KR20160126152A

KR20160126152A - Safety management system using smart information-transmission device in construction sites and method performing thereof

Info

Publication number: KR20160126152A
Application number: KR1020150056650A
Authority: KR
Inventors: 김주연; 문기훈; 김지영
Original assignee: (주)대우건설
Priority date: 2015-04-22
Filing date: 2015-04-22
Publication date: 2016-11-02
Also published as: KR101736158B1

Abstract

A method for integrating technical safety of a worksite executed in a beacon installed in each of the process areas of a job site according to the present invention includes the steps of: monitoring a terminal device in a communication range; Checking whether there is data that is linked if the terminal device is detected, and providing the data to the terminal device held by the specific user according to the result of the checking.
Therefore, according to the present invention, a terminal device held by a user in a process area where communication is not possible can receive data such as safety management items, measurement information, and event information from a beacon installed at a corresponding location, .

Description

TECHNICAL FIELD The present invention relates to a safety management system for a construction site using a smart information delivery device and a method for implementing the same,

Embodiments of the present invention relate to a technology safety integrated management system for a construction site using a smart information delivery device and a method for implementing the same.

In general, the construction industry is a labor-intensive industry in which a large number of workers are put into operation at the same time, and systematic and effective safety management of the workforce is of the utmost importance.

However, in the conventional construction site, safety accidents occur frequently due to various environments inherent in the site itself and minor negligence of workers, resulting in a fatal problem of losing valuable human resources.

Especially, in the construction site, workers in various fields are assigned to various tools to perform their own tasks. In the area where the number of managers is relatively small compared to the number of such workers and the control and management of the field manager is limited in outdoor work , Safety and safety management for construction workforce and ineffective manpower management cause problems such as increase of overall construction cost, decrease of productivity, and extension of construction period.

In addition, when an operator's safety accident occurs, the position of the operator is determined using the satellite GPS position information of the terminal device held by the operator. However, there is a problem in that it is not possible to utilize it because the network communication is not possible at the time of initial establishment of the field, or communication is unstable in the underground space.

In the present invention, a terminal device held by a user in a process area where communication is impossible receives data such as safety management items, measurement information, event information, and harmful situation information from a beacon installed at a corresponding location, And to provide a method for implementing a technology safety integrated management system for a construction site using a smart information delivery device that enables a smart information delivery system to be provided.

In addition, the present invention provides smart beacon information, which enables event information to be transmitted to beacons to beacons in other beacons when a beacon receives event information from a measuring device, And to provide a technology safety integrated management system for a construction site using a delivery device and a method for executing the same.

Also, the present invention provides a technology safety integrated management system for a construction site using a smart information delivery device, which enables more efficient management of safety by analyzing statistics for each type of accident using data transmitted from a beacon, and a method for executing the system .

The problems to be solved by the present invention are not limited to the above-mentioned problem (s), and another problem (s) not mentioned can be clearly understood by those skilled in the art from the following description.

According to an embodiment of the present invention, there is provided a technology safety integrated management method for a worksite, which is executed in a beacon installed in each of process areas of a job site, comprising the steps of: monitoring a terminal device in a communication range; Determining whether there is data that is linked to the terminal when the terminal device is detected in the range; and providing the data to the terminal device held by the specific user according to the result of the checking.

According to another embodiment of the present invention, the step of providing the data to the terminal device held by the specific user according to the result of the checking may include: when the linked data is a safety management item, To the terminal device held by the specific user, wherein the safety management item is numbered per process in the technical safety management checklist for each process, and information linked with the number of the nearest beacon in which the process is performed .

According to another embodiment of the present invention, the step of providing the data to the terminal device held by the specific user according to the result of the checking may include: measuring from the linked measuring device installed in each of the process areas of the job site Receiving the information, the measurement information is provided to a terminal device held by the specific user, and when the measurement device is given a number, the number is linked to a beacon closest to the measurement device, And automatically receiving measurement data and a graph of the measuring device from a user terminal device when a terminal device held by a specific user is detected in a communication range of the measuring device.

According to another embodiment of the present invention, the step of providing the data to the terminal device held by the specific user according to the result of the check may include: when the harmful situation is detected in the measuring device, The measurement data and the safety management item are provided to the terminal device of a specific user located within the communication range of the beacon. When the harmful situation is detected, the malfunction occurrence information is transmitted to the beacon, Wherein the harmful situation occurrence information is provided to a terminal device and a light modulating module of a specific user located within a maximum communication range by expanding the communication range of the light shielding module to a maximum communication range and that the notification is generated by the light modulating module .

According to another embodiment of the present invention, the beacon is installed in each section generated by dividing the drawings of the work site at regular intervals, and a number indicating the position information is mapped, When a beacon is installed, a number shape corresponding to the position of the beacon is input to the drawing position through a click or drag in the terminal device of the user, so that the beacon position is mapped on the user terminal device, The event is stored in the terminal device by the user together with the location information and the time information. When the terminal device is located in the communication coverage, the stored data is transmitted to the server.

