Large-Scale All-In-One Fiber Laser Cutting Machine for Sheets, Tubes, and Profiles

The CK-13033-GRH Large-Scale All-in-One Fiber Laser Cutting Machine is an all-around, intelligent laser processing system engineered by CATEKCNC for modern, heavy-duty manufacturing environments. Specifically designed to meet the steel structure industry's demands for versatility, high precision, and maximum efficiency, it integrates sheet, tube, and profile cutting capabilities into a single system. By breaking through the functional limitations of traditional single-purpose machines, it delivers a true "multi-purpose, one-stop processing" solution. The machine is widely utilized in steel structures, bridge engineering, rail transit, shipbuilding, construction machinery, and space frame/truss manufacturing, offering full-process solutions from design drawings to finished parts. Leveraging high speed and advanced automation, the CK-13033-GRH helps enterprises slash costs, boost efficiency, and elevate their core manufacturing capabilities.

The CK-13033-GRH Large-Scale All-in-One Fiber Laser Cutting Machine offers outstanding adaptability to various metal materials and geometries, efficiently processing diverse sheets, tubes, and structural profiles. Whether handling standard steel or Irregular steel, it effortlessly executes complex processes, including hole-making, beveling, lock notching, marking, and cutting operations.

Sheet Metal Processing: Equipped with a heavy-duty slat worktable, the system stably processes various sheets up to 3,200 × 13,000 mm, supporting hole-making, vertical cutting, and bevel cutting.

Tube/Pipe Processing: Available with an optional specialized tube-clamping system, it achieves high-precision processing of round tubes (Ø15–1,200 mm) and square tubes (15–550 mm side length). It easily performs hole-making, beveling, intersecting-line cutting, and cutoff operations, fully covering the processing needs of common steel structure components.

Profile Processing: Available with an optional profile-clamping system, it enables high-efficiency processing of structural sections ranging from 100 × 100 mm to 1,500 × 600 mm.

The laser cutter features a heavy-duty gantry design mounted on a ground-rail system, delivering extreme structural rigidity, exceptional operational stability, and superior distortion resistance. Operators can load raw materials on idle stations while cutting is in progress, significantly reducing downtime and maximizing production continuity across the entire line.

For safety, the processing area is fully enclosed in a protective housing that effectively isolates sparks, debris, and laser radiation. Safety light curtains integrated along the gantry monitor the cutting zone in real time, preventing human error and ensuring the safety of both operators and equipment.

Powered by a high-performance drive system, the machine achieves a maximum acceleration of 0.8G and a maximum travel speed of 80,000 mm/min. Users can select fiber laser sources ranging from 12,000W to 40,000W based on plate thickness and processing requirements, easily handling medium-to-thick plates, high-strength steel, and structural alloy steel. The resulting cut edges are smooth, square, and burr-free, with a minimal heat-affected zone (HAZ). This significantly reduces subsequent sanding and finishing work while improving finished part quality and overall throughput.

The machine features an intelligent deviation-correction system that automatically adjusts the cutting path in real time. This eliminates cutting misalignments, minimizes the risk of laser head collisions, and guarantees long-term, continuous, and stable operation. The control system is deeply compatible with Tekla nesting software, supporting ultra-fast detailing, automatic synchronization with engineering drawings, and one-click generation of component NC code. Compared to traditional manual detailing and programming, efficiency is drastically increased, human error is virtually eliminated, and lead times are significantly shortened. Furthermore, the control logic is clean and intuitive, offering a user-friendly HMI (Human-Machine Interface) that lowers the skill barrier for operators and enhances operational convenience.

A single all-in-one fiber laser cutting machine can replace multiple traditional single-purpose units, reducing equipment procurement costs, shop floor space, and labor expenses while streamlining production workflows and simplifying management. Equipped with robust electrical controls, a constant-temperature cooling system, and an automated lubrication system, the machine is designed for reliable 24/7 heavy-duty operation, offering a low failure rate and easy maintenance. These features translate into lower overall operating costs and a significantly shorter ROI cycle. This machine is the ideal choice for steel structure manufacturers seeking to achieve smart manufacturing upgrades and expand production capacity.

Details of The Large-Scale All-in-One Fiber Laser Cutting Machine

Modular heavy-duty ground-rail machine bed

Features a modular heavy-duty, ground-rail bed structure treated with stress-relief annealing and vibration aging. With high structural strength and exceptional load-bearing capacity, it maintains ultimate stability under long-term, heavy-load cutting conditions, effectively suppressing vibrations to ensure zero performance degradation when processing large-scale workpieces.

