CN111970485A - Visual overhaul mobile monitoring system and method based on eLTE1.8G wireless private network 30 - Google Patents

Abstract

A visual mobile monitoring system and a monitoring method for overhauling based on an eLTE1.8G wireless private network comprise: the monitoring system comprises a monitoring center, first intelligent mobile equipment and second intelligent mobile equipment, wherein field video data collected by a first camera module of the first intelligent mobile equipment is stored in a first storage module; a fire identification unit of the first data processing module detects whether an open fire is generated by using the field video data and uploads the field video data to a monitoring center; the first acousto-optic alarm module gives out acousto-optic alarm when the fire identification unit detects open fire; the field video data collected by a second camera module of the second intelligent mobile equipment is stored in a second storage module; an intrusion detection unit of the second data processing module detects illegal intrusion of personnel in a danger forbidden area by using the field video data and uploads the field video data to a monitoring center; and the second acousto-optic alarm module gives out acousto-optic alarm when the intrusion detection unit detects intrusion.

Description

Visual overhaul mobile monitoring system and method based on eLTE1.8G wireless private network 30

Technical Field

The invention belongs to the field of power plant equipment maintenance, and particularly relates to a visual maintenance mobile monitoring system and a monitoring method based on an eLTE1.8G wireless private network 30.

Background

In long-term production practice, a large amount of safety measure specifications, emergency management and control systems and maintenance operation management specifications are accumulated in power generation enterprises. Production safety, personnel safety, equipment safety and environmental safety are basic premises of continuous production of power generation enterprises, emergency treatment, major hazard source management and control and overhaul work area management are important dimensions for embodying the safety management level of the enterprises, and the method is a systematic project, multiple associated departments, multiple field personnel, multiple equipment types, various safety violations, complex field conditions, high safety management and CCTV monitoring, and has the defects of high safety management working intensity, poor real-time performance, low efficiency, insufficient safety, untimely risk prediction, lack of active management field safety and the like in all aspects of information-based means.

Along with the design parameters of the power plant are higher and higher, the equipment is more and more complex, and the defects of the traditional safety management can be further highlighted. The safety production is the premise of all business activities of an enterprise, the operation safety is the basic guarantee for effective execution of the maintenance process, the maintenance site environment is complex, the personnel safety consciousness is uneven, the safety management difficulty is high, and the safety management level of the enterprise needs to be improved by means of modern technology.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide a visual mobile monitoring system for overhaul based on an eLTE1.8G wireless private network, which has the advantages of reasonable design, strong maintainability, good transportability and strong compatibility.

The utility model provides a visual maintenance mobile monitoring system based on eLTE1.8G wireless private network, includes: the monitoring center, at least one first intelligent mobile device and at least one second intelligent mobile device, first intelligent mobile device includes: the device comprises a first camera module, a first storage module, a first data processing module, a first eLTE1.8G wireless private network module and a first sound-light alarm module; the method comprises the steps that field video data collected by a first camera module are stored in a first storage module; the first data processing module includes: a fire recognition unit detecting whether an open fire is generated using the live video data; the first eLTE1.8G wireless private network module uploads the field video data to a monitoring center under the condition of networking; the first acousto-optic alarm module gives out acousto-optic alarm when the fire identification unit detects open fire; the second smart mobile device includes: the second camera module, the second storage module, the second data processing module, the second eLTE1.8G wireless private network module and the second acousto-optic alarm module; the field video data collected by the second camera module is stored in a second storage module; the second data processing module includes: the intrusion detection unit is used for detecting illegal intrusion of the personnel in the danger forbidden area by using the field video data; the second eLTE1.8G wireless private network module uploads the field video data to the monitoring center under the networking condition; and the second acousto-optic alarm module gives out acousto-optic alarm when the intrusion detection unit detects intrusion.

Preferably, the first intelligent mobile device is movably arranged on a non-fire work ticket operation site, and the fire identification unit is used for monitoring, analyzing and early warning the operation process of an oil depot oil unloading operation site, a hydrogen station replenishment operation site, an ammonia station replenishment operation site, a temporary stacking area of flammable and explosive materials and a peripheral area of a fire work ticket.

