KR102382649B1 - Method of providing construction site communication service and system performing thereof - Google Patents

Abstract

A construction site communication service providing method according to an embodiment of the present invention includes the steps of: providing, by a construction site communication service providing server, a worker unsafe behavior input procedure to an inspector terminal; when the inspector terminal receives unsafe behavior information through the unsafe behavior input procedure, checking essential items for action items among the unsafe behavior information; generating, by the inspector terminal, a corrective action document according to a checking result and providing the corrective action document to a manager terminal; when the manager terminal completes correction on the basis of the corrective action document, generating a corrective action completion matter and providing the same to the construction site communication service providing server; and generating, by the construction site communication service providing server, a safety inspection log by applying the unsafe behavior information and the corrective action completion matter to a safety inspection log form. Based on the type of accident, unsafe behavior data of workers can be collected and workers can be evaluated based on the collected data.

Description

Construction site communication service provision method and system for implementing the same

The present invention relates to a method for providing a construction site communication service and a system for implementing the same, and more specifically, to a construction site that collects workers' unsafe behavior data based on the type of accident and then evaluates workers based on the collected data It relates to a method of providing a communication service and a system for implementing the same.

In general, construction and industrial sites are places of labor-intensive industries where a large number of workers are put in and several tasks are carried out at the same time.

However, construction and industrial sites have a fatal problem in that valuable human resources are lost due to frequent safety accidents due to risks arising from various environments inherent in the site itself or due to minor negligence of workers.

In addition, workers in various fields are assigned to construction and industrial sites to perform their own work. Compared to the number of these workers, the number of managers is extremely small, and the control and management of the field manager is limited during outdoor work. As a result, efficient and accurate management of manpower in the site is not performed, and safety accidents or inefficient manpower management for construction site manpower cause problems such as an increase in overall construction cost, a decrease in productivity, and an extension of the construction period. Had a problem to do.

Conventionally, a number of CCTVs are installed and used as equipment to monitor dangerous areas in the field, but since fixed CCTVs are applied to each installation location, the monitoring efficiency is significantly reduced due to the occurrence of blind spots, and PTT, a radio service type There was a technical limitation in that it was impossible to reliably monitor all workers and heavy equipment based on (push to talk), and there was a technical limitation in the absence of a preventive risk recognition technology for safety accidents in the field.

An object of the present invention is to provide a method for providing a construction site communication service and a system for implementing the same, which collect unsafe behavior data of workers based on the type of accident and then evaluate workers based on the collected data.

In addition, the present invention provides a construction site communication service providing method and system for automatically generating a safety grading log by automatically reflecting in the safety check log of the worker in case of unsafe behavior directly input by the worker or manager, and a system for implementing the same intended to provide

In addition, the present invention provides a construction site communication service providing method and a system for implementing the same, characterized in that it provides a communication tool specialized for a construction site that can automatically generate up to a safety inspection log by collecting risk factors generated at the construction site intended to provide

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned may be understood by the following description, and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the appended claims.

The construction site communication service providing method for achieving this purpose includes the steps of, by the construction site communication service providing server, providing the worker unsafe behavior input procedure to the inspector terminal, when the inspector terminal receives the unsafe behavior information through the unsafe behavior input procedure , checking the required items of the unsafe behavior information, the inspector terminal generating a corrective action form according to the confirmation result and providing it to the manager terminal, the manager terminal correcting is completed based on the corrective action book , creating a corrective action completion matter and providing it to the construction site communication service providing server, and the construction site communication service providing server applying the unsafe behavior information and the corrective action completion matter to the safety inspection log form to create a safety inspection log It includes the step of creating

In addition, the construction site communication service providing system for achieving this purpose provides the worker unsafe behavior input procedure to the inspector terminal, and the unsafe behavior information input through the unsafe behavior input procedure and the unsafe behavior information corrective action Receive worker unsafe behavior input procedure from the construction site communication service providing server and the construction site communication service providing server that generate a safety inspection log by applying the corrective action completion to the safety inspection log form, and the unsafe behavior input procedure for each worker Upon receiving unsafe behavior information through and an inspector's terminal for generating completion items and providing them to the construction site communication service providing server.

According to the present invention as described above, there is an advantage that workers can be evaluated based on the collected data after collecting workers' unsafe behavior data based on the type of accident.

In addition, according to the present invention, in the case of unsafe behavior directly input by the monitoring group or the manager, there is an advantage that the safety grading log can be automatically generated by automatically reflecting the unsafe behavior into the eye point check log of the worker concerned.

In addition, according to the present invention, there is an advantage that it is possible to provide a communication tool specialized for the construction site that can automatically generate even a safety inspection log by collecting the risk factors generated at the construction site.

1 is a network configuration diagram for explaining a construction site communication service providing system according to an embodiment of the present invention.
2 is a network configuration diagram for explaining a construction site communication service providing system according to another embodiment of the present invention.
3 is a network configuration diagram illustrating a system for providing a construction site communication service according to another embodiment of the present invention.
4 is a network configuration diagram for explaining a system for providing a construction site communication service according to another embodiment of the present invention.
5 is a block diagram illustrating an internal structure of a construction site communication service providing server according to an embodiment of the present invention.
6 is a flowchart for explaining an embodiment of a method for providing a construction site communication service according to the present invention.
7 to 11 are exemplary views for explaining a construction site communication service providing process according to the present invention.
12 is a flowchart for explaining an embodiment of a method for providing a construction site communication service according to the present invention.
13 is a flowchart for explaining another embodiment of a method for providing a construction site communication service according to the present invention.
14 is a flowchart for explaining another embodiment of a construction site communication service providing method according to the present invention.
15 is a flowchart illustrating another embodiment of a method for providing a construction site communication service according to the present invention.

The above-described objects, features and advantages will be described below in detail with reference to the accompanying drawings, and accordingly, those of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

Among the terms used in this specification, “corrective action” refers to a document that describes actions taken for nonconformities at the construction site. In other words, it refers to a document containing the contents of measures to correct when a problem is found in the facilities at the construction site, etc.

1 is a network configuration diagram for explaining a construction site communication service providing system according to an embodiment of the present invention.

Referring to FIG. 1 , the construction site communication service providing system includes a construction site communication service providing server 100 , a worker terminal 200 , and a manager terminal 300 . The construction site communication service providing server 100 includes an education completion information database 110 , a certification database 111 , a career information database 112 , a worker database 113 , and a health checkup database 114 .

The construction site communication service providing server 100 receives and stores worker profile information from the worker terminal 200 through communication with the worker terminal 200 . In this case, the worker profile information may include personal information, career history, education history, health examination history, and the like.

First, the construction site communication service providing server 100 provides the training completion information registration procedure to the worker terminal 200 before the worker goes to work, and receives the training completion information through the training completion information registration procedure.

