Machine tending with bin picking or palletizing options for medium-to-large parts.
The ACEpack automation platform combines machine tending with bin picking or palletizing capability for medium-to-large parts. Its two load/unload areas accommodate parts in dunnage or large boxes/bins, allowing operators to stage and swap material without interrupting the production cycle.
Safety scanners replace traditional hard guarding, providing a more open and accessible cell layout while maintaining full compliance with safety standards. This approach simplifies material flow and gives operators better visibility into the cell.
The standardized platform reduces lead time and engineering cost compared to a fully custom cell, while still offering a wide range of add-on capabilities to match your specific application.
Pre-engineered foundation that provides a rigid, precision platform for the robotic cell and all integrated equipment.
Area safety scanners replace traditional hard guarding for a more open cell layout, with two dedicated load/unload areas for continuous material flow.
Two load/unload areas accommodate parts in dunnage or large boxes/bins, enabling operators to stage and swap material without stopping production.
Includes one robot (more upon request). Supports single or multi-machine tending with automatic EOAT changeover tools available.
Allen Bradley or Siemens PLC and HMI with Ethernet IP communication. Data collection and traceability options available.
Complete electrical panel and pneumatic systems — fully wired, plumbed, and tested before delivery.
Every application is different. ACEpack's modular design lets you add capabilities to the base system to match your specific production requirements.
Purpose-built for heavier, bulkier parts that require bin picking or palletizing — filling a gap that smaller drawer-fed cells cannot address.
One operator can tend multiple ACEpack cells, reducing dependence on manual labor for repetitive machine loading and unloading tasks.
Pre-engineered platform means shorter lead times and lower engineering costs than a fully custom robotic cell — without sacrificing flexibility.
