CN109827182B - Safety monitoring system for waste incineration power generation production - Google Patents

Abstract

The invention discloses a safety monitoring system for waste incineration power generation production, belonging to the technical field of monitoring systems; the technical scheme is characterized by comprising an image acquisition module, a data acquisition module and a data acquisition module, wherein the image acquisition module comprises a plurality of image acquisition units, and the image acquisition units are distributed in different areas of a workshop and are used for acquiring images of the environment of the area; the hidden danger characteristic database stores hidden danger characteristic image information; the hidden danger characteristic identification module is used for comparing and judging the image information sent by the image acquisition module with the hidden danger characteristic image in the hidden danger characteristic database; the alarm module receives and responds to the alarm signal sent by the hidden danger characteristic identification module and sends alarm information to the outside; the display module displays and outputs the image information sent by the image acquisition module; the problems that the existing waste incineration power plant consumes manpower and has low safety management efficiency due to the adoption of a manual inspection mode are solved; the production safety state of a workshop for waste incineration power generation can be monitored and checked efficiently and conveniently.

Description

Safety monitoring system for waste incineration power generation production

Technical Field

The invention relates to the technical field of production safety monitoring systems, in particular to a safety monitoring system for safety production of garbage fever.

Background

With the continuous development of economy, the living standard of people is continuously improved, so that more and more garbage is generated. Under the condition that people pay more and more attention to the quality of life, a large amount of garbage causes great troubles to the life of people, and meanwhile, the health of people can be threatened. The garbage incineration power generation is the most common treatment method for the domestic garbage, and the power generation can be realized by directly incinerating the domestic garbage. By adopting the mode of burning the garbage for power generation, new energy can be generated while the waste is treated, so that the repeated cyclic utilization of resources is realized.

The waste incineration power generation mainly comprises the steps of placing waste into a waste storage pit for fermentation, then putting the fermented waste into a waste incinerator for incineration, utilizing high-temperature flue gas generated by incineration to exchange heat with a waste heat boiler, enabling the waste heat boiler to absorb heat to generate superheated steam, and converting the superheated steam into electric energy through steam turbine power generation.

The production steps of the household garbage incineration power generation are various, the environment in a garbage incineration power plant is complex, high-temperature heat sources similar to a garbage incinerator, various cables and liquid-gas pipelines exist, and more potential safety hazards exist. Therefore, in the daily production management process, the safety inspection and hidden danger discharge of the waste incineration power plant are required to be performed frequently, so that the production safety of a workshop is improved, and the probability of occurrence of safety accidents is reduced.

In current waste incineration power generation, mainly patrol and examine the place that has the potential safety hazard easily in the workshop through the security check personnel, and then investigate the potential safety hazard in equipment place, adopt the mode of artifical patrolling and examining, consume the manpower, safety control's inefficiency.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a household garbage incineration power generation management system which can efficiently and conveniently monitor the production safety state of a garbage incineration power generation workshop and investigate the potential safety hazards.

The technical purpose of the invention is realized by the following technical scheme: a safety monitoring system for waste incineration power generation production comprises an image acquisition module, a hidden danger characteristic database, a hidden danger characteristic identification module, an alarm module and a display module;

the system comprises an image acquisition module, a display module and a control module, wherein the image acquisition module is respectively connected with a hidden danger characteristic identification module and the display module, and comprises a plurality of image acquisition units which are distributed in different areas of a workshop;

the hidden danger feature database is connected with the hidden danger feature identification module and stores hidden danger feature image information;

the hidden danger characteristic identification module compares the image information sent by the image acquisition module with the hidden danger characteristic image in the hidden danger characteristic database, and when the similarity between the acquired image and the hidden danger characteristic image exceeds a set value, the hidden danger characteristic identification module sends an alarm signal to the alarm module;

the alarm module is connected with the hidden danger characteristic identification module, receives and responds to an alarm signal sent by the hidden danger characteristic identification module, and sends alarm information to the outside;

and the display module displays and outputs the image information sent by the image acquisition module.

