CN114898526A - Construction site environment safety monitoring control method based on digital cloud computing - Google Patents

Abstract

The invention provides a building site environment safety monitoring control method based on digital cloud computing, wherein if a first processing module judges that second monitoring equipment is arranged in a communication range of a first short-distance communication module, second role information of the second monitoring equipment is obtained, and the first role information and the second role information are uploaded to a cloud server based on a first long-distance communication module; the cloud server compares the first role information with the second role information based on a preset role table to obtain a role corresponding result, and determines first reminding information and second reminding information corresponding to the first role information and the second role information according to the role corresponding result; the cloud server sends the first reminding information to the first monitoring equipment through the first remote communication module, and sends the second reminding information to the second monitoring equipment through the second remote communication module. When danger occurs in the construction process, the invention can remind workers in time, thereby reducing the accident occurrence probability.

Description

Construction site environment safety monitoring control method based on digital cloud computing

Technical Field

The invention relates to the technical field of data processing, in particular to a construction site environment safety monitoring control method based on digital cloud computing.

Background

The construction safety of building site is especially important, and the supervision of traditional construction safety usually restricts the staff with formulating safe construction regulation, improves staff's construction safety consciousness.

However, construction accidents often occur at night compared with daytime due to the fact that light conditions are weak and uncertainty factors exist. Therefore, when danger occurs in construction at night, how to remind workers in time is an urgent problem to be solved.

Disclosure of Invention

The embodiment of the invention provides a construction site environment safety monitoring control method based on digital cloud computing, which can remind workers in time when danger occurs in night construction, and reduce the accident occurrence probability.

In a first aspect of the embodiments of the present invention, a method for monitoring and controlling the safety of a construction site environment based on digital cloud computing is provided, which includes:

the method comprises the steps that corresponding first role information and first monitoring equipment are set for each worker in advance, wherein the first monitoring equipment comprises a first short-distance communication module, a first long-distance communication module and a first processing module;

if the first processing module judges that second monitoring equipment exists in the communication range of the first short-distance communication module, second role information of the second monitoring equipment is obtained, and the first role information and the second role information are uploaded to a cloud server based on the first long-distance communication module;

the cloud server compares the first role information with the second role information based on a preset role table to obtain a role corresponding result, and determines first reminding information and second reminding information of the first role information and the second role information according to the role corresponding result;

the cloud server sends the first reminding information to first monitoring equipment through a first remote communication module, and sends the second reminding information to second monitoring equipment through a second remote communication module.

Optionally, in a possible implementation manner of the first aspect, the setting, in advance, corresponding first role information and a first monitoring device for each worker, where the first monitoring device includes a first short-range communication module, a first long-range communication module, and a first processing module, and includes:

generating first role information corresponding to corresponding staff according to role data input by a user, and determining a first short-distance communication module of a type corresponding to the first role information according to the role data, wherein the type of the first short-distance communication module comprises at least one of WiFi and Bluetooth;

and generating a working time period corresponding to the first role information according to the role data, wherein the first monitoring equipment works in the working time period.

Optionally, in a possible implementation manner of the first aspect, if the first processing module determines that the first short-distance communication module has the second monitoring device within the communication range of the first short-distance communication module, the obtaining second role information of the second monitoring device, and uploading the first role information and the second role information to the cloud server based on the first long-distance communication module includes:

the first processing module controls the first near-field communication module to continuously search the communication modules of other monitoring equipment in the working period;

if the short-distance communication modules of other monitoring equipment are judged to be searched, the other monitoring equipment is used as second monitoring equipment, the first processing module acquires a second role of the second monitoring equipment and acquires first signal strength information between the first short-distance communication module and the second monitoring equipment;

and uploading the first role information, the second role information and the first signal intensity information to a cloud server based on a first remote communication module.

Optionally, in a possible implementation manner of the first aspect, the comparing, by the cloud server, the first role information and the second role information based on a preset role table to obtain a role corresponding result, and determining, according to the role corresponding result, first reminding information and second reminding information of the first role information and the second role information includes:

obtaining a corresponding judgment strategy and a preset reminding mode according to the role corresponding results of the first role information and the second role information, wherein the preset role table is provided with the judgment strategy and the preset reminding mode which are correspondingly set in advance for each type of the first role information and the second role information;

if the judgment strategy is that the first short-distance communication module and the second short-distance communication module search each other and output reminding information, directly determining first reminding information and second reminding information of the first role information and the second role information;

if the judgment strategy is that reminding information is output according to the signal intensity of the first close-range communication module and the second close-range communication module, comparing the first signal intensity information with a plurality of preset signal intervals, wherein each preset signal interval has corresponding reminding information;

and determining a corresponding preset signal interval according to the first signal strength information, and determining first reminding information and second reminding information of the first role information and the second role information according to the corresponding preset signal interval.

