CN111160771A - Safety supervision system and control method thereof - Google Patents

Abstract

The invention discloses a safety supervision system and a control method thereof, belonging to the field of safety systems, wherein a safety scheduling server receives and analyzes operation information data or direct monitoring data transmitted by a transfer station server, then calls an emergency early warning scheduling scheme, and sends an emergency instruction to an application program client or a response device through the transfer station server according to emergency disposal information of the emergency early warning scheduling scheme, wherein the operation information data is collected and transmitted to the transfer station server by the application program client, and the direct monitoring data is collected and transmitted to the transfer station server by the response device. Correspondingly, the invention discloses a control method for a safety supervision system. The safety supervision system and the control method thereof disclosed by the invention can be used for carrying out real-time safety prevention and control on the operation condition, carrying out timely troubleshooting and risk early warning on the existing potential safety hazard, and timely responding and scheduling disaster.

Description

Safety supervision system and control method thereof

Technical Field

The invention relates to the field of safety systems, in particular to a safety supervision system and a control method thereof.

Background

The coal mine safety monitoring system is a monitoring device widely used in coal mines, and is mainly used for monitoring various environments and equipment states in the coal mine, carrying out power-off control when gas is found to exceed the limit, and carrying out alarm when other abnormity is found. The existing coal mine safety monitoring system mainly monitors analog quantity signals such as the environment (such as CH4, CO, wind speed and the like) of a field operation place, the power-on state of equipment and the like, emergency treatment can be carried out only after the monitoring signals are abnormal, effective prevention and control before a disaster occurs are difficult, after the disaster occurs, the reason for the occurrence of a safety accident is difficult to investigate, only operators can be informed to carry out emergency evacuation treatment, possible accident reasons cannot be timely known, targeted treatment measures can be taken, the treatment on the disaster has certain hysteresis, the dangerous case is easy to further spread and expand, and the risk of personnel injury and property loss is improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to solve the technical problem of providing a safety supervision system which adopts a system structure of a response device and a safety scheduling server and is matched with an information acquisition module, so that the real-time safety monitoring on the operation content of an operator is facilitated, the hidden danger risk in the operation process is fed back in time, the potential safety hazard is analyzed according to direct monitoring data and operation information data, the disaster early warning is realized, the accident is prevented, meanwhile, the accident reason of the occurred disaster is conveniently traced, an emergency scheduling plan is made in time, the processing is rapid and accurate, and the personnel damage and the property loss are reduced.

Correspondingly, another technical problem to be solved by the present invention is to provide a control method for a safety supervision system, by which real-time safety prevention and control are performed on the operation condition, the potential safety hazard is timely checked and risk early-warning is performed, and response scheduling is timely performed on the disaster.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a safety supervision system which comprises at least two application program clients 1, a transfer station server 2, a response device 3 and a safety scheduling server 4, wherein the safety scheduling server 4 receives and analyzes operation information data or direct monitoring data transmitted by the transfer station server 2, then calls an emergency early warning scheduling scheme, and sends an emergency instruction to the application program clients 1 or the response device 3 through the transfer station server 2 according to emergency disposal information of the emergency early warning scheduling scheme, wherein the operation information data is collected and transmitted to the transfer station server 2 by the application program clients 1, and the direct monitoring data is collected and transmitted to the transfer station server 2 by the response device 3.

The invention has the preferable technical scheme that each application program client 1 comprises an information acquisition module 11, an information sending module 12 and an information receiving module 13, wherein the information acquisition module 11 is used for acquiring operation information data and sending the operation information data to the transfer station server 2 through the information sending module 12, and the information receiving module 13 is used for receiving the operation information data or emergency instructions transmitted by the transfer station server 2 and carrying out approval reply on the received operation information.

The invention has the preferable technical scheme that the safety scheduling server 4 comprises a data storage module 41, an intelligent disaster early warning module 42 and an emergency plan scheduling module 43, wherein the intelligent disaster early warning module 42 extracts information data stored in the data storage module 41, analyzes whether potential safety hazards exist or not, transmits early warning information to the emergency plan scheduling module 43 when the potential safety hazards exist, analyzes an emergency early warning scheduling scheme matched with the type of the potential safety hazards, and commands the data storage module 41 to call a corresponding emergency early warning scheduling scheme and send a corresponding emergency instruction, wherein the information data stored in the data storage module 41 comprises the emergency early warning scheduling scheme data, operation information data transmitted by the transfer station server 2 and direct monitoring data.

