Generic components refer to various standard parts and components that can be used for various products or systems. They are divided into six categories, including hardware, mechanism, electrical, plastics and rubber, machinery and measurement.
Hardware: Refers to all kinds of products made of metal, including general fasteners and parts, bearing, valve, pipe fittings, cylinder lock, and general tools.
Mechanism: Including conveyors and hoisting machinery, industrial robots, machines and tools, pneumatic and hydraulic components, etc.
Electricity: refers to all kinds of electrical products and components, including capacitors, rectifiers, power relays, and switches.
Plastics and rubber: refers to any kind of product made of rubber or plastic, including seals, plastic moldings, plastic film and rubber products.
Machinery: refers to any kind of machinery and products, such as combustion engines, internal combustion engines, pumps, and valves.
Measurement: refers to the measurement instruments and components, such as voltage and current, pressure, temperature, force, and optical measurement instruments.
Generic components usually have industry-wide standards which manufacturers must meet. For example, the chemical composition of a product must meet the chemical composition requirements of industry standards and the strength of the product must meet the strength requirements of industry standards.
In addition, there are often performance requirements for general parts and components. For example, some components or parts must be resistant to humidity, heat, vibration and other external stimuli.
Finally, with the introduction of new technologies and materials, generic parts and components are constantly being improved, which leads to the development of better and more reliable products.
The use of generic components can lead to significant cost savings and make it easier for companies to manage their inventories. At the same time, the use of generic components can help reduce production costs, shorten production cycles, make products more competitive, and improve product performance.
In summary, generic components are an important part of modern operating systems, as they provide reliability, cost savings, shorter production cycles, and improved performance. They are integral to any successful product or system, and should be carefully managed and monitored to ensure they meet the needs of customers.