Optionally, in a possible implementation manner of the first aspect, the determining, according to the first signal strength information, a corresponding preset signal interval, and determining, according to the corresponding preset signal interval, first reminding information and second reminding information of the first role information and the second role information includes:

acquiring the interval grade of a corresponding preset signal interval determined according to the first signal strength information;

if the interval grade is judged to be greater than or equal to a preset grade, determining third role information and fourth role information of a vertical management dimension, which correspond to the first role information and the second role information, according to a preset role tree;

and determining third monitoring equipment and fourth monitoring equipment respectively corresponding to the third triangular color information and the fourth rectangular color information, and reminding the third monitoring equipment and the fourth monitoring equipment.

Optionally, in a possible implementation manner of the first aspect, the determining that the third monitoring device and the fourth monitoring device respectively correspond to the third triangle information and the fourth triangle information, and reminding the third monitoring device and the fourth monitoring device includes:

determining third reminding information corresponding to third corner color information according to the first reminding information, and determining fourth reminding information corresponding to fourth corner color information according to the second reminding information;

and respectively sending the third reminding information and the fourth reminding information to corresponding third monitoring equipment and fourth monitoring equipment for reminding.

Optionally, in a possible implementation manner of the first aspect, the method further includes:

determining a first communication link between the third monitoring equipment and the first monitoring equipment and a second communication link between the fourth monitoring equipment and the second monitoring equipment;

monitoring the first communication link and the second communication link, and if the first communication link and the second communication link are judged to have no data transmission within a preset time period;

determining a third monitoring device or a fourth monitoring device corresponding to the first communication link or the second communication link without data transmission, and sending a third reminding message or a fourth reminding message to the third monitoring device or the fourth monitoring device again.

Optionally, in a possible implementation manner of the first aspect, the method further includes:

if the first role information is judged to have the corresponding first fixed reference equipment in the preset role table, determining a reference condition between the first monitoring equipment and the first fixed reference equipment, and acquiring the reference signal intensity of the first role information and the fixed communication module;

the reference condition is that a first short-distance communication module in the first monitoring device searches for first fixed reference equipment, or the reference signal intensity of the first character information and the fixed communication module is greater than a preset reference intensity;

if the first short-distance communication module in the first monitoring device does not search the fixed communication module of the first fixed reference device or the reference signal intensity is smaller than or equal to the preset reference intensity, judging that the first role information corresponding to the first monitoring device is an error operation role;

and if the first short-distance communication module in the first monitoring equipment searches the fixed communication module of the first fixed reference equipment or the reference signal intensity is greater than the preset reference intensity, judging that the second role information corresponding to the second monitoring equipment is the wrong operation role.

Optionally, in a possible implementation manner of the first aspect, the method further includes:

selecting a plurality of preset contrast angle color points with the same management dimensionality in a role tree, and counting all the role points with lower dimensionality corresponding to each preset contrast angle color point, wherein each role point corresponds to one role information;

acquiring the number of the wrong operation roles of each preset contrast angle color point in a preset time period and the wrong operation times of each wrong operation role, and calculating according to the preset time period, the number of the wrong operation roles and the wrong operation times to obtain an operation safety degree evaluation coefficient of each preset contrast angle color point;

and sequencing and calculating all the preset contrast angle color points according to the operation safety degree evaluation coefficient to obtain the training sequence and the training duration of all the role information included by each preset contrast angle color point.

Optionally, in a possible implementation manner of the first aspect, the sorting and calculating all preset contrast angle color points according to the operation safety degree evaluation coefficient to obtain a training sequence and a training duration of all character information included in each preset contrast angle color point includes:

performing ascending sorting according to the operation safety degree evaluation coefficient of the preset contrast angle color points to obtain ascending sorting results, and taking the ascending sorting results as the training sequence of all role information included by each preset contrast angle color point;

calculating according to the operation safety degree evaluation coefficients and the standard time length of all the preset contrast angle color points to obtain the training time length corresponding to each preset contrast angle color point;

an operation safety degree evaluation coefficient and a training time period are calculated by the following formulas,

wherein the content of the first and second substances,

is as follows

The evaluation coefficient of the operation safety degree of the color point of each preset contrast angle,

is the length value of the preset time period,

is a weight value of the time, and is,

for the number of the characters that are operated in error,

for the weight value of the number of characters,

is as follows

The number of erroneous operations of the individual erroneous operation character,

for the upper limit value of the role that is operated in error,

in order to have a weight value for the number of operations,

is a constant value of the amount of the substance,

is as follows

The training time for each preset contrast angle point,

is as follows

The evaluation coefficient of the operation safety degree of the color point of each preset contrast angle,

to preset the upper limit value of the color point of the contrast angle,

for a predetermined magnitude of the contrast angle color point,

is a standard time length.