According to another embodiment of the present invention, a small beacon carried by a user may be additionally installed at any place other than the location where the beacon is installed, where the additional beacon is required, and the added beacon is given a new beacon number The location of the beacon is mapped on the terminal of the user and the location information and the time information corresponding to the location where the beacon is installed are stored in the terminal by the user, The stored data is transmitted to the server.

According to another embodiment of the present invention, the transmitted data is inquired by a safety manager program, and an icon for an event occurrence position is given on a beacon map. When the icon is clicked, And is inquired on a program for a safety manager.

According to another embodiment of the present invention, the beacon to which the danger signal is transmitted is connected to the beacon of another adjacent zone and the user terminal of the user located in the corresponding zone, and a danger signal is transmitted. A risk signal is transmitted through a network connection to a user terminal located in a communication range, and a signal that is redundantly transmitted with the same contents is received only the first signal and is blocked from the second signal.

According to another embodiment of the present invention, when a terminal device held by a specific user is detected in a communication range, a check is made to see if there is pre-linked data, and a beacon A terminal for receiving and displaying data from the beacon when the beacon is in a communication range of the beacon, and a server for storing the data and providing the data through a program interface for a safety manager.

According to another embodiment of the present invention, the beacon provides an item for a corresponding process among the safety management items to the terminal when the previously linked data is a safety management item, Means information to be linked with the number of the nearest beacon to which the corresponding process is numbered by the process in the management check list.

According to another embodiment of the present invention, the apparatus further includes a measuring device positioned in each of the process areas of the work site to measure the surrounding environment and provide measurement information to the previously linked beacon, The measurement information is provided to the terminal apparatus, and when the measurement apparatus is given a number, the number is linked to the beacon closest to the measurement apparatus, and when the measurement apparatus is provided with the communication range of the measurement apparatus And the measurement data and the graph of the measuring device are automatically received at the terminal of the user when the terminal device held by the specific user is detected.

According to another embodiment of the present invention, when a harmful situation is not detected in the measuring device, the communication range of the beacon is set to the minimum communication range, so that the terminal device of the specific user located in the communication range of the beacon transmits measurement data and safety When a harmful situation is detected in the measuring device, harmful situation occurrence information is transmitted to the beacon so that the communication range of the beacon is expanded to the maximum communication range, And the harmful situation occurrence information is provided to the device and the lightening module, and the notification is generated by the lightening module.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and / or features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

According to the present invention, a terminal device held by a user in a process area where communication is not possible can receive and utilize data such as safety management items, measurement information, event information, and harmful situation information from a beacon installed at a corresponding location, There is an advantage to be able to prevent accidents.

According to the present invention, when beacons receive event information from a measuring device, event information is provided to other beacons so that event information is transmitted chained, thereby providing an advantage of being able to cope with various risk situations occurring on the spot in real time have.

Also, according to the present invention, it is possible to manage safety more efficiently by analyzing statistics according to an accident type using data transmitted from a beacon.

1 is a conceptual diagram for explaining a technology safety integrated management system in a worksite using a smart information delivery device according to an embodiment of the present invention.
2 is a conceptual diagram for explaining a technology safety integrated management system for a worksite using a smart information delivery device according to another embodiment of the present invention.
FIG. 3 and FIG. 4 are reference views for explaining the beacon setting process according to the present invention.
5 is a reference diagram for explaining a process of linking beacons according to the present invention and safety management items according to processes.
6 is a reference diagram for explaining a process of linking a beacon and a measurement apparatus according to the present invention.
FIGS. 7 and 8 are reference views for explaining the interface of the safety manager program for the technical safety integrated management at the work site.
9 is a reference diagram for explaining a process of transmitting risk information to a user utilizing a beacon according to the present invention.
FIG. 10 is a reference diagram for explaining a process of delivering risk information to an administrator utilizing a beacon according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the smart information delivery device according to the present invention refers to a beacon which is generally used. Here, the beacon is a short range wireless communication device based on the Bluetooth 4.0 (BLE) protocol. The beacon is capable of communicating with devices within a maximum distance of 70 m, and is highly accurate and low in power consumption so that it can distinguish between 5 and 10 cm units.

1 is a conceptual diagram for explaining a technology safety integrated management system in a worksite using a smart information delivery device according to an embodiment of the present invention.

According to an embodiment of the present invention, a method for managing integrated technical safety of a worksite executed in a beacon installed in each of process areas of a work site includes monitoring a terminal device in a communication range, Checking whether a terminal device held by a specific user is detected, and providing the data to a terminal device held by the specific user according to the result of the checking.

Referring to FIG. 1, beacons 101_1, 101_2, and 101_3 may be installed in each of the process areas of a job site, and a plurality of users may have different operation sites in a state where they have terminal devices 102_1, 102_2, 102_3, and 102_4. You can work in the process area.

