Stefa Coil-to-Laser ProLine CLP-60

Used in High Volume Production, Steel Service Centers, Automated Factories for Light Gauge Fabrication, Prototypes, Thin Sheet Metal Strength: Continuous Feed Stefa Coil Line > General Metal Fabrication Equipment Mac-Tech Sales: https://mac-tech.com/contact-us/ Machine Parts & Service: https://mac-tech.com/need-a-part/

The Stefa Coil-to-Laser ProLine CLP-60 is a high-end, continuous-feed coil line designed for automated laser processing of thin sheet metal in light-gauge, high-volume, and prototype fabrication environments, such as steel service centers and automated factories.

Overview

• Coil-to-laser configuration enables continuous feed from coil stock directly into a laser processing area, minimizing handling and changeover time.
• Optimized for thin sheet metal and light gauge fabrication, suitable for applications where material thickness is relatively low and precision cutting is required.
• Designed for high-volume production environments, supporting continuous operation in automated factories and steel service centers.
• Well-suited to general metal fabrication tasks where flexible nesting and rapid job changeovers are important, including short-run and prototype work.
• Continuous feed capability can support streamlined workflows from raw coil to finished, laser-cut blanks, reducing intermediate storage and WIP.
• Particularly beneficial where a mix of production and prototype work is done from similar thin-gauge materials, leveraging the same automated line.

What It Typically Costs

Typical pricing for a Stefa Coil-to-Laser ProLine CLP-60 is approximately $900,000 – $2,000,000 USD, depending on configuration and options.

• Total cost is influenced by coil handling capacity (coil weight, width, and maximum line speed) and the sophistication of the laser cutting section.
• Automation level (e.g., integrated straightening, automatic threading, scrap handling, and downstream stacking) can move the price toward the upper end of the range.
• Control system features, such as advanced nesting software and integration with factory automation or ERP/MES, often add to the capital cost.
• Budget planning should include installation, commissioning, operator training, and any required facility modifications for coil storage and line layout.
• For high-volume production, the investment is typically justified by reduced material handling, better material utilization, and lower labor per part.

Key Selection Factors

• Material and gauge range: Confirm that the line is optimized for your specific thin sheet metal range (material type and light-gauge thickness) and that it can maintain flatness and feed accuracy at those gauges.
• Coil capacity: Evaluate maximum coil width, thickness, and coil weight to ensure compatibility with your standard coil sizes and desired run lengths.
• Line speed and throughput: Consider the continuous feed rate and how it matches your target parts-per-hour or tons-per-shift requirements in high-volume production.
• Laser processing capability: Match the laser section to your material and thickness requirements (cut quality, edge finish, and tolerance expectations for thin sheet applications).
• Automation and integration: Assess options for integration with existing automated factories, including material handling, upstream coil logistics, and downstream stacking or packaging.
• Flexibility for prototypes: Ensure programming, nesting, and changeover workflows support frequent job changes and prototype runs without excessive downtime.
• Floor space and layout: Confirm that the available plant space can accommodate coil storage, payoff, straightening, laser section, and any downstream modules in a safe and efficient layout.

Buying Advice

• Verify that the CLP-60’s coil width, thickness, and weight capabilities match your current and anticipated future coil specifications.
• Inspect the coil handling and feed system for robustness, alignment adjustability, and ease of threading and changeover between coils.
• Evaluate the laser cutting section for cut quality on your actual thin-gauge materials, including sample parts and tolerance checks.
• Review the control and nesting software for usability, job changeover speed, and compatibility with your existing CAD/CAM workflows.
• Confirm that the line can interface with your plant automation (conveyors, robots, stacking systems) and any production monitoring systems you use.
• Assess access for maintenance, including coil handling equipment, feed rolls, guides, and the laser processing area.
• Check available safety features and guarding, especially around coil handling, straightening, and the laser cutting zone.
• Discuss installation requirements, including foundation, power, ventilation for laser processing, and coil storage arrangements.
• Clarify training, documentation, and support options to ensure your team can operate and maintain a continuous-feed coil-to-laser line effectively.
• Compare the projected throughput and scrap rates to your existing processes to validate the expected return on investment.

Buyer Questions

What type of production is the CLP-60 best suited for? It is intended for continuous-feed, high-volume production of thin sheet metal, such as in steel service centers and automated factories handling light-gauge fabrication.

Can it handle prototype or short-run work? Yes, it is described as suitable for prototypes and general metal fabrication, provided that the material and thickness fall within its thin sheet, light-gauge range.

What materials can be processed? It is designed for thin sheet metal; specific alloys and exact thickness limits should be confirmed against your material specifications.

How does a coil-to-laser line benefit production? By feeding directly from coil into the laser process, it reduces manual handling, enables continuous operation, and can improve throughput in high-volume environments.

Is this machine appropriate for heavy plate? No, it is targeted at light gauge fabrication and thin sheet metal rather than heavy plate applications.

What is the typical investment level? The indicative price range is about $900,000 – $2,000,000 USD, depending on configuration, automation, and integration options.

Where is this type of equipment commonly used? Typical applications include steel service centers and automated factories that process thin sheet metal in continuous, high-volume operations.

Can it be integrated into an existing automated factory? It is described as suitable for automated factories; integration details should be confirmed based on your specific material handling and control systems.

What space considerations are there? You will need sufficient floor space for coil storage, payoff, straightening, the laser section, and any downstream handling, laid out to support safe and efficient flow.

How should I evaluate if it fits my production mix? Compare your material gauges, coil sizes, and required throughput to the machine’s coil and laser capabilities, and consider how often you run thin-gauge, high-volume or prototype jobs from coil.

Source: Stefa Coil-to-Laser ProLine CLP-60

Stefa Coil-to-Laser ProLine CLP-60