CN116432989B - Intelligent construction-based construction site safety control system - Google Patents
Intelligent construction-based construction site safety control system Download PDFInfo
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Abstract
The invention discloses a construction site safety control system based on intelligent construction, which belongs to the field of engineering and is used for solving the problems that the construction site is wide in range and a plurality of devices cannot realize full-range safety control on the whole construction site.
Description
Technical Field
The invention belongs to the field of engineering, relates to a safety control technology, and in particular relates to a construction site safety control system based on intelligent construction.
Background
The construction site refers to construction activities such as house construction, civil engineering, equipment installation, pipeline laying and the like in industrial and civil projects, and is approved to occupy construction sites and sites where people perform safe production, civilization work and construction, including all regions where construction work can be performed on land, sea and in the air. Project manager is fully responsible for the field management of the construction process, and establishes the management responsibility of the construction site according to the engineering scale, the technical complexity and the specific condition of the construction site, and organizes and implements the construction site.
Because the construction site has a plurality of fields and devices, the whole construction site is difficult to safely control in a full range, so how to set an adaptive safety control method for the construction site based on factors such as the field, the devices, the personnel and the like is a great difficulty to be solved at present;
therefore, we propose a construction site safety control system based on intelligent construction.
Disclosure of Invention
Aiming at the defects existing in the prior art, the invention aims to provide a construction site safety management and control system based on intelligent construction.
The technical problems to be solved by the invention are as follows:
how to set an adapted safety control method for a construction site based on equipment factors and personnel factors.
The aim of the invention can be achieved by the following technical scheme:
the intelligent construction-based construction site safety management and control system comprises a data acquisition module, a region dividing module, a region defining module, a display module, a site analysis module, a safety management and control module, a behavior analysis module, a storage module and a server, wherein the region dividing module is used for dividing a construction site to obtain a plurality of monitoring regions;
the storage module is used for storing the region record data of the monitoring region and the dangerous behavior preset profile, sending the region record data to the region definition module, and sending the dangerous behavior preset profile to the behavior analysis module;
the area definition module is used for defining a monitoring area of a construction site, obtaining an area control level of the monitoring area and feeding back the area control level to the server, and the server obtains a behavior abnormality rate interval and an equipment monitoring value interval of the monitoring area according to the area control level;
the data acquisition module is used for acquiring equipment data in the monitoring area and behavior data of constructors in the monitoring area, and sending the equipment data and the behavior data to the server, wherein the server sends the equipment data to the on-site analysis module, and the server sends the behavior data to the behavior analysis module;
the behavior analysis module is used for analyzing the construction behaviors of constructors in the monitoring area to obtain abnormal behavior rates of the constructors in the monitoring area, and the server sends the abnormal behavior rates of the constructors in the monitoring area to the safety control module;
the on-site analysis module is used for analyzing the equipment conditions in the monitoring area to obtain equipment monitoring values of construction equipment in the monitoring area, and the server sends the equipment monitoring values of the construction equipment in the monitoring area to the safety control module;
the safety control module is used for carrying out safety control on the monitoring area of the construction site, generating a control normal signal or a control abnormal signal and feeding the control normal signal or the control abnormal signal back to the server, if the server receives the control normal signal, no operation is carried out, and if the server receives the control abnormal signal, safety control measures are taken on the monitoring area;
meanwhile, the server also sends a management and control normal signal or a management and control abnormal signal to a display module, and the display module is used for displaying the management and control normal signal or the management and control abnormal signal.
Further, the regional record data is the regional anomaly times, the regional construction times and the regional area of the monitoring region.
Further, the defining process of the area defining module is specifically as follows:
acquiring the abnormal times of the area of the monitoring area, and marking the abnormal times of the area as QC;
then obtaining the region construction times of the monitoring region, and marking the region construction times as SC;
finally, obtaining the area of the monitoring area, and marking the area as QM;
calculating to obtain a region defining value QJ of the monitoring region through a formula QJ=QC×a1+SC×a2+QM×a3; wherein a1, a2 and a3 are weight coefficients with fixed values, and the values of a1, a2 and a3 are all larger than zero;
if QJ is less than X1, the area control level of the monitoring area is a third area control level;
if X1 is less than or equal to QJ and less than X2, the area control level of the monitoring area is a second area control level;
if X2 is less than or equal to QJ, the area control level of the monitoring area is a first area control level; wherein X1 and X2 are region defining thresholds of fixed values, and X1 < X2.
