CN108960513A - Construction project major hazard source Weigh sensor monitors system - Google Patents
Construction project major hazard source Weigh sensor monitors system Download PDFInfo
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Abstract
The present invention discloses a kind of construction project major hazard source Weigh sensor monitoring system;System includes the network switch, database server, subregional camera, access display end, further includes: information collection end, for acquiring production status information;Data uploading module, for uploading the essential information in dangerous operation place to database server;Video administration module, for managing the monitor video of each dangerous operation point real time status;Study on Trend module, for drawing real-time situation curve graph in access display end;Trend analysis prediction module is analyzed for the dangerous situation situation to one period of particular risk place, draws predictive situation curve graph on access display end;Call management module;The present invention is by integrating data, and entire engineering face safety in production situation is assessed in building, the assurance for the whole situation of safety in production;Management module is called to improve the overall efficiency of emergency processing according to distribution weight sequencing publication call instruction.
Description
Technical field
The present invention relates to project management field, especially a kind of comprehensive strong construction project major hazard source intelligence is known
It Jian Ce not system.
Background technique
The major hazard source of general significance refer to chronically or provisionally produce, carry, using or storing dangerous article, and
The quantity of dangerous goods equals or exceeds the unit of critical quantity.Unit refers to (set) process units, facility or place, or same
Belong to a production-operation unit and Edge Distance is less than several (set) process units, facility or the place of 500m;Construction project weight
Big danger source then has more extensive meaning, a Dangerous Building, and hazardous equipment or dangerous operating environment also belong to danger
Dangerous source;The comprehensive identification monitoring and processing of construction project major hazard source are all a key subjects all the time.
Summary of the invention
The technical solution adopted by the present invention to solve the technical problems is: system of the invention includes the network switch, uses
In the database server of integrated management, subregional camera, the access display end for manipulating and inquiring for administrator, also wrap
Include: information collection end for acquiring production status information, and filters out the essential information in dangerous operation place, uploads with data
Module is carried out wireless communication by the network switch;Production status information includes production site information, production staffing information, production
Quantitative information, production violation information, production hidden danger information, production special equipment information;Data uploading module, with database service
Device interaction, for uploading the essential information in dangerous operation place to database server, the essential information packet in dangerous operation place
Include dangerous point title, danger level, nature of danger, hazards monitoring standard, dangerous point geographical location;Video administration module, passes through
It is wirelessly connected each subregional camera and is interacted with database server, for managing each dangerous operation point real time status
Monitor video, obtain real-time video from the video camera of each dangerous operation point and store to database server;Situation
Analysis module is interacted with database server and is also interacted with access display end, the dangerous operation place for that will collect
Essential information analyzes the current situation in hazardous area as input, according to algorithm, is drawn on the basis of geographical map data model real
When situation curve figure on access display end, different hazardous areas are come using three kinds of colors of red, yellow, and green as three danger levels
Label and display;Trend analysis prediction module is interacted with database server and is also interacted with access display end, for specific danger
The dangerous situation situation in one period of dangerous place is analyzed, and predictive situation curve is drawn on the basis of time coordinate data model
Figure provides decision basis on access display end for next step safety in production.
Further, the information collection end is the fixed terminal machine that disparity items region point is arranged in, fixed terminal machine
Including at least data input unit, single-chip microcontroller and it is connected to interface.
In addition, the information collection end is for supervisor in data input unit marks geographical location information map
Danger source, danger source at least marks map coordinate information, danger sources information, system record acquisition log.
Further, system further include: emergency set, calls management module, emergency processing tune at emergency processing recalls information end
It with information terminal and calls management module by radio communication, management module is called to interact with data server;Emergency is set
Standby to be distributed in each construction project region point dangerous for handling dangerous or aid in treatment, and emergency set includes vehicle and dedicated
Equipment;Emergency processing recalls information end is distributed in each construction project region point and is distributed in the Office Area for the treatment of people, emergency
Processing recalls information end is used to receive the call instruction for calling management module publication;Call management module according to each hazardous area
Specifying information content assignment seconded officer and call vehicle and according to distribution weight sequencing publication call instruction at emergency
Manage recalls information end.
Further, emergency processing recalls information end includes cell phone application, wireless terminal.
