KR100740144B1 - System of safety supervision using hard hat attached rfid tag on-the-job construction - Google Patents

Abstract

The present invention is a construction site safety management system using an RFID tag with a RFID tag attached to the RFID tag, the location information and transmission data related to the field work from the RFID tag to the remote management inquiry terminal wirelessly, the work site location of multiple workers RFID to detect the time and work status through a remote management server to wirelessly transmit the worker's unique ID code and working status information at a specific frequency, and is attached to drive the sensor at a predetermined position of the helmet. Tags; A repeater which reads the ID code received from the RFID tag and the work state information wirelessly and combines the work state information in correspondence with previously stored position information; A concentrator for wirelessly receiving the business state information read and coupled from the plurality of repeaters; A management server configured to receive the work state information of the worker transmitted to the concentrator, extract data required by the manager, and execute the manager's application program; A database server for storing and extracting business state information transmitted to the management server; It relates to a construction site safety management system using a RFID-tagged hard hat characterized in that it further comprises a remote management query terminal for outputting the application program performed by the management server on the screen via the Internet.

RFID Tag, Hard Hat, USN, Sensor

Description

Construction site safety management system using RDF tag with helmet {SYSTEM OF SAFETY SUPERVISION USING HARD HAT ATTACHED RFID TAG ON-THE-JOB CONSTRUCTION}

1 is a block diagram showing the overall configuration of a conventional construction site labor management system,

FIG. 2 is a circuit block diagram of an RFID tag attached to a hard hat of a construction site safety management system using the RFID tag hard hat of the present invention. FIG.

3 is a view showing a helmet with an RFID tag attached,

4 is an overall configuration diagram of a construction site safety management system using an RF tag helmet of the present invention.

* Description of the main parts of the drawings *

10: hard hat 11: fastening belt

12: elastic locking device 13: button cover

100: RFID tag 111: Start button

112: end button 113: emergency button

114: status input unit 115: MCU

116: CPU 117: RF communication module

118: power supply unit 119: wearing sensor

120: moving sensor 121: timer

200: repeater 210: concentrator

300: management server 310: DB server

400: remote management inquiry terminal 500: Internet network

The present invention relates to a system for managing the safety of workers at a construction site, and in particular, to secure the real-time and accurate placement of the work arrangement distribution and time and attendance management and the risk situation of the worker working at the construction site The construction site safety management system used.

In general, the construction site is far from the main office, so the management of the construction site is performed by the head office dispatch manager.

It is customary for such dispatch managers to check all the information and work conditions related to a large number of laborers and to report directly or indirectly to the head office on the progress of construction work.

As the amount of work on the construction site is enormous, the number of dispatching managers is increasing. However, the increase in the number of dispatching managers makes it difficult for the dispatching managers to accurately carry out personnel management, including the attendance of laborers. It is not enough to do the following, and it is not only time-efficient and impossible to understand, analyze and report the work progress at a glance.

As described above, the manpower and costs that construction companies bear for the management of the construction site correspond to a considerable amount, but it is insufficient to expect such management results.

Therefore, various systems have been proposed as conventional technologies for efficiently operating labor management and safety management of such construction sites.

The prior art Patent Publication No. 2002-0005066 proposed by focusing on the problems of the conventional management method is installed on each of a plurality of construction sites, the site management system for managing the laborer information of the construction site; A plurality of commute checking means installed at the construction site and receiving laborer commute information of the construction site and transmitting the same to the site management system; The present invention relates to a labor management system of a construction company including a central management system installed in the construction company, receiving commuting information of laborers from the site management system, separately storing data for each laborer, and displaying the data in a table format.

However, the prior art merely installs a site management system and a certain number of commute checking means at a plurality of construction sites one by one, and receives only the time and attendance information such as time and attendance of laborers.

In addition, the commute check means must establish a complex equipment of the card input unit, card detection unit, time information providing unit, commute confirmation means processing unit, camera control means, digital camera, output buffer and transmission unit, when laborers start or end work Since you must present your ID card, there is a risk of loss that you must have it with you at all times.

Therefore, not only time and attendance management but also the location of laborers working in the construction site, the system that can grasp the distribution and density of laborers in the construction site in real time is proposed.