The preferred technical scheme of the invention is that the response device 3 comprises a gas detector 31, a camera device 32 and an emergency broadcasting device 33, the concentration information data of the harmful gas collected by the gas detector 31 and the image information data of the field operation place collected by the camera device 32 together form direct monitoring data, and the emergency broadcasting device 33 receives and executes the emergency instruction transmitted by the transfer station server 2.

The present invention preferably adopts a technical scheme that the operation information data acquired by the information acquisition module 11 includes at least one information data of pre-operation safety check information data, in-operation safety hazard information data, post-operation safety reinspection information data, work log information data and conference information data.

The invention preferably adopts the technical scheme that the information acquisition module 11 can record video by accessing a camera component of the mobile terminal or access a file library of the mobile terminal to upload image data.

The invention provides a control method for a safety supervision system, which comprises the following steps: the control method comprises the following steps: step S101: the operation personnel fills in and uploads the operation information in the application client 1, appoints a receiving object, and after clicking a submission option, the application client 1 transmits the operation information to the application client 1 of the appointed receiving object through the transfer station server 2, and simultaneously the transfer station server 2 transmits the operation information to the safety scheduling server 4 for summary analysis, and the appointed receiving object examines and approves the operation information and replies, step S201: the response device 3 transmits the collected direct monitoring data to the safety dispatching server 4 through the transfer station server 2 for summary analysis, and the step S301: the safety scheduling server 4 collects the operation information data and the direct monitoring data to analyze whether potential safety hazards exist or not, when the potential safety hazards exist, an emergency early warning scheduling scheme is called, and corresponding emergency instructions are sent to the application program client 1 or the response device 3 through the transfer station server 2 according to emergency disposal information of the emergency early warning scheduling scheme to inform a specified receiving object of avoiding the dangerous situations in time.

The invention preferably adopts the technical scheme that each application program client 1 comprises an information acquisition module 11, an information sending module 12 and an information receiving module 13, in step S101, the operator fills in the upload job information in the information collection module 11, designates the receiving object, clicks the submit option, then, the job information is transmitted to the relay server 2 through the information transmission module 12, the relay server 2 transmits the job information to a designated reception object through the information reception module 13, meanwhile, the job information is transmitted to the safety scheduling server 4 for summary analysis, the designated receiving object reviews or notes the job information in the information receiving module 13, and feeds back the job information to the operator along the reverse direction of the original transmission path, in step S301, when there is a potential safety hazard, the safety dispatching server 4 sends a corresponding emergency instruction to the information collection module 11 through the transfer station server 2.

The invention preferably adopts the technical scheme that a safety scheduling server 4 comprises a data storage module 41, an intelligent disaster early warning module 42 and an emergency plan scheduling module 43, in the step S301, the data storage module 41 receives operation information data and direct monitoring data through a transfer station server 2 and performs data summarization and storage, the intelligent disaster early warning module 42 presets warning threshold values for measurable indexes in the operation information data and the direct monitoring data, extracts the operation information data and the direct monitoring data from the data storage module 41, analyzes whether potential safety hazards exist or not by comparing actual measurable index data with the warning threshold values, when the actual measurable index data reaches or exceeds the warning threshold values, the potential safety hazards exist, the intelligent disaster early warning module 42 transmits the analyzed early warning information to the emergency plan scheduling module 43, and the emergency plan scheduling module 43 analyzes the emergency early warning scheduling scheme matched with the safety type according to the early warning information The data storage module 41 is instructed to call the corresponding emergency early warning scheduling scheme.

The preferred technical scheme of the present invention is that the response device 3 includes a gas detector 31, a camera device 32 and an emergency broadcasting device 33, in step S201, the gas detector 31 collects concentration information data of harmful gas, the camera device 32 collects image information data of a field operation place, and then transmits the collected direct monitoring data to the dispatching safety server 4 through the transfer station server 2 for summary analysis, and in step S301, when there is a potential safety hazard, the dispatching safety server 4 transmits a corresponding emergency instruction to the emergency broadcasting device 33 through the transfer station server 2.