At this time, when the user is located in a specific process area, the terminal device 102_1 held by the user is connected to the beacon 101_1 installed in the process area and exists in the communication range of the beacon 101_1. Then, the terminal device 102_1 held by the user receives the safety management item of the process area in which the user is located from the beacon 101_1 and displays the received safety management item, thereby preventing a user's safety accident occurring at the work site. That is, the user exists in the communication range of the beacon when passing a specific process area, and can receive and display the safety management item of the process area from the beacon.

To this end, the beacon 101_1 monitors whether or not a terminal device is detected within the communication range, and if the terminal device 101_1 held by a specific user in the communication range is detected during the monitoring process, , Measurement information, event information, and harmful situation information). Here, the safety management item refers to items to be obeyed by the user in each process area of the operation site, and the measurement information is information measured by the measuring device, and a graph of temperature information and a graph of humidity information Etc., and the event information may be a dangerous situation or the like.

For example, if the safety management item of the corresponding process area is linked to the beacon 101_1 installed in each of the process areas of the operation site, the beacon 101_1 provides the safety management item to the terminal device 102_1 do.

Hereinafter, a process of linking data to beacons 101_1, 101_2, and 101_3 installed in respective process areas of a work site will be described. For convenience of explanation, an explanation will be made using safety management items as an example of data.

In the step of providing the data to the terminal device held by the specific user according to the result of the checking, when the previously linked data is the safety management item, the item of the safety management item is held by the specific user To the terminal device.

In this case, the safety management item refers to information linked with the number of the nearest beacon in which the corresponding process is performed, which is numbered by process in the technical safety management checklist of each process.

On the other hand, the user sets the positions of the beacons 101_1, 101_2, and 101_3 by dividing the drawing of the work site at regular intervals, and maps the numbers indicating the beacons 101_1, 101_2, and 101_3 to the beacons 101_1, 101_2, and 101_3. The user links the number of the beacons 101_1, 101_2, and 101_3 with the safety management item.

More specifically, the user inputs a technical safety management item of a facility and a structure to a terminal device owned by the user, and provides a safety management item corresponding to the process area to a beacon installed in the corresponding process area To link the beacon with safety management items.

By linking the beacon in the process area and the safety management item in the process area, the beacon provides the safety management item of the process area to the terminal device in the communication range when the beacon detects the terminal device in the communication range, Allow the owning user to recognize the safety management item.

On the other hand, in the step of providing the data to the terminal device held by the specific user according to the confirmation result, when the measurement information is received from the linked measurement device among the measurement devices installed in each of the process areas of the job site, The number being linked to a beacon closest to the measuring device when the measuring device is provided with a number and the number is linked to a beacon closest to the measuring device, And automatically receiving measurement data and a graph of the measurement device from the terminal device of the user when the terminal device is detected.

In the step of providing the data to the terminal device held by the specific user according to the confirmation result, when the harmful situation is detected in the measuring device, the communication range of the beacon is set to the minimum communication range, The measurement data and the safety management item are provided to the terminal device of the specific user located within the range.

On the contrary, when the harmful situation is detected in the measuring device, harmful situation occurrence information is transmitted to the beacon, and the communication range of the beacon is expanded to the maximum communication range, so that the terminal device and the lightening module of the specific user located in the maximum communication range The harmful situation occurrence information is provided and the notification is generated by the light modulating module, thereby propagating the occurrence of the harmful situation around.

At this time, the beacon is installed in each section generated by dividing the drawings of the work site at regular intervals, and a number indicating the position information is mapped. When the beacon is installed in a process area in which a specific user is installed, In the terminal device, a number shape corresponding to the position of the beacon is inputted to the drawing position through clicking or dragging, so that the beacon position is mapped on the user's terminal device.

Also, an event generated in the process area is stored in the terminal device by the user together with the location information and the time information, and when the terminal device is located in the communication coverage area, the stored data is transmitted to the server.

Beacons 101_1, 101_2, and 101_3 are installed in each of the process areas of the job site, but a beacon (not shown) may be additionally installed in a specific process area by the user. For example, when a user generates a harmful situation in a specific process area, the user installs a beacon at the corresponding location, maps a number indicating the location information to the beacon using his / her terminal device, Link event information. Accordingly, if the user is located in the communication range of the beacon while holding the terminal apparatus, event information can be received from the beacon. That is, the event information may be information that is linked to the beacon installed at the specific location by the user when a harmful situation occurs at a specific location when the user is active at the job site.

Also, since the terminal devices 102_1, 102_2, and 102_3 held by the user are connected to the beacons 101_1, 101_2, and 101_3 via Bluetooth even in a field where communication is not possible, It is possible to grasp the position of the robot.

On the other hand, a small beacon carried by the user may be additionally provided at any place other than the location where the beacon is installed, where the additional beacon is provided, and a new beacon number is assigned to the beacon, Can be mapped.

At this time, the location information and the time information corresponding to the location where the beacon is installed are stored in the terminal device by the user. When the terminal device is located in the communication coverage area, the stored data is transmitted to the server.