Preferably, the second intelligent mobile device is movably arranged aiming at a danger forbidden area, and personnel in the danger forbidden area are subjected to illegal invasion control on the lower part of the hoisting operation machine, a temporary control area inlet, a high-risk overhaul device inlet, an electrified compartment and closed falling through an invasion detection unit.

Preferably, the visual inspection mobile monitoring system further comprises: an algorithm server; the method comprises the steps that first intelligent mobile equipment and second intelligent mobile equipment send collected field video data to an algorithm server through an eLTE1.8G wireless private network; the algorithm server comprises: and the violation identification unit is used for identifying the field violation behaviors.

Preferably, the violation identification unit comprises: a personnel access counting subunit, a safety helmet identification subunit and a smoking detection subunit.

Preferably, the visual inspection mobile monitoring system further comprises: the handheld mobile device receives the field video data collected by the first intelligent mobile device and the second intelligent mobile device through an eLTE1.8G wireless private network, and views the field video in real time.

Preferably, the handheld mobile device can view the monitoring screen of the specified device in the at least one first intelligent mobile device and the at least one second intelligent mobile device in real time.

Preferably, the handheld mobile device comprises: a screenshot evidence obtaining module and an IP address configuration module; the screenshot evidence obtaining module is used for carrying out screenshot evidence obtaining on the monitoring picture, and the IP address configuration module is used for accessing other networked devices through IP address configuration.

Preferably, the first smart mobile device and the second smart mobile device include: and the mobile power supply module is used for supplying power for the operation of the first intelligent mobile device and the second intelligent mobile device.

Preferably, the second intelligent mobile device is movably and temporarily arranged and temporarily monitors temporary areas of emergency drilling, three training sites and three non-production area operation temporary areas.

The invention also provides a monitoring method using the visual mobile monitoring system based on the eLTE1.8G wireless private network, which comprises the following steps: step 1, accessing at least one first intelligent mobile device and at least one second intelligent mobile device into an eLTE1.8G wireless private network;

step 2, arranging first intelligent mobile equipment aiming at a non-fire work ticket operation field; arranging a second intelligent mobile device aiming at the danger forbidden area;

step 3, starting the first intelligent mobile device and the second intelligent mobile device, starting the first camera module and the second camera module to collect field video data, detecting whether an open fire is generated or not by using the field video data by using a fire identification unit of the first data processing module, and detecting illegal invasion of personnel in the danger forbidden area by using the field video data by using an invasion detection unit of the second data processing module;

step 4, the first intelligent mobile device and the second intelligent mobile device judge whether the eLTE1.8G wireless private network is available, and if the eLTE1.8G wireless private network is available, the field video data are sent to the monitoring center through the eLTE1.8G wireless private network; if the video data are unavailable, continuously storing the live video data in a first storage module and a second storage module of the first intelligent mobile device and the second intelligent mobile device;

and 5, receiving monitoring and analyzing early warning results of the first data processing module and the second data processing module by the first acousto-optic alarm module and the second acousto-optic alarm module, sending out acousto-optic alarm if abnormality occurs, and repeatedly executing the step 3 and the step 4 if abnormality does not occur.

Preferably, step 4 further comprises: the first intelligent mobile device and the second intelligent mobile device send collected field video data to the algorithm server through an eLTE1.8G wireless private network, and the violation identification unit is used for identifying the field violation behaviors.

Preferably, step 4 further comprises: and the violation identification unit is used for counting the entrance and exit of people, identifying the safety helmet and detecting smoking.

Preferably, step 4 further comprises: the first intelligent mobile device and the second intelligent mobile device send collected field video data to the handheld mobile device through an eLTE1.8G wireless private network, and the field video is viewed in real time.

Preferably, step 4 further comprises: and carrying out screenshot evidence obtaining on the monitoring picture, and accessing other networked equipment through IP address configuration.