Among them, the network-based laborer's location recognition method involves a worker carrying a cellular phone at the construction site and signaling his / her location by measuring the time difference of the user's signal at the base station and It is a method to recognize the location of laborers by calculating the location of the cellular phone user to perform time and attendance and safety management of the construction site.

The location recognition method of the laborer based on the handset recognizes the laborer's location by receiving GPS signals from various satellites in the handset, or by receiving a network signal or receiving and combining a GPS signal and a network signal.

However, the system method for recognizing the location of the laborer by using the base station of the GPS or mobile communication network is suitable in the outdoors, but the accuracy is very low in the indoor, underground, or shaded areas of the building, which has various limitations in use.

Furthermore, location recognition is nearly impossible due to problems such as signal attenuation and multipath.

That is, the existing user location recognition technology still has a lot of limitations in terms of accuracy and recognition speed, and even in the indoor or underground environment where GPS signals and network signals cannot be received, the above methods cannot be utilized.

Accordingly, an object of the present invention for solving the problems of the conventional construction site labor management system as described above, the information collected from the RFID tag of the laborer side is transmitted to the remote management inquiry terminal of the manager side through the management server and constructed It is to provide construction site safety management system using RFID-tagged helmet that incorporates USN technology that identifies the location of laborers in the field.

In addition, another object of the present invention is to provide a construction site safety management system using an RF tag attached to the RFID tag, and wirelessly transmits the location information and transmission data related to the field work from the RFID tag to the remote management inquiry terminal.

In addition, another object of the present invention, using the RFID tag helmet is formed on the RF module tag attached to the helmet, the start button, the end button, the operator's work status notification button of the emergency button and the sensor, the sensor of the moving sensor is formed. It is to provide a construction site safety management system.

As described above, the purpose of the construction site management system that detects the work site location of a plurality of workers by wireless to determine the attendance and work status through a remote management server, the operator's unique ID code and work status information to a specific frequency An RFID tag attached to drive the sensor at a predetermined position of the helmet so as to wirelessly transmit the data; A repeater which reads the ID code received from the RFID tag and the work state information wirelessly and combines the work state information in correspondence with previously stored position information; A concentrator for wirelessly receiving the business state information read and coupled from the plurality of repeaters; A management server configured to receive the work state information of the worker transmitted to the concentrator, extract data required by the manager, and execute the manager's application program; A database server for storing and extracting business state information transmitted to the management server; It is achieved by a construction site safety management system using a RFID tag with a hard hat characterized in that it further comprises a remote management query terminal for outputting the application program performed by the management server on the screen via the Internet.

In addition, according to the present invention, the RFID tag is a task notification button that is operated by the operator's manual operation to inform the worker's work status and emergency status; A state input unit having one side connected to the operation notification button and the detection sensor and receiving a signal detected and transmitted from the detection sensor and a button value transmitted from the operation notification button; A microchip having one side connected to the state input unit and sequentially receiving signals and button values transmitted to the state input unit; A central processing unit for inputting an operator's ID code and having one side connected to the microchip to convert a signal and a button value transmitted from the microchip into an ID code and converting the signal into transmission data; An RF communication module having one side connected to the central processing unit to wirelessly transmit transmission data transmitted from the central processing unit; A power supply unit supplying power to the central processing unit to operate a circuit; Preferably, the CPU further includes a timer that is operated by receiving command data generated by the specific signal received by the CPU.

In addition, according to the present invention, the job notification button and the start button for informing the start of the worker; End button for informing the end of the worker's work; It is preferable that the emergency button configured to inform the operator of the emergency state.

In addition, according to the present invention, the detection sensor and the wearing sensor for generating a wearing signal or a non-wearing signal to detect whether the wearer wearing the safety cap; Preferably, the moving sensor generates a motion signal or a stop signal to sense whether the wearer is working.

In addition, according to the present invention, the specific signal received by the central processing unit is a non-wearing signal generated by the wearing sensor, the central processing unit has passed the set time of the timer started by the central processing unit by the non-wearing signal Even before the non-wear signal comes to the central processing unit, it is preferable to convert the wear signal.

In addition, according to the present invention, it is preferable that the ID code records data related to each of the worker's personal information and histories, work areas, and allowances paid per hour.