In this case, the education completion information may include a name, a date of birth, a registration number, a completion date, a photograph of the completion certificate for each education completion certificate, and the like. The above education certificate is a certificate issued after completing the education on construction site safety management, and may include a basic health certificate and the like.

When issued by an education completion issuing organization, the education completion certificate may be issued by inserting a verification code for determining whether authenticity is authentic. That is, when printed by the education completion issuing organization, pixel spaces of different sizes corresponding to the authenticity identification code are output and issued together.

As described above, when the education completion certificate is issued by the education completion issuing organization, the authenticity determination code inserted into the education completion certificate is received from the education completion issuing organization server and stored in advance. Accordingly, the construction site communication service providing server 100 may determine the authenticity of the education completion certificate by using the authenticity determination code received from the education completion issuing organization server.

Because the pixel space of different sizes inserted in the above education certificate is set to a color similar to the background screen of the education certificate (that is, a color corresponding to a value whose RGB value is above or below a certain value), the user's Although it is invisible to the naked eye, when the pixel is analyzed in the process of the construction site communication service providing server 100 scanning to determine the authenticity of the training certificate, the pixel space corresponding to the authenticity determination code can be extracted because the pixel value is different. will be.

Therefore, the construction site communication service providing server 100 extracts a plurality of pixel spaces from the education certificate in the process of scanning and analyzing the education certificate, and then uses the binary value indicated by the dotted point in the plurality of pixel spaces to determine the authenticity. can create

For example, when the construction site communication service providing server 100 extracts 1 pixel space composed of 4 dots and 6 pixel spaces composed of 8 dots, the pixel space composed of 4 dots is recognized as 1, and 8 By recognizing the pixel space consisting of dots as 0, it is possible to generate the authenticity determination code "1000000".

As another example, when the construction site communication service providing server 100 extracts 2 pixel spaces composed of 6 dots and 3 pixel spaces composed of 8 dots, the pixel space composed of 6 dots is recognized as 1, A pixel space made up of 8 dots is recognized as 0 to generate the authenticity determination code "11000".

Then, the construction site communication service providing server 100 may determine the authenticity of the education certificate by comparing the authenticity determination code and the previously received authenticity determination code.

As described above, the construction site communication service providing server 100 determines the authenticity of the training completion certificate and then calculates the effective time and training time for each training using the training completion information recorded on the training completion certificate, and then the type of training for each worker The list and authentication time are stored in the education completion information database 110 .

In this case, if the accumulated training time corresponding to the worker exists in the training completion information database 110, the accumulated training time is updated by reflecting the training time in the accumulated training time.

Thereafter, the construction site communication service providing server 100 generates a worker training list, and provides the worker training list to the worker terminal 200 .

In this case, the worker training list may include a manager, company, site, date, name, date of birth, whether newcomer training has been completed, effective period, whether to go to work, a list of required training, whether or not required training has been completed.

Then, the construction site communication service providing server 100 receives the attendance authentication information from the worker terminal 200, and after the training of the worker is carried out according to the worker training list received from the manager terminal 300, the training proof photo and Receives a training completion confirmation request message including training proof information.

At this time, the attendance certification information may include the name of the worker and the name of the supervisor, and the training proof information includes the training category, training target, work type name, training date, training location, training time, training manager (manager, etc.), training content and the like.

The construction site communication service providing server 100 authenticates attendance by using the attendance authentication information in the training completion confirmation request message, extracts the training evidence information, and uses the training evidence information for each worker stored in the training completion information database 110 . Update the list of training types and accumulated hours.

That is, the construction site communication service providing server 100 calculates the effective time and training time for each training by using the training proof information, updates the training type list for each worker using the training type, and uses the certification time to calculate the accumulated time. is updated and stored in the training completion information database 110 for each worker.

In addition, the construction site communication service providing server 100 provides a certification acquisition information registration procedure to the worker terminal 200, receives certification acquisition information through the certification acquisition information registration procedure, and stores certification acquisition information for each worker in the certification database 111 ) is stored in

At this time, the certificate acquisition information includes required information and optional information for each certificate, and the required information includes title, name, nationality, resident registration number, address, nationality, issuance date, aptitude test, expiration date, holding license, and proof photo, The selection information may include an insurance policy, a business registration certificate, an equipment registration certificate (eg, a result of a non-destructive inspection of a crane, a pump car, etc.), a photographic evidence, and the like. The above certificate is a certificate issued after the technology available at the construction site is certified through testing, and may include a machine pilot.

When the above certificate is issued by an institution in charge of testing a technology available at a construction site, a verification code for authenticity may be inserted and issued. That is, when a certificate is issued by an institution, pixel spaces of different sizes corresponding to the authenticity identification code are output and issued together.

As described above, when the certificate is issued, the authenticity determination code inserted into the certificate is received from the certification test hosting organization server and stored in advance. Accordingly, the construction site communication service providing server 100 may determine the authenticity of the certification by using the authenticity determination code received from the certification test hosting organization server.

Since the pixel space of different sizes inserted in the above certificate is set to a color similar to the background screen of the education certificate (that is, the color corresponding to the RGB value of the background screen being above or below a certain value), the user's eyes Although it is not visible in the , when the construction site communication service providing server 100 analyzes the pixels to determine the authenticity of the proof photos such as certificates, the pixel space corresponding to the authenticity determination code can be extracted because the pixel values are different.

Therefore, the construction site communication service providing server 100 extracts a plurality of pixel spaces from the proof photos such as certificates in the process of scanning and analyzing the proof photos such as certificates, etc. can be used to generate the authenticity identification code.

For example, when the construction site communication service providing server 100 extracts 1 pixel space composed of 4 dots and 6 pixel spaces composed of 8 dots, the pixel space composed of 4 dots is recognized as 1, and 8 By recognizing the pixel space consisting of dots as 0, it is possible to generate the authenticity determination code "1000000".

As another example, when the construction site communication service providing server 100 extracts 2 pixel spaces composed of 6 dots and 3 pixel spaces composed of 8 dots, the pixel space composed of 6 dots is recognized as 1, A pixel space made up of 8 dots is recognized as 0 to generate the authenticity determination code "11000".

Then, the construction site communication service providing server 100 may determine the authenticity of the certificate by comparing the authenticity determination code and the previously received authenticity determination code. As described above, the construction site communication service providing server 100 stores certification acquisition information for each worker in the certification database 111 after the authenticity of the certification is determined.

Therefore, the construction site communication service providing server 100 uses the certificate acquisition information for each worker stored in the certificate database 111. If the remaining period until the expiration of the validity period of the certificate or each valid period of the equipment registration certificate is less than a specific period, the manager terminal ( 300) can provide a notification message about the expiration of the validity period of the certificate.

