KR20200084424A - Industrial IoT system - Google Patents

Abstract

The present invention relates to an industrial Internet of things (IIoT) system comprising: at least one device having at least one sensor and contributing to production and management in an industrial site; a cloud system connected to the device to manage the device; an IIoT gateway collecting data from the sensor and transmitting the collected data to the cloud system; and a wireless communication interface capable of wireless communication with the IIoT gateway and a user terminal. Accordingly, it is possible to process data quickly by simplifying a network through various protocol conversions of various devices.

Description

Industrial IoT system{Industrial IoT system}

The present invention relates to an industrial Internet of Things (IIoT) system, and specifically, to an industrial Internet of Things system capable of real-time data processing and management without a separate server by connecting various IoT devices including various sensors and operation servers in a factory.

The Internet of Things, or IoT, refers to a technology or environment in which data is exchanged in real time by attaching sensors to objects. The IoT technology can transmit and receive data such as temperature, humidity, location, and heat between devices using sensing technology, wired/wireless communication and network infrastructure, and IoT service interface technology.

The IoT collects and analyzes the data of each device to increase the operational efficiency of each device. Recently, IoT collects data from newly installed systems and pre-installed equipment not only in household appliances, but also in manufacturing sites, and uses it to cloud It is important to support a stable connection between operational technology (OT) and information technology (IT) so that it can be used as meaningful data by sending it to a server. To accelerate the integration of these OT and IT environments, an edge and cloud connection solution must be provided.

In general, the conventional OT system does not need to connect several sensors and machines, and OT data has been processed only in the SCADA system. However, in order to use the IIoT (Industrial Internet of Things) application, a large amount of data collected from an OT device must be transmitted to an IT-based cloud service. For this, an IIoT gateway for connecting OT and IT is essential.

In addition, in order to connect data to IIoT applications, data must be transmitted from LAN to WAN in real time, and it must be able to handle the increasing data traffic from the edge to the cloud.

In addition, hundreds to thousands of devices are used in manufacturing plants, and existing devices are often operated with different protocols, and it is practically impossible or difficult to communicate with other devices without being connected to the cloud.

Therefore, it is necessary to integrate devices of different protocols in constructing IIoT, and in an IoT environment that requires fast data processing, it is necessary to apply connection results directly to the field.

Prior Art Document 1: Published Patent Publication No. 10-2017-0009029 (2017.01.25.)

Prior Art Document 2: Published Patent Publication No. 10-2006-0135187 (2006.12.29.)

The present invention was invented to solve the above problems, and an object of the present invention is to provide an industrial Internet of Things system capable of rapid data processing by simplifying a network through various protocol conversions of various devices.

In order to achieve the above object, the present invention is provided with at least one sensor, at least one or more devices that contribute to production and management in the industrial field; A cloud system connected to the device and managing the device; An IIoT gateway for collecting data from the sensor and transmitting the collected data to the cloud system; And a wireless communication interface capable of wireless communication with the IIoT gateway and a user terminal.

Additionally, the device is characterized by further comprising edge computing means capable of collecting, analyzing and transcoding data from the sensor.

Preferably, the IIoT gateway is characterized in that it is possible to manage the device through a user terminal by connecting the device with an Ethernet network or a mobile communication network.

Preferably, the IIoT gateway is characterized in that it converts the protocol of the device to the Internet of Things standard messaging protocol (MQTT).

According to the present invention, by converting the protocol of the devices to the Internet of Things standard messaging protocol (MQTT), it is possible to simplify the communication network, thereby ensuring easy and secure communication with the cloud system.

In addition, according to the present invention, it is possible to provide functions specific to machine tools such as remote diagnosis and control as well as monitoring functions for OEE and KPI working environments, quantitatively grasping the deterioration status of components of equipment and deteriorating the parts Predictive maintenance is possible by quantitatively predicting and predicting the progress of deterioration based on characteristics and operating conditions, and planning and carrying out repair and replacement.

In addition, according to the present invention, since the collected data is immediately processed by using the edge computer connected to the device and the calculation result can be applied directly to the field, it is possible to respond quickly compared to a centralized cloud system.

1 is a block diagram schematically showing the configuration of an industrial Internet of Things system according to the present invention;
2 is a block diagram schematically showing the configuration of an industrial Internet of Things system according to a further embodiment of the present invention.

Hereinafter, preferred embodiments of the industrial Internet of Things system according to the present invention will be described in detail with reference to the accompanying drawings. For reference, in the following description of the present invention, the terms referring to the components of the present invention are named in consideration of the function of each component, and should not be understood as a meaning limiting the technical components of the present invention. Will be.

The industrial Internet of Things system according to the present invention enables communication between a sub-network and a network using heterogeneous protocols on a computer network, so that various IoT devices including various sensors and operation servers in the industrial site can flexibly without user intervention. It is a system that allows access to a communication network.