In addition, according to the present invention, the hard hat is preferably formed to be aligned with the work notification button inside the groove formed in a predetermined position on the outer surface, it is preferable to further include a button cover coupled to open and close the groove.

In addition, according to the present invention, the hard hat is formed at the end of the helmet fixing belt so as not to be separated from the operator's head, the elastic locking device, the elastic locking device is attached to the wear sensor is coupled to the elastic locking device It is preferable that the wear sensor generates a wear signal or a non-wear signal depending on the presence or absence.

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

FIG. 2 is a circuit block diagram of an RFID tag attached to a hard hat of a construction site safety management system using an RFID tag hard hat of the present invention. FIG. 3 is a view showing a hard hat with an RFID tag attached thereto. Overall construction diagram of construction site safety management system using RF-tagged helmet.

First, as shown in FIG. 2, the RFID (Radio Frequency Identification) technology of the RFID tag 100 may transmit data using magnetic or electric fields without electrical contact. This eliminates the need for mechanical contact, eliminates frictional damage, minimizes contamination and environmental effects, and can pass through non-metallic materials.

In addition, it is possible to recognize the moving object moving at high speed because of the high speed recognition.

The RFID tag 100 is a device having a unique and non-replicable ID code, respectively, to distinguish between workers.

As shown in FIG. 2, the outside of the RFID tag 100 detects the start button 111, the end button 112, the state notification button of the emergency button 113, the wearing sensor 119, and the moving sensor 120. A sensor is formed, and the inside of the RFID tag 100 is configured such that the state input unit 114, the MCU 115, the CPU 116, the RF communication module 117, and the power supply unit 118 are connected in a circuit. have.

The RFID tag 100 uses a medium and long distance electromagnetic wave method and performs a wireless connection using a high frequency antenna.

The RFID tag 100 is built in the side or predetermined position of the hard hat (shown in Figure 3) that the operator must wear at the construction site, in particular switch type status notification button is formed to protrude to the outside of the hard hat In start button 111, end button 112, emergency button 113 is located on the lower side of the operator's hand can easily reach so that the operator can easily press the status notification button while wearing the helmet. It is.

The start button 111 is a button which is pressed when starting work after wearing a hard hat, and the end button 112 is a button which is pressed when the worker finishes the work while wearing a hard hat.

In addition, the emergency button 113 is a button to be pressed at the occurrence of an emergency and safety accident of the worker himself at the construction site.

The wearing sensor 119 is connected to the fixing belt (shown in FIG. 3) of the hard hat to determine whether the worker is wearing the hard hat depending on whether the fastening belt is fastened.

The wear sensor 119 when the operator does not use a hard hat, that is, by detecting the loosening of the fixing belt transmits a non-wear signal to inform the CPU 116 that the wearing state of the hard hat.

The moving sensor 120 detects the movement of a worker wearing a hard hat and transmits a stop signal and an operation signal indicating the stop and activity states to the CPU 116.

The state input unit 114 is connected to the start button 111, the end button 112, the emergency button 113 and the wearing sensor 119, the moving sensor 120, the button selected by the operator It receives the button value of and the signals of the detection sensor and serves to deliver to the MCU (115).
Here, signals for the start and end of the work, the emergency state, the presence or absence of movement, and the wearing of the work transmitted to the state input unit 114 are called work state information.

The MCU (Micro Controller Unit) 115 is connected to the state input unit 114 on one side and the CPU 116 on the other side, and manages input and output of button values and sensor information and processes the entire circuit. It serves to control.

The central processing unit (CPU) 116 stores a worker's unique ID code for identifying each worker.

The ID code stores personal information of the worker and data related to the history, the work area, and the allowances paid per hour.

In addition, the CPU 116 receives a working state signal, which is a button value of a selected button and a signal of a sensor, is received from the MCU 115 and converted into transmission data so as to be combined with an ID code and transmitted wirelessly. 117).

At this time, when the non-wear signal of the helmet wearing state is transmitted from the wearing sensor 120, the CPU 116 operates a countdown to a timer 121 connected to one side, and when the countdown operation is completed from the timer 121. If the wear signal is not transmitted to the MCU 115 until it is switched to the non-wearing signal and combined with the ID code.