Maxphotonics / Raycus 10kW level fiber laser source

Available with optional Maxphotonics or Raycus ultra-high-power (10kW+) fiber laser sources. Delivering robust power, stable output, and excellent beam quality, it provides the highly efficient and reliable core cutting power required for thick plates and various structural steel components.

BOCI BLT4 P-series intelligent cutting head for profiles

Custom-engineered for profile processing, the BLT4 P-Series cutting head integrates multi-sensor closed-loop monitoring, anti-collision protection, and a drawer-type maintenance-free optical path. It features a positioning accuracy of ± 0.01 mm, supports up to 25 bar high-pressure cutting, and offers a ±50 mm rapid focus adjustment. It effortlessly achieves one-step precision hole-making, chamfering, and beveling for structural profiles and is compatible with 8–40kW high-power laser sources to drastically boost profile processing efficiency.

BCW 600B-E industrial laser contour scanner

Equipped with the advanced BOCHU BCW600B-E profile scanner, specifically engineered for deformation detection and geometric compensation of H-beams, channel steel, and other structural profiles. Prior to processing, it performs high-speed scanning of the workpiece’s actual outline to generate a real-time 3D point cloud model. The CNC system rapidly compares this data against theoretical blueprints. Using a smart adaptive compensation algorithm, it dynamically calibrates the cutting trajectory and processing parameters. This effectively eliminates hole misalignment, beveling inaccuracies, dimensional errors, and laser head collision risks caused by profile deformation, ensuring a safe and stable cutting process.

Ultra-large slat worktable

Built with a heavy-duty, highly durable frame and slat structure, this worktable securely supports and efficiently executes high-performance laser cutting operations on large-format plates up to 3,200 × 13,000 mm.

High-precision transmission system

Combines precision square linear guides with a high-accuracy rack and pinion drive system, supported by a rigidity-optimized structural frame. This premium configuration ensures pinpoint positioning and smooth motion, guaranteeing that the machine maintains superior machining accuracy even during extended periods of high-speed cutting.

Large-diameter tube support unit

Accommodates a comprehensive range of sizes, supporting round tubes (Ø15–1,200 mm) and square tubes (15–550 mm). It delivers robust structural stability and smooth loading/unloading, enabling highly efficient, vibration-free cutting for all tube profiles.

Large-span profile support unit

Provides support and a broad compatibility range, easily handling structural profiles with cross-sections from 100 × 100 mm to 1,500 × 600 mm. It prevents sagging and deformation in extra-long workpieces, ensuring maximum cutting efficiency and precision.

Sheet metal protective enclosure

The sheet metal housing effectively blocks sparks, intense laser glare, radiation, and slag splatter, providing a clean and secure working environment for on-site personnel. Additionally, the machine is integrated with safety light curtains; the system executes an immediate emergency stop if any personnel or foreign object breaches the active processing zone.

Hanli industrial-grade chiller

The Hanli industrial-grade 20000W chiller delivers powerful cooling capacity and precise, constant temperature control. It provides reliable thermal protection for both the laser source and the cutting head, ensuring continuous and stable long-term operation.

Winhee AC cooling unit for electrical cabinet

Maintains a constant temperature and humidity while sealing out dust and airborne contaminants. This high-efficiency cooling unit provides the main electrical control cabinet with all-weather, reliable heat dissipation and comprehensive component protection.

Automatic lubrication system

Delivers precise, timed, and quantitative oil injection to ensure continuous lubrication. This automated setup minimizes manual maintenance, reduces wear on linear guide rails and ball screws, extends overall mechanical lifespan, and guarantees the stable, long-term operation of the equipment.

Fully enclosed cable carrier

Features a fully enclosed structure that effectively shields internal cables from sparks, dust, and oil contamination. Wear-resistant and neatly organized, it ensures a more stable electrical system and drastically reduces machine downtime and failure rates.

BOCHU FSCUT 9200 CNC control system

Equipped with the BOCHU FSCUT 9200 dedicated profile cutting control system, which delivers rapid processing speeds and ultra-precise control. Optimized specifically for profile composite machining, it supports intelligent geometric compensation and nesting software integration, making cutting operations more stable and efficient.

This control system is equipped with a 2.4GHz wireless keyboard and mouse set that guarantees stable signal transmission, ultra-low latency, and highly responsive operation. Featuring robust anti-interference capabilities, it eliminates cable clutter, allowing operators to conveniently manage system interfaces and adjust cutting parameters from a distance for a more flexible and efficient workflow.

