KR20130088341A - Safety education information system - Google Patents

Abstract

PURPOSE: An on-site customized safety education information system using an online-based kiosk is provided to build an efficient and systematic training content and customized information system. CONSTITUTION: A kiosk system (100) is installed in each construction field, and a worker receives a safety education itself. A kiosk management server (300) updates and supplies various information to the kiosk system through a communication network (200) in real time. The kiosk management server selectively provides safety education data in response to a request and updates new data and contents automatically when the kiosk is activated. [Reference numerals] (100) Kiosk system; (200) Communications network; (300) Kiosk management server

Description

On-site customized safety education information system using online based kiosk {SAFETY EDUCATION INFORMATION SYSTEM}

The present invention relates to a construction safety program and construction site information guidance system using a kiosk at a construction site, and more specifically, to add a Korean and foreign language translation service to an on-site customized educational information system in a package form including overall management software and contents. Therefore, it is about on-site customized safety education information system using online based kiosk that can provide safety education service to domestic workers and foreign workers on site easily and conveniently, and can be used for basic safety education of safety managers.

As is well known, construction sites are always exposed to various conditions that can cause workers to suffer industrial accidents such as death or injury due to safety accidents due to the environment around the workers or carelessness of the workers. Serious consequences are accompanied by loss of labor and loss of workforce on the construction site.

In addition, the cause of serious accidents in the construction site is that the worker's awareness of safety accidents is an important factor, considering that accidents caused by inadvertent actions of workers are represented in more than 70% of the total. However, there are various risks and environments on the construction site, but workers are in a poor environment to detect all these risks.

On the other hand, in order to prevent such safety accidents, whether it is compulsory or educational safety education, both formal aspects are strong and do not show the effect of education in reality. There are many reasons for this, including unilateral time schedules, time constraints on inviting instructors, burden of education expenses, inconveniences from on-site visits, and limited sources.

At the workplace, employers are obliged to provide and train programs on safety education. To this end, training instructors are usually invited, which means that the cost and time loss are large, and the time schedule can not be taken in consideration of the conditions of workers working directly at the workplace.

In addition, the construction structure, method, and system for systematically managing the safety experience training site are very poor, and most trainees (domestic workers or foreign workers) only form formal education. It is emerging as a problem directly connected to the problem. In particular, in Korea, safety education is in its infancy and the establishment of education contents that are needed for actual education and the education operation system are inadequate.

In addition, the conventional type of safety education lacked systematic and efficient education at the construction site, and the target of safety education was provided only by the convenience of the manager at the construction site. In particular, safety education was lacking in the contents of education because safety education was mainly provided only by the documents prepared by safety managers in the field and data preparation on safety education.

[Patent 1] Publication No. 10-2009-0089142 (Invention name: Construction site safety management system. Publication date: August 21, 2009) [Document 2] Registered Patent Publication No. 10-0928028 (Invention name: Construction site safety management method. Publication date: January 07, 2009) [Document 3] Registered Patent Publication No. 10-0740144 (Invention name: Construction site safety management system using RFID tag hard hat. Publication date: December 05, 2006) [Document 4] Registered Patent Publication No. 10-0616333 (Invention: Construction Safety Education Experience System. Publication Date: August 10, 2006) [Reference Document 5] Registered Utility Model Publication No. 20-0227453 (Designation: Safety Experience Education System for Construction Sites. Date: June 15, 2001) [Document 6] Registered Patent Publication No. 10-0966892 (Invention name: Safety management device of construction site using RFID. Announcement date: June 30, 2010)

The present invention solves the above problems and utilizes the safety education information system utilizing the online-based kiosk form that can be faithful to the contents of safety education. The purpose is to provide a site-specific safety education information system using a kiosk based infrastructure.

In addition, the present invention is a system for providing application software services related to construction safety education as a textbook for basic safety education of workers and managers in the construction site, 3D simulation, laws, education-related images, equipment status, workers' personal information, The purpose is to provide on-site customized safety education information system using on-line kiosk consisting of on-site notification information board.