Further, management module is called specifically to set first to emergency according to distribution weight sequencing publication call instruction
Back-up distributes ID with ID, to each emergency worker;Then by danger level, nature of danger, three kinds of dangerous point geographical location data
Outer layer weight is distributed respectively, and danger level outer layer weight is X, nature of danger outer layer weight is Y, dangerous point geographical location outer layer power
Weight is Z, X+Y+Z=1;Danger level divides attached weight according to grade again: 1/2/3/4/5/6/7/8/9/10, nature of danger
Divide attached weight again according to concrete type: 1/2/3/4/5/6/7/8/9/10, dangerous point geographical location according to the position with
The distance of emergency worker divides attached weight again: 1/2/3/4/5/6/7/8/9/10, the corresponding weight in each hazardous area
X multiplied by corresponding attached weight, Y multiplied by corresponding attached weight and Z multiplied by the quantity of corresponding attached weight and, each is dangerous
Place carries out bubble sort according to corresponding weight, issues call instruction according to sequence, call instruction includes called emergency
Equipment id information, calls destination at emergency worker's id information.
The invention has the advantages that the present invention is for major hazard source analysis identifying processing and the letter of method reply first
Breath management, by integrating to data, entire engineering face safety in production situation is assessed in building, is realized for safety
The assurance of the whole situation of production provides effective foundation for the decision commanding of safety in production;Administrative departments at different levels or construction,
Supervisor can also check danger source specifying information by accessing display end, call management module according to distribution weight sequencing hair
The overall efficiency of cloth call instruction raising emergency processing.
Detailed description of the invention
Fig. 1 is present system connection configuration diagram.
Fig. 2 is dangerous operation place-real-time situation curve graph.Wherein, red (to show ground red in Fig. 2 for clarity
It is square, in red-label region with alphabetical A in Fig. 2) indicating the highest place of danger level, yellow (is shown in Fig. 2 for clarity
The place of yellow, in yellow flag region with letter b in Fig. 2) indicate the medium place of danger level, green is (for clarity
The place for showing Fig. 2 Green, in Green Marker region with letter C in Fig. 2) indicate the minimum place of danger level;Without face
The non-hazardous region of expression of color marker or the region without construction project.
Fig. 3 is dangerous operation place-predictive situation curve graph.Wherein, abscissa indicates the period of prediction, and unit is day;
The dangerous density of infection that ordinate indicates, density of infection is negative and the smaller expression extent of injury of negative numerical value is bigger, and density of infection is
Non-hazardous state is indicated when zero.
Specific embodiment
In the embodiment shown in fig. 1, system of the invention includes the network switch, the database clothes for integrated management
Business device, subregional camera, the access display end for manipulating and inquiring for administrator, further includes: information collection end, for adopting
Collect production status information, and filter out the essential information in dangerous operation place, with data uploading module by the network switch into
Row wireless communication;Therein, production status information includes production site information, production staffing information, production quantitative information, production
Violation information, production hidden danger information, production special equipment information;Data uploading module, interacts with database server, for
The essential information in dangerous operation place is passed to database server, the essential information in dangerous operation place include dangerous point title,
Danger level, nature of danger, hazards monitoring standard, dangerous point geographical location;Video administration module, by being wirelessly connected each point
It the camera in region and is interacted with database server, for managing the monitor video of each dangerous operation point real time status, from
The video camera of each dangerous operation point, which obtains real-time video and stores, arrives database server;Study on Trend module, with number
It is also interacted with access display end according to the interaction of library server, the essential information in the dangerous operation place for that will collect is as defeated
Enter, the current situation in hazardous area is analyzed according to algorithm, real-time situation curve graph is drawn on the basis of geographical map data model and is existed
It accesses on display end, different hazardous areas is marked and shown as three danger levels using three kinds of colors of red, yellow, and green;Become
Potential analysis prediction module is interacted with database server and also interact with access display end, when being used for one section of particular risk place
The dangerous situation situation of phase is analyzed, and predictive situation curve graph is drawn on the basis of time coordinate data model and is shown in access
On end, decision basis is provided for next step safety in production.
The information collection end is the fixed terminal machine that disparity items region point is arranged in, and fixed terminal machine includes at least
Data input unit, single-chip microcontroller and it is connected to interface.In addition, the information collection end is for supervisor in data input unit
Danger source on identified geographic location information map, danger source at least mark map coordinate information, danger sources information, system record
Acquire log.