Compared with the prior art, the invention has the beneficial effects that the real-time performance, the interactivity, the visualization and the initiative of field safety control are enhanced by adopting the informatization, the mobility and the intelligent technology so as to actively early warn the risk environment of the field in time, realize the integration of field safety of precaution, in-process monitoring and evidence obtaining and retrospection afterwards, avoid the occurrence of accidents to the maximum extent, ensure that the production operation can be efficiently and smoothly executed according to the two-ticket standard, and improve the safety operation level of enterprises. Based on the 1.8G wireless private network, the 1.8G wireless whole coverage of the whole plant is realized, a stable, safe and reliable transmission channel is provided for a visual maintenance system, and the problem that dead zones exist in monitoring such as temporary mobile video monitoring, emergency repair and emergency rescue, mobile distribution and control in important dangerous areas is solved. The video data are provided for the video analysis algorithm server, the identification algorithm configuration can be carried out on each device in the algorithm server, and the overall flexibility of the system can be further improved by mobile deployment and intelligent analysis.

Drawings

Fig. 1 is a schematic structural diagram of a visual mobile monitoring system for overhaul based on an eLTE1.8G wireless private network of the present invention;

fig. 2 is a monitoring method of the invention using an eLTE1.8G wireless private network-based visual mobile monitoring system for overhaul.

In the figure:

10-a monitoring center 10;

21-a first smart mobile device 21;

22-a second smart mobile device 22;

30-eLTE 1.8G wireless private network 30;

40-monitoring area;

50-handheld mobile device 50.

Detailed Description

The present application is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present application is not limited thereby.

Example 1: visual maintenance mobile monitoring system based on eLTE1.8G wireless private network

As shown in fig. 1, a visual mobile monitoring system for overhaul based on an lte1.8G wireless private network 30 includes: a local monitoring center 10, at least one first smart mobile device 21, and at least one second smart mobile device 22. The first intelligent mobile device 21 can be used independently, is internally provided with a video analysis algorithm and has an acousto-optic alarm function; the second intelligent mobile device can be used independently, and can also be matched with the first intelligent mobile device 21 to build a temporary working area electronic fence to form a triangular or square electronic fence, so that a sound-light alarm is triggered after a person mistakenly breaks into the electronic fence, and non-working persons are prompted to leave in time. The first smart mobile device 21 includes: the device comprises a first camera module, a first storage module, a first data processing module, a first eLTE1.8G wireless private network module and a first sound-light alarm module; the method comprises the steps that field video data collected by a first camera module are stored in a first storage module; the first data processing module includes: a fire recognition unit detecting whether an open fire is generated using the live video data; the first eLTE1.8G wireless private network module uploads the field video data to the monitoring center 10 under the networking condition; the first acousto-optic alarm module gives out acousto-optic alarm when the fire identification unit detects open fire;

the second smart mobile device 22 includes: the second camera module, the second storage module, the second data processing module, the second eLTE1.8G wireless private network module and the second acousto-optic alarm module; the field video data collected by the second camera module is stored in a second storage module; the second data processing module includes: the intrusion detection unit is used for detecting illegal intrusion of the personnel in the danger forbidden area by using the field video data; the second eLTE1.8G wireless private network module uploads the field video data to the monitoring center 10 under the networking condition; and the second acousto-optic alarm module gives out acousto-optic alarm when the intrusion detection unit detects intrusion.

According to the actual situation of the site of the monitoring area 40, the first intelligent mobile device 21 can be movably arranged on the working site of the non-fire work ticket, especially on the occasion where the monitoring device needs to be temporarily deployed to monitor, analyze and warn the working process, and the fire identification unit is used for monitoring, analyzing and warning the working process of the oil depot oil unloading working site, the hydrogen station supply working site, the ammonia station supply working site, the temporary stacking area of flammable and explosive materials, the peripheral area of the fire work ticket and the like.

The second intelligent mobile device 22 is movably arranged aiming at a danger forbidden area, and is used for carrying out illegal invasion control on personnel in the danger forbidden area through an invasion detection unit under the hoisting operation machine, a temporary control area inlet, a high-risk overhaul device inlet, an electrified compartment and closed falling. And in the boundary defined by the camera, when personnel invade, the equipment automatically starts acousto-optic alarm.

The visual mobile monitoring system for overhauling also comprises: the algorithm server can be configured with other violation identification algorithms; the first intelligent mobile device 21 and the second intelligent mobile device 22 send the collected field video data to the algorithm server through the eLTE1.8G wireless private network; the algorithm server comprises: and the violation identification unit is used for identifying the field violation behaviors. Violation identification units include, but are not limited to: a personnel access counting subunit, a safety helmet identification subunit and a smoking detection subunit.