Another object of the present invention is to provide an online-based system that can utilize safety education in accordance with the mandatory safety education of workers and safety managers, and can also perform construction safety education information more efficiently. It is to provide customized safety education information system on site using kiosk.

The present invention is installed in various construction sites and kiosk system for allowing workers to do safety education by themselves, and the kiosk management server is connected to the kiosk system and a network communication network, and transmits the safety education-related information required by the construction site Characterized in that consisting of.

In addition, the kiosk system is characterized in that the input unit for inputting the safety training information that the worker wants to obtain, the input and output of the kiosk system to control the input and output according to the command through the relevant safety training related information transmitted from the input unit A control unit for outputting information, a camera unit for authenticating the image information of the workers and autonomous training by the worker using the kiosk, and personal information registered when hiring a worker An RFID reader or fingerprint recognition unit for authenticating information, a printer unit that allows workers to print and utilize important documents or individual education contents in the field during safety training, and a predetermined sequence based on data input from the input unit. An output unit for displaying a result processed according to the A data storage unit for storing various information related to safety education transmitted from the management server by category and storing a chaos operating program for providing the safety education-related contents to workers, and kiosk management through the network communication network. It characterized in that it comprises a transmission unit connected to the server.

On-site customized safety education information system using an online-based kiosk according to an embodiment of the present invention achieves many effects as follows.

Firstly, the present invention utilizes educational materials of reading type, not formal and abstract safety education, and enables workers and managers to find themselves to increase the effectiveness of safety education and management in construction sites. There is an advantage.

Second, since the present invention is a customized safety education information system rather than a collective safety education, it is possible to provide data and information of desired contents for each site, which can provide efficient safety education to workers and There is an advantage to maximize the effect of education.

Third, the present invention has an advantage that can be expected to be propagated as a customized information system for safety education, which has not been developed for safety education as an application for safety education in Korea.

Fourthly, the present invention can reduce the disasters of the construction industry and at the same time establish a solid safety of construction safety education through efficient management and update of education contents supply in a large situation. It works.

Fifthly, the present invention enables the operator to control online contents without actually visiting the construction site so that the educational contents can be used for education, and the image simulation can be used to solve various accident situations that are not pictorial 2D animations. By realizing 3D graphics for realism, there is an advantage of preventing safety accidents by giving workers a sense of alertness by giving them the feeling that they are actually in an accident scene.

1 is a view showing the configuration of a site-specific safety education information system using an online based kiosk according to an embodiment of the present invention.
FIG. 2 is a view showing a detailed configuration of the kiosk system 100 shown in FIG.
3 is a view showing a variety of safety education-related icons displayed on the touch screen of the kiosk system according to the present invention.
4A to 4E are views showing safety education related information when the 'disaster case' icon is touched among the icons displayed on the touch screen shown in FIG. 3.
5A to 5D are diagrams showing safety education related information when the 'major disaster' icon is touched among the icons displayed on the touch screen shown in FIG. 3.
6A to 6H are diagrams showing safety education related information when the 'best case' icon is touched among the icons displayed on the touch screen shown in FIG. 3.
7A to 7I are views showing safety education related information when the 'safety instructions' icon is touched among the icons displayed on the touch screen shown in FIG. 3.
8A to 8J are views showing safety education related information when the 'industrial law information' icon is touched among the icons displayed on the touch screen shown in FIG. 3.
9A to 9F illustrate safety education related information when the 'FUN TOUCH' icon is touched among the icons displayed on the touch screen illustrated in FIG. 3.
10A and 10B are diagrams illustrating safety education related information when the 'site notification board' icon is touched among the icons displayed on the touch screen illustrated in FIG. 3.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments which may be presented by the present invention are replaced by descriptions in the constitution of the present invention.

In the present invention, beyond the uniform and passive construction safety education environment, it is naturally assimilated to the construction safety education environment by inducing safety education and direct use through kiosk terminals containing various educational contents. We will implement a site-specific safety education information system using an online based kiosk.

In addition, in the present invention, the kiosk system can be expanded and distributed to set up the educational environment at the construction site, and it can be used directly by the workers by using the information that they want and can be used at any time by themselves. Through various disaster cases, we provide on-site customized safety education information system using online-based kiosks that can raise awareness of employees and workers about the accidents at construction sites.