The invention has the beneficial effects that:

the invention provides a safety supervision system and a control method thereof, wherein in the process of mine operation, an operator records operation information such as safety check preparation work before operation, potential safety hazard information in operation and the like through an information acquisition module, the operation information comprises safety check inspection such as stope safety standard inspection, mine power supply and distribution system inspection, water drainage and prevention system inspection, fire extinguishing system inspection, dustproof measure inspection, lifting system inspection, blasting operation inspection, ventilation system inspection, operation equipment facility inspection and the like, an information sending module transmits the safety check inspection operation information to an information receiving module through a transfer station server to inform the safety check inspection operation condition of an appointed receiving object, and the appointed receiving object can make information feedback to the operation information of the operator through the information sending module along the opposite direction of a transmission original path. The response device is used for collecting harmful gas concentration information and image information of a working place and carrying out emergency broadcast notification. The safety scheduling server is used for summarizing and analyzing direct monitoring data transmitted by the response device and operation information data uploaded by an operator through the information acquisition module, analyzing potential safety hazards, and informing a specified receiving object to avoid dangerous situations in time through the response device and the information receiving module. The safety scheduling server analyzes potential safety hazards existing in the work or the operation construction site of the operating personnel according to the data, informs relevant operating personnel to timely eliminate the potential safety hazards, achieves disaster early warning, informs field operating personnel to evacuate in time when the analyzed potential safety hazards cannot be effectively restrained and the disaster is about to be caused, and meanwhile calls an emergency plan to deal with the disaster, response scheduling is timely. Through the process, the safety supervision system can supervise safety operation of staff, timely troubleshooting and risk early warning are carried out on existing potential safety hazards, response scheduling is timely carried out on disasters, disaster reasons can be conveniently tracked and pertinence treatment is carried out, the method is more accurate and effective, and personnel damage and property loss are reduced.

Drawings

FIG. 1 is a first block diagram of a security administration system provided in an embodiment of the present invention;

FIG. 2 is a block diagram of a second embodiment of a security surveillance system;

fig. 3 is a flowchart illustrating a control method for a safety supervision system according to an embodiment of the present invention.

In the figure:

1. an application client; 11. an information acquisition module; 12. an information sending module; 13. an information receiving module; 2. a transfer station server; 3. a response device; 31. a gas detector; 32. a camera device; 33. an emergency broadcasting device; 4. a secure dispatch server; 41. a data storage module; 42. an intelligent disaster warning module; 43. an emergency plan scheduling module; step S101; step S201; step S301.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Example one

As shown in fig. 1 and fig. 2, in order to enable the safety supervision system to supervise safety operations of employees, perform timely troubleshooting and risk early warning on existing potential safety hazards, and timely respond to and schedule a disaster, the safety supervision system provided in the first embodiment is provided. Further, the safety supervision system comprises at least two application program clients 1, a transfer station server 2, a response device 3 and a safety scheduling server 4, wherein the safety scheduling server 4 receives and analyzes operation information data or direct monitoring data transmitted by the transfer station server 2, then calls an emergency early warning scheduling scheme, and sends an emergency instruction to the application program clients 1 or the response device 3 through the transfer station server 2 according to emergency disposal information of the emergency early warning scheduling scheme, wherein the operation information data is collected and transmitted to the transfer station server 2 by the application program clients 1, and the direct monitoring data is collected and transmitted to the transfer station server 2 by the response device 3. The application client 1 and the transfer station server 2 perform signal transmission, a user fills in or receives information through the application client 1, and the transfer station server 2 plays a role in transferring and transmitting the information. The response device 3 and the application client 1 perform signal transmission through the relay server 2 and the security dispatch server 4, respectively, and the response device 3 and the application client 1 perform signal transmission through the relay server 2 and the security dispatch server 4, respectively. The response device 3 is used for collecting harmful gas concentration information and image information of a working place and carrying out emergency broadcast notification. The safety scheduling server 4 is used for summarizing and analyzing the direct monitoring data transmitted by the response device 3 and the operation information data uploaded by the operator through the application client 1, analyzing the existing potential safety hazards, and informing the designated receiving object through the response device 3 or the application client 1 of avoiding the dangerous situation. The safety scheduling server 4 analyzes potential safety hazards existing in the work or the operation construction site of the operation personnel according to the data, informs relevant working personnel of timely troubleshooting the potential safety hazards, achieves disaster early warning, informs field operation personnel of timely evacuation when the analyzed potential safety hazards cannot be effectively restrained and are about to cause disasters, calls an emergency plan to deal with the disasters, responds and schedules timely, meanwhile, background technicians can conveniently track accident reasons of the disasters through the safety scheduling server 4 and conduct targeted disaster control, disaster management is more accurate and effective, and personnel injury and property loss are reduced. Through the process, the safety supervision system can supervise safety operation of staff, timely troubleshooting and risk early warning are carried out on existing potential safety hazards, response scheduling is timely carried out on disasters, disaster reasons can be conveniently tracked and pertinence treatment is carried out, the method is more accurate and effective, and personnel damage and property loss are reduced.