In the implementation or information collection end is mobile phone, and mobile phone includes at least wireless upload list
Member, data input unit, single-chip microcontroller.
System of the invention further include: emergency set, calls management module, emergency processing at emergency processing recalls information end
Recalls information end and calling management module call management module to interact with data server by radio communication;Emergency
Device distribution is dangerous for handling dangerous or aid in treatment in each construction project region point, and emergency set includes vehicle and specially
Use equipment;Emergency processing recalls information end is distributed in each construction project region point and is distributed in the Office Area for the treatment of people, answers
Anxious processing recalls information end is used to receive the call instruction for calling management module publication;Call management module according to each dangerous field
Specifying information content assignment seconded officer and call vehicle and according to distribution weight sequencing publication call instruction to meet an urgent need
Handle recalls information end;Emergency processing recalls information end includes cell phone application, wireless terminal.
Above-mentioned calling management module issues call instruction according to distribution weight sequencing, and specifically distribution sort is as follows, first
First ID is distributed to emergency set distribution ID, to each emergency worker;Then by danger level, nature of danger, dangerous point geography position
It sets three kinds of data and distributes outer layer weight respectively, danger level outer layer weight is X, nature of danger outer layer weight is Y, dangerous point is geographical
Position outer layer weight is Z, X+Y+Z=1;Danger level divides attached weight according to grade again: 1/2/3/4/5/6/7/8/9/
10, nature of danger divides attached weight according to concrete type again: 1/2/3/4/5/6/7/8/9/10, dangerous point geographical location is pressed
Attached weight is divided again at a distance from emergency worker according to the position: 1/2/3/4/5/6/7/8/9/10, each hazardous area
Corresponding weight be X multiplied by corresponding attached weight, Y multiplied by corresponding attached weight and Z multiplied by the quantity of corresponding attached weight and, general
Each hazardous area carries out bubble sort according to corresponding weight, issues call instruction according to sequence, call instruction includes institute
The emergency set id information of calling, calls destination at emergency worker's id information.Information acquisition module acquisition production first in implementation
Status information, including production site information, production staffing information, production quantitative information, production violation information, production hidden danger letter
Breath, production special equipment information select suitable data access type, endanger according to the actual conditions in dangerous operation place
Dangerous point data acquisition docking.Data uploading module uploads the essential information in dangerous operation place to database server in implementation,
Including dangerous point title, danger level, nature of danger, hazards monitoring standard, dangerous point geographical location;Video supervises mould in implementation
Block obtains real-time video from the video camera of each dangerous operation point and stores to database server.
Study on Trend module in implementation, using the essential information in the dangerous operation place collected as input, according to calculation
Method analyzes the current situation in hazardous area, and real-time situation curve graph is drawn on the basis of geographical map data model in access display end
On, different hazardous areas are marked and shown as three danger levels using red, yellow, green three kinds of colors, Yi Zhongshi
When situation curve figure see Fig. 2.
Trend analysis prediction module in implementation analyzes the dangerous situation situation in one period of particular risk place,
Predictive situation curve graph is drawn on the basis of time coordinate data model on access display end.A kind of predictive situation curve graph is shown in
Fig. 3.
In implementation, registration, identification, early warning of the present invention for the larger sub-item engineering of risk are called, to danger source
Monitoring and artificial intelligence intervention;Administrative departments at different levels can check the danger source distribution situation of local projects by system, right
Danger source is counted;Construction, supervisor can check the danger source specifying information of accepted project by system, be conducive to blame
Appointing unit, targetedly implementation focus is supervised.
As known by the technical knowledge, the present invention can pass through the embodiment party of other essence without departing from its spirit or essential feature
Case is realized.Embodiment disclosed above, in all respects are merely illustrative, and are not only.It is all in this hair
It is included in the invention in bright range or in the change being equal in the scope of the present invention.
