Common features of all-in-one industrial control machines
Industrial all-in-one machine as the name implies refers to the computer used professionally in industry, its composition and function are similar to our ordinary commercial machine. However, industrial all-in-one machine pay more attention to the reliability and stability of the machine used in the industrial environment. Because most of the general industrial all-in-one machine are put into use in the production line, with which the production equipment is also more expensive. If the reliability and stability of the performance are not enough, then it will to the user caused serious losses.
Industrial all-in-one machines are often used to control continuous production processes. No stopping for maintenance is allowed during operation. If a fault occurs, it will lead to a quality accident or even a production accident. Therefore, industrial machines are required to have high reliability, low failure rates and short maintenance times.
Industrial control machine, short for "industrial control computer", is a microcomputer composed of large-scale integrated circuits, is specially designed for the industrial site and the computer, with the computer's motherboard, CPU, hard disk, memory, external interface, operating system, computing power, human-machine interface and other attributes and characteristics. The machine is widely used in the control site It is widely used in many fields, such as road and bridge tolling, medical care, environmental protection, intelligent transportation, communication, monitoring, CNC machine tools, finance, aerospace, etc., allowing various automatic
Due to the harsh environment of industrial sites, industrial all-in-one machines are required to have strong environmental adaptability, such as high requirements for temperature and humidity change range; dust-proof, anti-corrosion, anti-vibration, anti-impact capabilities; it has good electromagnetic compatibility, anti-interference capability and common mode suppression capability.
IPCs are often used to control continuous production processes and do not allow downtime for maintenance during operation, a failure will lead to quality accidents or even production accidents. Therefore, most IPCs use chips, CPUs, multi-core processors, graphics cards and other high-quality hardware to improve the reliability and stability of IPCs and reduce the failure rate and maintenance time of IPCs.
Flexible system scalability is conducive to the improvement of factory automation level and the continuous expansion of control scale. Open architecture is adopted to facilitate system expansion, software upgrade and exchange.
With the performance of easy human interaction, rich screen, good real-time; with system configuration and system generation function; with real-time and historical trend record in reality function; with real-time and historical trend record and display function; with real-time alarm and accident memorization and other functions; with rich control algorithm.
Generally require industrial all-in-one machine can constitute a large computer control system. In order to meet the real-time requirements, the communication network speed of the industrial all-in-one machine should be high, and in line with the standard communication protocol.