BOCHU WKB wireless handheld controller

Equipped with the BOCHU WKB-V6H wireless handheld controller, offering highly responsive operation with low latency. It supports mobile on-site debugging, rapid parameter configuration, and emergency stop control. By eliminating cable constraints, it drastically enhances operational convenience and workplace safety.

Multi-angle monitoring camera system

Configured with four real-time monitoring cameras to capture multi-angle, live footage of the processing area, cutting head behavior, and workpiece progression. The operator console features an independent monitoring display, allowing operators to easily track the live cutting status and immediately detect any operational anomalies.

Technical Parameters of The 2026 New Multi-Functional Fiber Laser Cutting Machine for Steel Structures

Features of The 2026 New Multi-Functional Fiber Laser Cutting Machine

1. Modular Heavy-Duty Ground-Rail Bed Frame

Built on a modular, heavy-duty ground-rail (floor-type) machine bed paired with a robust gantry structure, the system features a machine bed fabricated from ultra-thick steel plates through segmented modular welding, delivering a highly compact footprint with immense load-bearing capacity. The bed is treated with both high-temperature annealing and vibratory stress relief (VSR) to eliminate residual internal stresses. This dual-stage stabilization ensures jitter-free, ultra-stable operation under long-term, high-speed, and heavy-load working conditions, preserving mechanical precision over an extended lifespan. The low-center-of-gravity ground-rail design combines with a widened, reinforced base infrastructure to effectively suppress mechanical resonance, directly enhancing cut edge squareness and surface finish quality. The modular architecture facilitates streamlined dismantling, container shipping, and on-site assembly. With superb field scalability, it perfectly accommodates extra-large, high-mass steel structural components, providing an unshakable foundation for heavy-duty steel fabrication.

2. Ultra-High-Power Fiber Laser Source (Raycus / Maxphotonics / IPG)

Powered by an ultra-high-power (10kW+) fiber laser engine, offering brand options including Raycus, Maxphotonics, and IPG, with power outputs spanning from 12,000W to 40,000W (12kW to 40kW), it generates unrelenting, stable cutting dynamics tailored for heavy plates in the steel structure sector. Featuring a highly reliable, monoblock fiber cavity design, the laser delivers exceptional wall-plug efficiency (electrical-to-optical conversion) exceeding 38%. Combined with pristine beam quality and highly uniform energy distribution, it excels at processing challenging materials like medium-to-thick plates, high-strength structural steel, and alloy steel while drastically slashing factory energy overheads. The resulting cut surfaces boast exceptional edge finish and perfect verticality, eliminating or significantly reducing the need for downstream grinding and secondary deburring. The laser source maintains unwavering power consistency and elite back-reflection resistance during continuous 24/7 cycles. Its compact, maintenance-free design fundamentally mitigates the risk of optical contamination or wear on the cutting head and core internals, providing reliable core power for both high-volume serial production and intricate bespoke fabrications.

3. BOCI High-Power Intelligent Laser Head

The machine is standardized with the BOCI BLT P-series fiber laser cutting head, meticulously optimized for high-power structural steel profile processing and fully rated for 12kW to 40kW environments. It achieves pinpoint focusing accuracy of ±0.01mm with exceptional beam alignment stability. Custom-calibrated gas flow dynamics and optical paths are engineered specifically for asymmetrical cross-sections such as H-beams, channel steel, square tubes, and round pipes, creating perfectly square cut profiles, burr-free interior walls, and flawless bevel geometries while minimizing secondary finishing. The head is integrated with multi-level internal monitoring sensors and features robust anti-collision, dust-proof, and anti-splatter shielding. Continuous lens status tracking and smart thermal management actively prevent slag clogging and protective window contamination during heavy-duty operations. Driven by rapid auto-calibration and intelligent piercing algorithms, the head delivers lightning-fast response times and exact Z-axis positioning, maximizing cutting continuity and piercing success rates for thick plate materials.

4. BOCHU FSCUT 9200 CNC System

Powered by the BOCHU FSCUT 9200 CNC system, it seamlessly integrates a BCL4568E slave controller and a BCW600B 3D profile scanner. High-speed calculation engines orchestrate the laser source, cutting head, and servo drives to achieve highly efficient, multi-process machining—including cutting, beveling, hole-making, and lock notching. Features a built-in, pre-optimized cutting parameter library for various cross-sections (H-beams, channels, round/square tubes) supporting up to 40kW laser applications, drastically flattening the operational learning curve. The controller natively supports a positioning accuracy of ±0.01mm and a repositioning accuracy of ±0.005mm. Paired with real-time 3D contour scanning and machine vision compensation, the system dynamically recalculates paths to correct for raw material warping, eliminating hole misalignments or structural dimensional drift.