The visual mobile monitoring system for overhauling also comprises: the handheld mobile device 50 receives the live video data collected by the first smart mobile device 21 and the second smart mobile device 22 through the eLTE1.8G wireless private network, and views the live video in real time.

The handheld mobile device 50 can view the monitoring screen of the specified device of the at least one first smart mobile device 21 and the at least one second smart mobile device 22 in real time.

The handheld mobile device 50 includes: a screenshot evidence obtaining module and an IP address configuration module; the screenshot evidence obtaining module is used for carrying out screenshot evidence obtaining on the monitoring picture, and the IP address configuration module is used for accessing other networked devices through IP address configuration.

The first smart mobile device 21 and the second smart mobile device 22 include: and the mobile power supply module is used for supplying power for the operation of the first intelligent mobile device 21 and the second intelligent mobile device 22.

The equipment has a basic video monitoring function, can be flexibly applied to sites which lack fixed video monitoring equipment or have blind areas and need to monitor the blind areas, and is suitable for occasions needing temporary video monitoring, and the second intelligent mobile equipment 22 is movably and temporarily arranged and carries out temporary monitoring on temporary areas corresponding to emergency drilling, three training sites and three non-production area operation temporary areas.

Application example:

in the overhaul preparation stage, the full preparation of various facility equipment for an overhaul work area is the premise of starting overhaul and comprises physical guardrail deployment, scaffold building, fireproof guardrail deployment and the like, wherein the scaffold building relates to aerial work, and the aerial work relates to whether building personnel wear and use safety belts correctly or not. By taking the visual management and control of the scaffold building site as an example, the standard operation and the building quality of scaffold workers are particularly important, the scaffold building has very strict requirements, the monitoring equipment which is movable and flexibly deployed is applied, the operation behavior of the personnel building the site and the building quality of the scaffold can be monitored in real time, and the operation behavior and the building quality of the scaffold can be transmitted back to the handheld mobile equipment 50 in real time, so that the management efficiency is improved, and the site hidden danger is greatly reduced.

Example 2: monitoring method using visual mobile monitoring system based on eLTE1.8G wireless private network

As shown in fig. 2, a monitoring method using the visual overhaul mobile monitoring system based on the lte1.8G wireless private network includes the following steps:

step 1, accessing at least one first intelligent mobile device 21 and at least one second intelligent mobile device 22 into an eLTE1.8G wireless private network;

step 2, arranging a first intelligent mobile device 21 aiming at a non-fire work ticket operation field; arranging a second smart mobile device 22 for a danger-forbidden zone;

step 3, starting the first intelligent mobile device 21 and the second intelligent mobile device 22, starting to collect field video data by the first camera module and the second camera module, detecting whether an open fire is generated by the fire identification unit of the first data processing module by using the field video data, and detecting illegal invasion of personnel in the danger prohibition area by the invasion detection unit of the second data processing module by using the field video data;

step 4, the first intelligent mobile device 21 and the second intelligent mobile device 22 judge whether the eLTE1.8G wireless private network is available, and if the eLTE1.8G wireless private network is available, the field video data are sent to the monitoring center 10 through the eLTE1.8G wireless private network; if not, continuously saving the live video data in the first storage module and the second storage module of the first smart mobile device 21 and the second smart mobile device 22;

step 4 also includes: the first intelligent mobile device 21 and the second intelligent mobile device 22 transmit the collected field video data to the algorithm server through the eLTE1.8G wireless private network, and the violation identification unit is used for identifying the field violation behaviors. More specifically, a violation identification unit is used for personnel access counting, safety helmet identification and smoking detection.

Step 4 also includes: the first smart mobile device 21 and the second smart mobile device 22 transmit the collected live video data to the handheld mobile device 50 through the etl 1.8g wireless private network, and view the live video in real time. More specifically, screenshot forensics is performed on the monitoring screen, and other devices connected to the network are accessed through IP address configuration.

And 5, receiving monitoring and analyzing early warning results of the first data processing module and the second data processing module by the first acousto-optic alarm module and the second acousto-optic alarm module, sending out acousto-optic alarm if abnormality occurs, and repeatedly executing the step 3 and the step 4 if abnormality does not occur.