In addition, the transmitted data is inquired by the safety manager program, and an icon for an event occurrence position is given on a beacon map. When the icon is clicked, the contents of the event are inquired on the safety manager program have.

On the other hand, a beacon to which the danger signal is transmitted is connected to a beacon of a neighboring area and a user terminal of the user located in the corresponding area, and a danger signal is transmitted. A dangerous signal is transmitted to the device through a network, and a signal that is redundantly transmitted with the same contents is received only at the first signal, and is blocked from the second signal, thereby preventing the user from being confused by overlapping signals.

Next, a technical safety integrated management system of a construction site using a smart information delivery device checks whether there is pre-linked data when a terminal device held by a specific user is detected in a communication range, A terminal device for receiving and displaying data from the beacon in a communication range of the beacon, and a server for storing the data and providing the data through a safety manager program interface .

Here, if the linked data is a safety management item, the beacon provides an item for the corresponding process among the safety management items to the terminal, and the safety management items are numbered by processes in the technical safety management checklist for each process, Which is linked to the number of the nearest beacon.

2 is a conceptual diagram for explaining a technology safety integrated management system for a worksite using a smart information delivery device according to another embodiment of the present invention. The same or corresponding contents as those described above with reference to FIG. 1 will be omitted for the configuration or operation of another embodiment of the technology safety integrated management system at the worksite using the smart information delivery device disclosed in FIG. 2, From this, another embodiment of Fig. 2 will be fully understood.

The technical safety integrated management system of a work site using the beacon disclosed in FIG. 2 may further include measurement devices 103_1, 103_2, and 103_3.

Measuring devices 103_1, 103_2, and 103_3 are installed in the respective process areas of the job site, and are linked to the beacons 101_1, 101_2, and 101_3 installed in the process areas of the job site. For example, the measuring apparatus 103_1 located in the first processing region and the beacon 101_1 are linked, the measuring apparatus 103_2 located in the second processing region and the beacon 101_2 are linked, The measuring apparatus 103_3 located in the process area and the beacon 101_3 are linked.

The measuring apparatuses 103_1, 103_2, and 103_3 provided in each of the process areas of the work site measure the surrounding environment and provide measurement information to the previously linked beacons 101_1, 101_2, and 101_3. Then, when the beacons 101_1, 101_2, and 101_3 receive the measurement information from the measurement devices 103_1, 103_2, and 103_3, the beacons 101_1, 101_2, and 101_3 can provide the measurement information to the terminal device held by the user located in the communication range.

That is, the beacon further includes a measurement device positioned in each of the process areas of the operation site to measure the surrounding environment and provide the measurement information to the beacon linked to the beacon. When the beacon receives the measurement information from the linked measurement device, Measurement information is provided to the terminal device.

If a number is assigned to the measuring device, the number is linked to a beacon closest to the measuring device. If a terminal device held by a specific user is detected in the communication range of the measuring device, The measurement data and the graph of FIG.

For example, when the beacon 101_1 receives the measurement information from the measurement device 103_1, the beacon 101_1 can provide the measurement information to the terminal device 102_1 held by the user located in the communication range. For another example, when the beacon 101_2 receives the measurement information from the measurement device 103_2, the beacon 101_2 can provide the beacon 101_2 to the terminal device 102_2 held by the user located in the communication range. As another example, when the beacon 101_3 receives the measurement information from the measuring device 103_3, the beacon 101_3 can provide the beacon 101_3 to the terminal device 102_3 held by the user located in the communication range.

On the other hand, the measuring apparatuses 103_1, 103_2, and 103_3 located in the process areas of the work site provide event information to the beacons 101_1, 101_2, and 101_3 linked when the event is detected. Then, the beacons 101_1, 101_2, and 101_3 provide event information to the terminal devices 102_1, 102_2, and 102_3 in the communication range.

That is, when the harmful situation is detected in the measuring device, the communication range of the beacon is set to the minimum communication range, and the measurement data and the safety management item are provided to the terminal of the specific user located within the communication range of the beacon, When the harmful situation is detected in the measuring device, the hazardous situation occurrence information is transmitted to the beacon so that the communication range of the beacon is expanded to the maximum communication range, so that the terminal device and the lightening module of the specific user located in the maximum communication range Situation occurrence information is provided, and a notice is generated by the light modulating module, thereby propagating the occurrence of a harmful situation to the surroundings.

For example, when the measuring device 103_1 installed in the first process area senses a danger, the beacon 101_1 provides a dangerous situation to the previously linked beacon 101_1, and the beacon 101_1 is dangerous to the terminal device 102_1 in the communication range Provide a situation. At this time, the beacon 101_1 can provide a dangerous situation to other beacons 101_2 and 101_3, and the other beacons 101_2 and 101_3 can provide a dangerous situation to the terminal devices 101_2 and 102_3 having communication range . In addition, if the beacon 101_1 provides a dangerous situation to the terminal device 102_1 in the communication range, the terminal device 102_1 can provide a dangerous situation to the other terminal devices 102_2, 102_3, and 102_4.

