safety control method and equipment, wherein the method comprises the following steps: receiving alarm information sent by host equipment, and storing the alarm information into the fire fighting host, wherein the host equipment comprises a smoke detector alarm, a temperature sensor, a manual alarm and the like; when the fire fighting host receives an inquiry instruction, the alarm information is sent to a server side, and the inquiry instruction is sent to the fire fighting host through a data acquisition box; performing data interpretation on the alarm information based on a service window of the server to obtain interpretation data; determining a service logic through the event information and the equipment code of the interpretation data, and executing an operation mode corresponding to the service logic, wherein the operation mode comprises the following steps: the fire fighting safety system has the advantages that the maintenance mode, the exercise mode, the fire situation mode and the normal monitoring mode are adopted, so that multiple functions of the fire fighting safety system are integrated, and the problems of single function and low efficiency of the fire fighting system are solved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flow chart illustrating a fire safety control method according to an embodiment of the present application;

FIG. 2 is a flow chart illustrating a maintenance mode proposed by an embodiment of the present application;

fig. 3 shows a schematic flow chart of a fire drill mode according to an embodiment of the present application

FIG. 4 is a schematic flow chart illustrating a fire pattern proposed by an embodiment of the present application;

fig. 5 is a schematic flowchart illustrating a hidden danger handling process according to an embodiment of the present application;

fig. 6 shows a schematic flow chart of inspection work provided by the embodiment of the present application

Fig. 7 shows a schematic structural diagram of a fire safety control device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The existing system mainly takes detection as a main part, mainly detects water pressure and liquid level data of fire fighting, and when the water pressure and the liquid level data are abnormal, the problems are discovered in actual operation by hardware facility early warning or applet and app push notification, linkage management and subsequent treatment work of a fire fighting host computer are lacked, the problem is solved for the purpose of fire fighting system government and enterprise users, only solution supervision is discovered, and no practical significance is realized when the problem is only solved in half. The reason for this problem is that the existing hardware manufacturers or system manufacturers mainly use a single aspect of hardware and software, lack the idea of software and hardware interaction, lack the chance of merging the two, and do not consider the problem from the complementary perspective of the two parties.

Therefore, the inventors have proposed a fire safety control method in the application that can improve the above-described problems.

In order to further illustrate the technical idea of the present invention, embodiments of the present application will be specifically described below with reference to the accompanying drawings and specific application scenarios so as to explain the technical solution of the present invention.

Referring to fig. 1, an embodiment of the present application provides a fire safety control method applied to a fire safety control system including a server, a fire host, and a client, where the method includes:

s101, receive the alarm information that host computer equipment sent, and will alarm information is deposited in among the fire control host computer, host computer equipment includes smoke detector alarm, temperature sensor and manual alarm etc..

Specifically, be provided with host computer equipment in this scheme, host computer equipment can be smoke detector alarm, temperature sensor and manual alarm etc. through host computer equipment perception fire control safety problem, if the temperature is unusual, someone smoking etc. reaches alarm condition back, sends alarm information to the fire control host computer to the storage is in the fire control host computer.

S102, when the fire fighting host receives an inquiry instruction, the alarm information is sent to a server side, and the inquiry instruction is sent to the fire fighting host through a data acquisition box.

In the scheme, the data acquisition box periodically sends a query instruction to the fire-fighting host, and when the query instruction is received, the alarm information is sent to the server through the tcp.

S103, data interpretation is carried out on the alarm information based on the service window of the server side, so that interpretation data are obtained.

Specifically, after receiving the alarm information, the server forwards the alarm information to the service interface to perform data interpretation according to the host data analysis protocol.

S104, determining a service logic through the event information and the equipment code of the interpretation data, and executing an operation mode corresponding to the service logic, wherein the operation mode comprises the following steps: maintenance mode, exercise mode, fire mode and normal monitoring mode.

Specifically, the scheme integrates all modes in fire fighting, including a maintenance mode, a drilling mode, a fire mode and a normal monitoring mode, determines service logic according to event information of read data and equipment codes, and executes an operation mode corresponding to the service logic.

In order to further execute the corresponding operation mode, in a preferred embodiment of the present application, before starting the primary air fan, the secondary air fan and the material returning fan of the boiler, the method further includes:

determining a service logic through the event information of the interpretation data and the equipment code, and executing an operation mode corresponding to the service logic, specifically:

when the operation mode is a maintenance mode, distributing maintenance personnel based on maintenance task information so that the maintenance personnel execute a maintenance task according to the maintenance task information, wherein the maintenance task information is automatically generated by the fire safety control system;

when the operation mode is a fire drill mode, determining a fire condition based on the type of the fire drill mode, and executing a fire condition processing flow after the fire condition is determined to be successful, wherein the type of the fire drill mode comprises a first fire drill mode or a second fire drill mode;

and when the operation mode is a fire mode, executing a fire processing flow after the fire is confirmed to be successful.

