KR101910364B1 - An industrial safety menagemnt service system using QR code For Claasified user - Google Patents

Abstract

The present invention relates to an industrial safety control service system using a QR code for each use level that enables users of various groups to use and manage services more easily by subdividing the use of the QR code in order to control industrial safety facilities , Which is divided into a plurality of layers, gas equipment and fire fighting equipment constituting each floor of the building, mechanical equipment, electric equipment, renewable equipment, A QR code attached to a gas facility and a fire-fighting facility, including a facility and a renewable facility, to be inspected through a scan with a pre-certified smartphone, and a QR code attached to each floor, Security administrators scan by smart phone, integrated safety index, DB analysis, location based, user QR code that can be set up and QR code that is attached to the entrance of the building and scanned by smart phone of large manager, safety manager and general person to check condition of safety index through calculation of integrated safety index of building unit And a management server for storing the checked item through the lower control QR code and calculating and providing an integrated safety index through analysis.

Description

An industrial safety control service system using a QR code for each use level (QR code for Claasified user)

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an industrial safety control service system, and more particularly, to an industrial safety control service system using a QR code for each use level so that various groups of users can use the service more easily.

Generally, when an industrial automation system such as an air conditioner system, an electric power distribution board system, a lighting control system, or a material management system of a large facility is to be constructed, a corresponding management program is installed and constructed on a computer to be ordinarily constructed.

Therefore, it is not possible to construct the facility system outside the computer network locally, and it was only possible to run on the Windows platform. Therefore, the Windows operating system was insecure and responded to errors that might occur.

In addition, in the case of an existing application program, it is difficult to execute or inquire the established program other than the installed computer.

In recent years, there has been a need to develop all of the application software on the Internet based on the development of the Internet and to develop software compatible with information. In addition, development of software that can be run on other platforms shortens the development cost and time in terms of reusing the program, so the user is requested to the side.

The industrial safety control system currently installed and operated in the field is adversely affecting society in large and small due to various ripple phenomena in case of an accident. To prevent such accidents in advance, the price of industrial safety control system installed in industrial facilities, communication System construction cost and so on, it is mainly applied only to the equipment where a large ripple phenomenon occurs in case of an accident.

Although the safety manager is installed at every site to prevent accidents in advance, it has been carried out to manage the history of abnormality as a record through the inspection of the eyes of the field safety managers. However, since it is difficult to connect with a large manager (owner) The reliability of management progress was low and the A / S connection was not easy, so it was difficult for the on-site safety managers to perform the A / S processing quickly.

In other words, in the environment where all the tasks are entrusted to the safety managers, the responsibility points of the safety managers are inevitably high, and accordingly, there is no connection between the large managers and the manufacturers, The worse situation is the current safety management service environment.

(Patent Document 1) Patent Registration No. 10-1036582 (May 24, 2011)

(Patent Document 2) Published Patent Application No. 10-2010-0109784 (Oct. 11, 2010)

The present invention has been devised in order to solve the above-mentioned problems, and it is an object of the present invention to provide a system and method for use of a QR code, And to provide an industrial safety control service system using a QR code for each layer.

According to an aspect of the present invention, there is provided an industrial safety control service system using a QR code for each use level, comprising: a building divided into a plurality of layers; gas facilities and fire- , Which is attached to the gas equipment and the fire fighting equipment including the mechanical equipment, the electric equipment, the renewable equipment and the mechanical equipment, the electric equipment, and the renewable equipment, QR code for lower control, QR code for mid-level control which can be integrated security index, DB analysis, location based, user setting for each facility by being scanned to smart phone of large manager or safety manager attached to each floor of building, And is attached to the entrance of the building and scanned to a smart phone of a large manager, a safety manager, and a general person, An upper management QR code for confirming the condition of the safety index through the index calculation and a management server for storing the item checked through the lower control QR code and calculating and providing the comprehensive safety index through analysis do.

The industrial safety control service system using the QR code for each use level according to the embodiment of the present invention has the following effects.

In other words, by subdividing the use of QR codes by usage level to control industrial safety facilities, various groups of users can more easily use and manage the service.

1 is a conceptual diagram schematically showing an industrial safety control service system using a QR code according to a usage level according to the present invention
Fig. 2 is a diagram for explaining the relationship of each control QR code in Fig. 1
3 is a view for explaining safety management using a subordinate QR code in an industrial safety control service system according to the present invention;
4 is a flow chart for explaining the operation of the industrial safety control service system according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. The following examples are intended to illustrate the present invention and should not be construed as limiting the scope of the present invention. Accordingly, equivalent inventions performing the same functions as the present invention are also within the scope of the present invention.