That is, the present invention can provide a beacon for a beacon in a dangerous situation, a beacon for a beacon in a communication range, a dangerous situation for a beacon in a communication range, You can provide a situation.

In this way, if a dangerous situation is already received so that a beacon or a terminal device is duplicated and a same-content dangerous situation is not received, the next received dangerous situation is blocked. As described above, the beacon is used to quickly provide a dangerous situation, so that it is possible to respond to various dangerous situations occurring on the spot in real time.

When such a dangerous situation occurs, the beacons 103_1, 103_2, and 103_3 installed in each of the process areas of the job site enlarge the communication range (for example, 5m) to the maximum communication range (for example, 50m) It can notify dangerous situation to terminal devices in range. That is, the beacons 103_1, 103_2, and 103_3 installed in each of the process areas of the work site sense terminal devices in a specific communication range (for example, 5m radius) , 103_3), it can expand to the maximum communication range and detect a terminal device in the maximum communication range. Thus, by dividing the communication range of the beacon, the power efficiency of the beacon can be increased.

Although not shown in FIGS. 1 and 2, a server exists in a technology safety integrated management system of a work site using a smart information delivery device. The server receives the measurement information from the measurement device and provides it through the safety manager program or allows the user to check the data linked to the beacon according to the operation of the manager. Such a safety manager program will be described in more detail with reference to Figs. 7 and 8 below.

FIG. 3 and FIG. 4 are reference views for explaining the beacon setting process according to the present invention.

Referring to FIG. 3 and FIG. 4, the user can set the position of the beacon by dividing the drawing of the work site at regular intervals as shown in FIG. As shown in FIG. 4, the terminal displays on the screen a drawing divided at predetermined intervals by the user in accordance with the user's operation. The user can map the location information to the beacon by clicking and dragging the number indicating the location information on the beacon in the drawing and placing it in the drawing.

That is, the beacon is installed in each section generated by dividing the drawings of the job site at regular intervals, and a number indicating the position information is mapped. When the beacon is installed in a process area in which a specific user is installed, The beacon position is mapped on the user's terminal device by inputting a number shape corresponding to the position of the beacon in the drawing position through a click or a drag, When the terminal device is located in the communication coverage area, the stored data is transmitted to the server.

As described above, the beacon position can be initially set by dividing the drawing of the work site at regular intervals according to the plan by the user, and the position information can be mapped to the beacon by positioning the number indicating the position information in each beacon.

The user can install an additional beacon in addition to the already installed beacon. For example, when a user creates a harmful situation in a specific process area, the user installs a beacon at the corresponding location, and clicks and drags the number shape on the beacon through the terminal device to position the beacon. You can map.

That is, a small beacon carried by the user may be additionally installed at any place other than the location where the beacon is installed, and the beacon may be provided with a new beacon number, The location information and the time information corresponding to the location where the beacon is installed are stored in the terminal device by the user. When the terminal device is located in the communication coverage area, Lt; / RTI >

The reason for mapping the location information to the beacon is to link the data (for example, the safety management item of the process area where the beacon is located, the event information) and the measurement device according to the beacon location information. The beacon can provide a safety management item linked to the terminal device when the terminal device is in the communication range of the beacon by linking the beacon with the safety management item in the process area according to the position information.

Here, the safety management item is information that is linked with the number of the nearest beacon in which the process is numbered by the process in the process safety management checklist. In addition, the event information means information linked to a beacon installed at the specific location by the user when a harmful situation occurs at a specific location when the user is active in a job site.

The terminal device stores the contents of the harmful situation (e.g., image, moving picture, text, etc.) input by the user, and also stores the location information and the time information of the user. The terminal device can transmit the corresponding data to the server in an area where communication is possible.

On the other hand, the transferred data is inquired by the safety manager program, an icon for the event occurrence position is given on the beacon map, and when the icon is clicked, the contents of the event are inquired on the safety manager program .

Also, the beacon to which the danger signal is transmitted is connected to the beacon of another adjacent area and the user terminal of the user located in the corresponding area, and a danger signal is transmitted. A danger signal is transmitted by being connected to the device and the signal which is duplicated with the same contents is received only the first signal and is blocked from the second signal so that the user is prevented from being confused by the duplicated signal.

5 is a reference diagram for explaining a process of linking beacons according to the present invention and safety management items according to processes.

Referring to Fig. 5, the drawings of the work site are divided at regular intervals, and beacons 01 to 35 are installed in each process area. The beacons 01 to 35 installed in the respective process areas are mapped to the numbers indicating the position information through the processes described with reference to FIG. 3 and FIG.

The beacon number and the safety management item for each process are linked according to the location information of the beacons 01 to 35 installed in the respective process areas. At this time, numbering is performed for each process in the technical safety checklist for each process, and the number is linked to the nearest beacon in which the process is performed. For example, in the beacon 03, the number (1-1) of the earth retaining structure, which is the safety management item of the process area at the corresponding location, and the number 03 of the beacon are linked with each other according to the location information.

