CN108919766B

CN108919766B - BIM technology-based safety production integrated supervision platform

Info

Publication number: CN108919766B
Application number: CN201810853681.4A
Authority: CN
Inventors: 李岳峰; 梁秋芳; 叶立军; 陈建江; 余天京
Original assignee: Zhejiang Zhongbo Information Engineering Co ltd
Current assignee: Zhejiang Zhongbo Information Engineering Co ltd
Priority date: 2018-07-30
Filing date: 2018-07-30
Publication date: 2020-06-09
Anticipated expiration: 2038-07-30
Also published as: CN108919766A

Abstract

The invention discloses a BIM technology-based integrated monitoring platform for safety production, which comprises a central system, wherein the central system reads fire protection detection data and video information in a factory through a sensor and a camera which are connected and installed in the factory or reads the detection data and the video information of a fire protection system in the original factory through a gateway; the central system is connected with an anti-false alarm detection system which alarms when detecting that at least two types of sensors simultaneously receive fire signals; the central system calculates a death boundary, an evacuation route, a rescue route and a chain accident range according to the real-time surplus data, and if dangerous goods exist in the chain accident range, the value after the chain accident occurs is used as a final calculation value; the central system is connected with a dangerous goods vehicle path command system. The integrated supervision platform for safety production integrates and utilizes the fire-fighting system of the existing enterprise, can accurately calculate the fire-fighting evacuation range, and can plan the optimal operation path of the dangerous goods transport vehicle.

Description

BIM technology-based safety production integrated supervision platform

Technical Field

The invention belongs to the field of safety management systems, and particularly relates to a BIM technology-based safety production integrated supervision platform.

Background

The original fire management system is controlled by manual dispatching except 119 and 110 alarm systems; which comprises the following steps: after receiving the alarm, the fire fighting team selects, the fire fighting vehicle dispatches, the fire fighter is equipped with, the fire fighting route is selected, the fire fighting target is known, the floor layout is realized, the fire hydrant is searched, and the like, and the fire fighting is carried out by manpower. And the manual scheduling is difficult to solve the causes of the fire on site, burning substances and traffic conditions, so that the rescue means cannot be accurately implemented, the rescue speed is slow, and the fire loss is enlarged.

In the prior art, the three-dimensional fire-fighting management system gradually replaces manual scheduling, and solves a series of problems in fire fighting actual combat. For example, the three-dimensional digital urban fire-fighting pre-control management system disclosed in publication number CN101763605A can quickly analyze a rescue path, quickly understand and prepare needed rescue materials, and divide dangerous evacuation areas, etc., whereas the existing three-dimensional digital urban fire-fighting pre-control management system generally uses pre-entered data, and has low data accuracy, and inaccurate division of fire situations and dangerous evacuation areas; meanwhile, the existing enterprises generally have a set of fire-fighting system respectively, and if the fire-fighting system is installed in a unified manner, the installation cost is high undoubtedly, and the original fire-fighting system is wasted; and current three-dimensional digital city fire control precontrol management system generally only takes place the condition of conflagration to the inside condition of breaing out of factory, does not provide the planning to the transport route of hazardous articles haulage vehicle, if the hazardous articles haulage vehicle explodes near the enterprise that the storage capacity of hazardous articles is great and can lead to the enterprise to take place the secondary explosion, consequently plans the transport route of hazardous articles haulage vehicle and also prevents that the chain accident from taking place indispensable in the fire control management system.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the BIM technology-based integrated monitoring platform for safety production, which integrates and utilizes the fire-fighting system of the existing enterprise, can accurately calculate the fire-fighting evacuation range and can plan the optimal running path of the dangerous goods transport vehicle.