In order to enable the application client 1 to collect job information and to implement information transmission interaction. Further, each application client 1 includes an information acquisition module 11, an information sending module 12, and an information receiving module 13, where the information acquisition module 11 is configured to acquire operation information data and send the operation information data to the transfer station server 2 through the information sending module 12, and the information receiving module 13 is configured to receive the operation information data or the emergency instruction transmitted by the transfer station server 2, and perform an approval reply on the received operation information. The application program client 1 comprises an information acquisition module 11 for recording operation contents and potential safety hazards, an information sending module 12 and an information receiving module 13, wherein a signal end of the information acquisition module 11 transmits operation information to the transfer station server 2 through the information sending module 12, the transfer station server 2 transmits the operation information to a specified receiving object through the information receiving module 13 according to a specified receiving object of the information sending module 12, the specified receiving object examines and approves the operation information through the information receiving module 13 and feeds back the operation information to an operator along the reverse direction of an original transmission path, and in the process of mine operation, the operator records operation information such as safety inspection preparation work before operation, potential safety hazards information in operation, safety review information after operation and the like through the information acquisition module 11, and the operation information comprises stope safety standard inspection, mine power supply and distribution system inspection, safety review, The information sending module 12 transmits the security inspection operation information to the information receiving module 13 through the transfer station server 2, the information receiving module 13 informs the security inspection operation condition of the specified receiving object, the specified receiving object can review and annotate the operation information in the information receiving module 13, and then the information sending module 12 feeds back the operation information of the operator along the opposite direction of the transmission route. The response device 3 is used for collecting harmful gas concentration information and image information of a working place and carrying out emergency broadcast notification. The safety scheduling server 4 is used for summarizing and analyzing the direct monitoring data transmitted by the response device 3 and the operation information data uploaded by the operation personnel through the information acquisition module 11, analyzing the existing potential safety hazards, and informing the appointed receiving object through the response device 3 and the information receiving module 13 of avoiding the dangerous situation. The safety scheduling server 4 analyzes potential safety hazards existing in the work or the operation construction site of the operation personnel according to the data, informs relevant working personnel of timely troubleshooting the potential safety hazards, achieves disaster early warning, informs field operation personnel of timely evacuation when the analyzed potential safety hazards cannot be effectively restrained and are about to cause disasters, calls an emergency plan to deal with the disasters, responds and schedules timely, meanwhile, background technicians can conveniently track accident reasons of the disasters through the safety scheduling server 4 and conduct targeted disaster control, disaster management is more accurate and effective, and personnel injury and property loss are reduced. Through the process, the application program client 1 can collect operation information and realize information transmission interaction, the safety supervision system can supervise safety operation of workers, potential safety hazards are timely checked and risk early-warning, disaster is timely responded and scheduled, disaster reasons are convenient to track and pertinently managed, the process is more accurate and effective, and personnel damage and property loss are reduced.