Thus, by linking the safety management item of the process area with the beacon according to the beacon position information, the beacon can provide the safety management item linked to the terminal device when the terminal device is in the communication range of the beacon.

For example, if the user is located in a specific public area while holding the terminal device 510, the terminal device 510 is located in the communication range of the beacon 10 installed in the corresponding process area.

Then, the beacon 10 confirms whether the linked safety management item is present, and provides the safety management item 520 to the terminal device 510. Therefore, the user having the terminal device can prevent the safety accident at the construction site by checking the safety management item of the process area and taking care in advance.

6 is a reference diagram for explaining a process of linking a beacon and a measurement apparatus according to the present invention.

Referring to Fig. 6, the drawings of the operation site are divided at regular intervals, and beacons 01 to 35 are installed in respective process areas. The beacons 01 to 35 installed in the respective process areas are mapped to the numbers indicating the position information through the processes described with reference to FIG. 3 and FIG.

In addition, measurement apparatuses 610_1, 610_2, and 610_3 may be provided in respective process regions to measure the respective process regions, and provide the measurement information to the previously linked beacon. To this end, the numbers of the measuring devices 610_1, 610_2, and 610_3 are linked to the numbers of the beacons. For example, the number of the measuring device 610_1 may be linked to the number 03 of the beacon, the number of the measuring device 610_2 may be linked to the number 15 of the beacon, The number may be linked to beacon number 13.

By linking the measuring devices 610_1, 610_2 and 610_3 and the beacons 03,15 and 13 in this way, the measuring devices 610_1, 610_2 and 610_3 provide the measuring information to the beacons 03,15 and 13, (03, 15, 13) provide measurement information to the terminal devices in the communication range. For example, the measuring device 610_1 may provide the measurement information to the beacon 03, and the beacon 03 may provide the measurement information to the terminal devices within the communication range, such as the reference number 620. [ Accordingly, the user can confirm the measurement data of the process area in real time through his / her terminal device.

Also, in each process area, the measuring devices 610_1, 610_2, and 610_3 can detect an event situation and provide event information to the beacons 03, 15, and 13 that are linked to each other. Then, the beacons 03, 15, and 13 can provide event information to the terminal devices in the communication range. For example, the measurement apparatus 610_1 may detect a dangerous situation, provide a dangerous situation to the beacon 03, and the beacon 03 may provide measurement information to the terminal apparatuses within the communication range. In this example, the beacon 03 may provide a dangerous situation to the other beacons 15 and 13, and the other beacons 15 and 13 may provide a dangerous situation to the terminal device in the communication range. In addition, if the beacon 03 provides a dangerous situation to a terminal device in the communication range, the terminal device can provide a dangerous situation to the other terminal device.

FIGS. 7 and 8 are reference views for explaining the interface of the safety manager program for the technical safety integrated management at the work site.

7 and 8, the safety manager program provides a beacon map, displays identifiers of different colors according to the number of beacons in the beacon of the beacon map and the type of the previously linked data, .

For example, the beacon number 04 indicates an identifier of greenish yellow because there is a linked measuring device. For another example, the beacon number 06 indicates an identifier of orange because there is a previously linked safety management item. As another example, the beacon 36 is linked to the beacon 36 because the beacon 36 is a beacon installed by the user because it is determined that an arbitrary event has occurred. The beacon number 36 indicates an identifier of purple.

The safety manager program displays the data associated with the beacon when the beacon number is clicked by the administrator. For example, when the beacon number 06 is clicked by the administrator as shown in FIG. 7, the beacon and the linked safety management item are displayed. As another example, when the beacon number 04 is clicked by the manager as shown in FIG. 8, the beacon and the measurement information (for example, measurement data) received from the linked measurement apparatus are displayed.

9 is a reference diagram for explaining a process of transmitting risk information to a user utilizing a beacon according to the present invention.

9, a measuring device 910 is installed in each of the process areas of the job site and is linked to a beacon 920 located in each of the process areas of the job site.

The measuring device 910 installed in each of the process areas of the work site measures the surrounding environment and provides measurement information to the previously linked beacon 920. The measuring device 910 provides event information to the previously linked beacon 920 by measuring the event in the process of measuring the surrounding environment. Then, the beacon 920 provides event information to the terminal device in the communication range and the beacon. As described above, the beacon is used to quickly provide a dangerous situation, so that it is possible to respond to various dangerous situations occurring on the spot in real time.

When such a dangerous situation occurs, the beacon 920 installed in each of the process areas of the worksite may be enlarged to the maximum communication range (for example, 50 m) to notify the terminal devices in the communication range of the dangerous situation.

That is, the beacon 920 installed in each of the process areas of the work site senses a terminal device in a specific communication range (for example, 5 m radius) of the maximum communication range at normal times, receives event information from the measuring device 910 It is possible to detect the terminal device in the maximum communication range by expanding to the maximum communication range. Thus, by dividing the communication range of the beacon, the power efficiency of the beacon can be increased.