To this end, the configuration of the kiosk system should be specifically disclosed. Preferably, the kiosk system and the large items consisting of an input unit, an output unit, a camera unit, a fingerprint recognition unit, an RFID reader, a printer unit, a storage unit, a display unit, a control unit, Content consisting of small items, details, etc. should be systematically disclosed. In addition, a detailed plan for providing on-site customized content in a package form consisting of photographic and video simulations and other information to be displayed online should be disclosed. In other words, a method for implementing a safety education kiosk system that provides a video simulation consisting of contents for safety education at a construction site and a method of providing customized contents online should be specifically disclosed.

In particular, the present invention implements an interactive online safety education information system using a kiosk, specifically checking the workers' industrial safety training time, as well as checking the commute of the workers.

That is, in the kiosk of the present invention, iris recognition, advisory recognition, touch screen, voice or educator serial number, etc. may be implemented to store the information of educators and workers, and to recognize the workers and educators. In addition, the steps of bringing workers' information to the kiosk, showing safety education on a 3D or display screen, judging the level of achievement of the workers about the contents of the query, and when the level of achievement of the workers reaches a certain level, it moves to the next content. Can be composed of the following steps: storing the achievement level of workers, identifying and supplementing the content to be supplemented using the stored achievement level. In order to implement such a step, a kiosk system including an input unit, an output unit, a camera unit, a fingerprint recognition unit, an RFID reader, a printer unit, a storage unit, a display unit, a control unit, and the like is required.

Such a safety education information system using the kiosk of the present invention is easy to grasp the attendance and achievement level of the workers, and also easy to grasp the complementary content, and can call the information desired by the workers to train the network, Through this, education can be conducted in several workplaces at the same time, thereby increasing utilization.

In addition, the present invention is to implement a method for automatic content extraction and generation of online safety education information system using a kiosk.

That is, the step of storing the keywords (eg, construction, accident, disaster, etc.) of the safety education content, Internet Internet browser (ie, kiosk management server) every certain period (for example, a week or month) Meta-searching the news related to the stored keywords, categorizing the searched news by keyword, storing all the classified news in the database, feeding back the workers about the contents of the news over a certain number of times, etc. We present on-site customized safety education information system using online based kiosk. Since the safety education information system automatically extracts the contents related to safety education and feeds them back to the workers, there is an effect that the workers do not have to find such contents.

And, in the present invention can implement a site safety system using the above-mentioned kiosk, specifically the step of inputting the construction schedule and construction stage, such as a certain period, to classify the construction progressors to fit the construction schedule and wear clothes, The steps of storing the matters to be noted, training the wearers, precautions, etc. to the classified construction workers before the start of construction, identifying the degree of delivery using the kiosk, and the degree of delivery of the education does not reach a certain level. If not, the system consists of the steps of re-education, and if it exceeds a certain level, bi-directionally checking the wearer's wearing clothes according to the order of wearing.

In addition, the present invention can implement a worker's attendance and autonomous safety learning system using a kiosk.

In other words, if a worker learns safety education through a kiosk, he / she checks the worker's information through RFID reader and fingerprint recognition to recognize the worker's condition in order to make regular safety education time substitution effect according to the company's necessity. It is programmed to accumulate in time and also allows workers to directly register their own information in the field so that they can register and authenticate their own information in the kiosk management server.

To do this, as shown above, an input unit consisting of a touch screen, a keyboard and a USB, a camera unit for photographing a worker's face, an RFID reader for checking a worker's commute card, a fingerprint reader for recognizing a worker's fingerprint, a kiosk screen, The present invention provides a kiosk system including an output unit including a speaker and a printer unit, and a site-specific safety education information system using the kiosk.

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

1 is a view showing the configuration of on-site and customized safety education information system using an online based kiosk according to an embodiment of the present invention. Safety education information system of the present invention is configured to move to the next step by touching each application on the touch screen on the application program installed by the remote control of the online, the back function is configured to return to the previous step In addition, the home function is a function of selecting a different menu from the menu of the first page, so that the contents can be viewed in a simple touch form instead of a few repetitive touches.

