Introduction of Robobeam Stamping Line

In modern stamping production, the demand for high-quality large-sized workpieces continues to grow. These parts often feature complex geometries, high deep-drawing requirements, and strict surface-quality standards. To meet such processing needs, the Robobeam stamping line has become an effective solution. At first glance, it may appear similar to a standard tandem stamping line, but its capability is significantly stronger. This article will help you understand its components and main features.

Components

1. Dual-Station Destacking

The dual-station destacking system is designed to automatically separate and supply stacked blank sheets. With two alternating stack stations, the line can change stacks without stopping, ensuring continuous material feeding and improving overall production cycle time.

2. Robotic Arm

The transfer robot is responsible for moving the workpiece accurately to the next press station. It typically adopts a C-type transfer structure, enabling smooth, fast, and precise material handling. Due to the size and weight of large components, these robots feature higher payload capacity and reinforced mechanical structures to ensure stable operation.

3. Stamping Machine

To effectively form large components, large-tonnage presses are required. These presses generally use an H-frame structure, offering greater shut height, higher rigidity, and enhanced stability to support complex multi-stage forming processes.

Main Features

1. Strong Forming Capability

With large die sizes, multiple stations, and deep forming requirements, large presses are able to provide sufficient tonnage at every station. This allows deep drawing, flanging, trimming, and other multi-step processes to be completed stably at high cycle speeds, ensuring that large parts do not experience wrinkling, springback, or cracking during forming.

2. Fast and Stable Transfer

The robotic arm structure of the Robobeam stamping line is more robust, with significantly strengthened guide rails, arm cross-sections, drive shafts, and linkage mechanisms compared to ordinary tandem stamping lines. Therefore, it maintains rigidity and dynamic stability even when transferring large workpieces.

Application Scenarios

This stamping line mainly used for multi-process stamping of large workpieces, such as automotive body panels (side panels, door inner panels, hood frames, etc.), large-size home appliance parts (shell parts, structural parts), and large-scale metal stamping parts.