Has the advantages that:

1. the scheme judges the distance between the first monitoring equipment and the second monitoring equipment by judging the signal intensity information between the first short-distance communication modules on the first monitoring equipment and the second monitoring equipment, so that the first monitoring equipment and the second monitoring equipment are reminded in time; in addition, according to the scheme, different reminding can be performed on different role information according to the difference between the first role information and the second role information, after the cloud server receives the first role information and the second role information, the preset role table can be used for comparing the first role information and the second role information to obtain a role corresponding result, then the first reminding information corresponding to the first role information and the second reminding information corresponding to the second role information are respectively determined, and corresponding workers can timely stop dangerous behaviors;

2. aiming at some application scenes, the scheme is also designed for reminding workers in stages so as to realize reminding of different danger degrees of the workers and ensure construction safety;

3. the scheme is provided with a preset grade, when the interval grade is greater than or equal to the preset grade, the signal intensity is higher, the distance is closer, the danger degree is higher, and at the moment, the scheme finds a corresponding higher level and informs the danger information to the corresponding higher level; in addition, the scheme can count the number of the wrong operation roles in the preset time period of each preset contrast angle color point and the wrong operation times of each wrong operation role, then calculate to obtain an operation safety degree evaluation coefficient, and obtain different training degrees for different personnel by combining the operation safety degree evaluation coefficient, so that personalized training is realized, the safety consciousness is improved, and the occurrence of safety accidents is reduced;

4. according to the scheme, in order to determine which one of the first role information and the second role information is subjected to the illegal operation, the first fixed reference equipment is arranged, the corresponding judgment strategy is formulated, whether the first role information is subjected to the illegal operation or the second role information is subjected to the illegal operation can be accurately judged, and then corresponding reminding and tube bank management are carried out.

Drawings

Fig. 1 is a schematic flow chart of a method for monitoring and controlling the environmental safety of a construction site based on digital cloud computing according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic flowchart of a method for monitoring and controlling safety of a worksite environment based on digital cloud computing according to an embodiment of the present invention, where an execution subject of the method shown in fig. 1 may be a software and/or hardware device. The execution subject of the present application may include, but is not limited to, at least one of: user equipment, network equipment. The user equipment may include, but is not limited to, a computer, a smart phone, and a Personal Digital Assistant (PDA). The network device may include, but is not limited to, a single network server, a server group of multiple network servers, or a cloud based on cloud computing, which is one type of distributed computing, a super virtual computer consisting of a cluster of loosely coupled computers, consisting of a large number of computers or network servers. The present embodiment does not limit this.

The method for monitoring and controlling the safety of the environment of the construction site based on the digital cloud computing comprises steps S1 to S4, and specifically comprises the following steps:

and S1, setting corresponding first role information and first monitoring equipment for each worker in advance, wherein the first monitoring equipment comprises a first short-distance communication module, a first long-distance communication module and a first processing module.

It can be understood that there can be a plurality of staff in the construction site, for example, there are constructor, freight car personnel, crane personnel, dining room personnel etc. this scheme can set up corresponding first role information and first monitoring facilities for every staff in advance.

Wherein, first persona information indicates personnel type just, for example constructor, freight train personnel, crane personnel, dining room personnel etc. and first monitoring facilities can be the helmet that the staff wore.

The first monitoring device in the scheme comprises a first short-distance communication module, a first long-distance communication module and a first processing module. The first short-distance communication module can be at least one of WiFi and Bluetooth and can realize short-distance wireless communication, the first long-distance communication module is used for transmitting data of the first short-distance communication module and the first processing module to the cloud server, and the cloud server can process and feed back the received data.

In some embodiments, the step S1 (previously setting corresponding first role information and a first monitoring device including a first short-range communication module, a first long-range communication module and a first processing module for each staff member) includes S11-S12:

s11, first role information corresponding to corresponding staff is generated according to role data input by a user, a first short-distance communication module of a type corresponding to the first role information is determined according to the role data, and the type of the first short-distance communication module comprises at least one of WiFi and Bluetooth.

The role data input by the user may refer to names of workers, and then the corresponding first role information is found according to the names, for example, zhang san corresponds to a constructor, and when the role data input by the user is zhang san, the corresponding first role information is the constructor. It will be appreciated that the first persona information may be the same across multiple workers.

After the first role information is determined, the first short-distance communication module (namely at least one of WiFi and Bluetooth) of the type corresponding to the first role information is determined according to the role data.

It can be understood that, generally, WiFi is far away than the transmission distance of bluetooth, and this scheme can select a suitable first near field communication module according to the actual situation, so as to ensure that near field communication can be performed. For example, the communication distance required by the truck crew is relatively long, and the type of the first short-distance communication module may be WiFi.

And S12, generating a working time period corresponding to the first role information according to the role data, wherein the first monitoring equipment works in the working time period.

It can be understood that the scheme only needs to monitor the role in the working time period corresponding to the role, and the rest time periods do not need to be monitored, so that the scheme can also obtain the working time period corresponding to the first role information.

And S2, if the first processing module judges that the second monitoring device is in the communication range of the first near-distance communication module, acquiring second role information of the second monitoring device, and uploading the first role information and the second role information to a cloud server based on the first far-distance communication module.

The second monitoring device can also be a helmet, when the first processing module of the scheme judges that the second monitoring device is arranged in the communication range of the first close-range communication module, the fact that a worker wearing the second monitoring device is close to a worker wearing the first monitoring device is explained, the scheme can acquire second role information corresponding to the worker wearing the second monitoring device, and the first remote communication module is used for uploading the first role information and the second role information to the cloud server for processing.

