With the rapid development of industrial automation and industrialization, factory safety issues have received more and more attention. Factory safety monitoring is one of the key technologies to ensure the safe operation of the factory. It can detect and deal with potential safety problems in time, prevent accidents, and ensure the safety of employees and the normal operation of the factory. Intelligent transformation has become a hot topic for enterprises. Especially in the intelligent transformation of corporate office areas and factory workshops, many large companies have carried out relevant practices. In the transformation practices of many enterprises, the Industrial Internet of Things has outstanding performance. Industry is a major consumer of energy in our country. Due to its different processing techniques, it consumes different energy sources, including water, electricity, heat, gas and other energy sources.
The factory safety monitoring solution is based on technologies such as the Internet of Things, big data, and cloud computing. By monitoring and analyzing various equipment and systems in the factory, it can realize real-time monitoring and predictive analysis of the factory's operating status, so as to discover and deal with potential threats in a timely manner. Security Question. Factory safety monitoring solutions play a very important role in ensuring employee safety, preventing environmental pollution, ensuring factory production safety, reducing accident risks, and improving enterprise management efficiency.
An automated management system that centrally monitors and remotely controls the operating status of various industrial facilities, mainly including Room clean room system, CW process cooling water system, AAS exhaust gas reduction system, UPW ultrapure water system, and WWT sewage treatment system. Gas gas supply system, Chemical chemical supply system, HVAC central air conditioning system, Calamity escape fire protection system, PV process vacuum system, CV clean vacuum system, CDA compressor dry air supply system, Power power monitoring system, Door Alarm access control monitoring system, Boiler heating and other systems. Its main feature is to use programmable automation controllers and data acquisition modules and communication management computers to connect the operating data of the subsystems of each industrial facility to the central monitoring room or management personnel's computers to form a networked monitoring system. The management center monitors each Independent maintenance, comprehensive management, and comprehensive analysis of subsystems enable comprehensive physical inspection of factory facilities.
The large number of industrial IoT devices/terminals, hierarchical and domain-based deployment of devices, and limited bandwidth computing resources pose great challenges to accurate awareness of the threat situation across the entire network. Intelligent collection and dynamic collection of device information across the entire network has become a key enabler of situational awareness. the basis and premise. At the same time, the differences in processing capabilities of IoT terminals and nodes, different protection mechanisms, interconnection of heterogeneous devices, and criss-crossing management and control characteristics make it possible for local threats to spread to the entire network, causing network paralysis. If not blocked in time, attacks may jump out. Multi-dimensional risk assessment and rapid handling of the entire network have become the key to preventing security threats from spreading to the entire network.
At present, in the industrial Internet environment, industrial enterprises mainly face security risks in the following aspects: (1) Equipment security risks. Traditional industrial equipment pays more attention to business continuity requirements. Daily operation and maintenance are mainly related to safety production content. Each link involves less network security content and basically does not have the ability to protect against various network attacks. However, the Industrial Internet introduces more and more intelligent equipment into industrial control systems and directly participates in production, causing industrial control systems to face serious equipment security risks. (2) Cybersecurity risks. Network P, wireless, and flexible networking bring greater security risks to industrial control systems in the industrial Internet environment.
Shenzhen Lanxin IoT Technology Co., Ltd. focuses on the development of smart power safety products on the power side and energy consumption data collection and analysis, helping industry customers achieve smart energy services and empowering industry IoT customers with an energy-saving management data platform and safe power management. Platform construction. Lanaosheng relies on its independent research and development of wireless smart metering socket product series, and has launched a series of advanced and practical products in the fields of smart energy-saving electricity metering monitoring, indoor precise positioning tracking, low-power synchronous group control systems, and intelligent sensing systems. Core products and solutions with technical value.
Achieve centralized and unified storage of data security days, realize global data portrait and correlation analysis, use multi-engine collaborative analysis for the full-service data analysis and judgment layer, and combine artificial intelligence and other technologies to monitor data security events, data asset industrial control vulnerabilities, etc. Analyze and use visualization technology to achieve a comprehensive visual display of the industrial Internet data security situation
Specific to each industrial enterprise, the data collector adopts two deployment modes to cope with different network traffic data collection scenarios:
Collector A: Collects SSL encrypted traffic to the Internet, deploys transparently in gateway mode, and supports data collection of SSL encrypted traffic.
