KR102062063B1 - System of collecting manufacturing facilities data and controlling the manufacturing facilities using iot communication with smart phone - Google Patents

Abstract

Disclosed are a manufacturing facility data collection and control system and method using IoT communication with a smartphone. It is installed at a certain manufacturing facility, collects data related to the manufacturing process of the installed manufacturing facility, transmits it in real time through Internet of Things (IoT) communication, and receives a control command through the IoT communication to perform a manufacturing process. A manufacturing equipment mounting terminal for controlling; Receiving data collected from the manufacturing equipment mounting terminal via IoT communication, and stores and manages the received data, and generates the control command to the manufacturing equipment manager smartphone for transmitting to the manufacturing equipment mounting terminal via IoT communication Configure. According to the manufacturing equipment data collection and control system and the method using the IoT communication with the smart phone described above, it is configured to collect and store the data of the manufacturing equipment in real time using the administrator's smartphone, and relay it to a remote server, There is an effect that can easily and easily manage the manufacturing equipment and processes without installing a separate repeater.

Description

Manufacturing equipment data collection and control system using IoT communication with smartphone and method thereof

The present invention relates to a manufacturing equipment data collection and control system and method, and more particularly, to a manufacturing equipment data collection and control system and method using IoT communication with a smart phone.

Conventional manufacturing facilities are configured to monitor and manage the manufacturing process in real time using various process data according to the manufacturing process.

Conventionally, a separate data repeater is installed for real-time collection and management of such process data and configured to relay data to a remote management server. Installing a data repeater separately requires a lot of cost and is difficult to manage. Such data repeaters must also pay close attention to security.

Accordingly, there is a need for a means for facilitating the collection of manufacturing process data and control of the manufacturing equipment, and the problem of security.

10-1736288 10-2016-0085689

An object of the present invention is to provide a manufacturing facility data collection and control system using IoT communication with a smart phone.

Another object of the present invention is to provide a method for collecting and controlling manufacturing facility data using IoT communication with a smart phone.

The manufacturing facility data collection and control system using the IoT communication with the smart phone according to the object of the present invention described above is mounted to a predetermined manufacturing facility, and collects data related to the manufacturing process of the mounted manufacturing facility A manufacturing facility-equipped terminal configured to control a manufacturing process by transmitting in real time through IoT (Internet of Things) communication and receiving a control command through the IoT communication; Receiving data collected from the manufacturing equipment mounting terminal via IoT communication, and stores and manages the received data, and generates the control command to the manufacturing equipment manager smartphone for transmitting to the manufacturing equipment mounting terminal via IoT communication It can be configured to include.

Here, the manufacturing facility manager smart phone may be configured to remotely transmit the stored data through a mobile communication network.

And it may be configured to further include a manufacturing facility remote management server for remotely receiving and storing data from the manufacturing facility manager smartphone, and remotely controlling the manufacturing facility through a remote relay of the manufacturing facility manager smartphone.

Manufacturing equipment data collection and control method using the IoT communication with the smart phone according to another object of the present invention described above, the manufacturing facility manager smart phone IoT with the manufacturing equipment equipped terminal equipped with a manufacturing facility (manufacturing facilities) Controlling a manufacturing process of the manufacturing facility through Internet of Things communication; Collecting, by the manufacturing equipment mounting terminal, data related to a manufacturing process of the manufacturing equipment; Transmitting, by the manufacturing facility mounting terminal, the collected data to the manufacturing facility manager smartphone through IoT communication; The manufacturing facility manager smartphone may be configured to include receiving and storing data via IoT communication.

Here, the manufacturing facility manager smart phone remotely transmitting the stored data to a manufacturing facility remote management server through a mobile communication network; Remotely receiving and storing data from the manufacturing facility manager smartphone by the manufacturing facility remote management server; The manufacturing facility remote management server may be further configured to remotely control the manufacturing facility through a remote relay of the manufacturing facility manager smartphone.

According to the manufacturing equipment data collection and control system and the method using the IoT communication with the smart phone described above, it is configured to collect and store the data of the manufacturing equipment in real time using the administrator's smartphone, and relay it to a remote server, There is an effect that can easily and easily manage the manufacturing equipment and processes without installing a separate repeater.