In some embodiments, the step S2 (if the first processing module determines that the first short-distance communication module has the second monitoring device in the communication range of the first short-distance communication module, the first processing module acquires second role information of the second monitoring device, and uploads the first role information and the second role information to the cloud server based on the first long-distance communication module) includes:

the first processing module controls the first near-field communication module to continuously search for communication modules of other monitoring devices in the working period. It can be understood that, in this scheme, the first near field communication module may continuously search for communication modules of other monitoring devices within a certain range during the operating period, and if the near field communication modules of other monitoring devices are searched, the other monitoring devices are used as the second monitoring device, and the first processing module acquires the second role information of the second monitoring device and the first signal strength information between the first near field communication module and the second monitoring device. It can be understood that, if the first near field communication module searches for the near field communication modules of other monitoring devices during the operating period, the first near field communication module is used as the second monitoring device in the scheme, and then the first processing module acquires the corresponding second role information and acquires the first signal strength information between the first near field communication module and the second monitoring device. It can also be understood that the signal strength decreases as the connection distance increases, and the present solution can calculate the distance between the first monitoring device and the second monitoring device according to the first signal strength information.

And uploading the first role information, the second role information and the first signal intensity information to a cloud server based on a first remote communication module. The scheme can utilize the cloud server for further calculation.

S3, the cloud server compares the first role information with the second role information based on a preset role table to obtain a role corresponding result, and determines first reminding information and second reminding information of the first role information and the second role information according to the role corresponding result.

It can be understood that if the first near field communication module searches for the near field communication modules of other monitoring devices during the working period, it indicates that the first near field communication module and the second near field communication module are close to each other, and danger reminding needs to be performed on the first near field communication module and the second near field communication module.

In order to differently remind different role information, after receiving the first role information and the second role information, the cloud server compares the first role information and the second role information by using a preset role table to obtain a role corresponding result, and then determines first reminding information corresponding to the first role information and second reminding information corresponding to the second role information respectively.

The preset role table is provided with a judgment strategy and a preset reminding mode, wherein the judgment strategy and the preset reminding mode are correspondingly set in advance for each type of the first role information and the second role information.

In some embodiments, the step S3 (the cloud server compares the first role information and the second role information based on a preset role table to obtain a role corresponding result, and determines, according to the role corresponding result, first reminding information and second reminding information corresponding to the first role information and the second role information) includes S31 to S34:

and S31, obtaining a corresponding judgment strategy and a preset reminding mode according to the role corresponding result of the first role information and the second role information, wherein the preset role table has a judgment strategy and a preset reminding mode which are correspondingly set in advance for each type of the first role information and the second role information.

It can be understood that the preset role table has a judgment strategy and a preset reminding mode, which are preset correspondingly for each type of the first role information and the second role information.

For example, first role information is constructor, and second role information is the freight train personnel, because freight train speed is very fast, the danger scope is wider, and the constructor is difficult to observe in the construction at night, then the judgement strategy of corresponding setting in advance in presetting the role table can be: when the first near field communication module and the second near field communication module are searched mutually, reminding information is output to realize timely reminding.

For another example, the first role information is constructor, the second role information is crane operator, and since the crane does not move and the danger range is fixed (for example, the crane lifting range is fixed), the judgment policy preset in the preset role table correspondingly may be: and outputting reminding information according to the signal strength of the first close-range communication module and the second close-range communication module so as to realize staged reminding of workers.

S32, if the determination policy is: and outputting reminding information when the first near-field communication module and the second near-field communication module are searched mutually, and directly determining first reminding information and second reminding information corresponding to the first role information and the second role information.

Referring to the explanation in S31, the decision policy is: when the first near-field communication module and the second near-field communication module are searched mutually, the reminding information is output, and then the first reminding information and the second reminding information corresponding to the first near-field communication module and the second near-field communication module are directly output.

For example, the first role information may be a constructor, the second role information may be a truck person, the first reminding information may remind a person corresponding to the first role information, the reminding content may be "please note, which is closer to the truck", the second reminding information may remind a person corresponding to the second role information, and the reminding content may be "please note, which is closer to the constructor, which please slow down".

S33, if the determination policy is: and outputting reminding information according to the signal intensity of the first close-range communication module and the second close-range communication module, and comparing the first signal intensity information with a plurality of preset signal intervals, wherein each preset signal interval has corresponding reminding information.

In the scheme, different preset signal intervals have different reminding information, for example, when the preset signal interval is 1-3, the description signal is relatively weak, the corresponding reminding information can be 'please notice and enter a dangerous range', when the preset signal interval is 3-7, the description signal strength is medium, the corresponding reminding information can be 'please notice and enter a relatively dangerous range', when the preset signal interval is 7-10, the description signal is relatively strong, and the corresponding reminding information can be 'please notice and enter an extremely dangerous range'.

Referring to the explanation in S31, the decision policy is: and outputting reminding information according to the signal strength of the first close-range communication module and the second close-range communication module, so that the scheme can compare the first signal strength information with a plurality of preset signal intervals and find corresponding reminding information.