Further, the first zone control level is higher than the second zone control level, which is higher than the third zone control level.
Further, the setting process of the behavior anomaly rate interval and the equipment monitoring value interval is specifically as follows:
if the first area control level is the first area control level, the abnormal behavior rate interval of the monitoring area is [ b1, b2 ], and the equipment monitoring value interval is [ c1, c 2);
if the monitoring region is the second region control level, the behavior abnormality rate interval of the monitoring region is [ b2, b3 ], and the equipment monitoring value interval is [ c2, c 3);
if the monitoring area is the third area control level, the abnormal behavior rate interval of the monitoring area is [ b3, b4], and the equipment monitoring value interval is [ c3, c4]; wherein b1, b2, b3 and b4 are all fixed values, b1 < b2 < b3 < b4, c1, c2, c3 and c4 are all fixed values, and c1 < c2 < c3 < c4.
Further, the equipment data is the number of construction equipment in the monitoring module, and the purchase price, the purchase time and the failure times of each construction equipment;
the behavior data is a real-time behavior profile of the number of constructors in the monitoring area and each constructor.
Further, the analysis process of the behavior analysis module is specifically as follows:
acquiring the number of constructors in a monitoring area and recording the number as the number of constructors;
then acquiring a real-time behavior profile of each constructor and a dangerous behavior preset profile stored in a storage module;
comparing the real-time behavior profile of each constructor with a dangerous behavior preset profile;
if the real-time behavior profile map is matched with the dangerous behavior preset profile map, marking the corresponding constructors as offenders, and counting the number of offenders as offender numbers;
if the real-time behavior profile map is not matched with the dangerous behavior preset profile map, no operation is performed;
and comparing the number of illegal personnel with the number of constructors to obtain the abnormal behavior rate XL of the constructors in the monitoring area.
Further, the analysis process of the field analysis module is specifically as follows:
acquiring the number of construction equipment in a monitoring area, and recording the number of the construction equipment as the number of the construction equipment SS;
then acquiring the purchase price, the purchase time and the failure times of each construction device, and summing the purchase price of each construction device and dividing the sum by the number of the construction devices to obtain the purchase average price JJ of the construction devices in the monitoring area;
subtracting the purchase time of each construction equipment from the current time of the server to obtain the purchase time of each construction equipment, and adding and summing the purchase time of each construction equipment to obtain the purchase average time JT of the construction equipment in the monitoring area;
similarly, the failure times of each construction device are added, summed and averaged to obtain the failure average JC of the construction device in the monitoring area;
calculating to obtain an equipment monitoring value SJ of construction equipment in the monitoring area through a formula SJ= (SS×d1+JJ×d2+JT×d3+JC×d4)/(d1+d2+d3+d3); wherein d1, d2, d3 and d4 are weight coefficients with fixed values, and the values of d1, d2, d3 and d4 are all larger than zero.
Further, the working process of the safety control module is specifically as follows:
acquiring an equipment monitoring value SJ of construction equipment in a monitoring area and a behavior abnormality rate XL of constructors in the monitoring area;
then, a behavior abnormality rate interval and a device monitoring value interval corresponding to the monitoring area are obtained;
if the equipment monitoring value belongs to the equipment monitoring value interval and the behavior abnormality rate belongs to the behavior abnormality rate interval, generating a control normal signal;
and if the equipment monitoring value does not belong to the equipment monitoring value interval or the behavior abnormality rate does not belong to the behavior abnormality rate interval, generating a management and control abnormality signal.
Compared with the prior art, the invention has the beneficial effects that:
the method comprises the steps of firstly dividing a construction site by using a region dividing module to obtain a plurality of monitoring regions, defining the monitoring regions of the construction site by using a region defining module to obtain region control levels of the monitoring regions, analyzing the construction behaviors of constructors in the monitoring regions by using a behavior analysis module to obtain abnormal behavior rates of the constructors in the monitoring regions, analyzing equipment conditions in the monitoring regions by using a field analysis module to obtain equipment monitoring values of construction equipment in the monitoring regions, and safely controlling the monitoring regions of the construction site by using a safety control module in combination with the abnormal behavior rates and the equipment monitoring values to generate control normal signals or control abnormal signals.
Drawings
The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.
Fig. 1 is an overall system block diagram of the present invention.