5. Hanli Industrial Water Chiller

Equipped with a heavy-duty Hanli industrial water chiller featuring an independent recirculating cooling framework, this system delivers ample cooling capacity with precise, adjustable temperature regulation from 7°C to 40°C and an elite thermal stability threshold of ±0.2°C. It features an advanced 2-zone independent temperature control design, providing dedicated, constant-temperature cooling to the laser generator, cutting head, and optical delivery paths respectively. This device locks core components into their optimal working temperature windows during prolonged, heavy-duty processing cycles, fundamentally preventing heat-induced power attenuation, focal/precision drift, or catastrophic equipment failure. The chiller is engineered with a multi-tiered array of built-in safety interlocks, including low-water-level alarms, over-temperature cutouts, and real-time volumetric flow detection. Delivering stable, highly reliable operations with whisper-quiet acoustics and low energy draw, this low-maintenance system effectively extends the operational lifespan of both the laser source and the cutting head. By drastically amplifying the continuous runtime stability of the entire machine, it provides an unshakable framework for heavy-duty steel structure fabrication.

6. Inovance Bus-Based Absolute Servo System

The three linear axes are driven by the Inovance high-performance bus-based absolute servo system, which utilizes high-speed EtherCAT bus communication with a synchronization error of merely 15 ns, delivering an ultra-fast response speed. Equipped with 23-bit absolute encoders, it achieves pinpoint positioning accuracy and provides robust, smooth power output for the linear motions. The system exhibits exceptional low-speed smoothness and high-speed rigidity, minimizing jitter and overshoot during high-speed, high-precision cutting, which effectively guarantees the contour precision and hole consistency across profiles, tubes, and sheets. With strong anti-overload capabilities, it supports short-term overloads of up to 3 times the rated torque, meeting the demands of prolonged, continuous heavy-duty operations. Compared to conventional pulse servos, this system elevates positioning accuracy to the micron level and improves dynamic performance by more than 3 times, allowing the machine to execute more precise movements and achieve higher processing efficiency during complex procedures like cutting and beveling.

7. KOFON Planetary Reducer

The Inovance bus-based servo motors are paired with KOFON high-precision planetary reducers. Characterized by extreme rigidity and transmission accuracy, these gearboxes feature minimal gear backlash and exceptional running smoothness, guaranteeing stable torque output even under high-speed start-stop cycles and heavy-duty cutting conditions while effectively suppressing vibrations and lost motion to significantly enhance the overall machine positioning accuracy and cutting contour consistency. Fabricated from high-strength, wear-resistant materials through precision machining processes, the gearboxes boast immense load capacity and an operating noise level below 70 dB, ensuring long-term stable operations in harsh production environments. Matching perfectly with the Inovance bus-based servo system, they render the transmission smoother and the response faster, securing the machine's ability to execute complex processes such as high-precision cutoff and beveling.

8. Wide Range of Processing Compatibility

Engineered for the diverse specifications and categories inherent in the steel structure industry, the machine incorporates a partitioned multi-station design that simultaneously accommodates the processing needs of sheet metal, tubes, and structural profiles, eliminating the corporate need to purchase multiple single-function machines and thereby reducing capital expenditure and factory floor footprint. When fitted with the slat worktable, it can process large-format sheets within a 3,200 × 13,000 mm range; when configured with the tube clamping units, it handles round pipes from Ø 15 - 1,200 mm and square/rectangular tubes with cross-sections from 15 - 550 mm, adapting flawlessly to intersecting-line cutting, beveling, and hole-making for various tube types; when integrated with the profile clamping units, it accommodates all types of structural profiles with cross-sectional dimensions ranging from 100 × 100 mm to 1,500 × 600 mm.

9. All-Around Safety Barriers Ensuring Secure Production

The machine exterior is enclosed by a heavy-duty sheet metal housing that effectively blocks cutting sparks, intense radiation, and high-temperature slag splatter while preventing personnel from accidentally entering hazardous zones, thereby providing a reliable physical safety barrier for shop-floor operations. High-precision photoelectric safety light curtains are deployed to form an invisible electronic protective shield. The system executes an immediate emergency stop if any personnel or foreign object breaches the active zone, eliminating collision and injury hazards and maximizing the safety of both operators and equipment.