In the following description, the same reference numerals denote the same components, and unnecessary redundant explanations and descriptions of known technologies will be omitted.

FIG. 1 is a conceptual diagram schematically illustrating an industrial safety control service system using a QR code for each use level according to the present invention.

As shown in FIG. 1, an industrial safety control service system using a QR code according to a usage level according to the present invention includes a building 100 divided into a plurality of layers, a gas facility A fire extinguishing system 120 and a fire extinguishing system 120. The fire extinguisher 120 is installed in one side of the building 100 and includes a mechanical device 130, And the gas equipment 110 and the fire fighting equipment 120 including the elevator 160, the hardware 130, the electrical equipment 140, and the renewal facility 150, A lower control QR code 170 which is attached to a smart phone to be inspected through a scan with a smartphone authenticated in advance and a smart phone of a large manager (owner) and a safety manager attached to each floor of the building 100, Integrated safety index for each facility, DB analysis, location based, user setting A QR code 180 and a safety index which are attached to the entrance of the building 100 and are scanned by a large manager (owner), a safety manager, And a management server 200 for storing an item checked through the lower control QR code 170 and calculating and providing an integrated safety index through analysis.

Here, the lower control QR code 170 is attached to major components of all facilities throughout the industry, and is used for the purpose of checking and managing the safety managers. For example, in the case of the power distribution panel of the electrical equipment 140, the safety manager may be attached to the transformer, VCB, ACB, and digital measuring instrument, which are major components in the facility, so that the safety manager can perform the daily (daily), periodic (or weekly) Used for inspection.

The safety manager scans the lower-level QR code 170 with a pre-authenticated smartphone at regular intervals, and performs inspection and history management of major components together with the corresponding facility. That is, when the lower control QR code 170 attached to the facility and the main parts is scanned by a smartphone carried by the safety manager, the screen of the smartphone displays an inspection item for the facility and major components.

At this time, when the security manager inputs and stores the maintenance items displayed on the portable smart phone, the data transmitted to the management server 200 and transmitted are DBed in time order, An integrated management indicator is generated.

The mid-level QR code 180 is attached to a floor, an electric room, or an entrance of a machine room, and can be connected to a general manager and a safety manager by a smart phone that has been previously authenticated, The integrated management will be implemented.

That is, when the inspection items of the electric equipment (140) of the switchboard, the distribution panel, and the motor control panel are displayed on the screen of the smartphone carried by the personal manager or the safety manager, the safety manager has a history management and comprehensive management index Is displayed.

Meanwhile, the mid-level QR code 180 integrates the history information of the switchboard, the distribution board, and the motor control panel, which are checked through the lower-level QR code 170, into one electric group so that they can be represented as one category.

In addition, the mid-level QR code 180 calculates the integrated safety index for each facility group and provides various integrated functions. Typically, the centralized QR code 180 receives DB-based data through the lower-level QR code 170, DB operation, location-based service function, inter-site linking function (information connection and reception), and data editing function are displayed on the screen of the smartphone.

The upper controller QR code 190 scans through the smart phone to calculate an integrated safety index for all the facility groups including the elevator 160 installed in the building 100 and calculates the integrated safety index All services can be viewed.

That is, the upper management QR code 190 calculates an integrated safety index for a building unit including facilities in all fields, and is attached to the entrance of the building so that anyone can easily access the integrated safety index. In this case, it is possible to construct a more economical and effective safety net service as a disaster prevention system of a building unit.

The upper management QR code 190 is divided into two types. The upper management QR code 190 is scanned through an authenticated smart phone and a general smartphone that is not authenticated, The authenticated smartphone can confirm the integrated safety index as well as the data stored in the management server 200 as a whole.

The mechanical equipment 130 includes a pump for supplying hot water and cold water through a supply pipe, a valve for opening and closing a supply pipe for supplying hot water and cold water, an ounce generating boiler, an air conditioner, and an ice water heater.

The electrical equipment 140 includes a transformer, an electric distribution board, a distribution board, a motor control panel, and the renewable facility 150 includes geothermal heat, solar heat, and ESS.

The building 100 includes a heat source facility and a communication facility as well as a hardware 130, an electrical facility 140 and a renewable facility 150 and scans each of the QR codes 170, 180 and 190 By monitoring and managing various facilities, it is possible to reduce the energy and manpower and to improve management efficiency.

The building 100 includes a house, an apartment, a shopping mall, a hotel, a hospital, a factory, a building, and a sports center.

Fig. 2 is a diagram for explaining the relationship of each control QR code of Fig. 1. Fig.

