KR20210106171A - Smart safety management method for construction sites with Bluetooth-LORA networking selective linkage with its own local area network switching - Google Patents

Abstract

The present invention relates to smart safety management at a construction site by Bluetooth-LoRa networking selective linkage in a local area network self-driven at a construction site. According to the present invention, every ordinary public network communication such as Wi-Fi, GPS, 5G, and LTE, recognition at a network-less construction site, and other shortest-range communication are performed based on Bluetooth communication and short- and mid-range communication is performed based on LoRa communication. As a result, it is possible to provide an infrastructure system in which a message can be given and received for accident notification, two-way SOS, urgent notice, and so on. In addition, an alarm function is performed at an accident prediction point and warning related to accident prediction and following safety management implementation information are performed efficiently. In addition, a construction worker hazard detection device and Bluetooth-LoRa networking of local area network selective linkage type self-driven at a construction site are used for smart safety management at a construction site, and thus a reliable and efficient communication service can be provided.

Description

Smart safety management method for construction sites with Bluetooth-LORA networking selective linkage with its own local area network switching

The technical field of the present invention relates to a system for smart construction safety using the LoRa communication method at the construction site where the existing public networks such as WiFi, 3G, 4G LTE, 5G, 6G, etc., as well as GPS communication do not operate. am.

In addition, the present invention detects a danger using an infrared motion detection sensor, an ultrasonic distance sensor, a thermal imaging camera, etc. provided as a portable device in a construction risk area and immediately warns it, and collects data through its own LoRa communication network, and pre-construction in the future It is about how to use it as safety prevention data.

Recently, the necessity of IoT-based safety management is expanding due to the mandatory introduction of smart safety equipment, and it is emerging as an important part to minimize damage from industrial accidents at construction sites and to respond quickly, that is, to recognize and respond immediately to accidents.

Accordingly, various attempts and studies on construction safety are being conducted in various ways using IoT technology.

Safety management system for industrial sites using hard hats, Korea/10-2012-0143577, Korea Electronics and Telecommunications Research Institute, Safety management device for construction sites using RFID Korea/10-2009-0126067 Safety for users through hard hats of Youngwoo Industries, etc. Many attempts are being made at the construction site, such as a monitoring system, an alarm system to reduce collision stenosis accidents, and a productivity improvement technology that performs construction similarly to a 3D digital map design using a drone.

However, despite these efforts, communication problems at the construction site, such as in the construction site after the frame and in the underground facility under construction, still reside. In particular, in the case of apartment construction sites, there is a communication blind spot where all normal public network communication such as Wi-Fi, GPS, 5G, and LTE is not possible at most sites before moving in. The reality is that we are in the blind spot of communication for safety at the construction site.

In addition, as a result of the field test, all public network communications including LTE, 5G, and Wi-Fi were not available in a significant part including the underground parking lot under construction, and in the event of an accident, it is important to the safety of construction workers who do not have a walkie-talkie to notify whether there is an accident or not. There is a serious problem.

The present invention is based on Bluetooth communication for short-distance communication, such as recognition at construction sites where all common public network communication such as Wi-Fi, GPS, 5G, LTE, etc. and networks are not available, and accident notification, A self-driven local area network at the construction site that provides an infrastructure system that can send and receive messages such as two-way SOS and emergency notices, performs an alarm function at a safety accident prediction point, and efficiently performs warnings about prior accident prediction and information on post safety management implementation Bluetooth-LoRa networking selective interlocking type construction site smart safety management is the purpose.

In addition, for smart safety management of construction sites, the purpose is to provide efficient and reliable communication services using a construction worker risk detection device and a self-driven local area network selective interlocking Bluetooth-LoRa networking.

The present invention provides for smart safety management of a construction site capable of selectively interworking Bluetooth-LoRa networking having its own LoRa local area network switching structure.

Hazard detection devices installed in hazardous locations to ensure safety;

construction worker terminal devices carried, fitted, or attached by construction workers;

Construction safety mobility system consisting of;

includes

A construction safety interlocking analysis server system consisting of a Loraspot relay server device, a terminal registration and message relay server device, and a data and application server device;

includes

a construction safety service system consisting of a construction safety web server device, a construction safety dashboard device, and a construction safety monitoring terminal device;

It provides a construction site smart safety management method comprising a.