Detailed Description
The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
In one embodiment, referring to fig. 1, an intelligent construction-based construction site safety control system includes a data acquisition module, a region dividing module, a region defining module, a display module, a site analysis module, a safety control module, a behavior analysis module, a storage module and a server;
in this embodiment, a storage module is built in the server, and the storage module is respectively connected with the behavior analysis module and the region defining module;
the system is applied to a construction site, and the region dividing module is used for dividing the construction site to obtain a plurality of monitoring regions;
the storage module is used for storing the region record data of the monitoring region and the dangerous behavior preset profile, sending the region record data to the region definition module, and sending the dangerous behavior preset profile to the behavior analysis module;
the regional record data are the regional abnormality times, the regional construction times, the regional area and the like of the monitoring region;
the area definition module is used for defining a monitoring area of a construction site, and the definition process comprises the following steps:
acquiring the abnormal times of the area of the monitoring area, and marking the abnormal times of the area as QC;
then obtaining the region construction times of the monitoring region, and marking the region construction times as SC;
finally, obtaining the area of the monitoring area, and marking the area as QM;
calculating to obtain a region defining value QJ of the monitoring region through a formula QJ=QC×a1+SC×a2+QM×a3; wherein a1, a2 and a3 are weight coefficients with fixed values, and the values of a1, a2 and a3 are all larger than zero;
if QJ is less than X1, the area control level of the monitoring area is a third area control level;
if X1 is less than or equal to QJ and less than X2, the area control level of the monitoring area is a second area control level;
if X2 is less than or equal to QJ, the area control level of the monitoring area is a first area control level; wherein X1 and X2 are region defining thresholds of fixed values, and X1 < X2;
it can be appreciated that the first zone control level is higher than the second zone control level, which is higher than the third zone control level;
the area defining module feeds back the area control level of the monitoring area to a server, and the server obtains a behavior abnormality rate interval and an equipment monitoring value interval of the monitoring area according to the area control level;
the process of setting the behavior abnormality rate interval and the equipment monitoring value interval is specifically as follows:
if the first area control level is the first area control level, the abnormal behavior rate interval of the monitoring area is [ b1, b2 ], and the equipment monitoring value interval is [ c1, c 2);
if the monitoring region is the second region control level, the behavior abnormality rate interval of the monitoring region is [ b2, b3 ], and the equipment monitoring value interval is [ c2, c 3);
if the monitoring area is the third area control level, the abnormal behavior rate interval of the monitoring area is [ b3, b4], and the equipment monitoring value interval is [ c3, c4]; wherein b1, b2, b3 and b4 are all fixed values, b1 is more than 2 and b3 is more than 4, c1, c2, c3 and c4 are all fixed values, and c1 is more than 2 and c3 is more than 4;
the data acquisition module is used for acquiring equipment data in the monitoring area and behavior data of constructors in the monitoring area, and sending the equipment data and the behavior data to the server, wherein the server sends the equipment data to the on-site analysis module, and the server sends the behavior data to the behavior analysis module;
the equipment data is the number of construction equipment in the monitoring module, the purchase price, the purchase time and the failure times of each construction equipment; the behavior data is the number of constructors in the monitoring area and a real-time behavior profile diagram of each constructor, the real-time behavior comprises a behavior of not wearing a safety helmet and the like, the behavior data is mainly used for judging the behavior of not wearing the safety helmet in the embodiment, and the data acquisition module can be an infrared camera, a counter and the like when the system is implemented;
the behavior analysis module is used for analyzing the construction behaviors of constructors in the monitoring area, and the analysis process is specifically as follows:
acquiring the number of constructors in a monitoring area and recording the number as the number of constructors;
then acquiring a real-time behavior profile of each constructor and a dangerous behavior preset profile stored in a storage module;
comparing the real-time behavior profile of each constructor with a dangerous behavior preset profile;
if the real-time behavior profile map is matched with the dangerous behavior preset profile map, marking the corresponding constructors as offenders, and counting the number of offenders as offender numbers;
if the real-time behavior profile map is not matched with the dangerous behavior preset profile map, no operation is performed;
comparing the number of illegal personnel with the number of constructors to obtain the abnormal behavior rate XL of the constructors in the monitoring area;
the behavior analysis module feeds back the abnormal behavior rate of constructors in the monitoring area to the server, and the server sends the abnormal behavior rate XL of the constructors in the monitoring area to the safety control module;
the field analysis module is used for analyzing the equipment condition in the monitoring area, and the analysis process is specifically as follows:
acquiring the number of construction equipment in a monitoring area, and recording the number of the construction equipment as the number of the construction equipment SS;
then acquiring the purchase price, the purchase time and the failure times of each construction device, and summing the purchase price of each construction device and dividing the sum by the number of the construction devices to obtain the purchase average price JJ of the construction devices in the monitoring area;
subtracting the purchase time of each construction equipment from the current time of the server to obtain the purchase time of each construction equipment, and adding and summing the purchase time of each construction equipment to obtain the purchase average time JT of the construction equipment in the monitoring area;
similarly, the failure times of each construction device are added, summed and averaged to obtain the failure average JC of the construction device in the monitoring area;
calculating to obtain an equipment monitoring value SJ of construction equipment in the monitoring area through a formula SJ= (SS×d1+JJ×d2+JT×d3+JC×d4)/(d1+d2+d3+d3); wherein d1, d2, d3 and d4 are weight coefficients with fixed values, and the values of d1, d2, d3 and d4 are all larger than zero;
the on-site analysis module feeds back an equipment monitoring value SJ of construction equipment in the monitoring area to the server, and the server sends the equipment monitoring value SJ of the construction equipment in the monitoring area to the safety control module;
the safety control module is used for carrying out safety control on a monitoring area of a construction site, and the working process is specifically as follows:
acquiring the equipment monitoring value SJ of the construction equipment in the monitoring area and the abnormal behavior rate XL of constructors in the monitoring area;
then, a behavior abnormality rate interval and a device monitoring value interval corresponding to the monitoring area are obtained;
if the equipment monitoring value belongs to the equipment monitoring value interval and the behavior abnormality rate belongs to the behavior abnormality rate interval, generating a control normal signal;
if the equipment monitoring value does not belong to the equipment monitoring value interval or the behavior abnormality rate does not belong to the behavior abnormality rate interval, generating a control abnormality signal;
the safety control module feeds back a control normal signal or a control abnormal signal to the server, if the server receives the control normal signal, no operation is performed, and if the server receives the control abnormal signal, safety control measures are taken for the monitoring area;
the safety control measures include, but are not limited to, strengthening the wearing of the safety helmet, replacing construction equipment in the monitoring area, and the like;
meanwhile, the server also sends a control normal signal or a control abnormal signal to a display module, and the display module is used for displaying the control normal signal or the control abnormal signal, and is a display screen arranged on a construction site when the display module is implemented;
the above formulas are all the dimensionality removal and numerical calculation, the size of the weight coefficient and the scale coefficient is a specific numerical value obtained by quantizing each parameter, and the size of the weight coefficient and the scale coefficient is only required to be not influenced as long as the proportional relation between the parameter and the quantized numerical value is not influenced.
In another embodiment, a working method of a construction site safety control system based on intelligent construction is specifically as follows:
step S101, dividing a construction site through a region dividing module to obtain a plurality of monitoring regions, wherein a storage module stores region record data and dangerous behavior preset contour maps of the monitoring regions, sends the region record data to a region defining module and sends the dangerous behavior preset contour maps to a behavior analysis module;
step S102, defining a monitoring area of a construction site through an area definition module, acquiring the abnormal times of the monitoring area, acquiring the construction times of the monitoring area, finally acquiring the area of the monitoring area, calculating the area definition value of the monitoring area, comparing the area definition value with an area definition threshold, judging whether the area management and control level of the monitoring area is a third area management and control level, a second area management and control level or a first area management and control level, feeding back the area management and control level of the monitoring area to a server through the area definition module, and obtaining a behavior abnormal rate interval and an equipment monitoring value interval of the monitoring area by the server according to the area management and control level;
step S103, collecting equipment data in a monitoring area and behavior data of constructors in the monitoring area through a data collecting module, sending the equipment data and the behavior data to a server, sending the equipment data to a field analysis module through the server, and sending the behavior data to a behavior analysis module through the server;
step S104, analyzing the construction behaviors of constructors in the monitoring area through a behavior analysis module, obtaining the number of constructors in the monitoring area, recording the number as the number of constructors, then obtaining a real-time behavior profile of each constructor and a dangerous behavior preset profile stored in a storage module, comparing the real-time behavior profile of each constructor with the dangerous behavior preset profile, recording the corresponding constructor as an offender if the real-time behavior profile is matched with the dangerous behavior preset profile, counting the number of offenders as the number of offenders, and if the real-time behavior profile is not matched with the dangerous behavior preset profile, carrying out no operation, comparing the number of offenders with the number of constructors to obtain the behavior abnormality rate of the constructors in the monitoring area, feeding back the behavior abnormality rate of the constructors in the monitoring area to a server by a behavior analysis module, and sending the behavior abnormality rate of the constructors in the monitoring area to a safety control module by the server;