Specifically, when the operation mode is a maintenance mode, maintenance personnel are allocated based on maintenance task information so that the maintenance personnel execute a maintenance task according to the maintenance task information, wherein the maintenance task information is automatically generated by the fire safety control system; when the operating mode is the fire drill mode, based on the condition of a fire is confirmed to the type of fire drill mode, in this scheme, the type of fire drill mode includes first fire drill mode or second fire drill mode, confirms the condition of a fire earlier to after confirming the condition of a fire is successful, carry out the condition of a fire and handle the flow, work as when the operating mode is the condition of a fire mode, confirm the condition of a fire earlier, after confirming the condition of a fire is successful, carry out the condition of a fire and handle the flow.

In order to execute the maintenance task, in a preferred embodiment of the present application, when the operation mode is the maintenance mode, a maintenance worker is allocated based on the maintenance task information, so that the maintenance worker executes the maintenance task according to the maintenance task information, specifically:

after receiving the task information, confirming to enter a maintenance execution flow through the client;

triggering the host equipment to send alarm information to the fire fighting host;

if the triggering is successful, writing the triggering event data into a maintenance record and generating a maintenance record sheet;

and if the triggering fails, executing the hidden danger handling process.

Specifically, as shown in fig. 2, the maintenance process specifically includes: 1. and generating maintenance tasks of each enterprise according to months. 2. The enterprise administrator assigns executive employees. 3. And the staff confirms the task. 4. When the staff arrives at the task site, the task execution is started (the starting is finished after a delay of 24 hours, and the task execution is automatically finished when the staff is not actively finished). 5. The system automatically changes the enterprise host device mode to maintenance. 6. And (4) triggering the host equipment by adopting physical equipment (such as a smoke gun punishment smoke sensor alarm). 7. Event data transmitted by the host computer is received. 8. And judging repetition, and writing the maintenance record list without repetition. 9. And (4) finishing maintenance, finishing the staff actively, or finishing the system automatically after delaying for 24 hours (if the quantity is insufficient after delaying finishing, generating an examination record sheet). 10. And the maintenance ending system modifies the enterprise host equipment mode into a normal detection mode.

To illustrate the first fire drill mode, in the preferred embodiment of the present application, the first fire drill mode is specifically:

determining a host device to be exercised, wherein the host device to be exercised is provided with an exercise identifier;

triggering the host equipment to send alarm information to the fire fighting host;

and sending the alarm information to a server so that the server informs a regional responsible person to start a video recording function of the client and goes to the site to confirm the fire.

To illustrate the second fire drill mode, in the preferred embodiment of the present application, the second fire drill mode is specifically:

issuing a exercise instruction through the server, wherein the exercise instruction comprises exercise places;

and after the person in charge of the area arrives at the exercise site, the person is confirmed through the client, and the fire video is recorded and reported.

As shown in fig. 3, the method is a flowchart of a fire drill mode, and it can be known that the first fire drill mode is specifically a method for site abnormality occurrence, the device actively performs early warning, the fire host feeds back an early warning signal to the management platform, the management platform obtains and queries a regional responsible person according to a task, notifies the regional responsible person to go to a site to check a confirmation person and start a video recording function, and then the site person arrives at the site, confirms a fire or a fault, and if the fault is reported, a hidden danger is generated and the process enters a hidden danger work order disposal flow. The second fire drill mode is specifically that the staff finds the scene fire in the working process, opens the app homepage of the mobile phone to find the alarm button, clicks the alarm button, carries out secondary confirmation, records the 15s video of the fire and reports

In order to execute the fire processing flow, in a preferred embodiment of the present application, when the operation mode is the fire mode, after the fire is determined to be successful, the fire processing flow is executed, specifically:

when the user finds the fire, the client side carries out alarm confirmation, records a fire video and reports the fire video;

when the scene is abnormal, the host equipment is triggered to alarm, and the alarm information is sent to the fire-fighting host;

if the server receives alarm information sent by the fire-fighting host, distributing regional responsible persons according to the alarm information so that the regional responsible persons start the video recording function of the client and go to the site to confirm the fire;

if the fire is confirmed successfully, executing a fire processing flow;

and if the fire condition is confirmed to be wrong, executing a hidden danger handling process.

In order to further execute the fire processing flow, in a preferred embodiment of the present application, the fire processing flow specifically includes:

issuing fire rescue work to a first person in charge through a client;

sending message notification to other fire rescue forces to enable fire fighting teams to distribute fire fighting instructors, and the instructors receive the fire information and take the fire information to rescue sites;

after the fire extinguishing is finished, the fire mode is finished through the client or the server, and a fire finishing notice is sent to other fire rescue forces.