10. High-Efficiency Auxiliary Accessories for High-Performance Fiber Laser Cutting Machine

Automatic Lubrication System: This fully automatic electric lubrication system delivers continuous 24/7 oiling to eliminate manual intervention, executing timed, quantified, and targeted automatic lubrication across core transmission components such as guide rails and ball screws. This configuration significantly reduces routine maintenance overhead while guaranteeing uniform and thorough lubrication, which effectively minimizes component wear and tears to extend their overall operational lifespan, ensuring the machine maintains smooth transmission and stable performance during long-term, continuous, and heavy-duty processing cycles.

Fully Enclosed Cable Carrier: This enclosed cable carrier fully encloses motor cables, signal lines, and pneumatic tubes, protecting them from abrasive dust, slag splatter, and oil contamination. It prevents wiring wear, crushing, or premature aging, drastically reducing the frequency of electrical faults and downtime risks. This renders the entire electrical architecture safer, more durable, and completely hassle-free to maintain.

Electrical Cabinet Air Conditioner: The electrical enclosure is equipped with a specialized industrial cooling air conditioner that provides a stable, constant-temperature environment for core electrical components including servo drives, the CNC controller, and power modules, boasting an adjustable thermal regulation spectrum from 20°C to 35°C. Even under the extreme conditions of steel structure workshops—characterized by high ambient temperatures, heavy dust concentration, and non-stop production cycles—it maintains a constant internal temperature to actively prevent component aging, damage, or malfunction caused by overheating, humidity, or dust ingestion, thereby safeguarding electrical system stability, amplifying total equipment reliability, and slashing downtime for smoother shop-floor throughput.

Multi-Angle Monitoring Camera System: The system is integrated with four multi-angle surveillance cameras positioned above the machining envelope to capture real-time, high-definition footage of the active processing zone, cutting head trajectories, and workpiece progression. Through the dedicated console monitor, operators can intuitively track intricate operational details and nesting progress without entering hazardous zones, which simultaneously ensures live cut quality control and immediate anomaly detection, drastically heightening workplace safety and monitoring convenience for highly efficient, stress-free remote oversight.

BOCHU WKB-V6H Wireless Handheld Controller: This premium industrial remote control is explicitly engineered for laser cutting environments, supporting an extended operational range of up to 35 meters with elite anti-interference capabilities and ultra-stable long-distance signal transmission. It allows operators to execute core functions including axis jogging, cutting, rate adjustment, and calibrations with highly sensitive tactile responsiveness, comprehensively driving up the safety and operational efficiency of machine debugging, material loading, and on-site processing logistics.

Application Scope of The Large-Scale All-in-One Fiber Laser Cutting Machine

Steel Structure Engineering Industry

Industry Demands: Steel structure engineering demands the high-volume fabrication of workshop steel frames, bridge components, curtain wall keels, architectural embedded parts, box columns, steel beams, connection plates, anchor bolts, canopy frameworks, plant beams/columns, and space-grid pipe fittings. The raw materials consist primarily of square tubes, round pipes, H-beams, I-beams, channel steel, angle steel, and thick plates. These components exhibit highly diversified specifications and massive, heavy-duty geometries, requiring extreme dimensional accuracy, pristine kerf smoothness, and flawless assembly fitment, while mandating support for both standardized mass production and non-standard, bespoke geometrical customization.

Reasons for Selection: The CK-13033-GRH ultra-high-power multi-functional laser cutting system is fully compatible with all types of heavy metal profiles and sheets, excelling at cutting and hole-making processes for high-strength steel grades including carbon steel, alloy steel, and manganese steel. It delivers exceptional processing quality with a minimized Heat Affected Zone (HAZ), perfectly satisfying the strict splicing, welding, and assembly standards of steel structure components. Supporting both large-format mass production and bespoke fabrication of intricate steel structural elements, the system seamlessly adapts to full-scenario manufacturing needs across factory buildings, bridges, curtain walls, and construction engineering, driving up structural component processing throughput and finished-product yield rates.

Construction Machinery Industry

Industry Demands: The auxiliary components and attachment systems for construction machinery, mining apparatus, and agricultural equipment are highly complex, requiring the fabrication of structural elements such as excavator and loader booms/arms, agricultural implement frames, mining machine armor plates, crane outriggers, hydraulic pipe assemblies, and structural reinforcement brackets. Most of these components utilize heavy-duty wear-resistant and high-mass-bearing metals like high-strength alloy steel and manganese steel, enforcing rigorous metrics on structural integrity, loading stability, and dimensional tolerance thresholds, while frequently calling for non-standard custom shapes.

