HSG Compact Shuttle Table System CS-6

Used in Electronics, Light Fabrication, Prototyping for Light Gauge Fabrication, Prototypes, Thin Sheet Metal Strength: Precision Tube Cutting Hsg Tube Laser > Flatbed Fiber Laser Mac-Tech Sales: https://mac-tech.com/contact-us/ Machine Parts & Service: https://mac-tech.com/need-a-part/

The HSG Compact Shuttle Table System CS-6 is a flatbed fiber laser platform aimed at light‑gauge fabrication, thin sheet metal, and precision tube cutting work, commonly used for electronics and prototyping where accuracy and fast changeovers are important.

At a Glance

• Machine type: Flatbed fiber laser with compact shuttle table system
• Typical applications: Thin sheet metal, light‑gauge fabrication, electronics components, prototypes
• Cut forms: Flat sheet and precision tube cutting (tube laser capability)
• Production style: Suited to short runs, prototypes, and light production where quick loading/unloading is valuable
• Key advantage: Combines flatbed fiber cutting with shuttle table efficiency in a compact footprint

What It Typically Costs

• Pricing estimate (USD): Varies by configuration.
• Total price depends heavily on laser power, shuttle table size, and tube cutting options selected.
• Automation level (e.g., material handling, tube interfaces, software options) is a major cost driver.
• Expect additional costs for installation, training, and any required electrical or extraction upgrades at your facility.
• Operating costs will be influenced by laser power level, assist gas usage, and maintenance practices.

Performance / Spec Considerations

• Laser power vs. material thickness: Match fiber laser wattage to the thin sheet and light‑gauge materials you cut most; higher power improves speed but adds cost and may be unnecessary for very thin work.
• Shuttle table size and changeover speed: Table dimensions and shuttle speed affect throughput for electronics and prototype work where frequent sheet changes are common.
• Tube cutting capability: Confirm supported tube diameters, wall thickness ranges, and fixturing for precision tube cutting applications.
• Accuracy and repeatability: For electronics and precision prototypes, review stated positioning accuracy and repeatability to ensure they meet your tolerance requirements.
• Material compatibility: Verify supported metals (e.g., common thin‑gauge steels, stainless, aluminum) and recommended thickness ranges for reliable cutting quality.
• Software and nesting: Look at control software for prototyping features, nesting efficiency on small parts, and ease of importing common CAD formats.
• Footprint and utilities: Confirm machine footprint, electrical requirements, and any fume extraction or assist gas infrastructure needed for your shop.

What to Inspect Before You Buy

• Confirm the exact configuration (laser power, shuttle table size, and tube cutting package) matches your light‑gauge and prototype workload.
• Inspect the shuttle table motion for smooth operation, alignment, and reliable sheet transfer.
• Check tube cutting fixtures and supports for rigidity and ease of setup on small, precise tube parts.
• Review sample cut parts in your own thin sheet and tube materials to verify edge quality and tolerances.
• Evaluate the control interface and software workflow for programming small, intricate parts and quick design changes.
• Verify maintenance access to optics, protective glass, filters, and mechanical components in the compact layout.
• Assess available training and documentation for operators handling electronics and prototype work.
• Confirm service and spare‑parts availability for the specific CS‑6 configuration you are considering.
• Check that facility power, ventilation, and gas supply can support the machine without major upgrades.
• Review warranty terms and any coverage differences between flatbed and tube laser components.

Buyer Questions

What types of work is the HSG CS-6 best suited for? It is oriented toward light‑gauge fabrication, thin sheet metal, precision tube cutting, and electronics or prototype parts where accuracy and quick changeovers are important.

Can it handle both flat sheet and tube cutting? Yes, it is described as a flatbed fiber laser used in precision tube cutting, giving it capability for both flat sheet and tube laser applications.

How does the compact shuttle table help my operation? The compact shuttle table system allows one sheet to be loaded or unloaded while the other is being cut, improving throughput in a relatively small footprint.

Is this machine appropriate for heavy plate cutting? It is positioned for thin sheet metal and light‑gauge fabrication, so it is better suited to lighter materials rather than heavy plate work.

What factors most affect the price? Configuration choices such as laser power, shuttle table size, tube cutting options, and software or automation packages are the main price drivers.

Is it a good fit for prototyping environments? Yes, it is specifically noted for prototyping and electronics work, where its precision and shuttle table efficiency support frequent design changes and small batches.

What should I look for in terms of accuracy? Ask for documented positioning accuracy and repeatability, then compare those figures to the tolerances required for your electronics and prototype parts.

What utilities do I need to plan for? You should confirm electrical supply, assist gas requirements, and fume extraction capacity that match the CS‑6 configuration you are considering.

How can I verify cutting quality before buying? Request sample cuts on your own thin sheet and tube materials, then inspect edge quality, dimensional accuracy, and heat‑affected areas.

Does the compact design make maintenance harder? It depends on configuration, so you should physically review access to optics, filters, and mechanical components and confirm that routine service can be performed comfortably.

Source: HSG Compact Shuttle Table System CS-6

HSG Compact Shuttle Table System CS-6