2, one upper QR code 190 is interlocked with a plurality of midrange QR codes 180, and the one midrange QR code 180 includes a plurality of lower control QR codes 180 170, respectively.

The lower control QR code 170 is attached to major components of each facility and is scanned using a smartphone previously authenticated by the safety manager and checked or input a check item displayed on the screen of the smartphone for each part The items checked by time and date are stored in the external management server 200 through the communication of the smartphone.

The upper management QR code 190 is attached to the entrance of the building 100 to calculate the integrated safety index of the building unit to calculate safety index conditions for all groups such as electric safety, fire safety, gas safety, elevator safety, You can check it by scanning it with your phone.

FIG. 3 is a diagram for explaining safety management using a lower control QR code in the industrial safety control service system according to the present invention.

3 includes a lower control QR code 170 attached to one side of the transformer 141 and a safety manager smartphone 210 scanning the lower control QR code 170. [

Here, the lower control QR code 170 is attached to major components of various facilities. In the embodiment of the present invention, the description of the transformer 141 as one example to explain the history management will be described.

In general, the general QR code is a concept that guides a user to access the service by guiding a URL during a scan using a smart phone, or enables login through an authentication procedure. However, the lower control QR code 170 according to the present invention, Is scanned using a smartphone, and after selecting a routine check or periodic inspection that is displayed on the screen after the service is connected, the QR code scan mode is immediately switched to when the products are listed and the products requiring inspection are selected.

At this time, when the lower control QR code 170 attached to the transformer 141 is scanned, a question item for inspection is displayed and the safety manager selects or inquires the corresponding question items.

For example, when the lower control QR code 170 is scanned by the smartphone 210 carried by the safety manager, the screen of the smartphone displays the words "daily check items of the transformer" YES / NO "," 2. Are there any strange sounds or smells? YES / NO "," 3. Are there any oil leaks from packing and welded parts? YES / NO "," 4. YES / NO ", check the corresponding items while checking the safety manager according to each item.

Then, when the safety manager completes the check and input and presses the storage button, a signal indicating that the inspection is completed is transmitted to the management server 200. The management server 200 diagnoses the transformer 141 based on the information, (Owner) and the manufacturer side.

This service method creates a more reliable DB by creating item rules so that the safety manager can not answer any questions at will. In other words, the safety managers can selectively perform only those products that they think are necessary, but the sub-control QR code 170 must be scanned, but the inspection questions are displayed so that the parties can perform more active safety management tasks have.

4 is a flowchart illustrating an operation of the industrial safety control service system according to the present invention.

As shown in FIG. 4, an editable splash corresponding to an application program requested to be executed in the smartphone 110 is configured. At this time, a mobile dedicated application is installed in the smartphone and a splash is formed by executing the mobile exclusive application.

Then, according to the splash configuration, the user's customer information is input and the user agrees to the terms and conditions. At this time, customer information including name, address, and user name including mobile phone number, and agree with the overall terms and conditions.

Meanwhile, in order to agree to the terms and conditions, an authentication number is requested through the input mobile phone number, and an authentication number is input to the user through a final agreement.

Here, the user selection is broadly classified into a safety manager, an owner, and a manufacturer.

When a general user who has not passed the above use conditions scans the QR code of any of the sub-control QR code 170, the mid-level control QR code 180 and the superior control QR code 190 using the smartphone, The general result, the group result, and the individual result are displayed on the smartphone screen of the general user, and a comment and suggestion window is displayed.

Herein, the opinions and suggestion windows are intended for general users to present abnormalities or other opinions on the respective facilities and major parts, which are not confirmed by the safety manager through periodic inspection, And sends the data to the management server 200. The management server 200 transmits the data to the management server 200. [

At this time, when the general user registers the phone number of the portable smartphone together when the general user registers the opinion and the proposal, the management server stores the phone number of the portable smartphone and provides a predetermined point to the general user.

Therefore, it is possible to construct a DB for each facility and major parts by inducing the general user to check the parts not inspected by the safety manager, and the management server analyzes the information based on the information inputted by the general user, If it is determined that there is an abnormality, the safety manager can be promptly notified and the safety manager can be checked so that the accident can be prevented in advance.

In addition, since the general user can generate a certain amount of revenue by receiving a certain amount of points, more people can perform the task of the safety manager because they are interested in the facilities and buildings with the QR code.

On the other hand, when the QR code is scanned using the smart phone carried by the certified safety manager together with the agreement of the usage rule, the scanned upper QR code is verified to be a normally configured QR code. At this time, not only the upper control QR code but also the middle control QR code and the lower control QR code are encrypted and installed to prevent duplication of each QR code.