And S34, determining a corresponding preset signal interval according to the first signal strength information, and determining first reminding information and second reminding information corresponding to the first role information and the second role information according to the corresponding preset signal interval.

For example, the first role information may be constructors, the second role information may be crane personnel, and the first reminding information for the first role information is set as follows:

when the signal intensity is within 1-3 of the preset signal interval, the description signal is weak, the corresponding first reminding information can be 'please notice and enter the dangerous range of the crane', when the signal intensity is within 3-7 of the preset signal interval, the description signal intensity is medium, the corresponding first reminding information can be 'please notice and enter the dangerous range of the crane', when the signal intensity is within 7-10 of the preset signal interval, the description signal is strong, and the corresponding first reminding information can be 'please notice and enter the extremely dangerous range of the crane', so that the first role information can be reminded in stages.

The second reminding information aiming at the second role information is set as follows:

when the signal intensity is within 1-3 of the preset signal interval, the description signal is weak, the corresponding second reminding information can be 'please notice that a constructor enters a dangerous range of the crane', when the signal intensity is within 3-7 of the preset signal interval, the description signal intensity is medium, the corresponding second reminding information can be 'please notice that the constructor enters a dangerous range of the crane', when the signal intensity is within 7-10 of the preset signal interval, the description signal is strong, and the corresponding second reminding information can be 'please notice that the constructor enters an extremely dangerous range of the crane', so that the staged reminding of the second role information is realized.

It should be noted that, according to the scheme, when a worker (e.g., a constructor) has to enter a dangerous area (e.g., a dangerous area of a crane) to perform work (e.g., the constructor has to hang construction materials to the crane), the worker can be reminded in stages, so that the worker can be reminded in real time, and the construction safety is ensured.

In some embodiments, S34 (determining the corresponding preset signal interval according to the first signal strength information, and determining the first reminding information and the second reminding information corresponding to the first role information and the second role information according to the corresponding preset signal interval) includes S341 to S343:

s341, obtaining the interval level of the preset signal interval determined according to the first signal strength information.

It is understood that the present scheme may determine within which corresponding interval level of the preset signal interval the first signal strength information is.

And S342, if the interval grade is judged to be larger than or equal to the preset grade, determining third role information and fourth role information of vertical management dimensionality corresponding to the first role information and the second role information according to a preset role tree.

The third role information of the vertical management dimension may be a superior level of the first role information, and the first role information is, for example, a constructor, and then the third role information of the vertical management dimension may be a supervisor of the constructor; the fourth role information of the vertical management dimension may be a superior level of the second role information, and the second role information may be, for example, a van person, and the fourth role information of the vertical management dimension may be a supervisor of the van person.

It can be understood that the scheme is provided with a preset grade, when the interval grade is greater than or equal to the preset grade, the signal intensity is higher, the distance is closer, the danger degree is higher, and at this time, the scheme finds a corresponding higher level and informs the danger information to the corresponding higher level.

And S343, determining third monitoring equipment and fourth monitoring equipment corresponding to the third triangular color information and the fourth rectangular color information respectively, and reminding the third monitoring equipment and the fourth monitoring equipment.

In some embodiments, the step S343 (determining that the third monitoring device and the fourth monitoring device respectively correspond to the third triangle information and the fourth triangle information, and alerting the third monitoring device and the fourth monitoring device) includes:

and determining third reminding information corresponding to third corner color information according to the first reminding information, and determining fourth reminding information corresponding to fourth corner color information according to the second reminding information.

And respectively sending the third reminding information and the fourth reminding information to corresponding third monitoring equipment and fourth monitoring equipment for reminding.

This scheme can send the dangerous condition for third monitoring facilities and fourth monitoring facilities, reminds higher level, lets higher level come to carry out timely tube bank to the staff, in time prevents the emergence of dangerous accident.

In some other embodiments, the method further comprises:

a first communication link between the third monitoring device and the first monitoring device and a second communication link between the fourth monitoring device and the second monitoring device are determined. According to the scheme, a first communication link between the third monitoring device and the first monitoring device and a second communication link between the fourth monitoring device and the second monitoring device are monitored in real time, and whether data transmission exists in the first communication link and the second communication link is judged.

Monitoring the first communication link and the second communication link, and if it is judged that any one or more of the first communication link and the second communication link has no data transmission within a preset time period, it can be understood that if any one or more of the first communication link and the second communication link has no data transmission within a specified time period, it indicates that the third monitoring device or the fourth monitoring device does not remind corresponding staff and manage;

determining a third monitoring device or a fourth monitoring device corresponding to the first communication link or the second communication link without data transmission, and sending a third reminding message or a fourth reminding message to the third monitoring device or the fourth monitoring device again. According to the scheme, the third reminding information or the fourth reminding information can be sent to the third monitoring equipment or the fourth monitoring equipment again so as to prompt a higher level to remind a worker and manage the worker timely.

And S4, the cloud server sends the first reminding information to first monitoring equipment through a first remote communication module, and sends the second reminding information to second monitoring equipment through a second remote communication module.