According to the technical scheme, the image acquisition unit comprises a camera, the camera acquires images of the environment of the area, and transmits acquired image information to the display module and the hidden danger characteristic identification module; the display module is used for displaying and outputting the image information sent by the image acquisition module; the hidden danger characteristic identification module is used for comparing the image information sent by the image acquisition module with the hidden danger characteristic image in the hidden danger characteristic database, and then when the similarity between the acquired image and the hidden danger characteristic image exceeds a set value, the hidden danger characteristic identification module sends an alarm signal to the alarm module and sends alarm information to the outside through the alarm module; therefore, monitoring personnel can monitor different regions of a workshop through the display module, the potential safety hazard characteristic identification module automatically monitors the safety of the workshop region, and when the potential safety hazard exists in the workshop region, an alarm is sent to the outside to prompt related personnel, so that the production safety management can be conveniently and efficiently carried out on the waste incineration power generation.

Preferably, the camera sends the acquired image information to the display module through the streaming media server, and the display module displays the image information received by the display module in real time through the streaming media player.

Through the technical scheme, the camera sends the acquired image information to the display module through the streaming media server, and the display module displays the image information received by the display module through the streaming media player, so that monitoring personnel can monitor a workshop image acquisition area in real time, the monitoring timeliness is improved, and operators can check potential safety hazards in time.

Preferably, the image acquisition unit further comprises a GPS locator for positioning the camera, the GPS locator is connected to the hidden danger feature identification module, when the similarity between the acquired image and the hidden danger feature image exceeds a set value, the hidden danger feature identification module sends the position information of the camera to the display module, and the display module displays and outputs the position of the camera.

Through the technical scheme, the image acquisition unit further comprises a GPS (global positioning system) positioner for positioning the camera, the GPS positioner is connected with the hidden danger characteristic identification module, the position of the camera is further positioned through the GPS positioner, when the similarity between the acquired image and the hidden danger characteristic image exceeds a set value, the hidden danger characteristic identification module sends the position information of the camera to the display module, and the display module displays and outputs the position of the camera, so that related personnel can timely and accurately reach corresponding position regions to troubleshoot potential safety hazards.

Preferably, the hidden danger feature database comprises a plurality of hidden danger feature storage areas, the hidden danger feature storage areas correspond to cameras arranged in a workshop one by one, and hidden danger feature image information of a camera acquisition area corresponding to the hidden danger feature storage areas is stored in the hidden danger feature storage areas; the hidden danger characteristic identification module addresses the hidden danger characteristic storage region according to the IP address of the sending camera receiving the image information, and compares and judges the received image information with the hidden danger characteristic image stored in the corresponding hidden danger characteristic storage region.

Through the technical scheme, the hidden danger characteristic database comprises a plurality of hidden danger characteristic storage areas, the hidden danger characteristic storage areas correspond to cameras arranged in a workshop one by one, hidden danger characteristic image information corresponding to the camera acquisition areas is stored in the hidden danger characteristic storage areas, different cameras correspond to different IP addresses, then the hidden danger characteristic identification module addresses the hidden danger characteristic storage areas according to the IP addresses of the sending cameras for receiving the image information, received image information in the hidden danger characteristic storage areas corresponding to the cameras and hidden danger characteristic images stored in the corresponding hidden danger characteristic storage areas are compared and judged, and therefore the efficiency of identifying and judging the acquired images by the hidden danger characteristic identification module is improved.

Preferably, the system also comprises an information sending module, wherein the information sending module is connected with the hidden danger characteristic identification module; the information sending module stores a mobile phone number of a manager, when the similarity between the collected image and the hidden danger characteristic image exceeds a set value, the hidden danger characteristic identification module sends a notification signal to the information sending module, and the information sending module receives and responds to the notification signal sent by the hidden danger characteristic identification module and sends a short message notification to the manager.

According to the technical scheme, the safety monitoring system for waste incineration power generation production further comprises an information sending module, and the information sending module is connected with the hidden danger characteristic identification module; the information sending module stores the mobile phone number of the manager, and then sends a short message notification to the manager through the information sending module when the hidden danger characteristic identification module finds the hidden danger, so that the manager is timely notified of the hidden danger information, and the efficiency of production safety management is improved.

Preferably, the display device further comprises a storage module, wherein the storage module is connected with the display module; and the storage module stores the image information which is received by the display module and sent by the image acquisition module.