In addition, the Construction Safety Mobility System provides

Sensing unit that detects dangerous place approach; Warning unit that performs warning by visual, auditory, etc.; Worker terminal ID verification unit using Bluetooth communication; LoRa local for construction sites where communication is not smooth with worker terminal ID using Bluetooth Bluetooth-LoRa switching unit enabling transmission through a communication network;

A construction worker risk detection device having; a transmission unit for transmitting access information to the server;

To provide a system comprising:

Emergency transmitted from peripheral LoRa module terminal devices that are generated by basic message reception and hotline alarm message process execution based on LoRa communication method at construction sites that are not connected to normal public and public networks, such as LTE and Wifi, including smart phone communication. a message transceiver for transmitting a message in a relay manner;

a message confirmation unit for visually or aurally confirming a transmitted and received message;

a warning unit that receives an emergency warning message from the central control or a warning message that is automatically received from a risk detection device and is expressed visually and aurally;

Accident notification transmitter using the SOS accident notification button mounted on the terminal directly with one touch;

A construction worker terminal device consisting of terminal devices that construction workers possess, mount, attach, and carry;

A construction site self-driving local area network having a Bluetooth-LoRa networking selective interlocking type construction site smart safety management method is provided.

Through the present invention, it is possible to achieve construction safety management that can only be obtained through communication by solving the communication problem at the construction site where public network communication is not possible. There is an advantage that

In addition, by using the hazardous area detection device, the terminal device of construction workers, and the Bluetooth-LoRa network interworking method, various types of messages can be exchanged at the construction site before the public network is installed, and automated industrial accident risk handling becomes possible.

By using this invention, it is possible to eliminate fatal accidents that occur in underground septic tanks or underground as examples in specific fields by using the present invention. It has the advantage of reducing various fatal accidents, such as fatal accidents caused by a car crashing into a dug, and fatal accidents occurring in equipment, electricity, and materials.

1 is a diagram illustrating a situation in which communication is not performed at a construction site.
FIG. 2 is a diagram showing an actual construction site self-driving local area network Bluetooth-LoRa networking capable of exchanging messages according to an embodiment of the present invention.
3 is a system configuration diagram for smart safety management of a construction site capable of selectively interworking with Bluetooth-LoRa networking having its own LoRa local area network switching structure according to an embodiment of the present invention.
4 is a detailed configuration diagram of a system for smart safety management of a construction site capable of selective interworking with Bluetooth-LoRa networking having its own LoRa local area network switching structure according to an embodiment of the present invention.
5 is a detailed configuration diagram of a construction safety mobility system in a system for smart safety management at a construction site capable of selective interworking with Bluetooth-LoRa networking having its own LoRa local area network switching structure according to an embodiment of the present invention.
6 is a detailed configuration diagram of a construction safety interworking analysis server system in a system for smart safety management at a construction site capable of selectively interworking Bluetooth-LoRa networking having its own LoRa local area network switching structure according to an embodiment of the present invention.
7 is a detailed configuration diagram of a construction safety service system in a system for smart safety management at a construction site capable of selective interworking with Bluetooth-LoRa networking having its own LoRa local area network switching structure according to an embodiment of the present invention.
8 is a detailed flowchart for on-site pre-site safety measures for smart safety management of a construction site capable of selective interworking with Bluetooth-LoRa networking having its own LoRa local area network switching structure according to an embodiment of the present invention.

The following is merely illustrative of the principles of the invention. Therefore, those skilled in the art will be able to devise various devices which, although not explicitly described or shown herein, embody the principles of the present invention and are included within the spirit and scope of the present invention. In addition, all conditional terms and examples listed herein are, in principle, expressly intended only for the purpose of understanding the inventive concept, and should be understood not to be limited to the specifically enumerated embodiments and states as such. do.

Moreover, it is to be understood that all detailed description reciting the principles, aspects, and embodiments of the present invention, as well as specific embodiments, are intended to cover structural and functional equivalents of such matters. It is also to be understood that such equivalents include not only currently known equivalents, but also equivalents developed in the future, i.e., all devices invented to perform the same function, regardless of structure.