Reasons for Selection: This multi-functional fiber laser cutting machine exhibits outstanding processing performance on high-strength, high-hardness metallic substrates, executing deep-cutting operations on thick plates and heavy profiles with ease to effectively counteract material warping and rough kerf edges. Furthermore, it supports the tailored fabrication of complex structural parts and irregular hardware components, precisely aligning with the load-bearing, wear-resistance, and assembly specifications mandatory for construction, mining, and agricultural machinery.

Hardware & Sheet Metal Fabrication Industry

Industry Demands: The hardware and sheet metal sector encompasses an extensive spectrum of products including server racks, power distribution boxes, electrical enclosure housings, metal flanges, decorative panels, perforated ventilation sheets, metal sinks, sanitary hardware, metal handles, and sealing gaskets. Utilizing raw materials dominated by stainless steel, galvanized sheets, carbon steel, and aluminum alloys, the workpieces are typically thin, diverse, and geometrically intricate, demanding superior surface flatness, micro-precision hole alignment, and premium aesthetic textures.

Reasons for Selection: This all-in-one laser cutting machine is perfect for sheet metal processing across thin, medium, and thick gauges, delivering integrated, single-setup execution of cutting, perforating, forming, contouring, and edge-trimming processes. The finished products are scratch-free and burr-free, eliminating the need for secondary downstream grinding. Supporting a broad array of non-ferrous metals and anti-corrosive sheets, it perfectly adapts to the high-precision processing of electrical enclosures, sanitary hardware, decorative metal accents, and universal components, seamlessly balancing high throughput speeds with pristine aesthetic product finish quality.

Fitness Equipment & Recreation Facilities Industry

Industry Demands: The core components of fitness equipment and park recreation facilities consist predominantly of tube-based structural configurations, including various exercise frames, support brackets, handrails, asymmetrical tube geometries, dumbbell racks, and load-bearing elements for playground apparatus. The raw materials are dominated by round pipes, square tubes, rectangular profiles, and aluminum alloys, featuring highly contoured profiles and complex dimensional curves. This imposes strict benchmarks on pipe kerf quality, bending accuracy, and joint fitment while mandating that finished products satisfy uncompromising wear-resistance and anti-rust performance standards.

Reasons for Selection: This all-in-one fiber laser cutting machine excels at processing all varieties of metal tubes and asymmetrical structural profiles, delivering precise execution of cutting, forming, perforating, and cutoff procedures to fully accommodate the highly diversified, complex geometry requirements inherent in fitness equipment. Supporting multiple substrates such as stainless steel and aluminum alloys, the system yields elite machining precision and tight-fitting assembly joints, effectively safeguarding the structural stability and operational safety of fitness and recreational assets.

Metal Furniture & Warehouse Racking Industry

Industry Demands: The fabrication of warehouse racking systems, supermarket shelving, display racks, office metal furniture, wrought iron table/chair frames, storage shelving, and associated hardware components relies heavily on thin-walled tubing, light structural steel, galvanized sheets, and aluminum alloys. While these workpieces feature relatively regular structures and highly standardized specifications, there remains a massive volume of bespoke, made-to-order dimensional requirements, placing a premium on uniform part consistency and flawless surface finishes.

Reasons for Selection: Engineered with high-precision mechanics, this all-in-one fiber laser cutting machine operates with minimal dimensional variance during high-volume serial production, effectively guaranteeing the complete interchangeability and assembly compatibility of shelving and furniture components. This drastically drives down labor and time costs for furniture and racking manufacturers.

Automotive Manufacturing & New Energy Industry

Industry Demands: The automotive and new energy sectors require the high-precision processing of chassis frame tubing, exhaust pipes, underbody protective shields, body-in-white sheet metal components, anti-collision intrusion beams, seat frames, wheel hub brackets, battery enclosure sheet metal structures, doors, and bumper-supporting metal elements. Incorporating lightweight, high-strength material matrixes such as carbon steel, aluminum alloys, and titanium alloys, these components enforce ultra-stringent accuracy metrics to conform with rigorous vehicle assembly tolerances, while necessitating dedicated support for customized, lightweight new energy vehicle (NEV) componentry.

Reasons for Selection: This multi-functional metal processing machine is fully compatible with high-strength, lightweight specialized alloys dedicated to the automotive sector, offering an accuracy threshold that satisfies the micro-tolerance assembly demands of precision automotive components. Spanning the entire spectrum of part fabrication—including body sheet metal, chassis structural elements, tube-based brackets, and NEV battery pack enclosures—the system comprehensively covers the production logistics of both conventional internal combustion engine (ICE) vehicles and new energy vehicles.

