HSG 3D Tube & Plate Combo Laser 12000W

Used in Automotive, Precision Fabrication, Aerospace for Automotive Components, HVAC Panels, Precision Fabrication Strength: General Fabrication Hsg Other > Flatbed Fiber Laser Mac-Tech Sales: https://mac-tech.com/contact-us/ Machine Parts & Service: https://mac-tech.com/need-a-part/

The HSG 3D Tube & Plate Combo Laser 12000W is a high‑power flatbed fiber laser system designed for both plate and tube cutting in demanding general and precision fabrication applications, including automotive components, HVAC panels, and aerospace-related work.

1) Quick Look

• Machine type: 3D tube & plate combo flatbed fiber laser cutting system
• Laser power class: 12,000 W fiber laser
• Typical applications: general fabrication, automotive components, HVAC panels, precision fabrication, aerospace-related parts
• Workpiece types: flat plate/sheet plus tubular/structural sections (3D tube work)
• Target users: job shops and manufacturers needing both plate and tube capability on one machine
• Key advantages: high cutting speed on compatible materials, combined tube/plate workflow, suitability for high‑precision parts

2) What It Typically Costs

Pricing estimate (USD): $650,000 – $1,200,000

• Lower end of range typically corresponds to more basic configurations (smaller bed, fewer automation options, simpler tube handling).
• Higher end reflects larger work envelopes, more advanced tube/3D cutting features, and integrated automation or material handling.
• Operating costs are driven largely by electrical consumption, assist gas usage, and routine consumables (nozzle, lenses, protective glass).
• Total installed cost can increase with requirements such as fume extraction, material storage systems, and integration into existing production lines.

3) Specs That Matter

• Laser power (12,000 W): High-power fiber source aimed at fast cutting of suitable metals in both plate and tube formats, especially valuable for thicker sections and high throughput fabrication.
• Combo tube & plate capability: Ability to process flat sheet/plate and 3D tube/section work on one platform, reducing the need for separate machines for automotive components, HVAC panels, and other fabricated parts.
• Precision and edge quality: Intended for precision fabrication and aerospace-related work, where dimensional accuracy, tight tolerances, and clean cut edges are critical.
• Work envelope (plate vs. tube): For buyers, the practical sheet size (e.g., common plate formats) and maximum tube length/diameter that can be handled are key capacity considerations.
• Material handling and changeover: Tube loading/unloading and plate loading methods significantly affect productivity in mixed-production environments (e.g., switching between HVAC panels and structural tubes).
• Control and nesting software: CAD/CAM and nesting capabilities are important for maximizing material utilization on flat plate and optimizing tube cut paths for automotive and precision components.
• Integration with downstream processes: Suitability for linking with bending, welding, and finishing operations commonly used in general fabrication and automotive/aerospace component lines.

4) What to Inspect Before You Buy

• Confirm the maximum plate size and thickness, as well as tube/section dimensions, match your typical and peak job requirements (automotive, HVAC, structural, etc.).
• Inspect the tube and plate handling systems (chucks, supports, conveyors, pallet changers if present) for build quality, accessibility, and ease of setup/changeover.
• Evaluate cut quality on representative materials and thicknesses from your work (edge finish, dross, kerf width, hole quality on precision components).
• Review the control interface and programming workflow, including how 3D tube geometries and flat patterns are imported, nested, and scheduled.
• Assess accessibility for maintenance: lens/protective window changes, nozzle replacement, alignment checks, and filter or fume extraction service points.
• Check documented tolerances and repeatability against the requirements of your precision fabrication and aerospace-related jobs.
• Verify available safety features and guarding around both plate and tube cutting areas, especially for 3D operations.
• Discuss expected operating costs (power, assist gas, consumables) under your typical duty cycle to ensure total cost of ownership fits your budget.
• Confirm availability of training, technical support, and spare parts coverage appropriate to your location and production schedule.
• Request references or sample parts from similar users working in automotive components, HVAC panels, or comparable fabrication sectors.

5) FAQ

What type of machine is the HSG 3D Tube & Plate Combo Laser 12000W? It is a high‑power flatbed fiber laser system designed to cut both flat plate and 3D tube/section work on one platform.

What is the typical price range? The estimated price range is approximately $650,000 to $1,200,000 USD, depending on configuration and options.

What industries commonly use this type of combo laser? It is suited to general fabrication, automotive components, HVAC panel production, precision fabrication, and certain aerospace-related applications.

Why choose a combo tube and plate laser instead of separate machines? A combo system allows both plate and tube cutting on one machine, which can reduce floor space, simplify material flow, and centralize programming and maintenance.

What advantages does 12,000 W laser power provide? This power level is intended for high cutting speeds and the ability to process thicker compatible materials efficiently in both plate and tube formats.

Is it suitable for high-precision work? Yes, it is described as being used in precision fabrication and aerospace-related work, where accurate and repeatable cutting is required.

Can it handle HVAC panels effectively? Yes, HVAC panels are a stated application, indicating suitability for cutting flat sheet metal parts used in HVAC systems.

What should I focus on when comparing different configurations? Key factors include plate bed size, maximum tube dimensions, automation level, software capabilities, and how well each configuration matches your part mix.

How important is software with a 3D tube & plate combo laser? Software is critical for efficient nesting on plate, accurate tube path generation, and smooth workflow from design to finished part.

What ongoing costs should I plan for? You should plan for electrical power, assist gas, and normal consumables such as nozzles and optical protection elements, along with routine maintenance.

Source: HSG 3D Tube & Plate Combo Laser 12000W

HSG 3D Tube & Plate Combo Laser 12000W