Thus, for example, the schematic diagrams herein are to be understood as representing conceptual views of illustrative circuitry embodying the principles of the present invention. Similarly, all flowcharts, state transition diagrams, pseudo code, etc. may be tangibly embodied on computer-readable media and be understood to represent various processes performed by a computer or processor, whether or not a computer or processor is explicitly shown. should be

The functions of the various elements shown in the figures including a processor or functional blocks represented by similar concepts may be provided by the use of dedicated hardware as well as hardware having the ability to execute software in association with appropriate software. When provided by a processor, the functionality may be provided by a single dedicated processor, a single shared processor, or a plurality of separate processors, some of which may be shared.

In addition, clear use of terms presented as processor, control, or similar concepts should not be construed as exclusively referring to hardware having the ability to execute software, and without limitation, digital signal processor (DSP) hardware, ROM for storing software. It should be understood to implicitly include (ROM), RAM (RAM) and non-volatile memory. Other common hardware may also be included.

In the claims of the present specification, a component expressed as a means for performing the function described in the detailed description includes, for example, a combination of circuit elements that perform the function or software in any form including firmware/microcode, etc. It is intended to include all methods of performing the functions of the device, coupled with suitable circuitry for executing the software to perform the functions. Since the present invention defined by these claims is combined with the functions provided by the various enumerated means and combined in a manner required by the claims, any means capable of providing the functions are equivalent to those contemplated from the present specification. should be understood as

The above-described objects, features and advantages will become more apparent through the following detailed description in relation to the accompanying drawings, and accordingly, those of ordinary skill in the art to which the present invention pertains can easily implement the technical idea of the present invention. There will be. In addition, 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 thereof will be omitted.

Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a situation in which communication is not performed at a construction site.

As shown in Figure 1, at the apartment construction site under construction, which takes as short as two to several years, there is no communication, so construction workers are exposed to safety risks, and when they enter the communication blind spot, they suffer a lot of inconvenience due to the problem of not being able to communicate until they come out. can be checked

FIG. 2 is a diagram showing an actual message exchanged through Bluetooth-LoRa networking, which is a self-driven local area network at a construction site, according to an embodiment of the present invention.

As shown in FIG. 2 , if the Bluetooth-LoRa networking network implemented in the present invention is implemented, it shows that it can be a facility capable of networking in various hazardous areas under construction as well as sending and receiving messages.

3 is a block diagram of a construction site self-driving local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system according to an embodiment of the present invention.

As shown in FIG. 3, the construction site self-driving local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system specifically manages devices carrying mobility in construction risk sites 100 and construction safety Construction safety interlocking analysis server system 200 that performs device registration, data relay, and analysis, construction safety service system ( 300) consists of

4 is a detailed configuration diagram of a construction site self-driving local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system according to an embodiment of the present invention.

As shown in FIG. 4 , the construction safety mobility system 100 in the construction site self-driven local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system 100 is a risk detection device 110 installed in a dangerous place to ensure safety and construction It is composed of a construction worker terminal device 120 consisting of terminal devices that workers carry or wear, attach, and carry.

Construction site self-driving local area network Bluetooth-LoRa networking selective interlocking construction safety interlocking analysis server system 200 in construction site smart safety management system is LoRaSpot relay server device 210, terminal registration and message relay server device 220, It consists of data and an application server device 230 .

In addition, the construction safety service system 300 in the construction site self-driven local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system is a construction safety web server device 310, a construction safety dashboard device 320, a construction safety and a monitoring terminal device 330 .

5 is a detailed configuration diagram of a construction safety mobility system in a construction site self-driving local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system according to an embodiment of the present invention.

As shown in FIG. 5 , as a detailed device in the construction safety mobility system 100 , the risk detection device 110 includes a detection unit 111 for detecting a dangerous place approach, and a warning unit 112 for performing a warning by visual, auditory, etc. ), the worker terminal ID verification unit 113 using Bluetooth communication, and the Bluetooth-LoRa switching unit 114 access information that enables transmission of the worker terminal ID using Bluetooth to the LoRa local communication network for the construction site where communication is not smooth The construction worker terminal device 120, which is composed of a transmission unit 115 for transmitting A message transmitting/receiving unit 121 for transmitting an emergency message received from the LoRa module terminal device in a relay manner, a message checking unit 122 for visually or aurally checking the transmitted/received message, an emergency warning message sent from the central control, or A warning unit 123 that is visually and aurally expressed by receiving a warning message automatically received from the risk detection device 110, and an accident notification transmission unit 124 using the SOS accident notification button mounted on the terminal device with one touch directly is composed of

In this case, when the SOS accident notification button is pressed, the hotline alarm message process is executed, and until the accident notification is finished, the accident notification message is the construction site self-powered local area network Bluetooth-LoRa networking selection interlocking construction site smart safety management system status urgent Keep the signal active.

