1. Five major components An electromechanical integration system is generally composed of five components: structural components, dynamic components, sports components, sensory components, and functional components. The mechanical body (structural component) is the mechanical support structure of all functional elements of the system, generally including the body, frame, support, and joint. The power drive section (power component) provides energy and power to the system to operate normally in accordance with system control requirements. Test the sensing part (perceived component) to run the system The various parameters and states required by the mechatronics and the external environment are detected and become identifiable signals, which are transmitted to the information processing unit, and after analysis and processing, corresponding control information is generated. Control and information processing part (functional component) After the information of the test sensing part and the external direct input instruction are centralized, stored, analyzed, processed, and corresponding instructions are issued according to the information processing result and the prescribed program and rhythm. Control the entire system to operate purposefully. Actuator The specified actions and functions are completed according to the instructions issued by the control and information processing section. The mechatronic system generally consists of five parts: a mechanical body, a sensing sensing part, an electronic control unit, an actuator and a power source. 2. Four principles The five major components of the mechatronic system must follow the four principles of interface coupling, motion transfer, information control and energy conversion. Interface coupling: between two links that need to exchange information and transfer, because the information mode is different (digital and analog, serial and parallel codes, continuous pulses and sequence pulses, etc.) cannot be directly transmitted and exchanged, and must pass the interface. Coupling is achieved. The links between the two signals that are very different in strength and strength must also be coupled through the interface before they can be matched. The converted and amplified signal should be exchanged and transmitted reliably, quickly and accurately between the two links. It must follow the consistent timing, signal format and logic specification. Therefore, the interface must have the logic control function to ensure the information. Exchange and transfer information in a defined pattern. Energy conversion: Between two links that need to be transmitted and exchanged, energy conversion and communication cannot be directly performed due to different modes. Energy conversion must be performed. The energy conversion includes actuators, drivers and their different types of energy. And the principle. Information Control: In the system, the so-called intelligent component system control unit completes the collection, transmission, storage, analysis, calculation, judgment and decision of information under the guarantee of software and hardware to achieve the purpose of information control. For the intelligent information control system, knowledge-driven functions such as knowledge acquisition, reasoning mechanism and self-learning function are also included. Motion transfer: Motion transfer makes the transformation and transmission of different types of motion between components of the mechatronic system and the optimization for motion control. Third, automation technology: The so-called automation technology refers to human beings using various technical means and methods to replace people to complete various tests, analysis, judgment and control work, in order to realistically predict the goals and functions. An automation system usually consists of multiple link elements to complete the functions of information acquisition, information transfer, information conversion, information processing and information execution, and finally achieve automatic operation goals. Intelligent Control Technology (IC) Due to the large-scale, high-speed and continuous nature of the steel industry, traditional control technology has encountered insurmountable difficulties, so it is necessary to adopt intelligent control technology. Intelligent control technology mainly includes expert system, fuzzy control and neural network. Intelligent control technology is widely used in steel product design, production, control, equipment and product quality diagnosis, such as blast furnace control system, electric furnace and continuous casting workshop. , rolling system, steelmaking --- continuous casting --- rolling steel comprehensive dispatching system, cold continuous rolling and so on. Distributed Control System (DCS) The distributed control system uses a central computer to command several control-oriented field measurement and control computers and intelligent control units. The distributed control system can be two-level, three-level or more. Use the computer to centrally monitor, operate, manage and decentralize the production process. With the development of measurement and control technology, the functions of distributed control systems are increasing. Not only can the production process control be realized, but also the online optimization, the real-time scheduling of the production process, and the statistical management function of the production plan can be realized, and it becomes a comprehensive system integrating measurement, control and management. DCS has the characteristics of diversified control functions, easy operation, system expansion, convenient maintenance and high reliability. The DCS is distributed and centralized control, the impact of the fault is small, and the system has a chain protection function. The system manual manual control operation measures are adopted to make the system highly reliable. Compared with centralized control systems, distributed control systems are more powerful and have higher security. It is the main trend of the current large-scale mechatronics system. Open Control System (OCS) The Open Control System is a new structural system concept derived from the development of computer technology. “Open†means consensus and support for a standard information exchange procedure. Systems designed according to this standard can achieve compatibility and interchangeability of products from different manufacturers and share resources. The open control system interconnects various control devices and management computers through the industrial communication network to realize the integration of control and operation, management and decision-making. The field instruments are interconnected with the control devices of the control room through the field bus to realize the integration of measurement and control. Sensor Light,Sensor Downlight,Sensor Ceiling Light,Sensor Garage Lamp JIANGMEN MOSCOT OPTOELECTRONIC TECHNOLOGY CO.,LTD. , https://www.jmsensorsled.com