FIG. 10 is a reference diagram for explaining a process of transmitting danger information to an administrator utilizing a beacon according to the present invention.

Referring to FIG. 10, each of the process areas of the job site has a metering device 910, which is linked to a beacon 920 located in each of the process areas of the job site.

The measuring device 910 installed in each of the process areas of the work site measures the surrounding environment and provides measurement information to the previously linked beacon 920. The measuring device 910 provides event information to the previously linked beacon 920 by measuring the event in the process of measuring the surrounding environment. In addition, the measuring device 910 can directly transmit event information to the server and notify the administrator thereof.

At this time, the beacon 920 may provide a dangerous situation to another beacon 930, and the other beacon 930 may provide a dangerous situation to the terminal devices in the communication range. Although not shown in FIG. 10, if the beacon 920 provides a dangerous situation to a terminal device in a communication range, the terminal device can provide a dangerous situation to other terminal devices.

The technology safety integrated management system and the method of implementing the technology safety management system using the smart information delivery device according to the present invention, which have been described in detail so far, can be utilized as follows.

First, the beacon is divided into sections at predetermined intervals on the drawing, and the position is set. In the terminal, a number shape corresponding to the position of the beacon is inputted to the drawing position through clicking or dragging. An additional beacon number for the location where the event occurs is input, so that it is easy to input an additional beacon number immediately on the spot when an event occurs after the initial setting.

When a number is assigned to the measuring device, the number is linked to the beacon closest to the measuring device. If a terminal device held by a specific user is detected in the communication range of the measuring device, The measurement data is automatically displayed on the screen of the terminal device held by the user and can be informed when the user is positioned within the communication range of the measuring device.

Further, when an arbitrary harmful situation occurs by the measurement apparatus, an additional beacon is installed at the corresponding occurrence position, a beacon position is mapped on the user's terminal device, and the event includes the location information and the time information, The stored data is transmitted to the server, so that the user of the event occurrence area, the server manager and the person in charge of the event immediately check the content of the harmful situation and manage it I can do it.

At this time, the transmitted data is inquired by the safety manager program, and an icon for the event occurrence position is given on the beacon map. When the icon is clicked, the contents of the event are inquired on the safety manager program , The server manager can confirm the location and occurrence of an event on a beacon map at a glance, and it is effective to enable efficient safety management on site.

If a hazardous situation is detected by the measuring device, a danger signal is transmitted from the measuring device to the beacon. The signal transmission range of the beacon is extended up to 50 m, and the beacon is transmitted to the terminal of the user adjacent to the beacon, By transmitting the danger signal again, it is possible to increase the power efficiency of the beacon whose communication range is set within 5m in the normal state by dividing the signal transmission range into two stages.

At this time, the beacon to which the danger signal is transmitted is connected to a beacon of a neighboring area and a user terminal of the user located in the corresponding area, and a danger signal is transmitted. And the danger signal is transmitted to the device through the network. In the case of overlapping signals transmitted with the same contents, only the first signal is received and the second signal is blocked. Thus, all the beacons and users adjacent to the hazardous area are rapidly And the message delivered in duplicate is automatically blocked, so that it is possible to effectively transmit the harmful situation.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the appended claims, as well as the appended claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only in accordance with the following claims, and all equivalents or equivalent variations thereof are included in the scope of the present invention.

101_1, 101_2, 101_3: Beacon
102_1, 102_2, 102_3, 102_4: terminal device
103_1, 103_2, 103_3: Measuring device

Claims

A method for integrating technical safety in a worksite executed in a beacon installed in each of the processing areas of a work site,
Monitoring a terminal device in a communication range;
Checking if the terminal device held by a specific user is detected in the communication range during the monitoring process to see if there is linked data; And
And providing the data to a terminal device owned by the specific user according to the result of the checking.

The method according to claim 1,
And the step of providing the data to the terminal device held by the specific user according to the result of the checking
And providing an item for a corresponding process among the safety management items to a terminal device held by the specific user when the previously linked data is a safety management item,
Wherein the safety management item refers to information linked with the number of the nearest beacon that is numbered per process in the technical safety management checklist for each process and linked to the number of the nearest beacon. Way

The method according to claim 1,
And the step of providing the data to the terminal device held by the specific user according to the result of the checking
Receiving measurement information from a linked measurement device among the measurement devices provided in each of the process areas of the job site, the measurement information being provided to the terminal device held by the specific user; And
If a number is assigned to the measuring device, the number is linked to a beacon closest to the measuring device. If a terminal device held by a specific user is detected in the communication range of the measuring device, And a step of automatically receiving measurement data and a graph. The method for integrating technical safety in a construction site using a smart information delivery device

The method of claim 3,
And the step of providing the data to the terminal device held by the specific user according to the result of the checking
When a harmful situation is detected in the measuring apparatus, the communication range of the beacon is set to the minimum communication range, and the measurement data and the safety management item are provided to the terminal of the specific user located within the communication range of the beacon,
When the harmful situation is detected in the measuring device, the hazardous situation occurrence information is transmitted to the beacon so that the communication range of the beacon is expanded to the maximum communication range, so that the terminal device and the lightening module of the specific user located in the maximum communication range The method according to claim 1, further comprising the step of providing information on the occurrence of a situation and generating a notification by the light module.