The RF communication module 117 serves to wirelessly transmit the transmission data received from the CPU 116 to the repeater 200, which will be described below. The type of the communication module is Bluetooth, IEEE802.15.4 (Zigbee), P1415.5. Any one of (Wireless Sensor Interface Standard) may be selected.

The RFID tag 100 of the electromagnetic wave type is an active type including an additional battery for long distance recognition and supplies power for the operation of the RFID tag 100 from the power supply unit 118 using a conventional battery of 15V.

As shown in Figure 3, the RFID tag is attached to be embedded in one side of the helmet.

The hard hat 10 is a stabilizer that must be worn by workers in the construction site, and further includes a fixing belt 11 and the button cover (13).

The fixing belt 11 is a string member that extends from both lower ends of the helmet 10 so that the helmet 10 worn by the worker is fixed without being separated from the head.

The end of the fixing belt 11 of the both ends is attached to the elastic locking device 12 so that the helmet 10 is in close contact with the head by combining the elastic locking device 12 after wearing the hard hat 10.

At this time, the wear sensor 119 is attached to a predetermined position on the outer surface of the elastic locking device 12, and a wire for connecting the wear sensor 119 and the state input unit 114 to the fixing belt 11. It is built in.

As the light is blocked by the wearing sensor 119 in the process of coupling the elastic locking device 12 with each other, the wearing sensor 119 detects that the safety helmet 10 is worn on the head of the worker.

The button cover 13 is a cover to protect the state notification buttons and the moving sensor 120 from the external pressure.

Hereinafter, the operation principle of the RFID tag 100 attached to the hard hat through FIG. 2 and FIG.

When the worker wears the hard hat 10 in a construction site and then combines the fixing belt 11, the hard hat 10 is worn because light is blocked on the wearing sensor 119 of the RFID tag in a power supply state. The detected signal is transmitted to the state input unit 114.

In addition, when the start button 111 is selected by the operator wearing the hard hat 10, the button value of the start button 111 is transmitted to the state input unit 114.

In addition, the movement caused by the work performed by the worker wearing the hard hat 10 generates the operation signal of the moving sensor 120 and the operation signal is transmitted to the state input unit 114.

Therefore, the wearing signal, the button value, and the operation signal transmitted to the state input unit 114 are transmitted to the CPU 116 via the MCU 115.

The button value and the operation signal transmitted to the CPU 116 are converted into transmission data combined with the ID code stored in the CPU 116 and transmitted to the RF communication module 117, and the RF communication module 117 The transmission data is transmitted to the repeater (shown in FIG. 4) having a radius range to which the RFID tag 100 belongs among repeaters disposed throughout the site.

In addition, the worker's work time includes resting time, meal time, etc.As a result of active work, it takes about one to three minutes to wipe off the forehead sweat or take off the hard hat to ventilate the head. This short time can be ignored in downtime.

Therefore, even if a non-wearing signal is transmitted from the wearing sensor 119 to the CPU 116 so that it is regarded as a working time only when the fixing belt 11 of the helmet is removed and then worn again, the ID code is immediately transmitted to the ID code. The countdown driving signal is transmitted to the timer 121 without being transmitted to the RF communication module 117 in combination with.

If the wear signal is not transmitted to the CPU 116 during the countdown time, the RF communication module 117 transmits the transmission data combining the non-wearing signal transmitted to the CPU 116 with a button value and an ID code immediately after the countdown. To pass).

And if an emergency or accident occurs during the operation of the worker is to press the emergency button 113 quickly, when the button value of the emergency button is transmitted to the CPU 116 through the state input unit 114 and MCU 115 An emergency signal is generated, converted into transmission data combined with the unique ID information, transmitted to the RF communication module 117, and transmitted wirelessly.

4 is an overall configuration diagram of a construction site safety management system using an RFID tag with a helmet of the present invention.

Construction site safety management system using the RFID tag of the present invention is a system applying the USN technology, the ubiquitous sensor network (USN) technology here is attached to the RFID tag, which is an electronic tag in all the necessary places and basic objects This means that it detects and recognizes environmental information (temperature, humidity, pressure, etc.) as well as manages the information by connecting it to the network in real time.