In order to solve the technical problem, the invention is solved by the following technical scheme: a BIM technology-based integrated supervision platform for safety production comprises a central system, wherein the central system is respectively connected with a 119 alarm receiving terminal, a command scheduling terminal and a GPS terminal, and the GPS terminal comprises a GPS global satellite positioning system, a GSM/GPRS cellular network communication system, a GIS geographic information system and a computer network communication system; the central system comprises a three-dimensional model established by an actual regional scene, and a factory name, factory position information, dangerous goods warehouse position information, factory equipment information, dangerous goods type, corresponding fire extinguishing equipment, fire extinguishing equipment position information and dangerous goods production workshop information are recorded in the three-dimensional model according to the actual scene; the central system reads fire protection detection data and video information in a factory through a sensor and a camera which are connected and installed in the factory or reads the detection data and the video information of the fire protection system of the original factory through a gateway; the sensors comprise a temperature sensor, a humidity sensor, a pressure sensor and a smoke sensor; the central system is connected with an anti-false alarm detection system, and the anti-false alarm detection system alarms when detecting that at least two types of sensors simultaneously receive fire signals; a margin detection device for detecting the margin in real time is arranged in the factory equipment, the dangerous goods warehouse and the fire extinguishing equipment warehouse and is connected with the central system, the central system extracts stable real-time margin data in the factory equipment, the dangerous goods warehouse and the fire extinguishing equipment warehouse in a period of time before the alarm signal when receiving the alarm signal, a death boundary, an evacuation route, a rescue route and a chain accident range are calculated according to the real-time margin data, and if dangerous goods exist in the chain accident range, the value after the chain accident occurs is taken as a final calculated value; the center system is connected with a dangerous goods vehicle path command system, records the types of dangerous goods transported by dangerous goods vehicles, a margin detection device and a GPS positioning device for detecting margins in real time are installed on the dangerous goods vehicles, the influence range of the dangerous goods vehicles is calculated, the paths are planned according to real-time dangerous goods position information and the margins of the three-dimensional model to avoid dangerous goods warehouses and dangerous goods workshops, GPS positioning information of the vehicles is recorded in real time, the GPS positioning information is guided into the GIS system after conversion of geographic coordinates and signal filtering, the movement tracks of the dangerous goods vehicles are displayed on the three-dimensional model, and alarm signals are sent out when the movement tracks deviate from the planned paths. The integrated supervision platform for the safety production can observe factory names, factory position information, dangerous article warehouse position information, factory equipment information, dangerous article types, corresponding fire extinguishing equipment, fire extinguishing equipment position information and dangerous article production workshop information in real time, can observe dangerous article allowance in the factory equipment and the dangerous article warehouse and fire extinguishing equipment allowance in the fire extinguishing equipment warehouse in real time, can indicate the optimal transportation path of dangerous article vehicles, and sends out alarm signals when the dangerous article vehicles deviate from the optimal transportation path, so that chain accidents in the transportation process of the dangerous articles are prevented; when a fire disaster occurs, the rescue equipment, the death boundary, the evacuation route, the rescue route and the chain accident range can be calculated and indicated according to the real-time margin data, and the effect of more accurate calculation is achieved.

In the above technical solution, preferably, the central system is connected to a query statistical system, and based on a statistical analysis strategy and according to a national fire loss statistical method, operations are performed in an icon manner, and through operations of entering, editing, modifying, and deleting basic fire loss data, a general fire loss statistical mathematical model is established, so as to implement corresponding statistical operations and generate data. The integrated supervision platform for safety production can conveniently carry out inquiry statistics, is beneficial to increasing the understanding of fire, and can optimize an algorithm according to experience.

In the above technical solution, preferably, the remainder detecting device is a gravity sensor or a pressure sensor. And the gravity sensor or the pressure sensor is low in cost and high in detection accuracy.

In the technical scheme, preferably, the three-dimensional model carries out garden-wide area labeling on garden enterprises according to safety through BIM technology and enterprise type classification, the labeling embodies the safety level of the enterprises according to the color depth, and the omnibearing roaming and management are carried out on the garden through clicking the labeling and entering into a finer-level enterprise description. Enterprise information in the whole garden area can be more conveniently and clearly roamed and managed through classification and marking.