Traffic Barriers & Municipal Engineering Industry

Industry Demands: The municipal traffic sector primarily requires the processing of road guardrails, bridge railings, protective mesh systems, manhole covers, traffic sign brackets, and street light poles. The raw materials consist mostly of galvanized tubing, carbon steel profiles, and steel plates. This industry enforces rigorous benchmarks on component durability and structural integrity, with production dominated by highly standardized mass products alongside occasional requirements for non-standard customized shapes.

Reasons for Selection: This large-scale all-in-one fiber laser cutting machine is fully compatible with common municipal metals such as galvanized sheets and carbon steel, executing precise cutting without damaging the protective zinc coating to safeguard the finished products' anti-rust capabilities. It delivers high-efficiency batch cutting, perforating, and profiling for barrier tubes, mounting brackets, and signage components, yielding stable structures and uniform dimensions that perfectly satisfy the high-volume procurement demands of municipal roads, bridges, and industrial park security infrastructure.

Shipbuilding Industry

Industry Demands: The shipbuilding and marine sector mandates the precision fabrication of marine-grade aluminum alloy structural members, specialized marine piping assemblies, deck fixtures, mounting brackets, accommodation ladders, cabin handrails, and small-to-medium vessel sheet metal components. Enforcing uncompromising standards on material rust prevention, corrosion resistance, and anti-vibrational stability, this sector utilizes anti-corrosive substrates heavily dominated by aluminum alloys and stainless steel, requiring highly precise component geometries tailored for tight marine installation envelopes.

Reasons for Selection: The machine is fully adaptable to marine-grade metal substrates including aluminum alloys, stainless steel, and anti-corrosive specialties, utilizing a refined machining process that preserves the native corrosion-resistant properties of the raw material. It delivers precise fabrication of diverse marine structural elements, complex pipe profiles, and sheet metal fixtures, yielding finished products characterized by high structural strength, exceptional sealing integrity, and seamless fitment to satisfy rigorous maritime equipment standards across vessel maintenance, shipbuilding supply chains, and offshore apparatus manufacturing.

When to Choose an All-in-One Multi-Functional Fiber Laser Cutting Machine？

1. Diversified Production Demands Capable of Handling Sheets, Tubes, and Profiles on a Single Machine

Applicable Scenarios: When processing intricate, highly diversified order portfolios that encompass metal sheets, round pipes, rectangular tubing, H-beams, I-beams, channel steel, angle steel, and asymmetrical structural elements, and demanding the single-setup execution of multi-process operations such as high-precision cutoff, perforating, beveling, coping/interlocking, intersecting-line cutting, and part marking. Typical applications include heavy steel structure manufacturing, comprehensive hardware fabrication, multi-category bespoke prototyping, architectural steel frameworks, industrial machinery componentry, and high-mix tube-and-profile job shop processing.

Reasons for Recommendation: Under traditional manufacturing methodologies, an enterprise would be forced to independently purchase separate sheet laser cutting machines, dedicated tube processing machines, and profile cutting machines, culminating in exorbitant capital expenditure and occupying a massive footprint on the factory floor. Furthermore, dispersing operations across distinct machinery fragmentizes the production workflow, mandates multiple groups of labor overheads, introduces tedious logistics, and drastically elevates the risk of dimensional inaccuracies or process disconnects during machine-to-machine transfers. Opting for an all-in-one multi-functional machine effectively replaces an entire array of single-function machinery with a solitary capital asset, executing the comprehensive fabrication of all workpiece types on a single machine to simplify workshop routing while simultaneously driving down operational costs and boosting throughput.

2. High-Precision Processing and Production Demands for Large-Format, Extra-Large, and Great-Span Workpieces

Applicable Scenarios: When production involves ultra-long, ultra-wide large-format metal sheets, large-diameter metal pipes, and massive cross-section heavy structural steel profiles, where the traveling strokes and processing envelopes of conventional, smaller laser cutting machinery fall short of operational specifications. These heavy-duty demands are typically concentrated in engineering fields such as steel-structure bridge construction, industrial workshop trusses and support pillars, large-scale space frames, and heavy construction machinery components.