According to an embodiment of the construction site safety management system using the RFID tag hard hat of the present invention is a systemized by applying the RFID tag of such characteristics to the facility management work, a plurality of RFID tags attached to the worker as a method for implementing this 100, a repeater 200 receiving the transmission data of the RFID tag 100, a concentrator 210 receiving the data converted from the plurality of repeaters 200, and a plurality of the concentrators 210. The management server 300 for managing the received data, the DB server for storing and reading the data of the management server 300, the remote to access a specific application operated by the management server 300 to query the predetermined information It consists of a management query terminal (400).

The RFID tag 100 is attached to a predetermined position of the hard hat that must be worn by a plurality of workers working at each construction site performed in a plurality of areas, and detects whether the worker wears the hard hat by a wearing sensor. Then, the moving sensor detects whether the worker is working.

After wearing the hard hat 10, the operator transmits the generated transmission data wirelessly to the repeater 200 in real time from pressing the start button 111 until the end button 113 is pressed.

The repeater 200 may be disposed at each construction site having a predetermined radius range at a predetermined interval, which is not limited in the present invention, but the accuracy of position recognition of the required RFID tag 100 and the communication with the repeater 200. Depending on the range, the density may be appropriately adjusted and arranged.

The repeater 200 serves as a receiver including an antenna capable of detecting a radio signal, and detects a signal of a specific frequency transmitted by the RFID tag 100 generated within an effective range and reads the reader of the repeater 200. It generates a comprehensive information of the work status information incorporating the repeater 200's own location information and the ID code of the transmission data transmitted from the RFID tag 100 and the tag through the performance control of the antenna and the reader itself. You can adjust the range of recognition.

The concentrator 210 is arranged one by one at each construction site and transmitted from all the RFID tags 100 entered within the radius range of the plurality of repeaters 200 at each construction site and converted by the repeater 200. Receives the status information and serves to deliver to the management server (300).

The management server 300 receives the ID code of the sender and the position information of the repeater 200 read from the repeater 200 through the concentrator 210, the DB managed by the management server 300 Mapping with and extracting data to determine which worker is working at which site, and executes a series of management programs that provide the information of the worker to the manager.

The DB server 310 stores the ID code of the RFID tag 100 and the location information of the repeater 200 so as to form a base environment that can be processed in association with an RFID tag ID code that is separately provided.

The remote management inquiry terminal 400 outputs a management program performed by the management server 300 on a screen to provide information required by an administrator to the management server 300 through the Internet network 500. I can connect it.

Transmission data generated in the RFID tag 100 described with reference to FIGS. 2 and 3 are wirelessly transmitted to the repeater 200 in the area range to which the RFID tag 100 belongs.

 The transmission data transmitted to the repeater 200 is converted into work state information combined with the position information of the repeater 200.

 The work state information is transmitted to the management server 300 through the concentrator 210, the work state information transmitted to the management server 300 and the data stored in the DB of the DB server 310 and It is mapped and becomes the data that the management program can run.

The analysis data output to the remote management query terminal 400 by the management program of the management server 300 is shown to the administrator in a visual screen configuration, the analysis data at this time is the detection of the RFID tag 100 Based on the information generated by the signals and number values generated by the sensor and the work status button and the position information of the repeater 200 is processed.

Therefore, the analysis data indicates the presence or absence of wearing a hard hat, the presence of work start, the presence of work, an emergency situation, the site distribution of the worker, the density, the manpower input, the work and place where the work is delayed.

As described in detail above, in the construction site safety management system using the RFID tag with the helmet of the present invention, the information collected from the RFID tag of the laborer is transmitted to the remote management inquiry terminal of the manager side through the management server so that the position of the laborer of the construction site is improved. By incorporating the identified USN technology, it enables a more efficient and macro-level work grasp of laborers who are placed on the construction site from the manager's point of view, so that they can grasp the real-time manpower input, worker distribution, and work progress at a glance. More efficient and systematic command of on-site worker management can result in reduced labor costs and construction periods.

In addition, the construction site safety management system using the RFID tag hard hat according to the present invention attaches the RFID tag to the hard hat of the laborer who performs the field work to wirelessly transmit the location information from the RFID tag to the remote management inquiry terminal. There is no hassle to attach and carry the tag, and it can minimize the influence on the work of attaching and possessing the tag device to maximize the work efficiency of the worker and to prevent accidents caused by not wearing the helmet all the time. In preparation, they will be monitored for wearing a hard hat, allowing them to work in a safer working environment.