In the above technical solution, preferably, the method for reading the detection data and the video information of the fire protection system of the original factory through the gateway is as follows: the access of enterprise end sensors and detectors is carried out by adopting an Internet of things gateway, and the gateway is in one-key access to sensors, cameras and fire detectors of various brands through a plurality of interfaces reserved with different protocols. Through independently developing the thing networking gateway, carry out the access of enterprise end sensor and detector, the system carries out the pertinence development back to the gateway, and equipment such as the different brand sensors of every enterprise, camera, fire control detector only need access thing networking gateway, but the gateway is through reserving a plurality of interfaces of different agreements one-key formula access, realizes the convenience that low-cost system reforms transform and increase.

In the above technical solution, preferably, the physical association and logic between the plant equipment and the sensor are embodied in the three-dimensional model, and the basic information of each equipment and the dynamic data acquired by the sensor are embodied in the model in real time. Therefore, visualization of equipment management of a production workshop is realized, and management is convenient.

In the technical scheme, preferably, the supervision platform is provided with a demonstration system, the demonstration system visually demonstrates explosion or fire in the three-dimensional model through data analysis of real-time dangerous article position information and allowance, different damage degrees are distinguished by adopting different colors, and storage conditions of dangerous articles in an enterprise warehouse with an explosion range nearby are listed simultaneously. The rescue device is convenient for pertinence rescue when an emergency accident happens, improves rescue efficiency and reduces secondary damage.

Compared with the prior art, the invention has the following beneficial effects: the integrated supervision platform for the safety production can observe factory names, factory position information, dangerous article warehouse position information, factory equipment information, dangerous article types, corresponding fire extinguishing equipment, fire extinguishing equipment position information and dangerous article production workshop information in real time, can observe dangerous article allowance in the factory equipment and the dangerous article warehouse and fire extinguishing equipment allowance in the fire extinguishing equipment warehouse in real time, can indicate the optimal transportation path of dangerous article vehicles, and sends out alarm signals when the dangerous article vehicles deviate from the optimal transportation path, so that chain accidents in the transportation process of the dangerous articles are prevented; when a fire disaster occurs, the rescue equipment, the death boundary, the evacuation route, the rescue route and the chain accident range can be calculated and indicated according to the real-time margin data, and the effect of more accurate calculation is achieved.

Drawings

Fig. 1 is a schematic view of a connection structure according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the following detailed description and accompanying drawings: referring to fig. 1, a BIM technology-based integrated monitoring platform for safety production comprises a central system, wherein the central system is respectively connected with a 119 alarm receiving terminal, a commanding and dispatching terminal and a GPS terminal, and the GPS terminal comprises a GPS global satellite positioning system, a GSM/GPRS cellular network communication system, a GIS geographic information system and a computer network communication system; the central system comprises a three-dimensional model established by an actual regional scene, and a factory name, factory position information, dangerous goods warehouse position information, factory equipment information, dangerous goods type, corresponding fire extinguishing equipment, fire extinguishing equipment position information and dangerous goods production workshop information are recorded in the three-dimensional model according to the actual scene; the central system reads fire protection detection data and video information in a factory through a sensor and a camera which are connected and installed in the factory or reads the detection data and the video information of the fire protection system of the original factory through a gateway; the sensors comprise a temperature sensor, a humidity sensor, a pressure sensor and a smoke sensor; the central system is connected with an anti-false alarm detection system, and the anti-false alarm detection system alarms when detecting that at least two types of sensors simultaneously receive fire signals; a margin detection device for detecting the margin in real time is arranged in the factory equipment, the dangerous goods warehouse and the fire extinguishing equipment warehouse and is connected with the central system, the central system extracts stable real-time margin data in the factory equipment, the dangerous goods warehouse and the fire extinguishing equipment warehouse in a period of time before the alarm signal when receiving the alarm signal, a death boundary, an evacuation route, a rescue route and a chain accident range are calculated according to the real-time margin data, and if dangerous goods exist in the chain accident range, the value after the chain accident occurs is taken as a final calculated value; the center system is connected with a dangerous goods vehicle path command system, records the types of dangerous goods transported by dangerous goods vehicles, a margin detection device and a GPS positioning device for detecting margins in real time are installed on the dangerous goods vehicles, the influence range of the dangerous goods vehicles is calculated, the paths are planned according to real-time dangerous goods position information and the margins of the three-dimensional model to avoid dangerous goods warehouses and dangerous goods workshops, GPS positioning information of the vehicles is recorded in real time, the GPS positioning information is guided into the GIS system after conversion of geographic coordinates and signal filtering, the movement tracks of the dangerous goods vehicles are displayed on the three-dimensional model, and alarm signals are sent out when the movement tracks deviate from the planned paths. The integrated supervision platform for the safety production can observe factory names, factory position information, dangerous article warehouse position information, factory equipment information, dangerous article types, corresponding fire extinguishing equipment, fire extinguishing equipment position information and dangerous article production workshop information in real time, can observe dangerous article allowance in the factory equipment and the dangerous article warehouse and fire extinguishing equipment allowance in the fire extinguishing equipment warehouse in real time, can indicate the optimal transportation path of dangerous article vehicles, and sends out alarm signals when the dangerous article vehicles deviate from the optimal transportation path, so that chain accidents in the transportation process of the dangerous articles are prevented; when a fire disaster occurs, the rescue equipment, the death boundary, the evacuation route, the rescue route and the chain accident range can be calculated and indicated according to the real-time margin data, and the effect of more accurate calculation is achieved.