In addition, the operating environment of the safety education information system according to the present invention is operated based on a desktop-based window operating system, the operating system using a mobile can be operated on a Mac-based OS and Android-based, It features an application platform that is easy to operate and maintain.

Referring to FIG. 1, a site-specific safety education information system using a kiosk according to the present invention includes a plurality of kiosk systems 100 installed at each construction site so that workers can perform safety education by themselves. Kiosk system 100 of the various information (for example, various accidents, industrial law information, major accidents, best practices and safety guidelines, games containing safety education, video material containing the risk of accidents) It includes a kiosk management server 300 for supplying a site notification board) through the network communication network (200). In this case, the kiosk management server 300 may transmit the above-mentioned various information data in real time, or may be updated with a predetermined period. In addition, the kiosk management server 300 may selectively provide safety training data required by the client, and when the kiosk 100 is activated with new data and content, the updated contents may be automatically updated.

Meanwhile, in the kiosk system 100 of the present invention disposed at various construction sites, as shown in FIG. 2, at least one safety education-related content is classified and stored by category. In addition, the kiosk system 100 has an input unit 104 consisting of a touch screen and a keyboard, a control unit 102 for controlling the kiosk system 100, a camera unit 106 for taking a picture of workers, workers have RFID reader 108 for reading a commute card, a fingerprint recognition unit 110 for recognizing workers' fingerprints, an output unit 112 consisting of a kiosk screen and a speaker, and a printer for outputting documents required by workers It comprises a unit 118, a data storage unit 114 for storing the various types of safety education information mentioned above, and a transmission unit 116 connected to the kiosk management server 300 through the network communication network 200 do.

The input unit 104 is a means for inputting information that the worker wants to obtain (ie, safety education information selected by the worker), and includes a touch screen, a keyboard, and a USB. When the user touches the text or picture information displayed on the screen (screen) with the fingertips to obtain safety education information, the touch screen detects what the worker has selected according to the position of the touched screen and controls the corresponding command. Send to 102. In this case, the touch screen and the kiosk screen of the output unit 112 to be described later may use an LCD or a CRT monitor, and display necessary information and receive a selection of workers by a touch method.

In addition, the keyboard of the input unit 104 performs the same function as the keyboard used in a typical PC, the USB is to perform a function that allows the operator to enter the safety training information using a separate input medium. For example, a mouse can be connected and used.

At this time, the touch screen constituting the input unit 104 is configured to configure the information on the safety education, preferably, the above-mentioned various accident cases, industrial law information, serious accidents, best practices and safety guidelines, safety education content The game, the video containing the message containing the risk of accidents, on-site notification board information to configure the touch screen to provide the safety education information required by the worker in real time.

The controller 102 controls the input / output of the kiosk system 100 and controls the operation of the application program. Specifically, the controller 102 controls the input and output of the kiosk system 100. Is transmitted to the kiosk screen of the output unit 112. In this way, safety training information that workers want to obtain is output through the screen (kiosk screen).

The camera unit 106 authenticates the image information registered in the kiosk management server 300 photographing the face of the workers, and also records the content of the workers autonomous training using the kiosk. The RFID reader 108 and the fingerprint recognition unit 110 authenticate the information registered in the fingerprint or the RFID registered personal information when hiring workers. The printer unit 118 allows the worker to print and use important documents or individual education contents in the field during the safety training, for example, by printing the equipment import procedure and safety check items when the equipment is imported.

The output unit 112 displays a result processed in a predetermined order based on the data input from the input unit 104, and includes a kiosk screen and a speaker. In this case, the kiosk screen has the same configuration as the touch screen of the input unit 104 mentioned above. In addition, the speaker is usually connected to the control unit 102 through a sound card and serves to output sound information (for example, various sounds required for safety education, etc.).

The data storage unit 114 includes information related to various safety trainings transmitted from the kiosk management server 300, specifically, various accident cases, industrial law information, serious accidents, best practices and safety guidelines, and safety education contents. Games, videos containing messages containing the risk of accidents, and on-site notice board information are classified and stored by category, and these information are translated and stored in various languages such as Korean, English, Japanese, and Chinese. In addition, the data storage unit 114 stores a kiosk operation program for providing workers with safety education-related content. In the following, the safety education related information recorded in the data storage unit 114 will be presented in detail.