In order to enable the safety scheduling server 4 to realize disaster early warning and respond to disasters, the operation safety is ensured. Further, the safety scheduling server 4 includes a data storage module 41, an intelligent disaster early warning module 42 and an emergency plan scheduling module 43, the intelligent disaster early warning module 42 extracts information data stored in the data storage module 41, analyzes whether a potential safety hazard exists, when the potential safety hazard exists, transmits early warning information to the emergency plan scheduling module 43, analyzes an emergency early warning scheduling scheme matched with the type of the potential safety hazard, and instructs the data storage module 41 to schedule a corresponding emergency early warning scheduling scheme and send a corresponding emergency instruction, wherein the information data stored in the data storage module 41 includes the emergency early warning scheduling scheme data and operation information data transmitted by the transfer station server 2, and direct monitoring data. The signal end of the emergency plan scheduling module 43 performs signaling interaction with the signal end of the intelligent disaster early warning module 42, the signal end of the transfer station server 2 is in communication connection with the signal end of the data storage module 41, and the signal end of the intelligent disaster early warning module 42 and the signal end of the emergency plan scheduling module 43 perform signaling interaction with the signal end of the data storage module 41 respectively. The data storage module 41 is configured to store data information, which includes operation information uploaded by the information acquisition module 11, direct monitoring data information such as harmful gas concentration information and image information acquired by the response device 3, and data information such as an emergency plan scheduling scheme. The intelligent disaster warning module 42 extracts the operation information and the directly monitored data information in the data storage module 41, compares the extracted operation information and the directly monitored data information with a preset warning threshold value, analyzes potential safety hazards, and obtains warning information. The emergency plan scheduling module 43 commands the data storage module 41 to schedule a corresponding emergency early warning scheduling scheme according to the early warning information analysis result, and informs the designated receiving object of avoiding the dangerous case in time. Through the process, the safety scheduling server 4 realizes disaster early warning and responds to the disaster, and operation safety is guaranteed.

In order to enable the response device 3 to collect directly measurable data in an operation site, respond to dangerous situations in time and inform operators of avoiding risks in time, and the construction operation process is safer. Further, the response device 3 includes a gas detector 31, a camera device 32 and an emergency broadcasting device 33, the concentration information data of the harmful gas collected by the gas detector 31 and the image information data of the field operation site collected by the camera device 32 together constitute direct monitoring data, and the emergency broadcasting device 33 receives and executes the emergency instruction transmitted by the transfer station server 2. The gas detector 31, the camera 32, and the emergency broadcasting device 33 perform signal transmission via the relay station server 2 and the safety dispatching server 4, respectively. The gas detector 31 is used for collecting concentration information of harmful gases, and detecting concentration values of harmful gases such as methane or carbon monoxide, the camera device 32 is used for collecting image information of a field operation place, and the emergency broadcasting device 33 is used for carrying out emergency broadcasting notification and informing operators of avoiding risks in time. Through the structure, the response device 3 can collect direct measurable data in an operation field, and meanwhile, timely response is made to dangerous situations, so that operators are informed in time to avoid risks, and the construction operation process is safer.

In order to enable the information acquisition module 11 to register information such as operation information, daily work content and safe work meetings in time, the operation safety awareness of staff is enhanced, and the safety accident risk is reduced. Further, the job information data collected by the information collection module 11 includes at least one of pre-job security check information data, in-job potential safety hazard information data, post-job security review information data, work log information data, and conference information data. The operation personnel can in time register operation information data through the information acquisition module 11, mainly include following each aspect: before the operation of an operator, selecting a pre-operation information registration option in the information acquisition module 11, and registering security check information in time; during the operation of the operator, an information registration option in the operation is selected in the information acquisition module 11, and the potential safety hazard information is registered in time; after the operation of the operator, the information acquisition module 11 selects an after-operation information registration option, checks the field operation environment again, and then fills in safety recheck information, registers potential safety hazards in time, ensures smooth handover with the next operator, and feeds back the information to a specified receiving object in time through the transfer station server 2, so that the background safety scheduling server 4 and related responsible persons can know the work dynamic information of the operation field in time, perform early warning analysis on possible disasters, respond to the existing potential safety hazards in time, and reduce the risk of safety accidents. The operator can also collect the work log information data through the information collection module 11, which is specifically as follows: the operating personnel select the working log option in the information acquisition module 11, fill in the working log information and transmit to the relevant responsible person for gathering and auditing, thereby facilitating the operation personnel to summarize the daily work content, facilitating the relevant responsible person to perform performance assessment on the working condition of the operating personnel, and supervising and urging the operating personnel to strengthen the safety work consciousness in the daily work. The operator can also collect conference information data through the information collection module 11, which is specifically as follows: the user selects the meeting recording option in the information acquisition module 11, can click the video recording option to perform real-time video recording or upload the meeting video in the whole process of the meeting, and can fill meeting information such as a meeting theme, a meeting place, meeting time, a meeting list and the like in the meeting recording option of the information acquisition module 11. Through the process, the safe working meeting of the user is recorded and analyzed, and the user can conveniently count the implementation condition of daily safe training.