Collector B: Collects data for the enterprise industrial Internet application system, adopts the bypass mode, and collects data through the traffic diverted by the switch mirror or TAP device.
The above two collection modes can support typical industrial Internet data collection scenarios of enterprises.
By combining advanced Internet of Things technology with the needs of the manufacturing industry, and based on powerful data storage systems and analysis and computing capabilities, Blue Aosheng's industrial Internet of Things solution integrates the new generation of R&D and innovative technological achievements in the industrial field, and industrial Internet of Things equipment products As the core of the system, factory equipment is intelligentized through wireless networks and mobile intelligent terminals. Relying on the powerful integration capabilities of industrial IoT solutions, combined with smart hardware and various IoT solutions, the efficient integration of smart manufacturing and IoT technologies can be realized to build a complete smart manufacturing factory.
Industrial IoT solutions mainly consist of three parts:
1. Data collection layer (adapter)
It is mainly responsible for data acquisition, process logic execution and control, connecting with industrial equipment through adapters, collecting industrial equipment data, and realizing remote monitoring and intelligent control. At present, the products have obtained global certifications such as CE, FCC, PTCRB, AT&T, IC, Rogers, GCF, RCM, iDA, NBTC, E13, etc., breaking the technical access barriers and meeting the quality requirements of international high-end markets such as the European Union, the United States, Canada, and Australia. , has become a global partner of more than 30 wireless operators such as Vodafone in the UK, Deutsche Telekom, Telefonica in Spain, SingTel, TeliaSonera in Sweden, AT&T in the US, Rogers in Canada, and China Mobile.
2. Data support layer (cloud platform)
It consists of three parts: Web frontend + Web backend + middleware program, which processes and analyzes data through cloud platform data processing centers deployed in multiple places. The Web front-end display includes process screens, various data reports, operation logs, and system diagnostic information. The Web background mainly establishes the corresponding relationship between equipment data and various reports, curves, and logs so that it can be applied to as many sites as possible. The main function of the middleware program is to communicate with field devices, obtain data or send relevant control instructions.
3. Data application layer (management system)
It is functionally divided into two layers, one is the UI interface display and operation layer, and the other is the data communication layer, which realizes information interaction with the server. Realize production management, equipment management, remote after-sales service, big data analysis and other functions through the production management system, and monitor the scene and display related data through PC/APP/big screen.
Lanaosheng Industrial Internet of Things smart energy consumption monitoring system can realize 24-hour real-time monitoring of the operating status of circuits and energy-consuming equipment, greatly saving labor costs and helping enterprises understand real-time energy consumption. At the same time, the system has a fault alarm function. Reduce safety risks caused by equipment failure or abnormal power usage. Relevant power consumption data are obtained with the help of wireless sensors and uploaded to the data processing center safely, stably and quickly through the transmission network, where they are stored and backed up by the server. The system can perform statistical analysis on energy consumption data based on different functional requirements and generate various visual charts to help enterprises understand energy usage patterns and conduct more reasonable energy-saving management and decision-making planning.
By applying industrial IoT solutions, enterprises can achieve the following management advantages:
1. Production process process optimization: Through the application of industrial Internet of Things technology, the ability and level of production line process detection, real-time parameter collection, production equipment monitoring, and material consumption monitoring are improved.
2. Product equipment monitoring and management: the integration of various sensing technologies and manufacturing technologies has realized remote monitoring of product equipment operation records and equipment fault diagnosis.
3. Energy management: Accurately collect and summarize energy information that occurs in the process of energy use, realize industrial production and building energy monitoring and management, and truly achieve the goal of energy conservation and emission reduction.
4. Production management: By embedding sensors into the equipment, it can sense the safety status information of workers, equipment and machines, and the surrounding environment in dangerous environments, and realize real-time perception, accurate identification, quick response, and effective control.
Intelligent switch controller solution Real-time status Online status view Running status Monitoring power Real-time monitoring control command timing, real-time switch query Relay status Upload time interval Setting real-time status Online status View running status Monitoring power Real-time monitoring Control command timing, real-time switch query relay status Upload time interval setting Smart switch controller solution September 2021 Home page display device status View power statistics Visual charts Device list Device information Batch query and management Custom filtering and sorting