In addition, when the construction site communication service providing server 100 receives a past career registration request message including career information from the worker terminal 200 , it extracts career information from the past career registration request message and then provides career information for each worker as career information. It is stored in the database 112 . In this case, the career information may include the number of working days, the type of work, the ordering party (eg, company), the type of the project (eg, civil engineering, architecture, plant, etc.), manager, detailed work type, and the like.

After that, when the construction site communication service providing server 100 receives the career person search request message from the worker terminal 200, it extracts the worker from the career information database 112 according to the career person search request message and then includes career information Provides a guide message. In this way, the construction site communication service providing server 100 provides career information together so that the business operator can refer to the worker's project arrangement based on the career information.

If a worker is hired by a business operator and participates in a project, the construction site communication service providing server 100 checks careers and updates career information for each worker stored in the career information database 112 .

In addition, the construction site communication service providing server 100 creates a list of workers using the worker information for each worker stored in the worker database 113 and the health checkup object stored in the health checkup database 114, and then the hospital server (not shown) provides a health check-up reservation message for scheduling a health check-up for workers on the worker list. In this case, the list of workers may include the type of examination for each worker, the date of the next examination, the scheduled examination institution, the desired examination reservation date, and the like.

Thereafter, the construction site communication service providing server 100 recognizes the examination result document issued by the hospital server, generates the examination result from the examination result document, and stores the examination result for each worker in the worker database 113 .

In one embodiment, when the construction site communication service providing server 100 receives the examination result document issued by the hospital server from the manager terminal 300, it recognizes the examination result document using OCR technology and then adds it to a predetermined item. The corresponding contents are extracted and stored in the worker database 113 .

2 is a network configuration diagram illustrating a construction site communication service providing system according to another embodiment of the present invention.

Referring to FIG. 2 , the construction site communication service providing system includes a construction site communication service providing server 100 and a manager terminal 300 . The construction site safety management server 100 includes an accident risk assessment database 120 , a risk assessment standard model 121 , a risk assessment database 122 , a site risk characteristic prediction model 123 , and an accident case database 124 . .

The construction site communication service providing server 100 generates a risk assessment result for each work type based on the accident risk assessment database 120 and the risk assessment standard model 121 .

The accident risk assessment database 120 stores the accident frequency ratio for each construction type, the accident intensity ratio for each construction type, and detailed information for each accident. In this case, detailed contents for each disaster may include process, cause, accident type, unit work, number of injured persons (death/injury), site location, type of construction, construction amount, and rate of completion. The risk assessment standard model 121 above stores risk factors for each type of work and safety measures for each risk factor.

First, when the construction site communication service providing server 100 receives a keyword corresponding to each of the construction site situation (ie, construction scale, construction type, completion rate, climate, etc.) and work content, it is added to the keyword in the accident risk assessment database 120 . Extract the accident frequency ratio by construction type, the accident intensity ratio by construction type, and detailed contents for each accident. The above keywords may be determined as a process, an accidental person, an accident type, a unit work content, and the like.

Then, the construction site communication service providing server 100 calculates a risk assessment result for each work type using the accident frequency ratio for each construction type and the accident intensity ratio for each construction type.

In this case, the construction site safety management server 100 may calculate the risk evaluation result for each work type through the AI engine or may calculate it through the following [Equation 1] to [Equation 6]. Hereinafter, a process of calculating the risk assessment result for each type of work through [Equation 1] to [Equation 6] will be described.

In one embodiment, the construction site communication service providing server 100 uses the ratio of the accident frequency for each construction type and the accident intensity ratio for each construction type extracted from the risk assessment database 122 based on [Equation 1], the risk by construction type An evaluation grade can be calculated. In this case, the risk assessment database 122 stores the accident occurrence frequency ratio for each construction type and the accident intensity ratio for each construction type, and may be automatically updated as the application is used.

[Equation 1]

Part_Danger_level = (Danger_fre_rate + Danger_str_rate) * Danger_W

Part_Danger_level: Risk assessment level for each type of work

Danger_fre_rate: Calculated by [Equation 2] as the rate of accident occurrence by construction type,

Danger_str_rate: Calculated by [Equation 3] as the accident intensity ratio by construction type

Danger_W: Weight determined according to the time of accident by construction type

In [Equation 1], the accident frequency ratio for each work type (Danger_fre_rate) is calculated by the following [Equation 2], and the accident intensity ratio by construction type (Danger_str_rate) is calculated by the following [Equation 3], The weight (Danger_W) determined according to the time of occurrence of each type of accident is assigned a higher weight as the time of occurrence of the accident is closer to the present time for cases where the time of accident does not exceed 3 years from the current time. A predetermined weight (eg, “1”) is assigned to cases in which α is more than 3 years from the present time.

[Equation 2]

Danger_fre_rate = (part_victim / total_victim) × 100

Danger_fre_rate: Accident frequency ratio by construction type,

part_victim: Accident index by construction type,

total_victim: Total disaster index

In [Equation 2], the disaster index (part_victim) and the total disaster index (total_victi) for each work type may be determined by the detailed contents (ie, the number of victims) for each disaster extracted from the risk assessment database 122 .

[Equation 3]

Danger_str_rate

= (part_dead_people_rate × 3) + part_injured_people_rate

Danger_str_rate: Accident intensity ratio by construction type,

part_dead_people_rate: Calculated by [Equation 4] as the death rate by type of work,

part_injured_people_rate: Calculated by [Equation 5] as the rate of injured people by type of work

In [Equation 3], the death rate by type of work (part_dead_people_rate) is calculated by [Equation 4], and the injured rate by type of work (part_injured_people_rate) is calculated by [Equation 5].

[Equation 4]

part_dead_people_rate = (part_dead_people / total_dead_people) × 100

part_dead_people_rate: rate of deaths by type of work;

part_dead_people: number of deaths by type of work,

total_dead_people: total number of deaths

In [Equation 4], the number of fatalities by type of work (part_dead_people) and the total number of deaths (total_dead_people) may be determined by the details of each disaster extracted from the risk assessment database 122 (ie, deaths among the number of casualties).

[Equation 5]

part_injured_people_rate

= (part_injured_people / total_injured_people) × 100

part_dead_people_rate: Percentage of casualties by type of work;

part_dead_people: number of injured by type of work;

total_dead_people: total number of wounded

In [Equation 5], the number of injured persons (part_dead_people) and the total number of injured persons (total_dead_people) by type of work in [Equation 5] may be determined by the details of each disaster extracted from the risk assessment database 122 (that is, the number of injured among the number of casualties).

The risk evaluation grade for each type of work calculated through [Equation 1] to [Equation 5] above may be as shown in [Table 1] below.

[Table 1]

As described above, when the construction site communication service providing server 100 determines the risk evaluation grade for each construction type based on the accident risk evaluation database 120 , the risk corresponding to the risk evaluation grade for each construction type in the risk evaluation standard model 121 . Extract safety measures for each factor and risk factor.