According to the technical scheme, the safety monitoring system for waste incineration power generation production further comprises a storage module, and the storage module is connected with the display module; the storage module is used for storing the image information sent by the image acquisition module received by the display module, so that monitoring personnel can conveniently check the acquired image information in the later period.

Preferably, the display module is arranged in a monitoring room, and the alarm module comprises a plurality of field alarm units positioned in a workshop and remote alarm units positioned in the monitoring room; and when the similarity between the collected image and the hidden danger characteristic image exceeds a set value, the field alarm unit and the remote alarm unit send out alarm information to the outside.

According to the technical scheme, the display module is arranged in the monitoring room, and the alarm module comprises a plurality of field alarm units positioned in a workshop and remote alarm units positioned in the monitoring room; when the similarity between the collected image and the hidden danger characteristic image exceeds a set value, the field alarm unit and the remote alarm unit send alarm information to the outside, and then personnel in a production workshop are prompted through the field alarm unit so as to take corresponding emergency measures; the remote alarm unit prompts monitoring personnel, so that the monitoring personnel can check the current potential safety hazard in time and take corresponding treatment measures in time.

Preferably, the system also comprises an intrusion detection module, wherein the intrusion detection module comprises a plurality of human body detection units arranged in a workshop personnel entrance forbidding area, and the human body detection units are connected with the site alarm units with the nearest positions; the human body detection unit detects whether an intruder exists in a forbidden area of the workshop personnel; the human body detection unit sends an intrusion alarm signal to a field alarm unit connected with the human body detection unit when detecting an intruder, and the field alarm unit receives and responds to the intrusion alarm signal sent by the human body detection unit and sends an alarm signal to the outside.

According to the technical scheme, the safety monitoring system for waste incineration power generation production further comprises an intrusion detection module, the intrusion detection module comprises a plurality of human body detection units arranged in the workshop personnel non-access area, and whether an intruder exists in the workshop personnel non-access area or not is detected through the human body detection units; the human body detection unit sends an intrusion alarm signal to a field alarm unit connected with the human body detection unit when detecting the intruder, and the field alarm unit receives and responds to the intrusion alarm signal sent by the human body detection unit and sends an alarm signal to the outside to prompt the intruder to leave the current area in time, so that the possibility of mistakenly entering the dangerous area by workshop staff is reduced, and safety accidents caused by mistakenly entering the dangerous area by the workshop staff are reduced.

In conclusion, the invention has the following beneficial effects:

1. the image acquisition unit comprises a camera, acquires images of the environment of the area in which the camera is positioned, and sends acquired image information to the display module and the hidden danger characteristic identification module; the display module is used for displaying and outputting the image information sent by the image acquisition module; the hidden danger characteristic identification module is used for comparing the image information sent by the image acquisition module with the hidden danger characteristic image in the hidden danger characteristic database, and then when the similarity between the acquired image and the hidden danger characteristic image exceeds a set value, the hidden danger characteristic identification module sends an alarm signal to the alarm module and sends alarm information to the outside through the alarm module; therefore, monitoring personnel can monitor different regions of a workshop through the display module, the potential safety hazard characteristic identification module automatically monitors the safety of the workshop region, and when the workshop region has potential safety hazard, an alarm is sent to the outside to prompt related personnel, so that the production safety management of the waste incineration power generation can be conveniently and efficiently carried out;

2. the hidden danger characteristic database comprises a plurality of hidden danger characteristic storage areas, the hidden danger characteristic storage areas correspond to cameras arranged in a workshop one by one, different cameras correspond to different IP addresses, the hidden danger characteristic identification module addresses the hidden danger characteristic storage areas according to the IP addresses of the sending cameras for receiving the image information, and the received image information and the hidden danger characteristic images stored in the corresponding hidden danger characteristic storage areas are compared and judged in the hidden danger characteristic storage areas corresponding to the cameras, so that the efficiency of identifying and judging the collected images by the hidden danger characteristic identification module is improved;

3. the alarm module comprises a plurality of field alarm units positioned in a workshop and remote alarm units positioned in a monitoring room, alarms are sent to the monitoring room and the workshop field simultaneously when potential safety hazards are found through the field alarm units and the remote alarm units, the safety monitoring system for waste incineration power generation production further comprises an information sending module, and when the potential safety hazards are found through the potential safety feature recognition module, a manager is sent a short message notification through the information sending module, and the potential safety hazards are effectively guaranteed to be found and discharged in time.

