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A fluid circulation circuit formed by copper tubing is embedded in the inner wall of the glovebox. Using an external temperature-controlled circulator, the heat-transfer fluid is heated or cooled to a setpoint temperature and then pumped through pipelines into the copper-tube network integrated inside the glovebox. By exchanging heat with the metal panels or internal modules, the copper tubing enables precise local heating and cooling of specific zones inside the chamber, thereby achieving accurate temperature control of the core working area.

An integrated safe power supply provides standard electrical outlets inside the glovebox for devices such as magnetic stirrers, sensors, and small instruments, greatly facilitating internal operations.

In this way, the system simultaneously addresses two key requirements: atmosphere protection and precise temperature control, while maintaining very smooth and user-friendly operation. It is a high-end, fully customized workstation designed for advanced scientific research and fine chemical processing, offering superior experimental conditions for handling sensitive materials.

This system integrates multiple independent functional modules and glovebox types into a complete solution for special material processing.

The main working chamber features a three-glove-port design, allowing two operators to work simultaneously, which is ideal for coordinated machining, assembly, or measurement tasks. A compact precision CNC lathe or dedicated turning head is installed directly inside the glovebox, enabling operations such as OD turning, facing, grooving, and boring on bar stock under an inert atmosphere.

The lathe spindle, guideways, and control system require power, compressed air, and data connections, which are routed into the chamber through dedicated sealed electrical feedthrough plates or corrugated-tube interfaces.

An auxiliary chamber is connected to the main chamber. Chips, waste material, or finished parts generated during machining can be transferred from the main chamber to the auxiliary chamber. In the auxiliary chamber, a precision balance is used to weigh materials in order to calculate material utilization, record finished-part weight, or prepare raw materials for the next process step.

By seamlessly combining inert-atmosphere protection, precision manufacturing, and quantitative analysis, this system represents a high-end and sophisticated glovebox-based solution for advanced applications.