As shown above, the data storage unit 114 stores seven items of applications (contents). Specifically, as shown in FIG. 3, 1) a disaster case (accident case), 2) a serious disaster, and 3 ) Best Practices, 4) Safety Instructions, 5) Industrial Legal Information, 6) FUNNY ZONE, 7) On-site Notice Board.

That is, in the above 1) disaster cases, the eight major accidents such as electric shock, fall, evangelism, collapse, fall, impulse, stenosis, disaster, and explosion are organized by type of accident, The 3D video simulation of the accident expresses the contents of the accident and suggests safety measures against the accident.

2) In the case of serious disasters, the major accidents of construction safety accidents are summarized by age, and for example, the 1990s, 2000s, and 2010s are the major accidents that have become an issue in society. To help. In addition, the educational effect can be enhanced through images and data that re-examine the date, place, and cause of each incident.

3) Best Practices and 4) Safety Instructions, Best Practices that may bring inconvenience to the construction site or increase utility at the site, Safety Guidelines and Risk Points Safety Measures according to the type of work and work type according to the use of machinery. And so forth. Here, the case studies analyze the on-site factors that need improvement through photo data of 36 cases and remove the risk factors of the construction site. In addition, the safety guideline identifies the overall flow of work in the field through the safety work standard guideline for a total of 35 work processes and understands the working situation of workers based on various photographic data on safety measures, accident points, etc. To help educate the role of supervisors, construction and safety officers by helping them, identifying hazards of disasters that can occur during each task and presenting safety measures. In addition, the field safety activities are designed to help workers compare the contents required for on-site safety, including ladders, welding, and iron works, to compare accidents before and after.

5) Industrial legal information, such as the Occupational Safety and Health Act and the Rules on Industrial Safety Standards, is organized in a table of contents for workers to find. Among them, the Industrial Safety and Health Act consists of nine chapters, and comprehensive and planned measures such as the establishment of standards for the prevention of hazards and hazards, the clarification of the responsibility system, and the promotion of autonomous activities through the Industrial Safety and Health Act It is configured to make it easy to know the legal basis. In addition, the Rules on Industrial Safety Standards define the requirements on the Industrial Safety Standards and their implementation through the Rules on Industrial Safety Standards, which consist of 10 sections. And, to prevent what may be caused by various hazards.

6) FUNY ZONE is a video containing a message containing safety education contents and a risk of an accident, and usually consists of 'FUN TOUCH' and 'FUN VIDEOS'. In the FUN TOUCH, the disaster situation related to suffocation, falling, and falling accidents is configured as a functional game environment with educational elements to induce the user to access the contents more easily. In addition, the FUN VIDEOS helps to prevent safety accidents resulting from safety insensitivity by watching 14 safety education-related video materials.

7) The on-site notice board provides site-specific safety education information. Specifically, site-specific information is provided for each site, and the management status of managers, work schedules of construction contractors and suppliers, workforce status, process and risk assessments and countermeasures for each period are organized. have. In addition, the site notification board contains various site-related news for safety such as construction sites and work processes and KOSHA18001 of each construction company which are updated regularly so that users can directly utilize them.

Finally, the transmission unit 116 is connected to the kiosk management server 300 through the network communication network 200 shown in FIG. 1 to enable the transmission of data (safety education related data) with the control unit 102. Do it. At this time, the transmission unit 116 refers to a wireless LAN card for a modem or a wireless Internet protocol for connecting to a telephone line.

Hereinafter, an operation state of a site-specific safety education information system using an online-based kiosk according to the present invention configured as described above will be described in detail with reference to FIGS. 3 to 10i.

First, as shown in Figures 1 and 2, the kiosk management server 300, the data storage unit of the kiosk system (100) installed in each construction site through the network communication network 200 safety education-related applications (contents) ( 114). In this case, the safety education-related information stored in the kiosk system 100 is stored in accordance with the client's request, and can be updated at any time, as well as modify the safety education-related information.