The user can conveniently upload the image data when collecting the information data. Further, the information collection module 11 may perform video recording by accessing a camera component of the mobile terminal or upload image data by accessing a file library of the mobile terminal. Through the process, the user can conveniently upload the image data when collecting the information data.

Example two

As shown in fig. 3, in order to more clearly illustrate the working process of the safety supervision system, in a second embodiment, a control method for the safety supervision system is provided, which includes the safety supervision system, and is characterized in that: the control method comprises the following steps: step S101: an operator fills up and uploads operation information in the application program client 1, specifies a receiving object, and clicks a submission option, then the application program client 1 transmits the operation information to the application program client 1 of the specified receiving object through the transfer station server 2, and simultaneously the transfer station server 2 transmits the operation information to the safety scheduling server 4 for summary analysis, and the specified receiving object carries out approval reply on the operation information; step S201: the response device 3 transmits the acquired direct monitoring data to the safety dispatching server 4 through the transfer station server 2 for summary analysis; step S301: the safety scheduling server 4 collects the operation information data and the direct monitoring data to analyze whether potential safety hazards exist or not, when the potential safety hazards exist, an emergency early warning scheduling scheme is called, and corresponding emergency instructions are sent to the application program client 1 or the response device 3 through the transfer station server 2 according to emergency disposal information of the emergency early warning scheduling scheme to inform a specified receiving object of avoiding the dangerous situations in time. By the control method, the safety supervision system can supervise the safety operation of the staff, timely troubleshoot the potential safety hazard and early warn the risk, and timely respond and schedule the disaster.

In order to enable the information acquisition module 11 to register the operation information in time, realize information transmission interaction in time and reduce the risk of safety accidents. Further, each application client 1 comprises an information collection module 11, an information sending module 12 and an information receiving module 13, in step S101, the operator fills in the upload job information in the information collection module 11, designates the receiving object, clicks the submit option, then, the job information is transmitted to the relay server 2 through the information transmission module 12, the relay server 2 transmits the job information to a designated reception object through the information reception module 13, meanwhile, the job information is transmitted to the safety scheduling server 4 for summary analysis, the designated receiving object reviews or notes the job information in the information receiving module 13, and feeds back the job information to the operator along the reverse direction of the original transmission path, in step S301, when there is a potential safety hazard, the safety dispatching server 4 sends a corresponding emergency instruction to the information collection module 11 through the transfer station server 2. Before the field operation, an operator selects a pre-operation information registration option in the information acquisition module 11 and fills in safety inspection information before the operation; during the field operation of an operator, selecting an information registration option in the operation from the information acquisition module 11, and filling the information of potential safety hazards found in the operation; after the operator performs the field operation, the information acquisition module 11 selects an after-operation information registration option, and fills in the safety recheck information for rechecking the field operation environment after the operation, so as to register the potential safety hazard in time and ensure the smooth handover with the next operator. In step S301, the safety scheduling server 4 is configured to summarize and analyze the direct monitoring data transmitted by the response device 3 and the job information data uploaded by the job personnel through the information acquisition module 11, analyze potential safety hazards, and notify the designated receiving object through the response device 3 or the information receiving module 13 of avoiding a dangerous situation in time. By the control method, the information acquisition module 11 can register the operation information in time, information transmission interaction is realized in time, and the safety accident risk is reduced.