The cloud server generates first reminding information, sends the first reminding information to the first monitoring device to remind workers corresponding to the first role information, and generates second reminding information, and sends the second reminding information to the second monitoring device to remind workers corresponding to the second role information.

Although the first warning information and the second warning information are output in step S3, it is not known which of the first character information and the second character information has been subjected to the violation operation, and the present embodiment further includes steps a1 to a4 for determining that:

and A1, if the first role information is judged to have the corresponding first fixed reference device in the preset role table, determining a reference condition between the first monitoring device and the first fixed reference device, and acquiring the reference signal strength of the first role information and the fixed communication module.

For example, the first character information may be constructors, the construction range may be at the 8 th floor of the construction floor, the first fixed reference device may be a device fixedly installed at the 8 th floor, and the reference signal strength between the first character information and the fixed communication module may be obtained according to the scheme.

A2, wherein the reference condition is that the first short-range communication module in the first monitoring device searches that the reference signal intensity of the first fixed reference device or the first character information and the fixed communication module is greater than a preset reference intensity.

The first short-distance communication module in the first monitoring device searches for the first fixed reference device, and the first fixed reference device is within a certain range of the first fixed reference device, and the reference signal strength of the first character information and the fixed communication module is greater than the preset reference strength, and the first monitoring device is also within a certain range of the first fixed reference device.

A3, if it is determined that the first short-range communication module in the first monitoring device does not search the fixed communication module of the first fixed reference device, or the reference signal strength is less than or equal to a preset reference strength, the first role information corresponding to the first monitoring device is an incorrect operation role.

It can be understood that, if the first short-distance communication module in the first monitoring device does not search the fixed communication module of the first fixed reference device, or the reference signal strength is less than or equal to the preset reference strength, it indicates that the worker is not at the construction site of layer 8 but leaves the construction site of layer 8, then the first role information is determined as the wrong operation role by the present scheme.

A4, if it is determined that the first near field communication module in the first monitoring device searches the fixed communication module of the first fixed reference device or the reference signal strength is greater than the preset reference strength, determining that the second role information corresponding to the second monitoring device is the wrong operation role.

It can be understood that, if the first short-distance communication module in the first monitoring device searches for the fixed communication module of the first fixed reference device or the reference signal strength is greater than the preset reference strength, it indicates that the worker is on the construction site at layer 8, and thus it indicates that the worker corresponding to the first role information is the correctly-operated role, the second role information is determined to be the incorrectly-operated role in the present solution.

According to the scheme, through the arrangement of the first fixed reference device, whether the first role information violation operation or the second role information violation operation can be accurately judged, and then corresponding reminding and tube bundle are carried out.

The scheme also comprises steps B1-B3:

b1, selecting a plurality of preset contrast angle color points with the same management dimensionality in the role tree, and counting all the role points with the lower dimensionality corresponding to each preset contrast angle color point, wherein each role point corresponds to one role information.

The role tree is provided with a plurality of preset contrast role points with the same management dimensionality, for example, the preset contrast role points are the main pipe nodes of constructors, the main pipe nodes of truck personnel, the main pipe nodes of canteen personnel and the like.

It can be understood that all the role points of the lower dimension corresponding to the main management node of the constructor can be all the constructors, the role points of the lower dimension corresponding to the main management node of the truck personnel can be all the truck personnel, and the role points of the lower dimension corresponding to the main management node of the canteen personnel can be all the canteen personnel.

And B2, acquiring the number of the wrong operation roles of each preset contrast angle color point in a preset time period and the wrong operation times of each wrong operation role, and calculating according to the preset time period, the number of the wrong operation roles and the wrong operation times to obtain an operation safety degree evaluation coefficient of each preset contrast angle color point.

According to the scheme, the number of the error operation roles of each preset contrast angle color point in a preset time period and the error operation times of each error operation role are counted, and then an operation safety degree evaluation coefficient is obtained through calculation. It is understood that the lower the operation safety degree evaluation coefficient, the more the description error, and the longer the training time period is required.

B3, sequencing and calculating all the preset contrast angle color points according to the operation safety degree evaluation coefficient to obtain the training sequence and the training duration of all the role information included in each preset contrast angle color point.

It can be understood that the scheme sorts and calculates the preset contrast angle color points according to the operation safety degree evaluation coefficient to obtain the training sequence and the training duration of all the role information included in each preset contrast angle color point, and then trains the corresponding personnel.

The method comprises the following steps of sequencing and calculating all preset contrast angle color points according to the operation safety degree evaluation coefficient to obtain the training sequence and the training duration of all role information included in each preset contrast angle color point, wherein the training sequence and the training duration comprise:

and performing ascending sorting according to the operation safety degree evaluation coefficient of the preset contrast angle color points to obtain ascending sorting results, and taking the ascending sorting results as the training sequence of all the role information included by each preset contrast angle color point. It will be appreciated that the more errors the previously ordered preset contrast ratio dots are, the lower the degree of safety, and the need for prior training, after ascending order.