step S105, analyzing the equipment condition in the monitoring area by utilizing a field analysis module, obtaining the number of construction equipment in the monitoring area, recording the number of the construction equipment as the number of the construction equipment, obtaining the purchase price, the purchase time and the failure times of each construction equipment, obtaining the purchase average price of the construction equipment in the monitoring area by dividing the purchase price of each construction equipment by the number of the construction equipment, subtracting the purchase time of each construction equipment by the current time of a server, obtaining the purchase time of each construction equipment, obtaining the purchase average time of the construction equipment in the monitoring area by summing the purchase time of each construction equipment, and similarly, obtaining the failure average time of the construction equipment in the monitoring area by summing the failure times of each construction equipment, calculating the equipment monitoring value of the construction equipment in the monitoring area, and feeding back the equipment monitoring value of the construction equipment in the monitoring area to the server by the field analysis module, and transmitting the equipment monitoring value of the construction equipment in the monitoring area to a safety management module by the server;
and S106, finally, carrying out safety control on the monitoring area of the construction site through a safety control module, acquiring an equipment monitoring value of construction equipment in the monitoring area and an abnormal behavior rate of constructors in the monitoring area, then acquiring an abnormal behavior rate interval and an equipment monitoring value interval corresponding to the monitoring area, generating a control normal signal if the equipment monitoring value belongs to the equipment monitoring value interval and the abnormal behavior rate belongs to the abnormal behavior rate interval, generating the control normal signal if the equipment monitoring value does not belong to the equipment monitoring value interval or the abnormal behavior rate does not belong to the abnormal behavior rate interval, feeding the control normal signal or the control abnormal signal back to the server through the safety control module, carrying out no operation if the server receives the control normal signal, taking safety control measures on the monitoring area if the server receives the control abnormal signal, and simultaneously, sending the control normal signal or the control abnormal signal to the display module by the server, and displaying the control normal signal or the control abnormal signal by the display module.
The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.
Claims (4)
1. The intelligent construction-based construction site safety management and control system is characterized by comprising a data acquisition module, a region dividing module, a region defining module, a display module, a site analysis module, a safety management and control module, a behavior analysis module, a storage module and a server, wherein the region dividing module is used for dividing a construction site to obtain a plurality of monitoring regions;
the storage module is used for storing the region record data of the monitoring region and the dangerous behavior preset profile, sending the region record data to the region definition module, and sending the dangerous behavior preset profile to the behavior analysis module;
the area definition module is used for defining a monitoring area of a construction site, and the definition process comprises the following steps:
acquiring the abnormal times of the area of the monitoring area, and marking the abnormal times of the area as QC;
then obtaining the region construction times of the monitoring region, and marking the region construction times as SC;
finally, obtaining the area of the monitoring area, and marking the area as QM;
calculating to obtain a region defining value QJ of the monitoring region through a formula QJ=QC×a1+SC×a2+QM×a3; wherein a1, a2 and a3 are weight coefficients with fixed values, and the values of a1, a2 and a3 are all larger than zero;
if QJ is less than X1, the area control level of the monitoring area is a third area control level;
if X1 is less than or equal to QJ and less than X2, the area control level of the monitoring area is a second area control level;
if X2 is less than or equal to QJ, the area control level of the monitoring area is a first area control level; wherein X1 and X2 are region defining thresholds of fixed values, and X1 < X2;
the area defining module feeds back the area control level of the monitoring area to a server, and the server obtains a behavior abnormality rate interval and an equipment monitoring value interval of the monitoring area according to the area control level;
the process of setting the behavior abnormality rate interval and the equipment monitoring value interval is specifically as follows:
if the first area control level is the first area control level, the abnormal behavior rate interval of the monitoring area is [ b1, b2 ], and the equipment monitoring value interval is [ c1, c 2);
if the monitoring region is the second region control level, the behavior abnormality rate interval of the monitoring region is [ b2, b3 ], and the equipment monitoring value interval is [ c2, c 3);