In addition, by generating an authentication key for each administrator's smartphone in accordance with the administrator's shift to be authenticated through the manufacturing facility, there is an effect that the administrator can fully secure the data through the authentication whenever the proximity to the manufacturing facility. .

1 is a block diagram of a manufacturing facility data collection and control system using IoT communication with a smart phone according to an embodiment of the present invention.
2 is a flowchart of a manufacturing facility data collection and control method using IoT communication with a smart phone according to an embodiment of the present invention.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the drawings, similar reference numerals are used for similar elements.

Terms such as first, second, A, and B may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. The term and / or includes a combination of a plurality of related items or any item of a plurality of related items.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that there is no other component in between.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

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

1 is a block diagram of a manufacturing facility data collection and control system using IoT communication with a smart phone according to an embodiment of the present invention.

Referring to FIG. 1, a manufacturing facility data collection and control system using IoT communication with a smartphone according to an embodiment of the present invention is a manufacturing facility manager smartphone 100, a manufacturing facility mounting terminal 200, and a manufacturing facility remote. It may be configured to include a management server 300.

Manufacturing equipment data collection and control system using the IoT communication with the smart phone real-time data related to the manufacturing process of the manufacturing equipment 10 through the IoT communication between the manufacturing equipment manager smartphone 200 and the manufacturing equipment mounting terminal 100 Configured to collect and store. The manufacturing facility manager smartphone 200 performs the function of one manufacturing process server as the smartphone itself without a separate data repeater or server.

In addition, the manufacturing facility manager smart phone 200 may be configured to relay data related to the manufacturing process to a remote manufacturing facility remote management server 300 through a mobile communication network.

Hereinafter, the detailed structure is demonstrated.

The manufacturing facility mounting terminal 100 is mounted at a predetermined manufacturing facility 10 and is configured to perform IoT communication with the manufacturing facility manager smartphone 200.

The manufacturing facility mounting terminal 100 collects data related to the manufacturing process of the manufacturing facility 10 and transmits in real time to the manufacturing facility manager smartphone 200 through IoT communication, and IoT communication from the manufacturing facility manager smartphone 200. The control command may be configured to control a manufacturing process by receiving a control command.

The manufacturing facility mounting terminal 100 includes an authentication key IoT reception module 101, an authentication key storage module 102, an authentication module 103, a remote control command IoT reception module 104, a remote control command execution module 105, It may be configured to include a manufacturing facility data collection module 106, a data IoT transmission module 107. Hereinafter, the detailed structure is demonstrated.

The authentication key IoT receiving module 101 may be configured to receive the authentication key from the manufacturing facility manager smartphone 200 via IoT communication. The authentication key is a means for authenticating whether the manufacturing facility manager smartphone 200 is a manufacturing facility manager's smartphone. IoT communication may be, for example, Bluetooth communication.

Here, the authentication key may be configured with an authentication key of the current manufacturing equipment manager managing the current work process time and an authentication key of the next manufacturing equipment manager managing the next work process time.

The authentication key storage module 102 may be configured to store the authentication key received from the manufacturing facility manager smartphone 200.

The authentication module 103 may be configured to authenticate the authentication key stored in the authentication key storage module 102 according to a corresponding work process time. That is, when the authentication key is received from another manufacturing facility manager smart phone 100a of the next work process in the state of receiving and storing the authentication key of the next work process time in advance, the received authentication key and authentication key storage module 102 in advance. The stored authentication key may be configured to perform authentication against each other.

The remote control command IoT receiving module 104 may be configured to receive a control command via IoT communication from the manufacturing facility manager smartphone 200. It may be configured to receive a control command after authentication.

The remote control command execution module 105 may be configured to control the manufacturing facility 10 according to the control command received at the remote control command IoT receiving module 104.

The manufacturing facility data collection module 106 may be configured to collect process data according to a process of the manufacturing facility 10 and data of the manufacturing facility 10 itself in real time. Such data may be various data such as temperature, pressure, defect rate, process rate, process time, etc. of each process of the manufacturing facility 10.