Drawings

FIG. 1 is a functional block diagram of safety monitoring in waste incineration power generation production.

Reference numerals: 1. an image acquisition module; 11. an image acquisition unit; 2. a hidden danger feature database; 21. hidden danger characteristic storage areas; 3. a hidden danger feature identification module; 4. an alarm module; 41. a field alarm unit; 42. a remote alarm unit; 5. a display module; 6. a storage module; 7. an intrusion detection module; 71. a human body detection unit; 8. and an information sending module.

Detailed Description

Example (b): a safety monitoring system for waste incineration power generation production refers to FIG. 1, and comprises an image acquisition module 1, a hidden danger feature database 2, a hidden danger feature identification module 3, an alarm module 4 and a display module 5; the system also comprises an intrusion detection module 7, an information sending module 8 and a storage module 6.

Referring to fig. 1, an image acquisition module 1 is connected to a hidden danger feature identification module 3 and a display module 5, respectively. The image acquisition module 1 comprises a plurality of image acquisition units 11, the image acquisition units 11 are distributed in different areas of a workshop, and the image acquisition units 11 comprise cameras and GPS locators for positioning the cameras. The camera collects images of the environment of the area, sends the collected image information to the display module 5 through the streaming media server, and sends the collected image information to the hidden danger characteristic identification module 3. The GPS positioner is connected with the hidden danger characteristic identification module 3, and when the similarity between the collected image and the hidden danger characteristic image exceeds a set value, the hidden danger characteristic identification module 3 sends the position information of the camera to the display module 5. The display module 5 is arranged in a monitoring room and relies on hardware output equipment such as a computer display to remotely monitor the workshop. The display module 5 displays the image information received by the display module 5 in real time through the streaming media player.

Referring to fig. 1, a hidden danger feature database 2 is connected to a hidden danger feature recognition module 3, and hidden danger feature image information is stored in the hidden danger feature database 2. The hidden danger feature identification module 3 adopts an image comparison identification principle to compare the image information sent by the image acquisition module 1 with the hidden danger feature images in the hidden danger feature database 2, and when the similarity between the acquired image and the hidden danger feature images exceeds a set value, the hidden danger feature identification module 3 indicates that hidden danger features exist in the currently acquired image area, and sends an alarm signal to the alarm module 4. The hidden danger feature database 2 comprises a plurality of hidden danger feature storage areas 21, the hidden danger feature storage areas 21 correspond to cameras arranged in a workshop one by one, and hidden danger feature image information of a camera acquisition area corresponding to the hidden danger feature storage areas 21 is stored in the hidden danger feature storage areas; different cameras correspond to different IP addresses, the hidden danger feature identification module 3 addresses the hidden danger feature storage area 21 according to the IP address of the sending camera receiving the image information, and compares and judges the received image information with the hidden danger feature image stored in the corresponding hidden danger feature storage area 21.

Referring to fig. 1, an alarm module 4 is connected to the hidden danger feature recognition module 3, and the alarm module 4 receives and responds to an alarm signal from the hidden danger feature recognition module 3 to send an alarm message to the outside. The alarm module 4 comprises several on-site alarm units 41 located in the plant and remote alarm units 42 located in the monitoring room. The on-site alarm unit 41 employs an audible and visual alarm as an output device, and the remote alarm unit employs a buzzer as an output device. When the similarity between the collected image and the hidden danger characteristic image exceeds a set value, an audible and visual alarm sends out alarm sound to a workshop and an alarm lamp flickers, so that workshop staff are prompted, the workshop has potential safety hazards, and corresponding field emergency measures can be adopted in time; buzzer sends out the sound suggestion in the monitor, and then the suggestion supervisor workshop region has the potential safety hazard to the supervisor looks over current collection image through display module 5, confirms current hidden danger problem, and looks over the position of finding hidden danger characteristic camera through display module 5, and then confirms corresponding potential safety hazard position region, thereby in time carries out the hidden danger investigation and handles.