6 is a detailed configuration diagram of a construction safety interworking analysis server system in a construction site self-driving local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system according to an embodiment of the present invention.

As shown in FIG. 6, the construction safety interlocking analysis server system 200 that performs construction safety device registration, data relay, and analysis is a LoRa spot relay server device 210 and terminal registration and message relay server device 220, data and applications It consists of a server device (230).

As a detailed component device of the construction safety interlocking analysis server system 200, the LoRa spot relay server device 210 is a terminal data transceiver 211 that transmits and receives data with all terminals on the site, an application program that transmits and receives data with the application server It consists of a server transceiver unit 212, and the terminal registration and message relay server device 220 includes a registration unit 221 for registering a construction worker terminal or equipment, a monitoring unit 222 for monitoring accidents centering on the construction worker terminal, and a message and a sending/receiving unit 223 for sending and receiving warnings, and a statistics processing unit 224 for sending workloads or statistics today or periodically.

In addition, as a detailed component device of the construction safety interlocking analysis server system 200, the data and application server device 230 includes a data transceiver 231 for transmitting and receiving data from the LoRa spot relay server, a data storage function for storing these data transactions It is composed of a storage unit 232 that performs the function execution, a function execution unit 233 in charge of executing detailed functions, and a data analysis unit 234 that performs data analysis.

In the above, the data analysis unit 234 includes a function of performing various risk predictions for workers or hazardous areas by using big data analysis and AI techniques.

In addition, the LoRa spot relay server device 210 includes a management system for maintaining and managing a network switching system suitable for the construction site, including the construction site LoRa network management system.

That is, the LoRa spot relay server device 210 is a LoRa network switching management system customized for a construction site, and the LoRa network management system gives priority to a domain in the construction site in a method of performing switching for each node, and then It includes a domain-managed construction site-specific switching method that gives priority to each construction construction period, process process, and progress rate.

7 is a detailed configuration diagram of the construction safety service system 300 in the construction site self-driving local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system according to an embodiment of the present invention.

As shown in FIG. 7 , an interface unit 311 that provides a user interface as a detailed configuration device of the construction safety service system 300 in the construction site self-driving local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system as shown in FIG. 7 , a dashboard A construction safety web server device 310 consisting of a dashboard linkage unit 312 for monitoring the values of , a transceiver unit 313 for transmitting and receiving real-time messages, and a warning unit 314 for transmitting and displaying warnings, statistics A dashboard device comprising a statistics unit 321 in charge of numerical functions, an accident notification unit 322 for performing expression related to accident notification, a transceiver 323 for sending and receiving messages, and a display unit 324 for expressing messages It consists of a monitoring terminal device 330 comprising a 320 and an accident monitoring unit 331 for performing accident monitoring at an upper stage, and a message transmitting and receiving unit 332 for performing an overall message and a construction site warning at an upper stage.

8 is a detailed flowchart for on-site pre-site safety measures in a construction site self-driving local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system according to an embodiment of the present invention.

As shown in FIG. 8, when a worker approaches a risk detector installed in the form of mobility in a dangerous place at the construction site, the construction site self-driven local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system detects it (S11010) and within the warning distance After checking whether it approaches (S11020), if the approach is not within the warning distance, it is continuously checked whether the approach is within the warning distance (S11025). If the approach is within the warning range, the worker ID accessed through Bluetooth communication is identified (S11030), the warning distance access information and the approach worker ID are transmitted to the server through the LoRa spot relay server using LoRa communication, and whether the approach is within the alarm distance is checked. After checking (S11050), if it is not within the alarm distance, it returns to the state of prohibited access to the dangerous place again (S11055), and if it is within the alarm distance, the worker ID confirmed through the alarm distance access information and the construction worker terminal device and Bluetooth communication is communicated with the LoRa communication It transmits to the server through (S11060), and performs an alarm through an alarm alarm and a warning light (S11070).

