This machine features a fully sealed vacuum structure, with vacuum levels adjustable as required. It achieves automatic bottle feeding, capping, vacuum extraction, and ejection, ensuring vacuum is only drawn when a bottle is present to extend the shelf life and flavor of the contents within glass bottles. It is widely applicable for vacuum extraction and capping on various three-(four-)screw cap glass bottles in industries such as food and beverage, condiments, honey, and canned goods.

Performance Features:

This machine integrates automatic bottle feeding, capping, lid placement, vacuum extraction, cap rotation, and bottle discharge into one unit, featuring fast production speed, high efficiency, and stable and reliable operation.

This unit features a fully sealed vacuum structure with a screw-on cap design, allowing for adjustable vacuum levels as required.

The machine is primarily composed of bottle conveying mechanism, cap handling mechanism, bottle and cap gripping mechanism, vacuum extraction system, cap turning mechanism, and electrical control unit, featuring high automation, reasonable and compact design, and easy operation.

The machine frame, components, and housing are primarily made of high-quality 304 stainless steel, featuring an aesthetically pleasing design, ease of cleaning, and compliance with food hygiene standards.

The equipment is controlled by a PLC combined with a touchscreen (human-machine interface), utilizing world-class electrical and pneumatic components. It boasts a low failure rate, stable performance, and reliable operation with a long service life.

The rotating cap mechanism features a quick adjustable height, accommodating bottles with the same diameter but different heights. Replacing specific parts allows for caps for bottles of various diameters and sizes, with a fast and convenient changeover.

The capping mechanism is equipped with a photoelectric sensor safety protection device, which can control the bottle handling mechanism to achieve the self-protection function of "capping on without cover, no capping when the cover is full," enhancing the equipment's operational stability and reliability.

Key Technical Parameters