Reasons for Recommendation: Standard laser cutting machines are strictly limited by their localized frame architectures, bed travel restrictions, and smaller support clamping capacities, leaving them capable of handling only small-to-medium workpieces. When confronted with large-format, ultra-heavy, or high-cross-section raw materials, standard systems fail to secure stable clamping, leading to incomplete processing or forcing enterprises to partition the workpiece, which severely compromises structural accuracy and delivery timelines. Conversely, the CK-13033-GRH is engineered with a heavy-duty ground-rail machine bed capable of supporting massive payloads up to 16 tons; by incorporating specialized heavy-duty loading tables or clamping fixtures, it processes ultra-large sheets up to 3,200 × 13,000 mm, extra-large tubes with diameters from Ø 12 to 1,200 mm, and massive profiles from 100 × 100 mm up to 1,500 × 600 mm via single-setup processing, ensuring the integrity and total dimensional uniformity of extra-large components from start to finish.

3. Production Demands for Complex and Precision Processes Including Beveling, Intersecting-Line Cutting, Coping, and Irregular-Shaped Perforation

Applicable Scenarios: When workpiece fabrication extends far beyond simple vertical cutoff operations, requiring the execution of intricate forming techniques such as structural profile beveling, tube intersecting-line cutting, profile lock notching, asymmetrical perforation, and multi-angle miter cutting. These multi-process demands are highly prevalent in complex components such as steel-structure connectors, truss nodes, pipeline assemblies, curtain wall framing, and customized structural elements for heavy construction machinery.

Reasons for Recommendation: Simple single-function laser cutters lack the multi-axis capability to execute composite, asymmetrical processes like beveling, intersecting-line cutting, and coping across highly diverse material geometries. Traditional processing methods rely heavily on plasma or oxy-fuel cutting, sawing, and manual grinding for fit-up, which yields coarse finishes, large dimensional variances, and high scrap rates. Conversely, this multi-functional fiber laser cutting machine consolidates complex operations like beveling, intersecting-line cutting, and coping into a continuous, single-setup process, delivering immaculate structural accuracy and standardized uniformity that completely eradicates the loose tolerances and tedious workflow fragmentation of legacy manufacturing methodologies.

4. Production Demands Seeking to Lower Equipment Capital Investment, Save Floor Space, and Cut Labor Overhead

Applicable Scenarios: When enterprise production workshops are constrained by limited floor space and restricted equipment procurement budgets, or burdened by escalating manual labor costs, and urgently require the consolidation of machinery quantities, reduction of frontline operators, and simplification of active processing workflows to seamlessly adapt to capacity scaling while maximizing factory-floor cost-efficiency.

Reasons for Recommendation: Traditional standalone processing models for sheets, tubes, and structural profiles mandate the multi-asset procurement of separate machinery, which occupies a massive physical floor footprint within the shop floor while requiring multiple dedicated operators to manage fragmented, individual stations. This legacy operational flow results in extraordinarily high equipment CapEx, excessive real estate overheads, and inflated labor costs; additionally, moving workpieces between multiple single-function machines demands repeated material transfers and redundant setup re-clamping, consuming excessive time and causing progressive accumulation of tolerance stacks. Conversely, this all-in-one multi-functional fiber laser cutting system achieves full multi-purpose integration on a single platform, serving as a direct replacement for multiple standard single-function machines to drastically slash equipment acquisition expenditures, compress required factory floor space, and minimize frontline headcount. By executing complex fabrications with only a single-setup material clamping sequence, the system streamlines manufacturing management workflows, comprehensively drives down total enterprise operational costs, and significantly shortens the return on investment (ROI) payback cycle.

5. Production Demands Enforcing Highly Rigorous Occupational Safety and Operational Protection Standards

Applicable Scenarios: When production workshops feature a high density of ongoing foot traffic and multi-worker cross-operational activities, imposing strict mandates on machine guarding architectures and operational safety protocols to completely eradicate hazardous vulnerabilities such as stray laser radiation, high-temperature spatter flying, and accidental mechanical collisions, making it perfectly calibrated for formalized, highly standardized manufacturing facilities.

Reasons for Recommendation: Standard open-type fiber laser cutting machines lack comprehensive defensive protection barriers, meaning that the scattered laser radiation and white-hot metallic spatter generated during processing frequently cause severe workshop pollution and immediate personnel safety hazards, while presenting an unacceptably high risk of accidental human intrusion into active motion zones. Conversely, this machine is engineered with a fully enclosed protective enclosure that establishes comprehensive, isolation against both harmful laser radiation and cutting particulate debris; simultaneously, an intelligent light curtain safety system continuously monitors the perimeter of the active processing envelope in real time, automatically triggering an instantaneous emergency stop the moment personnel or foreign objects breach the safety boundary to absolute-safeguard operator well-being, protect equipment structural integrity, and fully satisfy the enterprise's compliance requirements for standardized, zero-harm production environments.