The data IoT transmission module 107 may be configured to transmit data collected by the manufacturing facility data collection module 106 to the manufacturing facility manager smartphone 200 in real time via IoT communication.

The manufacturing facility manager smartphone 200 may be configured to perform IoT communication with the manufacturing facility mounting terminal 100 as a smartphone of the manufacturing facility manager.

The manufacturing facility manager smartphone 200 may be configured to receive, store and manage data related to the manufacturing facility 10 from the manufacturing facility mounting terminal 100 through IoT communication.

In addition, the manufacturing facility manager smartphone 200 generates a control command and transmits the control command to the manufacturing facility mounting terminal 10 through IoT communication, and remotely relays the previously stored data to the manufacturing facility remote management server 300 through a mobile communication network. Can be configured to transmit.

The manufacturing facility manager smartphone 200 includes a manufacturing facility number database 201, an authentication key password database 102, an authentication key validity period setting module 203, a quality related information setting module 204, and an authentication key generation module 205. ), Authentication key encryption module 206, authentication key IoT transmission module 207, authentication key transmission module 208, authentication key reception module 209, remote control command generation module 210, remote control command IoT transmission module 211, data IoT reception module 212, data storage module 213, data remote transmission module 214, and remote control command relay module 215. Hereinafter, the detailed structure is demonstrated.

The manufacturing facility number database 201 may be configured to store a unique number for the manufacturing facility in advance for each manufacturing facility.

The authentication key password database 102 may store in advance various unique values that may constitute the authentication key. For example, various unique passwords generated from random numbers can be used.

The authentication key validity period setting module 203 may be configured to receive a validity period of the authentication key from an administrator or set it according to a predetermined validity period. The validity period may be set according to the manager's work process time mentioned above.

The quality related information setting module 204 may be configured to set the quality related information according to an input of an administrator or by using a predetermined value. The quality related information may include temperature, humidity, defect count, and the like.

The authentication key generation module 205 may be configured to generate an authentication key for each manager and a work process time. The authentication key generation module 205 extracts the manufacturing facility number of the manufacturing facility 10 from the manufacturing facility number database 201, and the predetermined key for the current working process time and the next working process time in the authentication key password database 102. It may be configured to extract a value, such as a random number password.

The authentication key generation module 205 includes a manufacturing facility number, a random number password for the current work process time of the current manager, a random number password for the next work process time of the next manager, and each set in the authentication key validity period setting module 203. It may be configured to generate an authentication key including the validity period of the work process time, the quality related information of each work process time.

The authentication key encryption module 206 may be configured to encrypt the authentication key generated by the authentication key generation module 205. In particular, the random number password for the next working time can be encrypted so that even the current administrator cannot verify it.

The authentication key IoT transmission module 207 may be configured to transmit the authentication key encrypted in the authentication key encryption module 206 to the manufacturing facility mounting terminal 100 through IoT communication. The manufacturing facility mounting terminal 100 may be configured to be connected with the manufacturing facility manager smart phone 200 after performing authentication using this authentication key.

The manufacturing equipment mounting terminal 100 is previously received from the manufacturing equipment manager smart phone 200 of the current manager, and then stores the authentication key of the manager in advance, and after the expiration of the current work process time, other manufacturing of the next manager. When the facility manager smartphone 200a comes close, it may be configured to receive an authentication key from another manufacturing facility manager smartphone 200a to perform authentication.

Thus, the continuity of the work process time can be ensured, and every time a manager is changed, authentication can be safely performed to ensure the security of data and the security of the manufacturing facility 10.

The authentication key transmission module 208 may be configured to transmit the authentication key corresponding to the work process time of the next manager to another manufacturing facility manager smartphone 200a of the next manager. The next manager stores his authentication key in another manufacturing facility manager smartphone 200a, and then approaches the manufacturing facility 10 at the next work process time. 100 may be configured to automatically perform authentication.