And calculating according to the operation safety degree evaluation coefficients and the standard time length of all the preset contrast angle color points to obtain the training time length corresponding to each preset contrast angle color point. The scheme also can calculate the training time length corresponding to each preset contrast angle color point by combining the operation safety degree evaluation coefficient and the standard time length.

Calculating an operation safety evaluation coefficient and a training time length by the following formula:

wherein the content of the first and second substances,

is as follows

The evaluation coefficient of the operation safety degree of the color point of each preset contrast angle,

is the length value of the preset time period,

is a weight value of the time, and is,

for the number of the characters that are operated in error,

for the weight value of the number of characters,

is as follows

The number of erroneous operations of the individual erroneous operation character,

for the upper limit value of the role that is operated in error,

in order to have a weight value for the number of operations,

is a constant value of the amount of the substance,

is as follows

The training time for each preset contrast angle point,

is as follows

The evaluation coefficient of the operation safety degree of the color point of each preset contrast angle,

for the upper limit value of the preset contrast angle color point,

for a predetermined magnitude of the contrast angle color point,

is a standard time length.

The larger the number of people who are indicating the wrong role,

the larger, the more interpreted errors,

representing the overall degree of error, the greater the corresponding evaluation coefficient of the degree of operational safety

The smaller;

the representative statistical time is, for example, one month or two months, the larger the value is, the less mistakes are made in the unit time, the higher the operation safety degree is, and the corresponding operation safety degree evaluation coefficient

The larger.

Average value of evaluation coefficients of the degree of safety of operation representing color points of a predetermined contrast angle, second

Evaluation coefficient of operation safety degree of color point with preset contrast angle

The smaller the average value is, the lower the safety degree is, and the corresponding training duration

The higher.

According to the scheme, different training degrees for different personnel can be obtained through the steps B1-B3, personalized training is achieved, safety consciousness is improved, and safety accidents are reduced.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A construction site environment safety monitoring control method based on digital cloud computing is characterized by comprising the following steps:

the method comprises the steps that corresponding first role information and first monitoring equipment are set for each worker in advance, wherein the first monitoring equipment comprises a first short-distance communication module, a first long-distance communication module and a first processing module;

if the first processing module judges that second monitoring equipment exists in the communication range of the first short-distance communication module, second role information of the second monitoring equipment is obtained, and the first role information and the second role information are uploaded to a cloud server based on the first long-distance communication module;

the cloud server compares the first role information with the second role information based on a preset role table to obtain a role corresponding result, and determines first reminding information and second reminding information corresponding to the first role information and the second role information according to the role corresponding result;

the cloud server sends the first reminding information to first monitoring equipment through a first remote communication module, and sends the second reminding information to second monitoring equipment through a second remote communication module.

2. The digital cloud computing-based worksite environmental safety monitoring control method according to claim 1,

for every staff sets up corresponding first persona information and first monitoring facilities in advance, first monitoring facilities includes first closely communication module, first remote communication module and first processing module, includes:

generating first role information corresponding to corresponding staff according to role data input by a user, and determining a first short-distance communication module of a type corresponding to the first role information according to the role data, wherein the type of the first short-distance communication module comprises at least one of WiFi and Bluetooth;

and generating a working time period corresponding to the first role information according to the role data, wherein the first monitoring equipment works in the working time period.

3. The digital cloud computing-based worksite environmental safety monitoring and control method according to claim 2, wherein,

if the first processing module judges that the second monitoring device is arranged in the communication range of the first near-distance communication module, second role information of the second monitoring device is obtained, and the first role information and the second role information are uploaded to the cloud server based on the first far-distance communication module, wherein the method comprises the following steps:

the first processing module controls the first near-field communication module to continuously search for communication modules of other monitoring devices in the working period;

if the short-distance communication modules of other monitoring devices are searched, the other monitoring devices are used as second monitoring devices, the first processing module obtains second role information of the second monitoring devices, and meanwhile first signal strength information between the first short-distance communication module and the second monitoring devices is obtained;

and uploading the first role information, the second role information and the first signal intensity information to a cloud server based on a first remote communication module.

4. The digital cloud computing-based worksite environmental safety monitoring and control method according to claim 3, wherein,

the cloud server compares the first role information with the second role information based on a preset role table to obtain a role corresponding result, and determines first reminding information and second reminding information corresponding to the first role information and the second role information according to the role corresponding result, including:

obtaining a corresponding judgment strategy and a preset reminding mode according to the role corresponding results of the first role information and the second role information, wherein the preset role table is provided with the judgment strategy and the preset reminding mode which are correspondingly set in advance for each type of the first role information and the second role information;

if the judgment strategy is as follows: when the first near-field communication module and the second near-field communication module are searched mutually, reminding information is output, and first reminding information and second reminding information corresponding to the first role information and the second role information are directly determined;

if the judgment strategy is as follows: outputting reminding information according to the signal intensity of a first close-range communication module and a second close-range communication module, and comparing the first signal intensity information with a plurality of preset signal intervals, wherein each preset signal interval has corresponding reminding information;

and determining a corresponding preset signal interval according to the first signal strength information, and determining first reminding information and second reminding information corresponding to the first role information and the second role information according to the corresponding preset signal interval.