In addition, since each QR code has a unique code number, when the QR code is scanned, the code number for the QR code scanned to the management server is automatically transmitted. Here, the unique code number is a unique serial number provided to the manufacturer. For example, a code number such as X (1) -X (2) -X (3) -X (4) (1) is a number for verifying the M2M QR code, X (2) is a number for identifying whether the QR code is the upper, middle or lower control QR code, and X (3) And X (4) represents the serial number of each QR code.

Here, the encryption of each of the QR codes performs an additional encryption algorithm to provide a more secure service to the industrial safety control service. Since the QR code given in the serial number format provided by the manufacturer is changed to the double encryption method through such an encryption algorithm, it is impossible to know what the content of the corresponding QR code means at all, thereby preventing duplication and service leakage of the QR code in advance can do.

The encryption algorithm performs encryption through an Advanced Encryption Standard (AES) algorithm. The AES algorithm doubly encrypts a QR code manufacture serial number with a total of about 20 digits.

For example, in the case of electrical equipment, when a manufacturing serial number is generated as in "M2M-A-EL-00000000015", it is written as "x3HrSo202gzDindGF + G9p9S / OqIBerWqe / QeaJEbDQo = e" Code.

Checking whether the smartphone scanned with the overhead QR code is convenient for the administrator, inquiring the QR code with the unique number assigned to each QR code, analyzing each QR code, Display on the screen.

The display on the smartphone selects an item to be checked, checks the corresponding part, and inputs the item to be checked. At this time, when the check item is registered, the created contents are transmitted to the management server, and the smart phone confirms whether the information transmitted to the management server has been transmitted normally through a response.

In addition, the content of the processing is displayed on the screen of the smart phone so that the contents processed by the management server can be confirmed. When there is an additional work, the safety manager registers the work through the work and finishes the inspection.

In addition, when the safety manager scans one of the subordinate QR codes, the midrange QR codes, and the superior QR codes for inquiry in order to check the results stored in the management server through the smartphone, the M2M QR code Verification, and transmits the QR code to the management server to confirm that the manager is correct.

Then, the QR code is inquired with the unique number, and the scan information is stored in the DB to inquire the service application details. Then, the comprehensive analysis, the group analysis, and the individual check contents stored in the management server 200 are selected and confirmed.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Will be apparent to those of ordinary skill in the art.

100: Building 110: Gas facility
120: Fire fighting equipment 130: Mechanical equipment
140: Electrical equipment 150: Renewable equipment
160: Elevator 170: Lower control QR code
180: Lieutenant control QR code 190: High control QR code
200: management server 210: smart phone

Claims (8)

A multi-storey building,
A gas facility and a fire-fighting facility constituting each floor of the building,
Electrical equipment, new and renewable equipment,
A sub-control QR code attached to the gas facility and the fire-fighting equipment including the above-mentioned mechanical equipment, electric equipment, and renewable equipment and checked by a scan with a pre-certified smartphone,
It is attached to each floor of the building or the entrance of the electric room and the machine room, scanned by smart phones of large administrators and safety managers, and integrated safety index, DB analysis, location based, user configurable QR code,
An upper control QR code which is attached to the entrance of the building and scanned with a smart phone of a large manager, a safety manager, and a general person to check the condition of the safety index through calculation of the integrated safety index of the building unit,
And a management server for storing the checked item through the lower control QR code and calculating and providing an integrated safety index through analysis,
When the lower control QR code is scanned, a question item about parts of each facility is displayed on the corresponding smartphone. When the question item is clicked and inputted, it is transmitted to the management server and DB is formed in chronological order, Is generated by using the QR code for each usage layer. The industrial safety control service system according to claim 1, wherein the lower, middle, and higher control QR codes are encryption algorithms. The industrial safety control service system according to claim 2, wherein the encryption algorithm is an AES algorithm. The industrial safety control service system according to claim 1, wherein an opinion / suggestion window is displayed together with the total safety index when one of the lower, middle, and higher control QR codes is scanned with the smartphone of the general person. 5. The industrial safety control service system according to claim 4, wherein the management server provides a point of a predetermined amount to the smartphone when a comment and a suggestion are input to the opinion / suggestion window. The method according to claim 1, further comprising the step of providing a user setting function capable of performing DB analysis, DB diagramming, location based service, interlinking of other institution sites, and data editing to the smartphone when the mid-level QR code is scanned Industrial safety control service system using QR code. delete The industrial safety control service system according to claim 1, wherein when the higher-level QR code is scanned, the service status and information of the lower category can be browsed according to the authentication authority of the corresponding smart phone.

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