Compared with the prior art, the invention has the beneficial effects that the real-time performance, the interactivity, the visualization and the initiative of field safety control are enhanced by adopting the informatization, the mobility and the intelligent technology so as to actively early warn the risk environment of the field in time, realize the integration of field safety of precaution, in-process monitoring and evidence obtaining and retrospection afterwards, avoid the occurrence of accidents to the maximum extent, ensure that the production operation can be efficiently and smoothly executed according to the two-ticket standard, and improve the safety operation level of enterprises. Based on the 1.8G wireless private network, the 1.8G wireless whole coverage of the whole plant is realized, a stable, safe and reliable transmission channel is provided for a visual maintenance system, and the problem that dead zones exist in monitoring such as temporary mobile video monitoring, emergency repair and emergency rescue, mobile distribution and control in important dangerous areas is solved. The video data are provided for the video analysis algorithm server, the identification algorithm configuration can be carried out on each device in the algorithm server, and the overall flexibility of the system can be further improved by mobile deployment and intelligent analysis.

The present applicant has described and illustrated embodiments of the present invention in detail with reference to the accompanying drawings, but it should be understood by those skilled in the art that the above embodiments are merely preferred embodiments of the present invention, and the detailed description is only for the purpose of helping the reader to better understand the spirit of the present invention, and not for limiting the scope of the present invention, and on the contrary, any improvement or modification made based on the spirit of the present invention should fall within the scope of the present invention.

Claims (15)

1. The utility model provides a visual maintenance mobile monitoring system based on eLTE1.8G wireless private network, includes: a monitoring center (10), at least one first smart mobile device (21) and at least one second smart mobile device (22),

the first smart mobile device (21) comprises: the device comprises a first camera module, a first storage module, a first data processing module, a first eLTE1.8G wireless private network module and a first sound-light alarm module; the method comprises the steps that field video data collected by a first camera module are stored in a first storage module; the first data processing module includes: a fire recognition unit detecting whether an open fire is generated using the live video data; the first eLTE1.8G wireless private network module uploads the field video data to a monitoring center (10) under the networking condition; the first acousto-optic alarm module gives out acousto-optic alarm when the fire identification unit detects open fire;

the second smart mobile device (22) comprises: the second camera module, the second storage module, the second data processing module, the second eLTE1.8G wireless private network module and the second acousto-optic alarm module; the field video data collected by the second camera module is stored in a second storage module; the second data processing module includes: the intrusion detection unit is used for detecting illegal intrusion of the personnel in the danger forbidden area by using the field video data; the second eLTE1.8G wireless private network module uploads the field video data to a monitoring center (10) under the networking condition; and the second acousto-optic alarm module gives out acousto-optic alarm when the intrusion detection unit detects intrusion.

2. The eLTE1.8G wireless private network-based visual overhaul mobile monitoring system according to claim 1, wherein the system comprises:

the first intelligent mobile device (21) is movably arranged on a non-fire work ticket operation site, and the fire identification unit is used for monitoring, analyzing and early warning the operation process of an oil depot oil unloading operation site, a hydrogen station replenishment operation site, an ammonia station replenishment operation site, a temporary stacking area of flammable and explosive materials and a peripheral area of a fire work ticket.

3. The eLTE1.8G wireless private network-based visual overhaul mobile monitoring system according to claim 1, wherein the system comprises:

the second intelligent mobile device (22) is movably arranged aiming at a danger forbidden area, and the lower part of the hoisting operation machine, the inlet of a temporary control area, the inlet of a high-risk overhaul device, an electrified compartment and closed falling are subjected to illegal invasion control of personnel in the danger forbidden area through an invasion detection unit.

4. The eLTE1.8G wireless private network-based visual overhaul mobile monitoring system according to any one of claims 1 to 3, wherein:

the visual mobile monitoring system for overhauling also comprises: an algorithm server; the method comprises the steps that a first intelligent mobile device (21) and a second intelligent mobile device (22) send collected field video data to an algorithm server through an eLTE1.8G wireless private network; the algorithm server comprises: and the violation identification unit is used for identifying the field violation behaviors.

5. The eLTE1.8G wireless private network-based visual overhaul mobile monitoring system according to claim 4, wherein the system comprises:

the violation identification unit includes: a personnel access counting subunit, a safety helmet identification subunit and a smoking detection subunit.