In order to enable the safety scheduling server 4 to realize disaster early warning and respond to disasters, the operation safety is ensured. Further, the safety scheduling server 4 includes a data storage module 41, an intelligent disaster early warning module 42 and an emergency plan scheduling module 43, in step S301, the data storage module 41 receives the operation information data and the direct monitoring data through the transfer station server 2 and stores the data in a summary manner, the intelligent disaster early warning module 42 presets a warning threshold for the measurable indexes in the operation information data and the direct monitoring data, extracts the operation information data and the direct monitoring data from the data storage module 41, analyzes whether there is a safety hazard by comparing the actual measurable index data with the warning threshold, and when the actual measurable index data reaches or exceeds the warning threshold, it indicates that there is a safety hazard, the intelligent disaster early warning module 42 transmits the analyzed early warning information to the emergency plan scheduling module 43, the emergency plan scheduling module 43 analyzes the emergency early warning scheduling scheme matched with the type of the safety hazard according to the early warning information, and the command data storage module 41 calls the corresponding emergency early warning scheduling scheme. The transfer station server 2 informs the appointed receiving object of the emergency early warning scheduling scheme through the response device 3 or the application program client 1 to avoid dangerous situations in time. Wherein, the measurable indexes include but are not limited to the following various conditions: the conditions of lighting use voltage, voltage of a row lamp or a movable lighting lamp, inventory amount of a blasting equipment warehouse, air quality, harmful gas concentration, air quantity, wind speed, wind quality measurement, whether equipment is protected to be grounded or connected to zero and the like. By the control method, the safety scheduling server 4 can realize disaster early warning and respond to the disaster, and the operation safety is ensured.

In order to enable the response device 3 to collect directly measurable data in an operation site, respond to dangerous situations in time and inform operators of avoiding risks in time, and the construction operation process is safer. The response device 3 includes a gas detector 31, a camera device 32 and an emergency broadcasting device 33, in step S201, the gas detector 31 collects concentration information data of harmful gas, the camera device 32 collects image information data of a field operation place, and then transmits the collected direct monitoring data to the dispatch server 4 through the transfer station server 2 for summary analysis, and in step S301, when there is a potential safety hazard, the dispatch server 4 transmits a corresponding emergency instruction to the emergency broadcasting device 33 through the transfer station server 2. In step S301, the safety scheduling server 4 presets a warning threshold for the measurable index in the operation information data and the direct monitoring data, analyzes the potential safety hazard by comparing the actual measurable index data with the warning threshold, and when the actual measurable index data reaches or exceeds the warning threshold, the potential safety hazard is indicated, and the safety scheduling server 4 transmits a corresponding emergency instruction to the application client 1 or the emergency broadcasting device 33 through the transfer station server 2 according to the emergency disposal information of the emergency early warning scheduling scheme, so as to inform the designated receiving object of avoiding the dangerous situation in time. The gas detector 31 can detect the concentration value of harmful gas such as methane or carbon monoxide, and the response device 3 can collect directly measurable data in an operation field by the control method, and simultaneously respond to dangerous situations in time to inform operators in time to avoid risks, so that the construction operation process is safer.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (10)

1. A security surveillance system, characterized by:

the system comprises at least two application program clients (1), a transfer station server (2), a response device (3) and a safety scheduling server (4);

the safety scheduling server (4) receives and analyzes the operation information data or the direct monitoring data transmitted by the transfer station server (2), then calls an emergency early warning scheduling scheme, and sends an emergency instruction to the application program client (1) or the response device (3) through the transfer station server (2) according to emergency disposal information of the emergency early warning scheduling scheme;

the operation information data is collected and transmitted to the transfer station server (2) by the application program client (1), and the direct monitoring data is collected and transmitted to the transfer station server (2) by the response device (3).

2. The safety supervision system according to claim 1, characterized in that:

each application program client (1) comprises an information acquisition module (11), an information sending module (12) and an information receiving module (13);

the information acquisition module (11) is used for acquiring operation information data and sending the operation information data to the transfer station server (2) through the information sending module (12);

the information receiving module (13) is used for receiving the operation information data or the emergency instruction transmitted by the transfer station server (2) and performing approval reply on the received operation information.

3. The safety supervision system according to claim 1, characterized in that:

the safety scheduling server (4) comprises a data storage module (41), an intelligent disaster early warning module (42) and an emergency plan scheduling module (43);

the intelligent disaster early warning module (42) extracts information data stored by the data storage module (41), analyzes whether potential safety hazards exist, transmits early warning information to the emergency plan scheduling module (43) when the potential safety hazards exist, analyzes an emergency early warning scheduling scheme matched with the type of the potential safety hazards, commands the data storage module (41) to call a corresponding emergency early warning scheduling scheme and sends a corresponding emergency instruction;

the information data stored in the data storage module (41) includes emergency early warning scheduling scheme data, and operation information data and direct monitoring data transmitted by the transfer station server (2).