Referring to fig. 1, the information sending module 8 is connected with the hidden danger feature identification module 3; the information sending module 8 stores a mobile phone number of a manager, when the similarity between the collected image and the hidden danger characteristic image exceeds a set value, namely the waste incineration power generation production safety monitoring system detects production safety hidden dangers, the hidden danger characteristic identification module 3 sends a notification signal to the information sending module 8, and the information sending module 8 receives and responds to the notification signal sent by the hidden danger characteristic identification module 3 and sends a short message notification to the manager. The safety hidden danger information of the current production workshop is timely notified to the manager through short message notification, so that the manager can timely know the safe production condition, and the efficiency of production safety management is improved.

Referring to fig. 1, a memory module 6 is connected to a display module 5; the storage module 6 stores the image information sent by the image acquisition module 1 received by the display module 5. The storage module 6 comprises a local storage hard disk and a network cloud disk. The storage module 6 buffers the image information played by the streaming media player of the display module 5 to a local storage hard disk, and uploads the image information to a network cloud disk, so that a monitor can conveniently play back and view the image information. Through the double-layer storage of the local hard disk and the network cloud disk, the safety of data storage is improved, and the stored image information is prevented from being lost due to accidents.

Referring to fig. 1, the intrusion detection module 7 includes a plurality of human body detection units 71 disposed in a person forbidden area of a workshop. The human body detection unit 71 is connected with the nearest site alarm unit 41; the human body detection unit 71 detects whether an intruder exists in a person forbidden area of the workshop by using a microwave induction detector. When the microwave induction detector senses that a person enters a current monitoring area, the human body detection unit 71 sends an intrusion alarm signal to the field alarm unit 41 connected with the human body detection unit, the field alarm unit 41 receives and responds to the intrusion alarm signal sent by the human body detection unit 71, an audible and visual alarm sends alarm sound to a workshop, and an alarm lamp flickers, so that an illegal intruder is prompted to stop entering the area for the person at present, the possibility that the staff in the workshop mistakenly enters the dangerous area is reduced, and safety accidents caused by the fact that the staff in the workshop mistakenly enters the dangerous area are reduced.

The specific working method principle is as follows:

the camera in the workshop is used for collecting images of equipment and a site in the area where the camera is located, further sending image information to the display module 5 through the streaming media server, and further monitoring personnel utilize the display and other equipment to monitor the workshop in real time through the display module 5. The hidden danger feature identification module 3 addresses the hidden danger feature storage area 21 according to the IP address of the sending camera receiving the image information, and compares and judges the received image information with the hidden danger feature image stored in the corresponding hidden danger feature storage area 21. When the similarity between the collected image and the hidden danger characteristic image exceeds a set value, the hidden danger characteristic identification module 3 sends an alarm signal to the alarm module 4, the acousto-optic alarm in the workshop sends an acousto-optic signal, and the buzzer in the monitoring room sends out a sound prompt to prompt workers in the workshop to take emergency measures and prompt the workers to check in time, and the potential safety hazard problem and the area where the potential safety hazard occurs are determined through the output of the display module 5. When the potential safety hazard is found, the information sending module 8 sends a short message notification to the manager. The safety hidden danger information of the current production workshop is timely notified to the manager through short message notification, so that the manager can timely know the safe production condition, and the efficiency of production safety management is improved. The human body detection unit 71 detects whether an intruder exists in a person forbidden area of the workshop by using a microwave induction detector. When the microwave induction detector senses that someone enters the current monitoring area, the audible and visual alarm nearest to the microwave induction detector sends alarm sound to the workshop and the alarm lamp flickers, so that the illegal intruder is prompted to prohibit entering the area for personnel at present, the possibility that the workshop staff mistakenly enters the dangerous area is reduced, and safety accidents caused by the fact that the workshop staff mistakenly enters the dangerous area are reduced.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (6)