Thereafter, the construction site communication service providing server 100 generates risk assessment result data by using the risk assessment grade, risk factors, and safety measures for each risk factor, and then stores the risk assessment result data in the risk assessment database.

After generating the risk evaluation result data through the above-described process, the construction site communication service providing server 100 reflects the risk evaluation result data, site information, and the risk evaluation index for each construction cycle based on the site risk characteristic prediction model to increase the risk Generate predictive data.

The above site information may include site address, construction type, construction scale (amount), construction period, master schedule by construction period/building permit information: site location, actual construction start date, main use code name, and the like.

At this time, the site risk characteristic prediction model 123 is the site location, construction type, construction scale, weather, process progress, delay, patrol data by construction type (Patrol Data), patrol data by accident type (Patrol Data), compared to all workers The percentage of safety scores for each field worker and work team is stored.

[Equation 6]

ConstructionPeriod_Danger_value = PastPart_Danger_value + weight

ConstructionPeriod_Danger_value: Risk assessment index for each construction cycle,

PastPart_Danger_value: Risk assessment index by past construction type,

weight: site risk characteristic weight

In the above [Equation 6], the field risk characteristic weight may be changed according to a fixed factor, a variable factor, and a field nonconformity. The fixed factors include a site location, a construction type, and a construction scale, and the variable factors include weather information received from the Meteorological Administration server 400 , progress and delay in comparison with a predetermined schedule.

Site nonconformities refer to site nonconformities pointed out by the manager who manages the site. For example, field nonconformities may include non-tightening of safety hooks. As described above, the risk assessment index for each construction cycle is changed by changing the site risk characteristic weight according to fixed factors, variable factors, and site nonconformities.

3 is a network configuration diagram for explaining a construction site work management system according to another embodiment of the present invention.

Referring to FIG. 3 , the construction site work management system includes a construction site work management server 100 and an inspector terminal 500 , and the inspector terminal 500 includes a manager terminal 300 and a monitoring group terminal 600 . . At this time, the monitoring group terminal 600 is a terminal possessed by a worker who is given monitoring authority by a manager among workers.

The construction site work management server 100 includes a work permit database 130 and a site subscriber database 131 .

The construction site work management server 100 provides a work permit work procedure to the manager terminal 300 based on the work permit database 130 and the site subscriber database 131 . In this case, the work permit database 130 includes a checklist for each work permit, and the on-site subscriber database 131 stores the name and affiliation of each manager and the name and affiliation of each worker.

Thereafter, when the work permit is generated from the manager terminal 300 through the work permit work procedure, the construction site work management server 100 generates a list of work permits using the work permit. In this case, the work permit generated by the manager may include a permit number, date, company name, work type by work type, work place, input personnel, work time, work leader, input device, workers, and the like.

Therefore, the construction site work management server 100 is the work content, work place, input personnel, work time, work leader, input device, worker, work permit target for each work type of work permit (ie, dangerous work permit, general work permit) , create a list of work permits using permit types (ie, special, hazardous, general), inspectors, etc. This work permit list table is a table of lists for each type of work permit so that the work permit can be checked intuitively.

At this time, when the construction site work management server 100 is approved for the work permit list table by the manager, after generating the work permit approval list and storing it in the work permit database 130, the work permit assignment details are checked at the inspector terminal 500 ) is provided in

If the construction site work management server 100 receives the work permit checklist generated according to the work permit assignment details, it stores the work permit checklist in the work permit database 130 . In this case, the work permit database 130 includes work permit inspection results, inspectors, inspection time, photos, detailed content, and the like.

After that, the construction site work management server 100 provides a work termination request message to the manager terminal 300 when the work permit inspection is completed, and after the work termination is registered, the closing contents of the work permit are stored in the work permit database 130 . Save.

The manager terminal 300 selects a work stop or correction request through the nonconformity registration procedure when nonconformities are found during inspection of a specific work on the work permit list table received from the construction site work management server 100 .

If, after the nonconformity is found, the manager terminal 300 provides a work stop request message to different manager terminals when the job stop is selected after the nonconformity is found, and when a correction request is selected after the nonconformity is found, a correction request message is sent to different managers provided to the terminal.

Meanwhile, when nonconformities are found, the manager terminal 300 stores the nonconformities in the present subscriber database 131 connected to the work permit database 130 for each person.

After receiving the work permit work procedure from the construction site work management server 100 , the manager terminal 300 generates a work permit through the work permit work procedure. At this time, the manager terminal 300 generates a work permit by inputting the permit number, date, company name, work type by work type, work place, input personnel, work time, work leader, input device and workers through the work permit work procedure. can

The inspector's terminal 500 performs the inspection based on the list of work permits received from the construction site work management server 100 .

First, the inspector terminal 500 inputs a detailed check list, photos, and inspection results through the inspection result input procedure for each inspection target item by work type based on the work permit. Thereafter, the inspector terminal 500 may provide any one of an inspection completion message, a work stop notification message, and a task partial supplementation request message to different manager terminals according to the inspection result.

For example, the inspector terminal 500 may provide an inspection completion message to the inspection result "good", the corresponding work type manager terminal and the worker terminal.

As another example, the inspector's terminal 500 may provide a work stop notification message to the process manager terminal and the worker terminal when the inspection result is “defective”.

As another example, the inspector's terminal 500 may provide a partial task supplementation request message to the process manager terminal and the worker terminal when the inspection result "when supplementing other".

4 is a network configuration diagram for explaining a system for providing a construction site communication service according to another embodiment of the present invention.

Referring to FIG. 4 , the construction site communication service providing system includes a construction site communication service providing server 100 and an inspector terminal 500 , and the inspector terminal 500 includes a manager terminal 300 and a worker terminal 200 . include At this time, the monitoring group terminal 600 is a terminal possessed by a worker who is given monitoring authority by a manager among workers. According to an embodiment, the construction site communication service providing server 100 of FIG. 4 may further include a drone (not shown).

The drone captures the monitoring target of the construction site according to the control signal received from the construction site work management server 100 , and then creates a monitoring target image and provides it to the construction site communication service providing server 100 .

To this end, in the process of scanning the construction site according to the control signal received from the construction site work management server 100, the drone irradiates light to the monitoring target of the construction site to photograph the monitoring target, and then scans information about the monitoring target. After creation, the monitoring code is extracted according to the scan information.

In one embodiment, when light is applied in the process of scanning the monitoring target when the monitoring target is made of metal or plastic, the dotted dots of different depths and widths reflect the applied light.

In this case, since the depth and width of the halftone dots formed on the monitoring target are different from each other, the amount of reflected light will be different. Therefore, the drone extracts the monitoring code by using the information of the light reflected from the monitoring target.