6. The eLTE1.8G wireless private network-based visual overhaul mobile monitoring system according to any one of claims 1 to 3, wherein:

the visual mobile monitoring system for overhauling also comprises: the handheld mobile device (50) receives the field video data collected by the first intelligent mobile device (21) and the second intelligent mobile device (22) through the eLTE1.8G wireless private network, and views the field video in real time.

7. The eLTE1.8G wireless private network-based visual overhaul mobile monitoring system according to claim 6, wherein the visual overhaul mobile monitoring system comprises:

the handheld mobile device (50) can view the monitoring pictures of the specified devices in the at least one first intelligent mobile device (21) and the at least one second intelligent mobile device (22) in real time.

8. The eLTE1.8G wireless private network-based visual overhaul mobile monitoring system according to claim 6, wherein the visual overhaul mobile monitoring system comprises:

a handheld mobile device (50) comprising: a screenshot evidence obtaining module and an IP address configuration module; the screenshot evidence obtaining module is used for carrying out screenshot evidence obtaining on the monitoring picture, and the IP address configuration module is used for accessing other networked devices through IP address configuration.

9. The eLTE1.8G wireless private network-based visual overhaul mobile monitoring system according to any one of claims 1 to 3, wherein:

the first smart mobile device (21) and the second smart mobile device (22) include: and the mobile power supply module is used for supplying power for the operation of the first intelligent mobile device (21) and the second intelligent mobile device (22).

10. The eLTE1.8G wireless private network-based visual overhaul mobile monitoring system according to any one of claims 1 to 3, wherein:

the second intelligent mobile equipment (22) can be temporarily built and arranged at any time and any place, and temporary monitoring can be carried out on the temporary areas of emergency drilling, emergencies, three training sites and three non-production area operations.

11. A monitoring method for visual overhaul mobile monitoring system based on eLTE1.8G wireless private network by using any one of claims 1 to (10), comprising the following steps:

step 1, accessing at least one first intelligent mobile device (21) and at least one second intelligent mobile device (22) into an eLTE1.8G wireless private network;

step 2, aiming at a non-fire work ticket operation field, arranging first intelligent mobile equipment (21); arranging a second smart mobile device (22) for a danger-barring area;

step 3, starting a first intelligent mobile device (21) and a second intelligent mobile device (22), starting to collect field video data by a first camera module and a second camera module, detecting whether an open fire is generated by a fire identification unit of a first data processing module by using the field video data, and detecting illegal invasion of personnel in a danger forbidden area by an invasion detection unit of a second data processing module by using the field video data;

step 4, the first intelligent mobile device (21) and the second intelligent mobile device (22) judge whether the eLTE1.8G wireless private network is available, and if the eLTE1.8G wireless private network is available, the field video data are sent to the monitoring center (10) through the eLTE1.8G wireless private network; if not, continuously saving the live video data in the first storage module and the second storage module of the first intelligent mobile device (21) and the second intelligent mobile device (22);

and 5, receiving monitoring and analyzing early warning results of the first data processing module and the second data processing module by the first acousto-optic alarm module and the second acousto-optic alarm module, sending out acousto-optic alarm if abnormality occurs, and repeatedly executing the step 3 and the step 4 if abnormality does not occur.

12. The monitoring method according to claim 11, characterized in that:

step 4 also includes: the first intelligent mobile device (21) and the second intelligent mobile device (22) transmit the collected field video data to the algorithm server through the eLTE1.8G wireless private network, and the violation identification unit is used for identifying the field violation behaviors.

13. The monitoring method according to claim 11, characterized in that:

step 4 also includes: and the violation identification unit is used for counting the entrance and exit of people, identifying the safety helmet and detecting smoking.

14. The monitoring method according to claim 11, characterized in that:

step 4 also includes: the first intelligent mobile device (21) and the second intelligent mobile device (22) send the collected field video data to the handheld mobile device (50) through the eLTE1.8G wireless private network, and the field video is viewed in real time.

15. The monitoring method according to claim 11, characterized in that:

step 4 also includes: and carrying out screenshot evidence obtaining on the monitoring picture, and accessing other networked equipment through IP address configuration.

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