In addition, this worker's ID is classified as a primary object of observation (S11080) and a hotline alarm message process is executed (S11090) until the worker leaves the alarm area, until the worker leaves the alarm area. The safety management system maintains a warning state.

In addition, the hotline alarm message process defined in the construction site self-driven local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system is a process that is performed when a safety accident occurs or is detected in advance. And until the relevant operator or designator receives the alarm message, it is a process of continuously transmitting messages from the terminal of the accidental or pre-accident predictor using the nearby propagation terminal and construction risk detection device as a relay device. It is a process in which the values to which the alarm should be delivered are specified, and the message is delivered and received in a grid manner.

Claims (7)

Construction site self-driven local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management method

Hazard detection devices installed in hazardous locations to ensure safety;
construction worker terminal devices carried, fitted, or attached by construction workers;
Construction safety mobility system consisting of;
includes

Construction safety interlocking analysis server system consisting of a Loraspot relay server device, a terminal registration and message relay server device, and a data and application server device;
includes

a construction safety service system consisting of a construction safety web server device, a construction safety dashboard device, and a construction safety monitoring terminal device;
A construction site smart safety management method comprising a.
The method of claim 1,
The construction worker hazard detection device within the construction safety mobility system is
The hazard detection device includes: a sensing unit for detecting a dangerous place approach;
a warning unit for performing a warning by visual, auditory, etc.;
Worker terminal ID verification unit using Bluetooth communication;
Bluetooth-LoRa switching unit that enables transmission of worker terminal ID using Bluetooth to LoRa local communication network for construction sites where communication is not smooth;
A transmission unit for transmitting access information to the server; having
construction worker hazard detection device;
Construction site self-powered local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system management method comprising a.
The method of claim 1,
The construction worker terminal device within the construction safety mobility system is
Construction Safety Mobility System can be used in construction sites that are not normally connected to public and public networks such as LTE and Wifi, including smartphone communication.
a message transceiver for transmitting, in a relay manner, an emergency message received from a peripheral LoRa module terminal device generated by receiving a basic message and executing a hotline alarm message process based on the LoRa communication method;
a message confirmation unit for visually or aurally confirming a transmitted and received message;
a warning unit that receives an emergency warning message from the central control or a warning message that is automatically received from a risk detection device and is expressed visually and aurally;
Accident notification transmitter using the SOS accident notification button mounted on the terminal directly with one touch;
A construction worker terminal device consisting of terminal devices that construction workers possess, mount, attach, and carry;
Construction site self-powered local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management method with
in paragraph 1
Construction site self-driven local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management method
When a worker approaches a risk detector installed in the form of mobility in a hazardous location on a construction site, it is detected by a construction site smart safety management system with a self-driven local area network Bluetooth-LoRa networking selectable linkage;
Make sure you are within the warning distance;
If the approach is not within the warning distance, continuously check whether the approach is within the warning distance;
If the approach is within the warning range, identify the accessed worker ID through Bluetooth communication;
Send the warning distance access information and approach worker ID to the server through the LoRa spot relay server using LoRa communication and check whether the approach is within the alarm distance;
If it is not within the alarm distance, access to the hazardous area is prohibited again;
If the approach is within the alarm distance, transmit the alarm distance access information and the worker ID verified through Bluetooth communication with the construction worker terminal device to the server through LoRa communication;
Alarm Alarms and warning lights to carry out alarms;
Additionally, this worker's ID is classified as a key observation;
Hotline alarm message process running;
Construction site self-powered local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management method.
The method of claim 1,
The method of performing the hotline alarm message process defined in the construction site self-driven local area network Bluetooth-LoRa networking selective interlocking construction site smart safety management system is
As a process performed when a safety accident occurs or prior detection It is a process of continuously delivering messages using a risk detection device as a relay device. A method for transmitting and receiving messages in a grid manner by specifying the values for which alarms must be delivered in the message protocol.
in paragraph 1
Construction site self-driving local area network Bluetooth-LoRa networking Selective interlocking construction site LoRa network switching management method of LoRa spot relay server device in construction site smart safety management system A construction site-customized LoRa protocol domain and node management switching method that gives priority to domains within the site and then gives priority to each construction period, process process, and progress rate as the next priority.

A computer-readable recording medium in which a program for executing the method of any one of claims 1 to 6 is recorded.

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