More specifically, the drone determines a monitoring code by sequentially combining binary values after determining a binary value according to a number indicated by a shadow value corresponding to light information by referring to a binary value table.

That is, the drone can determine whether the binary value indicated by the shading value corresponding to the light information is 0 or 1 by referring to the binary value table, and determines the monitoring code by sequentially combining the binary values.

For example, in the binary value table, the binary value corresponding to the shade value of 24 is stored as 1, the binary value corresponding to the shade value 35 is stored as 0, and the drone has a shade value of 24 corresponding to the light information. In the case of , the binary value is determined as 1, and when the shading value corresponding to the light information is 35, the binary value is determined as 0 to generate the monitoring code "1000000".

Then, the drone creates a work site image by taking a picture of the work site including the monitoring target, and then inserts dotted dots of different sizes corresponding to the monitoring code into the work site image to the construction site communication service providing server 100 to provide.

Therefore, if the construction site communication service providing server 100 corresponds to a predetermined disaster type, the work site image is analyzed to extract a monitoring code by analyzing the work site image, and the monitoring code indicates the worker's helmet and worker's ID. It is possible to update the safety history history in each Rosa profile.

The construction site communication service providing server 100 provides the unsafe behavior input procedure for each worker stored in the worker database 113 to the inspector terminal 500 . At this time, the unsafe behavior input procedure for each worker is a procedure to input the unsafe behavior of the worker when a behavior corresponding to a predetermined unsafe behavior is found among the actions of the worker working at the construction site. The predetermined unsafe behavior means an action capable of increasing the probability that a disaster type will occur based on the disaster type.

That is, the unsafe behavior input procedure can input the manager, work team, worker, accident type, details, photos, etc. If hitting an object, bumping, unbalanced and excessive motion, oxygen deprivation, cutting/cutting/cutting, fire explosion) is selected, a list of unsafe behaviors corresponding to the type of accident is provided, and the list of unsafe behaviors of workers At least one unsafe safety action may be selected.

For example, when “falling” is selected among the types of disasters, the construction site communication service providing server 100 sets the list of unsafe actions corresponding to “falling” as “1) not wearing a safety belt or not fastening a safety ring when working at heights of 2m or more; 2) Arbitrary dismantling of safety facilities in the fall danger zone”, etc., can be provided to select at least one unsafe behavior that corresponds to the unsafe behavior of the worker.

For another example, when “entanglement” is selected among the types of disasters, the construction site communication service providing server 100 provides “1) unauthorized entry within the working radius of the equipment” as a list of unsafe actions corresponding to “entanglement” to provide workers with at least one unsafe behavior corresponding to the unsafe behavior of

As another example, the construction site communication service providing server 100 provides “1) unauthorized entry into a confined space” as a list of unsafe behaviors corresponding to “oxygen deficiency” when “oxygen deficiency” is selected among the types of disasters. at least one unsafe behavior corresponding to the unsafe behavior of

After that, when the construction site communication service providing server 100 is corrected by the manager based on the corrective measures, corrective action information (eg, manager, work team, disaster type, and before and after action photos) are received and stored in action database 140 . Conversely, the construction site safety management server 100 provides a procedure for canceling registration of nonconformities when it is determined that the contents pointed out as nonconformities are not appropriate.

In addition, the construction site communication service providing server 100 provides the safety report report procedure to the worker terminal 200, and receives details, photos, and safety accident related contents through the safety report report procedure to the manager terminal 300. to provide.

In addition, the construction site communication service providing server 100 analyzes the work site image received from the drone and, if the work site image corresponds to a predetermined disaster type, analyzes the work site image and extracts a monitoring code.

Then, the construction site communication service providing server 100, when the monitoring code indicates the worker's helmet and the worker's ID, the construction site work management server 100 is linked with the worker database 113 using the worker's ID to update the safety history history in the worker-specific profile.

To this end, when the construction site communication service providing server 100 receives the monitoring target image from the drone, it analyzes the monitoring target image and extracts a plurality of dotted dots of different sizes composed of a plurality of dots. Then, the construction site communication service providing server 100 extracts the monitoring code using binary values corresponding to the plurality of dotted dots.

That is, the construction site communication service providing server 100 refers to the binary value table, extracts a binary value according to the number of dots configured with half dots, and then extracts a monitoring code through a combination of binary values.

More specifically, the construction site communication service providing server 100 may refer to the binary value table and determine whether the binary value corresponding to the halftone point is 0 or 1 according to the number of points configured with the halftone point. Then, the building monitoring device 200 determines the monitoring code by sequentially combining binary values.

For example, when one halftone dot made of four dots and six halftone dots made of eight dots are extracted from the monitored image, the construction site communication service providing server 100 returns a binary value corresponding to the four dot halftone dots. It is recognized as 1, and the binary value corresponding to the halftone dot composed of 8 dots is recognized as 0, and the monitoring code “1000000” is generated.

As another example, when two halftone dots composed of 6 dots and 3 dots composed of 8 dots are extracted from the monitoring target image, the construction site communication service providing server 100 sets a binary value corresponding to the halftone dots composed of 6 dots. is recognized as 1, and the binary value corresponding to the halftone dot composed of 8 dots is recognized as 0, and the monitoring code “11000” is generated.

As described above, after generating the monitoring code, when the monitoring code indicates the worker's helmet and worker's ID, the construction site communication service providing server 100 is linked with the worker database 113 using the worker's ID to link the worker You can update the safety history history in the star profile.

When the manager terminal 300 of the inspector terminals 500 receives the unsafe behavior input procedure for each worker from the construction site communication service providing server 100, the manager, the work team, the worker, the accident type, Receive details, photos, etc.

Thereafter, the manager terminal 300 of the inspector terminals 500 generates a corrective action book based on the information received through the worker-specific unsafe behavior input procedure, and then provides the corrective action book to the manager terminal 300 .

In one embodiment, the manager terminal 300 among the inspector terminals 500 generates a corrective action book for preventing the occurrence of the corresponding accident type based on the accident type received through the worker-specific unsafe behavior input procedure, and then writes the corrective action It is provided to the manager terminal 300 .

The manager terminal 300 among the inspector terminals 500 generates and constructs corrective action information (eg, manager, work team, disaster type, before and after photos) when the correction is completed by the manager based on the corrective action book. It is provided to the on-site communication service providing server 100 .

Thereafter, the inspector terminal 500 generates a safety inspection log by using the unsafe behavior and input information collected through the unsafe behavior input procedure. At this time, the inspector terminal 500 reflects the unsafe behavior input by the manager among the inspectors in the safety inspection log of the worker, and reflects the corrective action entered by the worker among the inspectors in the safety inspection log.