Specifically, as shown in fig. 4, a schematic flow diagram of a fire mode is shown, a first fire confirmation mode of the specific flow is that an abnormality occurs on site, the device actively performs early warning, the fire host feeds back an early warning signal to the management platform, the management platform receives a task to inquire a region responsible person to notify the region responsible person to go to the site for viewing, a confirmation person starts a video recording function to go to the site, arrives at the site, confirms a fire or a fault misinformation, and if the misinformation indicates a hidden danger, the hidden danger enters a hidden danger work order disposal flow. The second fire confirmation mode is that the staff finds the on-site fire in the working process, opens the mobile phone app homepage to find the alarm button, clicks the alarm button for secondary confirmation, records the 15s video of the fire for reporting,

the fire treatment process specifically comprises the following steps: the mobile phone for confirming the fire starts to remind the first responsible person of the required things (voice reminding is used for searching for a fire extinguisher to extinguish a fire, six-level cascading fire-activating information notification is carried out, six-level notification is received to actively handle the fire, fire fighting teams distribute fire-extinguishing instructors, the instructors receive the fire information to bring the team to the front, managers at all levels can dial video calls to first site personnel through pc or app to check the situation, the fire extinguishing is finished, the managers and the instructors select to finish the fire, and the system sends the finish fire notification to six-level strength.

In order to illustrate the procedure of handling hidden troubles, in a preferred embodiment of the present application, the procedure of handling hidden troubles specifically includes:

generating a hidden trouble work order through the server, and distributing an executive responsible person to enable the executive responsible person to go to the site for repair;

if the repair is completed in a preset period, submitting a completed picture and completing a hidden danger disposal process;

if the repair is not completed in the preset period, generating an examination record sheet, informing fire control and enterprises, and feeding back the repair time again;

if the repair can not be carried out, the data is converted into a maintenance work order and is delivered to a maintenance company for processing.

As shown in fig. 5, a specific procedure of the hidden danger handling procedure is as follows: the method comprises the steps that a user reports or a host actively informs generation of a hidden danger work order, an enterprise principal distributes the hidden danger work order, personnel receive information of the hidden danger work order, check the information, go to a site of the hidden danger work order to confirm, feed back a renovation period or repair immediately, generate corresponding examination logic according to the feedback period, complete submission of a completed picture on time, complete examination and verification by an enterprise owner, generate examination records on time without completing on time to inform a fire protection and the enterprise owner, feed back the time for the examination and modification again, complete examination and verification on time, and perform treatment by the fire protection company if hidden danger cannot be treated by the self to convert the hidden danger into a maintenance work order, and the process is the same as the above.

In order to illustrate the inspection work, in the preferred embodiment of the present application, the method further includes:

issuing an inspection task to the staff through the server so that the staff can confirm to execute inspection work according to the inspection task;

after the staff confirms to execute the inspection work, starting a video recording and uploading function of the client;

if potential safety hazards are found in the routing inspection process, reporting is carried out through a screen capturing function of the client.

Specifically, as shown in fig. 6, the inspection work flow mentioned in the present solution specifically includes: the method comprises the steps that a worker starts working, the worker enters a task pool through app to check task data which can be received today, the worker selects a task to be executed to receive, a non-inspection task enters task details and does not need other operations, the worker only needs to receive notification and execute operations after dangerous situations occur, the inspection worker needs to inspect on time, the worker can see an inspection button after entering the task details, the worker clicks the inspection process, the inspection process is started, the inspection whole process system automatically starts a video recording uploading function, potential safety hazards are found in the inspection process, a mobile phone screen capturing method is adopted to report the potential safety hazards, inspection content in a task area is required to be completed, and the inspection task is completed after clicking.

In order to achieve the above technical object, an embodiment of the present application further provides a fire safety control apparatus, as shown in fig. 7, the apparatus including:

the receiving module 201 is configured to receive alarm information sent by a host device, and store the alarm information in the fire fighting host, where the host device includes a smoke detector alarm, a temperature sensor, a manual alarm, and the like;

the sending module 202 is configured to send the alarm information to a server when the fire-fighting host receives an inquiry instruction, where the inquiry instruction is sent to the fire-fighting host through a data acquisition box;

an obtaining module 203, configured to perform data interpretation on the alarm information based on a service window of the server to obtain interpretation data;

an executing module 204, configured to determine a service logic according to the event information of the interpreted data and the device code, and execute an operating mode corresponding to the service logic, where the operating mode includes: maintenance mode, exercise mode, fire mode and normal monitoring mode.

Those skilled in the art will appreciate that the figures are merely schematic representations of one preferred implementation scenario and that the blocks or flow diagrams in the figures are not necessarily required to practice the present invention.

Those skilled in the art will appreciate that the modules in the apparatus may be distributed in the apparatus according to the description of the implementation scenario, or may be located in one or more apparatuses different from the present implementation scenario with corresponding changes. The modules of the implementation scenario may be combined into one module, or may be further split into a plurality of sub-modules.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.