On the other hand, the touch screen (or kiosk screen of the output unit 112) of the input unit 104 of the kiosk system 100 installed in the industrial site, as shown in Figure 3 'disaster cases, major disasters, best practices, safety instructions , Industrial Law Information, FUNNY ZONE, Site Notice Board, KOR, ENG 'icon are displayed. In this case, the 'KOR' icon is to provide safety education related information to the kiosk system 100 in Korean, and the 'ENG' icon is to provide safety education related information in English.

Next, as shown in Figure 4a, when the worker in the industrial site touch the 'disaster case' icon, the touch screen of the kiosk system 100 as shown in Figure 4b 'electric shock accident, fall accident, falling accident, crash accident , Collapse, stenosis, evangelism and fire explosions' icons are displayed. In this case, when the worker touches the 'falling accident' icon, various types of falling accident types (for example, 10 kinds of falling accident types) are displayed as icons as illustrated in FIG. 4C. When the worker touches the icon of 'falling temporary steel structures for bridge assembly' as shown in FIG. 4C, various information on accidents of falling temporary structural steel structures for assembling bridge upper parts are shown in FIG. 4D and FIG. 4E. It is displayed through the kiosk screen at 112. That is, as shown in FIG. 4D, an accident date, an accident overview, safety measures, etc. for the temporary construction of the temporary steel structure for the bridge upper hole assembly appear, and the contents of the accident are shown in a 3D image simulation as shown in FIG. 4E.

Next, as shown in Figure 5a, when the worker touches the 'major disaster' icon of the icon displayed on the touch screen of the input unit 104 in the industrial site, as shown in Figure 5b '1. 1990s, 2. 2000s, 3. 2010s' catastrophe icons are displayed. In this case, the worker When the '1990s' icon is touched, as shown in FIG. 5C, 10 serious accidents occurring in Korea in the 1990s are displayed as icons. The worker has a '8. among the major accident icons displayed on the touch screen of FIG. When the Sampoong Department Store Collapse Accident 'icon is touched, as shown in FIG. 5D, an accident screen generated at Sampoong Department Store is displayed vividly as a video.

Next, as shown in FIG. 6A, when a worker in an industrial site touches the 'best practice' icon displayed on the touch screen of the kiosk system 100, the touch screen may display '1. Best practice, 2. Site safety activities' icon. As shown in FIG. 6C, the worker selects' 1. When the best case icon is touched, as shown in FIG. 6D, various kinds of best case icons are displayed on the touch screen. Touching the E / V opening fall warning sign icon shows an example in which the EV opening fall warning sign is correctly installed as shown in FIG. 6E.

On the other hand, as shown in Figure 6f the worker '2. When the 'site safety activity' icon is touched, the touch screen displays a comparison image icon of the site-centered safety work of various forms as shown in Figure 6g. In this case, the worker If you touch the 'System Grouping Task' icon, as shown in FIG. 6H, the correct grouping task is shown in detail in a video.

Next, as shown in FIG. 7A, when a worker in an industrial site touches the “safety instructions” icon displayed on the touch screen of the kiosk system 100, the touch screen may display '1. Important Safety Instructions, 2. Construction Safety Standard Safety Instructions' icon. At this time, as shown in Figure 7c the worker '1. Main Safety Instructions' icon, the touch screen displays various types of safety instructions (ie, high-risk work safety guide). The worker has a '29. Among icons displayed on the touch screen as shown in FIG. When the 'rebar construction' icon is clicked, the standard safety instructions for steel construction work (for example, work summary, process flow, management process, safety measures for each steel installation step, etc.) are displayed on the touch screen as shown in FIGS. 7E and 7F.

On the other hand, as shown in Figure 7g the worker '2. When the construction machinery standard safety instructions' icon is touched, the construction machinery standard safety instructions are organized by chapter and by clause as shown in FIGS. 7h and 7i and workers can easily and conveniently find the safety instructions materials. .