4. The safety supervision system according to claim 1, characterized in that:

the response device (3) comprises a gas detector (31), a camera device (32) and an emergency broadcasting device (33);

the concentration information data of the harmful gas collected by the gas detector (31) and the image information data of the field operation place collected by the camera device (32) form direct monitoring data together;

the emergency broadcasting device (33) receives and executes the emergency instruction transmitted by the transfer station server (2).

5. The safety supervision system according to claim 2, characterized in that:

the operation information data acquired by the information acquisition module (11) comprises at least one of pre-operation safety inspection information data, in-operation potential safety hazard information data, post-operation safety reinspection information data, work log information data and conference information data.

6. The safety supervision system according to claim 2, characterized in that:

the information acquisition module (11) can record video through accessing a camera component of the mobile terminal or access a file library of the mobile terminal to upload image data.

7. A control method for a safety supervision system according to any of claims 1 to 6, comprising the safety supervision system, characterized by: the control method comprises the following steps:

step S101: an operator fills up and uploads operation information in the application program client (1), designates a receiving object, and clicks a submission option, then the application program client (1) transmits the operation information to the application program client (1) of the designated receiving object through the transfer station server (2), and simultaneously the transfer station server (2) transmits the operation information to the safety scheduling server (4) for summary analysis, and the designated receiving object carries out approval reply on the operation information;

step S201: the response device (3) transmits the acquired direct monitoring data to the safety scheduling server (4) through the transfer station server (2) for summary analysis;

step S301: the safety scheduling server (4) collects operation information data and direct monitoring data, analyzes whether potential safety hazards exist or not, calls an emergency early warning scheduling scheme when the potential safety hazards exist, sends a corresponding emergency instruction to the application program client (1) or the response device (3) through the transfer station server (2) according to emergency disposal information of the emergency early warning scheduling scheme, and informs a specified receiving object of avoiding the dangerous case in time.

8. The control method according to claim 7, characterized in that:

each application program client (1) comprises an information acquisition module (11), an information sending module (12) and an information receiving module (13);

in the step S101, the operator fills up and uploads job information in the information acquisition module (11), designates a receiving object, clicks a submission option, and then transmits the job information to the transfer station server (2) through the information transmission module (12);

the transfer station server (2) transmits the operation information to an appointed receiving object through the information receiving module (13), and simultaneously transmits the operation information to the safety scheduling server (4) for summary analysis;

the appointed receiving object reviews or notes the operation information in the information receiving module (13), and feeds back the operation information to the operator along the reverse direction of the original transmission path;

in the step S301, when a potential safety hazard exists, the safety scheduling server (4) sends a corresponding emergency instruction to the information acquisition module (11) through the transfer station server (2).

9. The control method according to claim 7, characterized in that:

the safety scheduling server (4) comprises a data storage module (41), an intelligent disaster early warning module (42) and an emergency plan scheduling module (43);

in the step S301, the data storage module (41) receives the operation information data and the direct monitoring data through the transfer station server (2), and performs data collection and storage;

the intelligent disaster early warning module (42) presets a warning threshold value for measurable indexes in operation information data and direct monitoring data, extracts the operation information data and the direct monitoring data from the data storage module (41), analyzes whether potential safety hazards exist or not by comparing actual measurable index data with the warning threshold value, and when the actual measurable index data reaches or exceeds the warning threshold value, the potential safety hazards exist, and the intelligent disaster early warning module (42) transmits analyzed early warning information to the emergency plan scheduling module (43);

and the emergency plan scheduling module (43) analyzes the emergency early warning scheduling scheme matched with the potential safety hazard type according to the early warning information, and orders the data storage module (41) to schedule the corresponding emergency early warning scheduling scheme.

10. The control method according to claim 7, characterized in that:

the response device (3) comprises a gas detector (31), a camera device (32) and an emergency broadcasting device (33);

in the step S201, the gas detector (31) collects concentration information data of harmful gas, the camera device (32) collects image information data of a field operation place, and then transmits the collected direct monitoring data to the safety scheduling server (4) through the transfer station server (2) for summary analysis;

in the step S301, when there is a potential safety hazard, the safety dispatching server (4) sends a corresponding emergency instruction to the emergency broadcasting device (33) through the transfer station server (2).

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