Referring to FIG. 1, the industrial Internet of Things system according to the present invention is a device connected to the various types of devices 100 and devices 100 contributing to the production and management of products at an industrial site, for example, a factory. Cloud system 200 that manages them, IIoT gateway 300 and IIoT gateway 300 that enable communication between devices 100 and cloud system 200 to each other, and user terminal 400 or a work computer can wirelessly communicate. And a wireless communication interface.

Devices 100 include at least one sensor 110. The sensor 110 may be a sensor for monitoring a surrounding environment of an industrial site, such as a temperature sensor, a humidity sensor, and an illuminance sensor. Further, the sensor 110 may be a sensor for monitoring the state of a product produced from the device or the state of the device.

The cloud system 200 may include a security management system, a data traffic management engine, a device manager, a dashboard, a data transmission/reception manager, and a data analysis engine. The security management system performs communication with the devices 100 and security of the cloud system. Here, the security management system can be applied to various types of security techniques known in the art, and detailed description thereof will be omitted. The data traffic management engine performs efficient operation management for internal/external traffic on the network, and functions to handle network failure caused by malicious or abnormal traffic such as DDoS in conjunction with a security management system. The data transmission/reception manager requests and collects data every predetermined time in order to collect data through the gateway. In addition, the data transmission/reception manager collects and manages data corresponding to devices by matching ID values of various devices below. In addition, the data transmission/reception manager stores the collected data in a data storage, and provides the corresponding information in real time or in a dashboard viewer to search past records.

The IIoT gateway 300 periodically collects data from the sensor 110 provided in each device 100 and transmits the collected data to the cloud system 200. The IIoT gateway 300 may be connected to the sensor 110, a remote IO device, and a DAQ device through serial communication or wireless communication such as WIFI or Bluetooth.

In addition, the IIoT gateway 300 can support both wired and wireless interfaces so that there are no restrictions on the manufacturing site, and can provide functions specific to machine tools such as remote diagnosis and control as well as monitoring functions for OEE and KPI work environments. Predictive maintenance, which utilizes know-how, quantitatively grasps the deterioration status of components of a facility, and quantitatively predicts and predicts the progress of deterioration based on the deterioration characteristics and operation status of the components. It is possible.

The wireless communication interface serves to enable the IIoT gateway 300 and the user terminal 400 or a factory work computer to wirelessly communicate with each other. For example, the IIoT gateway 300 connects the devices 100 with an Ethernet network or a mobile communication network, and enables control and management of the devices 100 through a user terminal or a work computer.

Preferably, the IIoT gateway 300 performs a task of converting the protocol of the devices 100 into the Internet of Things standard messaging protocol (MQTT). Specifically, the IIoT gateway 300 provides various interfaces such as analog, digital, or fieldbus, enables interworking of various devices, and converts protocols of devices to interwork with higher-level applications and OPC UA standards. By doing so, the communication network can be simplified. As such, the industrial Internet of Things system according to the present invention can ensure easy and safe communication with the cloud system 200 by supporting standardized protocols such as MQTT and OPC UA.

In addition, the IIoT gateway 300 periodically collects field data of the industrial site in real time and simultaneously transmits the state of field facilities, that is, devices to the cloud system 200, so that the field data and the cloud system can be connected.

In addition, the IIoT gateway 300 may integrate data of devices into the cloud system 200 by using software and communication protocols required by the user based on IPC/EPC.

Meanwhile, the cloud system 200 includes a central computing means that directly performs processing and calculation of the collected data, and processes a method of processing and calculating the data collected from the devices 100 and transmitting it back to each device. Can be employed. However, such a centralized cloud system may cause a problem that when the data of devices increases, the central system is overloaded, and data processing and calculation results are not immediately applied to the site.

Referring to FIG. 2, the industrial Internet of Things system according to the present invention includes a plurality of edge computers 500 individually provided in respective devices 100 or one edge computer 500 connected to each of the devices 100. ).

The edge computer 500 may collect, analyze, and transcode data from the sensor 110 provided in devices.

As described above, since the industrial Internet of Things system according to the present invention utilizes the edge computer 500 connected to the device, it can process the collected data immediately and apply the calculation results directly to the field, so it can respond quickly compared to the centralized cloud system. This is possible.

The embodiments of the present invention described above are merely illustrative of the technical idea of the present invention, and the protection scope of the present invention should be interpreted by the claims below. In addition, those skilled in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention, and all technical ideas within the scope equivalent to the present invention are of the present invention. It should be interpreted as being included in the scope of rights.

Claims (4)

At least one device having at least one sensor and contributing to production and management in an industrial site;
A cloud system connected to the device and managing the device;
An IIoT gateway for collecting data from the sensor and transmitting the collected data to the cloud system; And
Industrial Internet of Things system including a wireless communication interface capable of wireless communication with the IIoT gateway and a user terminal.
According to claim 1,
The device further comprises an edge computing means capable of collecting, analyzing and transcoding data from the sensor.
According to claim 1,
The IIoT gateway connects the device to an Ethernet network or a mobile communication network, so that the device can be managed through a user terminal.
The method of claim 1 or 3,
The IIoT gateway converts the protocol of the device into an IoT standard messaging protocol (MQTT).

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