1. The utility model provides a waste incineration power generation production safety monitoring system which characterized in that: the system comprises an image acquisition module (1), a hidden danger feature database (2), a hidden danger feature identification module (3), an alarm module (4) and a display module (5);

the system comprises an image acquisition module (1), a display module (5), a hidden danger characteristic identification module (3), a camera and a hidden danger characteristic identification module (3), wherein the image acquisition module (1) is respectively connected with the hidden danger characteristic identification module (3) and the display module (5), the image acquisition module (1) comprises a plurality of image acquisition units (11), the image acquisition units (11) are distributed in different regions of a workshop, each image acquisition unit (11) comprises a camera, and the camera acquires images of the environment of the region and sends acquired image information to the display module (5) and the hidden danger characteristic identification module (3);

the hidden danger feature database (2) is connected with the hidden danger feature identification module (3), and hidden danger feature image information is stored in the hidden danger feature database (2);

the hidden danger characteristic identification module (3) compares the image information sent by the image acquisition module (1) with the hidden danger characteristic image in the hidden danger characteristic database (2), and when the similarity between the acquired image and the hidden danger characteristic image exceeds a set value, the hidden danger characteristic identification module (3) sends an alarm signal to the alarm module (4);

the alarm module (4) is connected with the hidden danger characteristic identification module (3), and the alarm module (4) receives and responds to an alarm signal sent by the hidden danger characteristic identification module (3) to send alarm information to the outside;

the display module (5) displays and outputs the image information sent by the image acquisition module (1);

the image acquisition unit (11) further comprises a GPS (global positioning system) positioner for positioning the camera, the GPS positioner is connected with the hidden danger feature identification module (3), when the similarity between the acquired image and the hidden danger feature image exceeds a set value, the hidden danger feature identification module (3) sends the position information of the camera to the display module (5), and the display module (5) displays and outputs the position of the camera;

the hidden danger characteristic database (2) comprises a plurality of hidden danger characteristic storage areas (21), the hidden danger characteristic storage areas (21) correspond to cameras arranged in a workshop one by one, and hidden danger characteristic image information of a camera acquisition area corresponding to the hidden danger characteristic storage areas (21) is stored in the hidden danger characteristic storage areas; different cameras correspond to different IP addresses, the hidden danger characteristic identification module (3) addresses the hidden danger characteristic storage area (21) according to the IP address of the sending camera receiving the image information, and compares and judges the received image information with the hidden danger characteristic image stored in the corresponding hidden danger characteristic storage area (21).

2. The waste incineration power generation production safety monitoring system of claim 1, characterized in that: the camera sends the collected image information to the display module (5) through the streaming media server, and the display module (5) displays the image information received by the display module (5) in real time through the streaming media player.

3. The waste incineration power generation production safety monitoring system of claim 1, characterized in that: the hidden danger characteristic identification system is characterized by further comprising an information sending module (8), wherein the information sending module (8) is connected with the hidden danger characteristic identification module (3); the information sending module (8) stores a mobile phone number of a manager, when the similarity between the collected image and the hidden danger characteristic image exceeds a set value, the hidden danger characteristic identification module (3) sends a notification signal to the information sending module (8), and the information sending module (8) receives and responds to the notification signal sent by the hidden danger characteristic identification module (3) and sends a short message notification to the manager.

4. The waste incineration power generation production safety monitoring system of claim 1, characterized in that: the display device also comprises a storage module (6), wherein the storage module (6) is connected with the display module (5); and the storage module (6) stores the image information which is received by the display module (5) and sent by the image acquisition module (1).

5. The waste incineration power generation production safety monitoring system of claim 1, characterized in that: the display module (5) is arranged in a monitoring room, and the alarm module (4) comprises a plurality of field alarm units (41) positioned in a workshop and remote alarm units (42) positioned in the monitoring room; and when the similarity between the collected image and the hidden danger characteristic image exceeds a set value, the field alarm unit (41) and the remote alarm unit (42) send alarm information to the outside.

6. The waste incineration power generation production safety monitoring system of claim 5, wherein: the system is characterized by further comprising an intrusion detection module (7), wherein the intrusion detection module (7) comprises a plurality of human body detection units (71) arranged in a workshop personnel forbidden area, and the human body detection units (71) are connected with a field alarm unit (41) with the nearest position; the human body detection unit (71) detects whether an intruder exists in a forbidden area of the personnel in the workshop; the human body detection unit (71) sends an intrusion alarm signal to a field alarm unit (41) connected with the human body detection unit when detecting an intruder, and the field alarm unit (41) receives and responds to the intrusion alarm signal sent by the human body detection unit (71) and sends an alarm signal to the outside.

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