5. The digital cloud computing-based worksite environmental safety monitoring and control method according to claim 4, wherein,

the determining the corresponding preset signal interval according to the first signal strength information, and determining the first reminding information and the second reminding information corresponding to the first role information and the second role information according to the corresponding preset signal interval, includes:

acquiring the interval grade of a corresponding preset signal interval determined according to the first signal strength information;

if the interval grade is judged to be greater than or equal to a preset grade, determining third role information and fourth role information of a vertical management dimension, which correspond to the first role information and the second role information, according to a preset role tree;

and determining third monitoring equipment and fourth monitoring equipment respectively corresponding to the third triangular color information and the fourth rectangular color information, and reminding the third monitoring equipment and the fourth monitoring equipment.

6. The digital cloud computing-based worksite environmental safety monitoring and control method according to claim 5, wherein,

and determining third monitoring equipment and fourth monitoring equipment corresponding to the third corner color information and the fourth corner color information respectively, and reminding the third monitoring equipment and the fourth monitoring equipment, wherein the method comprises the following steps:

determining third reminding information corresponding to third corner color information according to the first reminding information, and determining fourth reminding information corresponding to fourth corner color information according to the second reminding information;

and respectively sending the third reminding information and the fourth reminding information to corresponding third monitoring equipment and fourth monitoring equipment for reminding.

7. The digital cloud computing-based worksite environment safety monitoring and control method according to claim 5, further comprising:

determining a first communication link between third monitoring equipment and first monitoring equipment and a second communication link between fourth monitoring equipment and second monitoring equipment;

monitoring the first communication link and the second communication link, if it is judged that any one or more of the first communication link and the second communication link has no data transmission in a preset time period, determining a third monitoring device or a fourth monitoring device corresponding to the first communication link or the second communication link which has no data transmission, and sending third reminding information or fourth reminding information to the third monitoring device or the fourth monitoring device again.

8. The digital cloud computing-based worksite environment safety monitoring and control method according to claim 4, further comprising:

if the first role information is judged to have the corresponding first fixed reference equipment in the preset role table, determining a reference condition between the first monitoring equipment and the first fixed reference equipment, and acquiring the reference signal intensity of the first role information and the fixed communication module;

the reference condition is that a first short-distance communication module in the first monitoring device searches for first fixed reference equipment, or the reference signal intensity of the first character information and the fixed communication module is greater than a preset reference intensity;

if the first short-distance communication module in the first monitoring device does not search the fixed communication module of the first fixed reference device or the reference signal intensity is smaller than or equal to the preset reference intensity, the first role information corresponding to the first monitoring device is an error operation role;

and if the fact that the first short-distance communication module in the first monitoring device searches the fixed communication module of the first fixed reference device is judged, or the reference signal intensity is greater than the preset reference intensity, the second role information corresponding to the second monitoring device is the wrong operation role.

9. The digital cloud computing-based worksite environmental safety monitoring and control method according to claim 8, further comprising:

selecting a plurality of preset contrast angle color points with the same management dimensionality in a role tree, and counting all the role points with lower dimensionality corresponding to each preset contrast angle color point, wherein each role point corresponds to one role information;

acquiring the number of the wrong operation roles of each preset contrast angle color point in a preset time period and the wrong operation times of each wrong operation role, and calculating according to the preset time period, the number of the wrong operation roles and the wrong operation times to obtain an operation safety degree evaluation coefficient of each preset contrast angle color point;

and sequencing and calculating all preset contrast angle color points according to the operation safety degree evaluation coefficient to obtain the training sequence and the training duration of all the role information included by each preset contrast angle color point.

10. The digital cloud computing-based worksite environmental safety monitoring and control method according to claim 9, wherein,

the specific process of sequencing and calculating all the preset contrast angle color points according to the operation safety degree evaluation coefficient to obtain the training sequence and the training duration of all the role information included in each preset contrast angle color point comprises the following steps:

performing ascending sorting according to the operation safety degree evaluation coefficient of the preset contrast angle color points to obtain ascending sorting results, and taking the ascending sorting results as the training sequence of all role information included by each preset contrast angle color point;

calculating according to the operation safety degree evaluation coefficients and the standard time length of all the preset contrast angle color points to obtain the training time length corresponding to each preset contrast angle color point;

calculating an operation safety evaluation coefficient and a training time length by the following formula:

wherein, the first and the second end of the pipe are connected with each other,

is a first

The evaluation coefficient of the operation safety degree of the color point of each preset contrast angle,

is the length value of the preset time period,

is a weight value of the time, and is,

for the number of the characters that are operated in error,

for the weight value of the number of characters,

is as follows

The number of erroneous operations of the individual erroneous operation character,

for the upper limit value of the role that is operated in error,

in order to have a weight value for the number of operations,

is a constant value of the amount of the substance,

is as follows

The training time for each preset contrast angle point,

is as follows

The evaluation coefficient of the operation safety degree of the color point of each preset contrast angle,

for the upper limit value of the preset contrast angle color point,

for a predetermined magnitude of the contrast angle color point,

is a standard time length.

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