The central system is connected with an inquiry statistical system, and is used for calculating in an icon mode according to a national fire loss statistical method and a statistical analysis strategy, establishing a common fire loss statistical mathematical model through the input, editing, modification and deletion operations of fire loss basic data, realizing corresponding statistical calculation and generating data. The integrated supervision platform for safety production can conveniently carry out inquiry statistics, is beneficial to increasing the understanding of fire, and can optimize an algorithm according to experience.

The residual amount detection device is a gravity sensor or a pressure sensor. And the gravity sensor or the pressure sensor is low in cost and high in detection accuracy.

The three-dimensional model carries out whole garden region labeling on garden enterprises according to safety through BIM technology and enterprise type classification, the labeling embodies the safety level of the enterprises according to color depth, and omnibearing roaming and management are carried out on the garden by clicking the labeling to enter into a finer-level enterprise description. Enterprise information in the whole garden area can be more conveniently and clearly roamed and managed through classification and marking.

The method for reading the detection data and the video information of the fire-fighting system of the original factory through the gateway comprises the following steps: the access of enterprise end sensors and detectors is carried out by adopting an Internet of things gateway, and the gateway is in one-key access to sensors, cameras and fire detectors of various brands through a plurality of interfaces reserved with different protocols. Through independently developing the thing networking gateway, carry out the access of enterprise end sensor and detector, the system carries out the pertinence development back to the gateway, and equipment such as the different brand sensors of every enterprise, camera, fire control detector only need access thing networking gateway, but the gateway is through reserving a plurality of interfaces of different agreements one-key formula access, realizes the convenience that low-cost system reforms transform and increase.

Physical association and logic of the plant equipment and the sensors are embodied in a three-dimensional model, and basic information of each equipment and dynamic data acquired by the sensors are embodied in the model in real time. Therefore, visualization of equipment management of a production workshop is realized, and management is convenient.

The monitoring platform is provided with a demonstration system, the demonstration system visually demonstrates explosion or fire in the three-dimensional model through data analysis of real-time dangerous article position information and allowance, different damage degrees are distinguished by adopting different colors, and storage conditions of warehouse dangerous articles of enterprises in an explosion range are listed. The rescue device is convenient for pertinence rescue when an emergency accident happens, improves rescue efficiency and reduces secondary damage.