The method according to claim 1,
The beacon
The number of the beacon is set in each section generated by dividing the drawing of the work site at predetermined intervals and a number indicating the position information is mapped. When the beacon is installed in a process area where a specific user is located, The beacon position is mapped on the user's terminal device by inputting the number shape corresponding to the position into the drawing position through clicking or dragging,
Wherein the event generated in the process area is stored in the terminal device by the user together with the location information and the time information, and when the terminal device is located in the communicable range, the stored data is transmitted to the server. Method for Integrated Management of Technical Safety in Construction Site Using

The method according to claim 1,
A small beacon carried by a user may be additionally provided at any place where an additional check is required in addition to the location where the beacon is installed. The added beacon is assigned a new beacon number, The location is mapped,
Wherein the location information and the time information corresponding to the location where the beacon is installed are stored in the terminal device by the user and the stored data is transmitted to the server when the terminal device is located in the communicable range. How to manage integrated technology safety at the construction site using devices

The method according to claim 6,
The transmitted data is inquired by the safety manager program, and an icon for an event occurrence position is given on a beacon map. When the icon is clicked, the contents of the event are inquired on the safety manager program A Method of Integrating Technological Safety in Construction Site Using Smart Information Transmitting Device

The method according to claim 6,
The beacon to which the danger signal is transmitted is connected to a beacon of a neighboring area and a user terminal of the user located in the corresponding area and a danger signal is transmitted. And the risk signal is transmitted through the network, and only the first signal is received and the second signal is blocked when the same signal is repeatedly transmitted.

A beacon which verifies whether there is already linked data when a terminal device held by a specific user is detected in a communication range and provides the data to a terminal device held by a specific user according to a result of the check;
A terminal device for receiving and displaying data from the beacon in a communication range of the beacon; And
And a server for storing the data and providing the data through a program interface for a safety manager.

10. The method of claim 9,
The beacon
Providing the terminal device with an item for the corresponding process among the safety management items when the previously linked data is a safety management item,
Wherein the safety management item refers to information linked with the number of the nearest beacon that is numbered per process in the technical safety management checklist for each process and linked to the number of the nearest beacon. system

10. The method of claim 9,
Further comprising: a measuring device located in each of the process areas of the operation site to measure the surrounding environment and provide measurement information to the previously linked beacon, wherein the beacon, when receiving the measurement information from the linked measurement device, Is provided to the terminal device,
If a number is assigned to the measuring device, the number is linked to a beacon closest to the measuring device. If a terminal device held by a specific user is detected in the communication range of the measuring device, And the measurement data and the graph are automatically received by the smart information transmitting and receiving system.

12. The method of claim 11,
When a harmful situation is detected in the measuring apparatus, the communication range of the beacon is set to the minimum communication range, and the measurement data and the safety management item are provided to the terminal of the specific user located within the communication range of the beacon,
When the harmful situation is detected in the measuring device, the hazardous situation occurrence information is transmitted to the beacon so that the communication range of the beacon is expanded to the maximum communication range, so that the terminal device and the lightening module of the specific user located in the maximum communication range Wherein the smart information module is provided with a status information generating unit and the smart light module generates a notification.

10. The method of claim 9,
The beacon
The number of the beacon is set in each section generated by dividing the drawing of the work site at predetermined intervals and a number indicating the position information is mapped. When the beacon is installed in a process area where a specific user is located, The beacon position is mapped on the user's terminal device by inputting the number shape corresponding to the position into the drawing position through clicking or dragging,
Wherein the event generated in the process area is stored in the terminal device by the user together with the location information and the time information, and when the terminal device is located in the communicable range, the stored data is transmitted to the server. Integrated safety management system for construction site using

10. The method of claim 9,
A small beacon carried by a user may be additionally provided at any place where an additional check is required in addition to the location where the beacon is installed. The added beacon is assigned a new beacon number, The location is mapped,
Wherein the location information and the time information corresponding to the location where the beacon is installed are stored in the terminal device by the user and the stored data is transmitted to the server when the terminal device is located in the communicable range. Integrated safety management system for construction site using devices

15. The method of claim 14,
The transmitted data is inquired by the safety manager program, and an icon for an event occurrence position is given on a beacon map. When the icon is clicked, the contents of the event are inquired on the safety manager program Integrated technical safety management system for construction site using smart information transfer device

15. The method of claim 14,
The beacon to which the danger signal is transmitted is connected to a beacon of a neighboring area and a user terminal of the user located in the corresponding area and a danger signal is transmitted. And the risk signal is transmitted through the network, and only the first signal is received and the second signal is blocked when the redundantly transmitted signal is transmitted with the same contents.