The authentication key receiving module 209 may be configured to receive in advance an authentication key corresponding to the work process time of the current manager from the manager before the current manager. Using this, authentication can be achieved when the current work process time is reached.

The remote control command generation module 210 may be configured to generate a remote control command of the manufacturing facility 10 according to input from an administrator or in accordance with a pre-programmed setting.

The remote control command IoT transmission module 211 may be configured to transmit the remote control command generated by the remote control command generation module 210 to the manufacturing facility mounting terminal 100 through IoT communication.

The data IoT receiving module 212 may be configured to receive data related to the manufacturing facility 10 from the manufacturing facility mounting terminal 100 in real time through IoT communication.

The data storage module 213 may be configured to store data received by the data IoT receiving module 212.

As a result, the manufacturing facility manager smart phone 200 performs a function as one server.

The data remote transmission module 214 may be configured to transmit data stored in the data storage module 213 to a manufacturing facility remote management server 300 at a remote location through a mobile communication network.

The remote control command relay module 215 may be configured to receive a remote control command from the remote manufacturing facility remote management server 300 to relay to the manufacturing facility mounting terminal 100.

The manufacturing facility remote management server 300 is configured to remotely receive and store data from the manufacturing facility manager smartphone 200, and to remotely control the manufacturing facility 10 through a remote relay of the manufacturing facility manager smartphone 200. Can be.

2 is a flowchart of a manufacturing facility data collection and control method using IoT communication with a smart phone according to an embodiment of the present invention.

Referring to FIG. 2, the manufacturing facility manager smart phone 200 is connected to a manufacturing facility equipped terminal 100 mounted at a predetermined manufacturing facility 10 through Internet of Things (IoT) communication. The manufacturing process of 10) is controlled (S101).

Next, the manufacturing facility mounting terminal 100 collects data related to the manufacturing process of the manufacturing facility 10 (S102).

Next, the manufacturing facility mounting terminal 200 transmits the collected data to the manufacturing facility manager smart phone 100 via IoT communication (S103).

Next, the manufacturing facility manager smartphone 200 receives and stores data through IoT communication (S104).

Next, the manufacturing facility manager smartphone 200 remotely transmits the stored data to the manufacturing facility remote management server 300 through the mobile communication network (S105).

Next, the manufacturing facility remote management server 300 remotely receives and stores data from the manufacturing facility manager smartphone 200 (S106).

Next, the manufacturing facility remote management server 300 remotely controls the manufacturing facility 10 through a remote relay of the production facility manager smart phone 200 (S107).

Although described with reference to the above embodiments, those skilled in the art can understand that the present invention can be variously modified and changed without departing from the spirit and scope of the invention described in the claims below. There will be.

100: manufacturing equipment mounting terminal
101: authentication key IoT receiving module
102: authentication key storage module
103: authentication module
104: remote control command IoT receiving module
105: remote control command execution module
106: Manufacturing Equipment Data Collection Module
107: data IoT transmission module
200: manufacturing equipment manager smartphone
201: Manufacturing Facility Number Database
202: Authentication key password database
203: authentication key validity period setting module
204: quality related information setting module
205: authentication key generation module
206: authentication key encryption module
207: Authentication key IoT transmission module
208: authentication key transmission module
209: authentication key receiving module
210: remote control command generation module
211: remote control command IoT transmission module
212: Data IoT Receive Module
213: data storage module
214: data remote transmission module
215: remote control command relay module
200a: other manufacturing equipment manager smartphone
300: manufacturing equipment remote management server

Claims (4)