Claims

1. A BIM technology-based integrated supervision platform for safety production comprises a central system, wherein the central system is respectively connected with a 119 alarm receiving terminal, a command scheduling terminal and a GPS terminal, and the GPS terminal comprises a GPS global satellite positioning system, a GSM/GPRS cellular network communication system, a GIS geographic information system and a computer network communication system; the central system comprises a three-dimensional model established by an actual regional scene, and a factory name, factory position information, dangerous goods warehouse position information, factory equipment information, dangerous goods type, corresponding fire extinguishing equipment, fire extinguishing equipment position information and dangerous goods production workshop information are recorded in the three-dimensional model according to the actual scene; the method is characterized in that: the central system reads fire protection detection data and video information in a factory through a sensor and a camera which are connected and installed in the factory or reads the detection data and the video information of the fire protection system of the original factory through a gateway; the sensors comprise a temperature sensor, a humidity sensor, a pressure sensor and a smoke sensor; the central system is connected with an anti-false alarm detection system, and the anti-false alarm detection system alarms when detecting that at least two types of sensors simultaneously receive fire signals; surplus detection devices for detecting surplus in real time are arranged in the factory equipment, the dangerous goods warehouse and the fire extinguishing equipment warehouse and are connected with the central system, the central system extracts stable real-time surplus data in the factory equipment, the dangerous goods warehouse and the fire extinguishing equipment warehouse in a period of time before the alarm signal when receiving the alarm signal, a death boundary, an evacuation route, a rescue route and a chain accident range are calculated according to the real-time surplus data, and if dangerous goods exist in the chain accident range, the value after the chain accident occurs is used as a final calculated value; the center system is connected with a dangerous goods vehicle path command system, records the types of dangerous goods transported by dangerous goods vehicles, a margin detection device and a GPS positioning device for detecting margins in real time are installed on the dangerous goods vehicles, the influence range of the dangerous goods vehicles is calculated, the paths are planned according to real-time dangerous goods position information and the margins of the three-dimensional model to avoid dangerous goods warehouses and dangerous goods workshops, GPS positioning information of the vehicles is recorded in real time, the GPS positioning information is guided into the GIS system after conversion of geographic coordinates and signal filtering, the movement tracks of the dangerous goods vehicles are displayed on the three-dimensional model, and alarm signals are sent out when the movement tracks deviate from the planned paths.

2. The BIM technology-based integrated supervisory platform for safety production according to claim 1, wherein: the central system is connected with an inquiry statistical system, and is used for calculating in an icon mode according to a national fire loss statistical method and a statistical analysis strategy, establishing a common fire loss statistical mathematical model through the input, editing, modification and deletion operations of fire loss basic data, realizing corresponding statistical calculation and generating data.

3. The BIM technology-based integrated supervisory platform for safety production according to claim 1, wherein: the residual amount detection device is a gravity sensor or a pressure sensor.

4. The BIM technology-based integrated supervisory platform for safety production according to claim 1, wherein: the three-dimensional model carries out whole garden region labeling on garden enterprises according to safety through BIM technology and enterprise type classification, the labeling embodies the safety level of the enterprises according to color depth, and omnibearing roaming and management are carried out on the garden by clicking the labeling to enter into a finer-level enterprise description.

5. The BIM technology-based integrated supervisory platform for safety production according to claim 1, wherein: the method for reading the detection data and the video information of the fire-fighting system of the original factory through the gateway comprises the following steps: the access of enterprise end sensors and detectors is carried out by adopting an Internet of things gateway, and the gateway is in one-key access to sensors, cameras and fire detectors of various brands through a plurality of interfaces reserved with different protocols.

6. The BIM technology-based integrated supervisory platform for safety production according to claim 1, wherein: physical association and logic of the plant equipment and the sensors are embodied in a three-dimensional model, and basic information of each equipment and dynamic data acquired by the sensors are embodied in the model in real time.

7. The BIM technology-based integrated supervisory platform for safety production according to claim 1, wherein: the monitoring platform is provided with a demonstration system, the demonstration system visually demonstrates explosion or fire in the three-dimensional model through data analysis of real-time dangerous article position information and allowance, different damage degrees are distinguished by adopting different colors, and storage conditions of warehouse dangerous articles of enterprises in an explosion range are listed.