Intralogistics encompasses all processes related to the handling, processing, and transportation of goods within a company, both between different departments (assembly, packaging, warehouse, etc.) and between different facilities within the same company. Although it may sound straightforward, it often requires significant resources and complexity, similar to B2B or B2C logistics. PNC TECH has the capability to provide comprehensive consulting and implementation of automated warehouse systems, sorting and picking systems, intralogistics systems, as well as design and supply of equipment and software related to the logistics and warehouse field.
Measurement and inspection fixtures are designed to determine the parameters of a product and compare them against the required standards and customer specifications. These fixtures are essential in ensuring accurate and reliable measurements, allowing the inspection department to quickly determine if a product meets the required specifications.
Welding fixtures are devices used to accurately determine the welding position and securely hold the workpiece in place for precise and efficient welding by welders or welding robots. Depending on the welding method and purpose (such as MIG welding, arc welding, etc.), different types of welding fixtures are used to ensure optimal machining capabilities and conditions for the workpiece.
Welding robots, also known as automated welding, are a process of automation that uses programmable mechanical tools to weld and process a component. Welding robots have filled the increasing gap of the shortage of skilled welders, effectively taking on a significant portion of welding work in the manufacturing industry.
We provide high-precision and detailed 2D or 3D imaging for various objects. Our model options can meet diverse real-world needs such as anti-glare capability, high accuracy, high scanning speed, compact size, and more. Machine vision software can handle processes like depalletizing, part feeding, order picking, labeling/spraying, precise positioning, and more through a code-free graphical interface. By combining machine vision software with AI, deep learning, and other advanced algorithms, it can meet diverse and complex real-world requirements.
Autonomous Mobile Robots (AMRs) are a type of robot that can understand and navigate their environment independently. Unlike their predecessors, Automated Guided Vehicles (AGVs), which rely on predefined paths or tracks and often require human supervision, AMRs utilize advanced sensors, artificial intelligence, machine learning, and computing power to plan routes, interpret their surroundings, and navigate autonomously without being constrained by wired power sources.