In addition, when the manager terminal 300 of the inspector terminals 500 receives details, photos, and safety accident-related contents through the safety reporting procedure from the construction site communication service providing server 100, it determines whether to adopt the safety newspaper and It is provided to the construction site communication service providing server 100 .

Accordingly, the construction site communication service providing server 100 stores the contents of the safety report in the worker database 113 when it is adopted as the safety report, and the contents of the safety report (that is, the site, whether or not to adopt, the type of disaster, Details, photos, etc.) are stored in the safety newspaper database 411 .

After that, the manager terminal 300 of the inspector terminals 500 generates a corrective action sheet to prevent the occurrence of the corresponding disaster type based on the disaster type matched through the disaster type matching process, and then writes the corrective action to the manager terminal ( 300) is provided.

The manager terminal 300 among the inspector terminals 500 generates and constructs corrective action information (eg, manager, work team, disaster type, before and after photos) when the correction is completed by the manager based on the corrective action book. It is provided to the on-site communication service providing server 100 .

Therefore, when the unsafe behavior input occurs, the construction site communication service providing server 100 stores the unsafe behavior in the database of the cause providing worker or the company input together when the relevant non-compliance details are input.

5 is a block diagram illustrating an internal structure of a construction site communication service providing server according to an embodiment of the present invention.

Referring to FIG. 5 , the construction site communication service providing server 100 includes an unsafe behavior reception unit 110 , a corrective action arrangement unit 120 , a safety report reception unit 130 , a measure database 140 , and a worker database 113 ). includes

In the action database 140, when the correction is completed by the manager based on the corrective action form, the corrective action information received from the manager terminal 300 among the inspector terminals 500 (eg, the manager, the work team, the type of disaster) , before and after the action) are saved.

The worker database 113 stores worker information for each worker. In this case, the worker information is a profile.

The unsafe behavior reception unit 110 provides the unsafe behavior input procedure for each worker stored in the worker database 113 to the inspector terminal 500 . At this time, the unsafe behavior input procedure for each worker is a procedure to input the unsafe behavior of the worker when a behavior corresponding to a predetermined unsafe behavior is found among the actions of the worker working at the construction site. The predetermined unsafe behavior means an action capable of increasing the probability that a disaster type will occur based on the disaster type.

That is, the unsafe behavior input procedure can input the manager, work team, worker, accident type, details, photos, etc. If hitting an object, bumping, unbalanced and excessive motion, oxygen deprivation, cutting/cutting/cutting, fire explosion) is selected, a list of unsafe behaviors corresponding to the type of accident is provided, and the list of unsafe behaviors of workers At least one unsafe safety action may be selected.

For example, when “falling” is selected among the types of disasters, the unsafe behavior reception unit 110 sets the list of unsafe behaviors corresponding to “falling” as “1) not wearing a safety belt or not fastening a safety ring when working at heights of 2 m or more, 2) falling. Dismantling of safety facilities in the danger zone”, etc. may be provided to select at least one unsafe behavior corresponding to the unsafe behavior of the worker.

For another example, if “entanglement” is selected among the types of accidents, the unsafe behavior reception unit 110 provides “1) unauthorized entry within the working radius of the equipment” as a list of unsafe behaviors corresponding to “entanglement”, so that the unsafe behavior of workers It is possible to select at least one unsafe safety action corresponding to .

As another example, when “oxygen deficiency” is selected among the accident types, the unsafe behavior reception unit 110 provides “1) unauthorized entry into a confined space” as a list of unsafe behaviors corresponding to “oxygen deficiency”, and the unsafe behavior of workers It is possible to select at least one unsafe safety action corresponding to .

Corrective action setting unit 120 is corrective action information (eg, manager, work team, disaster type, before and after action) is received and stored in the action database 140 .

The safety report receiving unit 130 provides the safety report report procedure to the worker terminal 200, receives details, photos, and safety accident-related content through the safety report report procedure and provides it to the manager terminal 300 .

6 is a flowchart for explaining an embodiment of a method for providing a construction site communication service according to the present invention.

Referring to FIG. 6 , the construction site communication service providing server 100 provides the worker unsafe behavior input procedure to the inspector terminal (the manager terminal 300 and the worker terminal 200) (step S610).

When the inspector terminal (the manager terminal 300 and the worker terminal 200) receives the unsafe behavior information through the unsafe behavior input procedure, the checker terminal (the manager terminal 300 and the worker terminal 200) checks the essential items of the unsafe behavior information (step S620).

The inspector's terminal (the manager's terminal 300 and the worker's terminal 200) generates a corrective action form (step S630) and provides it to the manager's terminal 300 (step S625). step S635).

When the correction is completed based on the corrective action form (step S640), the manager terminal 300 generates a corrective action completion item (step S645) and provides it to the construction site communication service providing server 100 (step S650) ).

7 to 11 are exemplary views for explaining a construction site communication service providing process according to the present invention.

7 to 11 , the construction site communication service providing server 100 provides an unsafe behavior input procedure for each worker as shown in FIG. 7 stored in the worker database 113 to the inspector terminal 500 .

The inspector terminal 500 may input a manager, a work team, a worker, a type of accident, details, a photo, etc. through the unsafe behavior input procedure as shown in FIG. 7 .

The inspector's terminal 500 determines the type of disaster (eg, electric shock, crushing, pinching, falling, falling, collapsing, hitting an object, bumping, imbalance and excessive motion, oxygen deficiency, cut / cut / cut, fire explosion) by the inspector ) is selected, the list of unsafe behaviors corresponding to the type of accident is provided and at least one unsafe behavior corresponding to the worker's unsafe behavior is selected from the list of unsafe and unsafe behaviors.

When “falling” is selected among the disaster types, the inspector’s terminal 500 returns to the list of unsafe behaviors corresponding to “falling”: “1) Failure to wear safety belts or safety rings when working at heights greater than 2 m, 2) Arbitrary safety facilities in the fall risk section dismantling”, etc., to select at least one unsafe behavior that corresponds to the unsafe behavior of the worker.

For another example, when “entanglement” is selected among the types of disasters, the construction site communication service providing server 100 provides “1) unauthorized entry within the working radius of the equipment” as a list of unsafe actions corresponding to “entanglement” to provide workers with at least one unsafe behavior corresponding to the unsafe behavior of

As another example, the construction site communication service providing server 100 provides “1) unauthorized entry into a confined space” as a list of unsafe behaviors corresponding to “oxygen deficiency” when “oxygen deficiency” is selected among the types of disasters. at least one unsafe behavior corresponding to the unsafe behavior of

The inspector terminal 500 generates the safety inspection log of FIG. 9 by using the unsafe behavior and input information collected through the unsafe behavior input procedure of FIG. 8 . At this time, the inspector terminal 500 reflects the unsafe behavior input by the manager among the inspectors in the safety inspection log of the worker, and the corrective action input by the inspector among the inspectors in the safety inspection log.