In addition, the construction site safety management system using the RFID tag hard hat of the present invention has a worker work status notification button such as start button, end button, emergency button is formed on the RFID tag attached to the hard hat to improve the start and end time of the worker's work. Even if an emergency or building collapses and an employee is trapped, the identity and location of the worker in an emergency situation can be identified immediately, allowing for quick emergency action.

In addition, the construction site safety management system using the RFID tag hard hat of the present invention has a wear sensor, a sensor sensor of the moving sensor is formed on the RFID tag attached to the hard hat, whether or not the worker is wearing a hard hat and performing work Dozens of people are placed at each construction site, which can drastically reduce the manpower of dispatching managers who monitor workers, thus saving labor costs.

In the above description, the technical concept of the construction site safety management system using the RFID tag helmet of the present invention has been described together with the accompanying drawings, which illustrate the best embodiment of the present invention by way of example and does not limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (8)

In the construction site management system that detects the work site location of multiple workers by wireless to grasp the time and work status through a remote management server, An RFID tag attached to drive a sensor at a predetermined position of a hard hat to wirelessly transmit at a specific frequency by combining a worker's unique ID code and work status information; A repeater which reads the ID code received from the RFID tag and the work state information wirelessly and combines the work state information in correspondence with previously stored position information; A concentrator for wirelessly receiving the business state information read and coupled from the plurality of repeaters; A management server configured to receive the work state information of the worker transmitted to the concentrator, extract data required by the manager, and execute the manager's application program; A database server for storing and extracting business state information transmitted to the management server; Construction site safety management system using a RFID-tagged hard hat characterized in that it further comprises a remote management query terminal for outputting the application program performed by the management server on the screen via the Internet. The method of claim 1, The RFID tag includes a work notification button operated by a manual operation of a worker to notify a worker's work state and an emergency state; A state input unit having one side connected to the operation notification button and the detection sensor and receiving a signal detected and transmitted from the detection sensor and a button value transmitted from the operation notification button; A microchip having one side connected to the state input unit and sequentially receiving signals and button values transmitted to the state input unit; A central processing unit for inputting an operator's ID code and having one side connected to the microchip to convert a signal and a button value transmitted from the microchip into an ID code and converting the signal into transmission data; An RF communication module having one side connected to the central processing unit to wirelessly transmit transmission data transmitted from the central processing unit; A power supply unit supplying power to the central processing unit to operate a circuit; Construction site safety management system using the RFID tag hard hat, characterized in that the CPU further comprises a timer that is operated by receiving the command data generated by the specific signal received. The method of claim 2, The task notification button includes a start button for informing a worker about to start work; End button for informing the end of the worker's work; Construction site safety management system using an RFID tag with a hard hat, characterized in that the emergency button to inform the operator of the emergency state. The method of claim 2, The detection sensor includes a wearing sensor for generating a wearing signal or a non-wearing signal to detect whether the wearer wears a hard hat; Construction site safety management system using an RFID-tagged hard hat, characterized in that the moving sensor for generating a motion signal or a stop signal to detect whether the wearer is working. The method of claim 2, The specific signal received by the central processing unit is a non-wearing signal generated by the wearing sensor, and the central processing unit is sent to the central processing unit until the set time of the timer started by the central processing unit by the non-wearing signal passes. Construction site safety management system using a hard hat with an RFID tag, characterized in that even if the non-wearing signal comes to wear. The method of claim 2, The ID code is a construction site safety management system using an RFID-tagged hard hat, characterized in that the personal information and history of the worker, the work area, data related to each of the allowances paid per hour is recorded. The method of claim 1, The hard hat is a construction site using the RFID tag hard hat, characterized in that the work notification button is formed in the interior of the groove formed in a predetermined position on the outer surface, and further comprising a button cover coupled to open and close the groove. Safety management system. The method of claim 1, The helmet is formed with an elastic locking device at the end of the helmet fixing belt so as not to be separated from the head of the worker, the elastic locking device is attached to the wear sensor according to the coupling of the elastic locking device according to whether the wear sensor Construction site safety management system using an RFID tag with a hard hat, characterized in that for generating a wearing signal or a non-wearing signal.

Images