if the monitoring area is the third area control level, the abnormal behavior rate interval of the monitoring area is [ b3, b4], and the equipment monitoring value interval is [ c3, c4]; wherein b1, b2, b3 and b4 are all fixed values, b1 is more than 2 and b3 is more than 4, c1, c2, c3 and c4 are all fixed values, and c1 is more than 2 and c3 is more than 4;
the data acquisition module is used for acquiring equipment data in the monitoring area and behavior data of constructors in the monitoring area, and sending the equipment data and the behavior data to the server, wherein the server sends the equipment data to the on-site analysis module, and the server sends the behavior data to the behavior analysis module;
the behavior analysis module is used for analyzing the construction behaviors of constructors in the monitoring area, and the analysis process is specifically as follows:
acquiring the number of constructors in a monitoring area and recording the number as the number of constructors;
then acquiring a real-time behavior profile of each constructor and a dangerous behavior preset profile stored in a storage module;
comparing the real-time behavior profile of each constructor with a dangerous behavior preset profile;
if the real-time behavior profile map is matched with the dangerous behavior preset profile map, marking the corresponding constructors as offenders, and counting the number of offenders as offender numbers;
if the real-time behavior profile map is not matched with the dangerous behavior preset profile map, no operation is performed;
comparing the number of illegal personnel with the number of constructors to obtain the abnormal behavior rate XL of the constructors in the monitoring area;
the behavior analysis module feeds back the abnormal behavior rate of the constructor in the monitoring area to the server, and the server sends the abnormal behavior rate of the constructor in the monitoring area to the safety control module;
the field analysis module is used for analyzing the equipment condition in the monitoring area, and the analysis process is specifically as follows:
acquiring the number of construction equipment in a monitoring area, and recording the number of the construction equipment as the number of the construction equipment SS;
then acquiring the purchase price, the purchase time and the failure times of each construction device, and summing the purchase price of each construction device and dividing the sum by the number of the construction devices to obtain the purchase average price JJ of the construction devices in the monitoring area;
subtracting the purchase time of each construction equipment from the current time of the server to obtain the purchase time of each construction equipment, and adding and summing the purchase time of each construction equipment to obtain the purchase average time JT of the construction equipment in the monitoring area;
similarly, the failure times of each construction device are added, summed and averaged to obtain the failure average JC of the construction device in the monitoring area;
calculating to obtain an equipment monitoring value SJ of construction equipment in the monitoring area through a formula SJ= (SS×d1+JJ×d2+JT×d3+JC×d4)/(d1+d2+d3+d3); wherein d1, d2, d3 and d4 are weight coefficients with fixed values, and the values of d1, d2, d3 and d4 are all larger than zero;
the on-site analysis module feeds back the equipment monitoring value of the construction equipment in the monitoring area to the server, and the server sends the equipment monitoring value of the construction equipment in the monitoring area to the safety control module;
the safety control module is used for carrying out safety control on a monitoring area of a construction site, and the working process is specifically as follows:
acquiring an equipment monitoring value SJ of construction equipment in a monitoring area and a behavior abnormality rate XL of constructors in the monitoring area;
then, a behavior abnormality rate interval and a device monitoring value interval corresponding to the monitoring area are obtained;
if the equipment monitoring value belongs to the equipment monitoring value interval and the behavior abnormality rate belongs to the behavior abnormality rate interval, generating a control normal signal;
if the equipment monitoring value does not belong to the equipment monitoring value interval or the behavior abnormality rate does not belong to the behavior abnormality rate interval, generating a control abnormality signal;
the safety control module feeds back a control normal signal or a control abnormal signal to the server, if the server receives the control normal signal, no operation is performed, and if the server receives the control abnormal signal, safety control measures are taken for the monitoring area;
meanwhile, the server also sends a management and control normal signal or a management and control abnormal signal to a display module, and the display module is used for displaying the management and control normal signal or the management and control abnormal signal.
2. The intelligent construction-based construction site safety control system according to claim 1, wherein the regional record data is the regional anomaly number, the regional construction number and the regional area of the monitored region.
3. The intelligent construction-based job site safety control system according to claim 1, wherein the first zone control level is higher than the second zone control level, which is higher than the third zone control level.
4. The intelligent construction-based construction site safety control system according to claim 1, wherein the equipment data is the number of construction equipment in the monitoring module, and the purchase price, the purchase time and the number of faults of each construction equipment;
the behavior data is a real-time behavior profile of the number of constructors in the monitoring area and each constructor.
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