Next, when the 'industry legal information' icon is touched among the icons displayed on the touch screen of the kiosk system 100 installed at the construction site as shown in FIG. 8A, the worker looks up the touch screen as shown in FIG. 8B. Organized for easy '1. Occupational Safety and Health Act, 2, Rules on Industrial Safety Standards, and 3. Rules on Construction Machinery Safety Standards. In this case, the worker '1. When the 'Occupational Safety and Health Act' icon is touched, the occupational safety and health law is presented in detail as shown in FIGS. 8C and 8D and accordingly, workers can easily and conveniently recognize the occupational safety and health law.

In addition, as shown in FIG. 8E, an icon '2. When the 'Rules on Occupational Safety and Health Standards' icon is touched, the 'Part 1 General Regulations, Part 2 Safety Standards, Part 3 Health Standards, By-Laws, Stars' icons are displayed on the touch screen as shown in FIG. 8E. In this case, when the worker touches the 'Second Part Safety Standard' icon in FIG. 8E, as shown in FIG. 8G, the rules regarding the industrial safety standard are displayed on the touch screen for systematic and easy identification.

In addition, the worker selects' 3. When the rule on construction machinery safety standards' is touched, the touch screen has a 'Chapter 1 General, Chapter 2 Construction Equipment, Chapter 3 Common Construction Equipment, Chapter 4 Large Construction Equipment' as shown in FIG. 8I. , Bylaws, Stars "icons. At this time, when the worker touches the 'Chapter 4 Large Construction Machinery' icon, as shown in FIG. 8J, the industrial law information related to the large construction machinery is systematically displayed on the touch screen.

Next, as shown in FIG. 9A, when a worker at a construction site touches the “FUN TOUCH” icon displayed on the touch screen of the kiosk system 100, the touch screen implements safety education as a game as shown in FIG. 9B. Various types of FIELDs are displayed which are of interest, and when the 'FIELD 1' icon is touched, a screen that allows the game to play the role of outrigger installation and ladder work compliance assistant as shown in FIGS. 9C and 9F. Appears.

Next, as shown in FIG. 10A, when a worker at a construction site touches the 'site notification plate' icon among icons displayed on the touch screen of the kiosk system 100, the site displays the touch screen as shown in FIG. 10B. Displays various forms of on-site notice boards to share customized information.

On the other hand, the site-specific safety education information system using the kiosk of the present invention configured as described above is extended to the platform service to utilize as a service that the user outsourcing anytime, anywhere on-demand as a utilization method through convenient online access at home In addition, it can also provide Software as a Service (SaaS) application software as a service.

100: kiosk system 102: control unit
104: input unit 106: camera unit
108: RFID reader 110: fingerprint recognition unit
112: output unit 114: data storage unit
116: transmission unit 200: network communication network
300: kiosk management server

Claims (3)

In the safety education information system that can provide safety education to workers at construction sites,
A kiosk system installed at the construction site and allowing workers to do safety education themselves;
Connected via the kiosk system 100 and the network communication network 200, the site customized using the kiosk management server 300, characterized in that consisting of a kiosk management server 300 for transmitting the safety education-related information required by the construction site Safety Education Information System.
According to claim 1, The kiosk system 100,
An input unit 104 for inputting safety education information to be obtained by the worker;
A control unit (102) for controlling input / output of the kiosk system (100) and outputting information according to the command through corresponding safety education related information transmitted from the input unit (104);
An output unit 112 for displaying a result of processing according to a predetermined order based on the data input from the input unit 104;
A data storage unit 114 that stores information related to various safety trainings transmitted from the kiosk management server 300 by categories, and stores a chaos operating program for providing the safety training-related contents to workers; ;
On-site customized safety education information system using an online based kiosk, characterized in that it comprises a transmission unit 116 connected to the kiosk management server 300 through the network communication network (200).
The method of claim 2,
A camera unit 106 for authenticating the image information of the workers, and for capturing autonomous training contents by using the kiosk 100;
An RFID reader 108 or a fingerprint recognition unit 110 for authenticating registered information with a fingerprint or RFID when hiring a worker;
The on-site customized safety education information system using an online-based kiosk, characterized in that it further comprises a printer unit 118 to enable workers to print and use important documents or individual training content during the safety training.

Images