It is installed at a certain manufacturing facility, collects data related to the manufacturing process of the installed manufacturing facility, transmits it in real time through Internet of Things (IoT) communication, and receives a control command through the IoT communication to perform a manufacturing process. A manufacturing equipment mounting terminal for controlling;
Receive the data collected from the manufacturing equipment equipped terminal via the IoT communication, and stores the received data, and transmits the stored data remotely through the mobile communication network, generating the control command to the manufacturing through the IoT communication A manufacturing facility manager smartphone for transmitting to a facility mounting terminal;
It further comprises a manufacturing facility remote management server for remotely receiving and storing data from the manufacturing facility manager smartphone, and remotely controlling the manufacturing facility through a remote relay of the manufacturing facility manager smartphone.
The manufacturing equipment mounting terminal,
An authentication key IoT receiving module for receiving an authentication key from the manufacturing facility manager smartphone through IoT communication;
An authentication key storage module for storing an authentication key received from the authentication key IoT receiving module;
An authentication module for authenticating an authentication key stored in the authentication key storage module according to a corresponding work process time;
A remote control command IoT receiving module for receiving a control command from the manufacturing facility manager smartphone via IoT communication;
A remote control command execution module for controlling a manufacturing facility according to the control command received from the remote control command IoT receiving module;
A manufacturing facility data collection module configured to collect process data according to a process of the manufacturing facility and data of the manufacturing facility itself in real time;
It is configured to include a data IoT transmission module for transmitting the data collected by the manufacturing facility data collection module in real time to the manufacturing facility manager smartphone via IoT communication,
The manufacturing facility manager smartphone,
A manufacturing facility number database in which unique numbers for manufacturing facilities are stored in advance for each manufacturing facility;
An authentication key password database in which unique values generated by the random number table are stored in advance to construct an authentication key;
An authentication key validity period setting module configured to receive and set a validity period of the authentication key from an administrator or to set the validity period according to a predetermined validity period;
A quality related information setting module configured to set quality related information according to an input of an administrator or by using a predetermined value;
An authentication key generation module for generating an authentication key for each administrator and each work process time;
An authentication key encryption module for encrypting the authentication key generated by the authentication key generation module;
An authentication key IoT transmission module for transmitting the authentication key encrypted by the authentication key encryption module to the manufacturing facility equipped terminal through IoT communication;
An authentication key transmission module for transmitting an authentication key corresponding to the work process time of the next manager to the manufacturing facility manager smartphone of the next manager;
An authentication key receiving module for receiving an authentication key corresponding to a work process time of the current manager from a manager before the current manager in advance;
A remote control command generation module for generating an input from an administrator or generating a remote control command of a manufacturing facility according to a pre-programmed setting;
A remote control command IoT transmission module configured to transmit the remote control command generated by the remote control command generation module to the manufacturing facility equipped terminal through IoT communication;
A data IoT reception module configured to receive, in real time, manufacturing facility-related data from the manufacturing facility mounting terminal through IoT communication;
A data storage module for storing data received by the data IoT receiving module;
A data remote transmission module for transmitting the data stored in the data storage module to a remote manufacturing facility remote management server through a mobile communication network;
And a remote control command relay module for receiving a remote control command from the remote manufacturing facility remote management server at the remote site and relaying the remote control command to the manufacturing facility mounting terminal.
The authentication module,
After receiving and storing the authentication key of the next work process in advance, if an authentication key is received from the smartphone of another manufacturing facility manager of the next work process, the received authentication key and the authentication key stored in the authentication key storage module are stored. Configured to perform authentication against each other,
The manufacturing facility data collection module,
It is configured to collect data of process temperature, pressure, defect rate, process rate and process time of manufacturing facilities in real time.
The valid period setting module,
It is configured to set according to the work process time for each manager,
The quality related information setting module,
Configure quality-related information, including temperature, humidity, and defect counts.
The authentication key generation module,
Extract a manufacturing facility number of the manufacturing facility from the manufacturing facility number database, extract a predetermined random number password for a current working process time and a next working process time from the authentication key password database,
The authentication key generation module,
Manufacturing equipment number, random number password for current manager's current work process time, random number password for next manager's next work process time, validity period of each work process time set in the authentication key validity time setting module, each work process And generate an authentication key that includes information about quality of time.
The manufacturing equipment mounting terminal,
Received in advance from the current manager's manufacturing facility manager's smartphone, then stores the administrator's authentication key in advance, and after the expiration of the current work process time, when the next manager's other manufacturing facility manager's smartphone comes close Manufacturing equipment data collection and control system using the IoT communication with the smart phone, characterized in that configured to perform authentication by receiving an authentication key from the smart phone. delete delete delete

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