In addition, the construction site communication service providing server 100 provides the safety reporting procedure to the worker terminal 200 as shown in FIGS. 10 and 11, and receives details, photos, and safety accident-related contents through the safety reporting procedure. to provide it to the manager terminal 300 .

For example, the manager terminal 300 may check job information through reference numbers (a) and (b) of FIG. 10 , and may receive a safety Shinmungo report procedure through the safety Shinmungo emoticon.

For another example, the manager terminal 300 receives the safety reporting procedure of reference number (c) and reference number (d) of FIG. 11 when a falling dangerous object is found for “north end of building 101 4F” Through the reporting process, details, photos, and safety incident-related information are provided.

Accordingly, when the manager terminal 300 of the inspector terminals 500 receives details, photos, and safety accident-related contents from the construction site communication service providing server 100 through the safety reporting procedure, it is determined whether or not to adopt the safety reporting system. to provide to the construction site communication service providing server 100 .

Accordingly, the construction site communication service providing server 100 stores the contents of the safety report in the worker database 113 when it is adopted as the safety report, and the contents of the safety report (that is, the site, whether or not to adopt, the type of disaster, Details, photos, etc.) are stored in the safety newspaper database 411 .

12 is a flowchart for explaining an embodiment of a method for providing a construction site communication service according to the present invention. The embodiment of FIG. 12 relates to an embodiment in which a manager and a supervisor can register a point during inspection as a safety inspection activity.

12, as shown in reference number (1), the inspector terminal 500 connects to the construction site communication service providing server 100 through the application, and then, as shown in reference number (2), through the unsafe behavior input procedure, the manager , work team, workers, type of accident, details, photos, etc. can be entered.

As shown in reference number (3), the inspector's terminal 500 is a disaster type (eg, electric shock, crushed, caught, fell, fell, collapsed, hit by an object, bumped, unbalanced and excessive motion, oxygen deficiency, cut) by the inspector /cut/cut, fire explosion) is selected, a list of unsafe behaviors corresponding to the type of disaster is provided, and from the list of unsafe behaviors, at least one unsafe behavior corresponding to the worker's unsafe behavior is selected to provide a construction site communication service provided to the server 100 .

As shown in reference number (4), the construction site communication service providing server 100 changes the number of cases detected by each affiliate as shown in reference number (5) when it is necessary to correct or delete the inspection result. On the other hand, as shown in reference number (6), when the construction site communication service providing server 100 does not require correction or deletion as a result of the inspection, a message requesting corrective action as shown in reference number (7) after registering unsafe safety behavior is provided to the manager terminal.

As shown in reference number (8), when the correction is completed by the manager according to the corrective action book, the construction site communication service providing server 100, as shown in reference number (9), adds the result of corrective action for each agency, and then adds the reference number ( As in 10), the action result message is provided.

13 is a flowchart for explaining another embodiment of a construction site communication service providing method according to the present invention. The embodiment of FIG. 13 relates to an embodiment in which a manager and a supervisor can register a point during an inspection as a safety inspection activity.

Referring to FIG. 13 , as indicated by reference numerals 1 to 7 , the inspector terminal 500 generates a safety check log by using the unsafe behavior and input information collected through the unsafe behavior input procedure. At this time, the inspector's terminal 500 reflects the unsafe behavior entered by the manager among the inspectors in the safety inspection log of the worker, and the corrective actions entered by the inspector by the worker among the inspectors are reflected in the safety inspection log.

In addition, when the manager terminal 300 of the inspector terminals 500 receives details, photos, and safety accident-related contents through the safety reporting procedure from the construction site communication service providing server 100, it determines whether to adopt the safety newspaper and It is provided to the construction site communication service providing server 100 . At this time, when inputting additional inspection items, input the unsafe behavior detected by other workers such as the monitoring team.

14 is a flowchart for explaining another embodiment of a construction site communication service providing method according to the present invention. An embodiment disclosed in FIG. 14 relates to an embodiment in which a worker confirms a dangerous matter and reports a dangerous matter through the report.

Referring to FIG. 14 , as shown in reference number (1) to reference number (3), the worker terminal 200 registers details, photos, and safety accident-related content through the safety report report procedure, and then provides it to the manager terminal 300 Then, as shown in reference number (4), the manager terminal 300 determines whether or not to adopt a safe Shinmungo and highlights it in the list of Sinmungo as shown in reference number (5).

As shown in reference number (6), the construction site communication service providing server 100 provides a rejection reason message to the worker terminal if the newspaper is not adopted, and as shown in reference number (7), the construction site communication service providing server 100 is When the Shinmungo is adopted, the contents of the corresponding safety newspaper are stored in the worker database 113, and the contents of the safety newspaper (ie, site, whether or not adopted, disaster type, details, photos, etc.) are stored in the safety newspaper database 411 do.

After that, as shown in reference number (8) to reference number (10), the construction site communication service providing server 100 stores the contents of the safety report in the worker database 113 when it is adopted as the safety report, and stores the content of the safety report. (ie, site, whether or not adopted, disaster type, details, photos, etc.) are stored in the safety report database (411).

When the correction is completed by the manager based on the corrective action as shown in reference number 11, the construction site communication service providing server 100 as shown in reference number 12 completes the correction by the manager based on the corrective action book If it is, the corrective action information (eg, manager, work team, disaster type, before and after photos) is received from the manager terminal 300 of the inspector terminal 500 and stored in the action database 140 .

15 is a flowchart illustrating another embodiment of a method for providing a construction site communication service according to the present invention. An embodiment disclosed in FIG. 15 relates to an embodiment in which a worker whose wages are not paid can request the manager to register on the SOS bulletin board for unpaid wages to receive unpaid wages.

Referring to FIG. 15 , as shown by reference number 1, the worker terminal 200 registers a post on the delayed payment of wages on the SOS bulletin board. As shown in reference number (2), the manager terminal 300 checks the posting of delayed payment of wages registered on the SOS bulletin board for delayed payment of wages.

As with reference number (4) and reference number (5), the manager terminal 300 negotiates on delayed payment of wages when accepting the posting of unpaid wages. On the other hand, as shown in reference number (3), the manager terminal 300 posts a post of non-acceptance of the post payment of wages in case of not accepting the posting of unpaid wages.

Although it has been described with reference to the limited embodiments and drawings, the present invention is not limited to the above embodiments, and various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains. Accordingly, the spirit of the present invention should be understood only by the claims described below, and all equivalents or equivalent modifications thereof will fall within the scope of the spirit of the present invention.