Claims (6)
1. a kind of construction project major hazard source Weigh sensor monitors system, including the network switch, for integrated management
Database server, subregional camera, the access display end for manipulating and inquiring for administrator, which is characterized in that also wrap
It includes:
Information collection end for acquiring production status information, and filters out the essential information in dangerous operation place, uploads with data
Module is carried out wireless communication by the network switch;Production status information includes production site information, production staffing information, production
Quantitative information, production violation information, production hidden danger information, production special equipment information;
Data uploading module, interacts with database server, and the essential information for uploading dangerous operation place takes to database
Business device, the essential information in dangerous operation place includes dangerous point title, danger level, nature of danger, hazards monitoring standard, danger
Point geographical location;
Video administration module, by being wirelessly connected each subregional camera and being interacted with database server, for managing
The monitor video of each dangerous operation point real time status obtains real-time video from the video camera of each dangerous operation point and deposits
Store up database server;
Study on Trend module is interacted with database server and is also interacted with access display end, and the danger for that will collect is made
The essential information in industry place analyzes the current situation in hazardous area as input, according to algorithm, using geographical map data model as base
Standard draws real-time situation curve graph on access display end, endangers to different hazardous areas using three kinds of colors of red, yellow, and green as three
Dangerous rank is marked and is shown;
Trend analysis prediction module is interacted with database server and is also interacted with access display end, for particular risk place
The dangerous situation situation in one period is analyzed, and predictive situation curve graph is drawn on the basis of time coordinate data model and is being visited
It asks on display end, provides decision basis for next step safety in production.
2. a kind of construction project major hazard source Weigh sensor according to claim 1 monitors system, which is characterized in that
The information collection end is the fixed terminal machine that disparity items region point is arranged in, and fixed terminal machine includes at least data input
Unit, single-chip microcontroller and it is connected to interface.
3. a kind of construction project major hazard source Weigh sensor according to claim 1 monitors system, which is characterized in that
The information collection end is used for danger source of the supervisor on data input unit marks geographical location information map, dangerous
Source at least marks map coordinate information, danger sources information, system record acquisition log.
4. a kind of construction project major hazard source Weigh sensor according to claim 1 monitors system, which is characterized in that
System further include: management module, emergency processing recalls information end and calling are called in emergency set, emergency processing recalls information end
Management module calls management module to interact with data server by radio communication;Emergency set is distributed in each build
If Engineering Zone point is dangerous for handling dangerous or aid in treatment, emergency set includes vehicle and special equipment;Emergency processing
Recalls information end is distributed in each construction project region point and is distributed in the Office Area for the treatment of people, emergency processing recalls information end
For receiving the call instruction for calling management module publication;Call management module according to the specifying information content of each hazardous area
It distributes seconded officer and calls vehicle and issue call instruction to emergency processing recalls information end according to distribution weight sequencing.
5. a kind of construction project major hazard source Weigh sensor according to claim 4 monitors system, which is characterized in that
Emergency processing recalls information end includes cell phone application, wireless terminal.
6. a kind of construction project major hazard source Weigh sensor according to claim 4 monitors system, which is characterized in that
It calls management module to issue call instruction according to distribution weight sequencing, specifically includes: first to emergency set distribution ID, to each
Emergency worker distributes ID;Then danger level, nature of danger, three kinds of dangerous point geographical location data are distributed to outer layer power respectively
Weight, danger level outer layer weight is X, nature of danger outer layer weight is Y, dangerous point geographical location outer layer weight is Z, X+Y+Z=
1;Danger level divides attached weight according to grade again: 1/2/3/4/5/6/7/8/9/10, nature of danger is according to concrete type
Divide attached weight again: 1/2/3/4/5/6/7/8/9/10, dangerous point geographical location according to the position and emergency worker away from
From dividing attached weight again: 1/2/3/4/5/6/7/8/9/10, the corresponding weight in each hazardous area is X multiplied by corresponding attached
Belong to weight, Y multiplied by corresponding attached weight and Z multiplied by the quantity of corresponding attached weight and, by each hazardous area according to correspondence
Weight carry out bubble sort, issue call instruction according to sequence, call instruction includes called emergency set id information, answers
Anxious personnel's id information calls destination.
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CN110472858A (en) * | 2019-08-10 | 2019-11-19 | 浙江同洲项目管理有限公司 | A kind of Project Supervision approaches to IM |
CN110867047A (en) * | 2019-11-29 | 2020-03-06 | 万翼科技有限公司 | Intelligent early warning method and system for construction site |
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