100: construction site communication service providing server
200: worker terminal
300: administrator terminal
400: Meteorological Agency Server
500: checker terminal
600: watchdog terminal

Claims (10)

providing, by the construction site communication service providing server, a worker unsafe behavior input procedure to the inspector terminal;
when the checker terminal receives the unsafe behavior information through the unsafe behavior input procedure, checking essential items of the unsafe behavior information;
generating, by the inspector terminal, a corrective action book according to the confirmation result and providing it to the administrator terminal;
when the manager terminal completes the correction based on the corrective action form, generating a corrective action completion item and providing it to the construction site communication service providing server; and
and generating, by the construction site communication service providing server, the safety inspection log by applying the unsafe behavior information and the corrective action completion to a safety inspection log form,
The drone takes a picture of the monitoring target at the construction site, and when the monitoring target is made of metal, the binary value is determined according to the number indicated by the shading value corresponding to the information of the light reflected from the monitoring target, and then the binary values are sequentially combined to determine a monitoring code, create a work site image by photographing the work site including the monitoring target, and insert dotted dots of different sizes corresponding to the monitoring code into the work site image to provide the construction site communication service server providing to;
When the construction site communication service providing server analyzes the work site image received from the drone and the work site image corresponds to a predetermined disaster type, the work site image is analyzed and a plurality of dotted dots of different sizes composed of a plurality of dots extracting and generating a monitoring code using binary values corresponding to a plurality of halftone dots;
When the monitoring code indicates the worker's helmet and worker's ID, the construction site communication service providing server further comprises the step of updating the safety history history in the worker-specific profile in conjunction with the worker database using the worker's ID, ,
The monitoring target is
In the case of being made of metal, halftone dots of different depths and widths corresponding to the monitoring code are formed, so that when light is applied, the light applied to the halftone dots of different depths and widths is reflected.
How to provide construction site communication services.
According to claim 1,
providing, by the construction site communication service providing server, a safety Shinmungo report procedure to a worker terminal, and receiving details, photos, and safety accident-related content through the safety Shinmungo report procedure and providing it to a manager terminal among inspector terminals;
determining whether to adopt a safety report when the manager terminal among the inspector terminals receives details, photos, and safety accident-related content through the safety reporting procedure; and
Comprising the step of providing, by the manager terminal among the inspector terminals, the contents of the safety report to the construction site communication service providing server according to whether the safety report is adopted
How to provide construction site communication services.
3. The method of claim 2,
The step of providing the contents of the safety report to the construction site communication service providing server according to whether the manager terminal among the inspector terminals adopts the safety report
When the safety report is adopted by the manager terminal among the inspector terminals, based on the disaster type matched through the disaster type matching process, a corrective action book to prevent the occurrence of the corresponding disaster type is generated, and then the corrective action book is provided to the manager terminal step; and
When the manager terminal completes the correction based on the corrective action book, generating a corrective action completion item and providing it to the construction site communication service providing server
How to provide construction site communication services.
According to claim 1,
The step of the construction site communication service providing server generating a safety inspection log by applying the unsafe behavior information and the corrective action completion to the safety inspection log form
The construction site communication service providing server reflects the unsafe behavior entered by the manager among the inspectors in the safety inspection log of the worker, and the corrective actions entered by the inspection team among the inspectors are reflected in the safety inspection log to generate the safety inspection log. characterized in that it comprises the step of
How to provide construction site communication services.
According to claim 1,
The step of the construction site communication service providing server providing the worker unsafe behavior input procedure to the inspector terminal is
receiving, by the construction site communication service providing server, a manager, a work team, a worker, a type of accident, detailed contents and a photo through the worker unsafe behavior input procedure; and
When the accident type is selected, providing an unsafe behavior list corresponding to the accident type to select at least one unsafe behavior corresponding to the worker's unsafe behavior from the unsafe safety behavior list
How to provide construction site communication services.
In the construction site communication service providing system comprising a drone, a construction site communication service providing server, and an inspector terminal,
The monitoring target at the construction site is photographed, and when the monitoring target is made of metal, the binary value is determined according to the number indicated by the shading value corresponding to the information of the light reflected from the monitoring target, and then the binary values are sequentially combined and monitored After determining the code, taking a picture of the job site including the monitoring target, creating a job site image, and inserting dotted dots of different sizes corresponding to the monitoring code into the job site image to provide the construction site communication service providing server to do drones;
The safety inspection log is provided by providing the worker unsafe behavior input procedure to the inspector terminal, and applying the unsafe behavior information input through the unsafe behavior input procedure and the completion of corrective actions according to the corrective action book for the unsafe behavior information to the safety inspection log form A construction site communication service providing server that generates; and
Upon receiving the worker unsafe behavior input procedure from the construction site communication service providing server and receiving the unsafe behavior information through the unsafe behavior input procedure for each worker, the necessary items to be taken among the unsafe behavior information are checked, and the confirmation result and a checker's terminal that generates a corrective action book according to
The construction site communication service providing server is
If the work site image received from the drone is analyzed and the work site image corresponds to a predetermined disaster type, the work site image is analyzed to extract a plurality of dotted dots of different sizes composed of a plurality of dots, and A monitoring code is generated using the corresponding binary value, and when the monitoring code indicates the worker's helmet and worker's ID, the worker's ID is used to link the worker database to update the safety history history in the worker-specific profile, ,
The monitoring target is
In the case of being made of metal, halftone dots of different depths and widths corresponding to the monitoring code are formed, so that when light is applied, the light applied to the halftone dots of different depths and widths is reflected.
Construction site communication service provision system.
7. The method of claim 6,
The construction site communication service providing server is
Provide the safety report report procedure to the worker terminal, receive details, photos, and safety accident-related contents through the safety report report procedure and provide it to the manager terminal among the inspector terminals;
The manager terminal
Upon receipt of details, photos, and safety accident-related contents through the safety reporting procedure, it is decided whether to adopt the safety report, and the contents of the safety report are provided to the construction site communication service providing server according to whether or not the safety report is adopted. characterized by
Construction site communication service provision system.
8. The method of claim 7,
The manager terminal
When the safety report is adopted, a corrective action book to prevent the occurrence of the corresponding disaster type is generated based on the disaster type matched through the disaster type matching process, and then the corrective action book is provided to the manager terminal, and the corrective action book is When the correction is completed based on the
Construction site communication service provision system.
9. The method of claim 8,
The construction site communication service providing server is
Among the inspectors, the unsafe behavior input by the manager is reflected in the safety inspection log of the worker concerned, and the corrective actions entered by the monitoring team among the inspectors are reflected in the safety inspection log to generate the safety inspection log.
Construction site communication service provision system.
7. The method of claim 6,
The construction site communication service providing server is
Through the worker unsafe behavior input procedure, the manager, work team, worker, accident type, details and photos are received, and when the accident type is selected, the unsafe behavior list corresponding to the accident type is provided to the worker among the unsafe behavior list. characterized in that at least one unsafe safety behavior corresponding to the unsafe behavior is selected
Construction site communication service provision system.

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