MEET CATEKCNC

CATEK · Spire

Name: 1530 Linear ATC CNC Router Machine with Automatic Loading & Unloading
Brand: CATEKCNC
SKU: CATEKCNC-CK-1530-RSP-TA
Price: 14990.00 USD
Availability: InStock
Rating: 5.0 (1 reviews)

1530 Linear ATC CNC Router Machine with Automatic Loading & Unloading

5.0 Rating (0 customer reviews)

· Function Description ·

This is a Spire CNC nesting machine with a 5x10ft (1500*3000mm) work table. It features a linear tool changer and an automatic loading and unloading system, enabling fully automated, multi-process panel machining.

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Brand: CATEKCNC
Model: CK-1530-RSP-TA
Tags: Spire Series, ATC, Automatic Loading & Unloading
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CATEK · Spire

Empowering Production With Automation and Unmanned Processing to Cut Costs and Boost Value

The CK-1530-RSP-TA is a CNC nesting machine featuring a 1500×3000 mm (5×10 ft) working area. Compared to the standard 4×8 ft tables common on the market, its larger format easily accommodates the production of oversized custom cabinets and furniture components. Equipped with a linear tool magazine and an Automatic Tool Changer (ATC) system, the machine automatically switches tools mid-process based on production needs. This ensures seamless continuity for multi-process requirements, significantly boosting efficiency while reducing labor and time costs.

Furthermore, this model is equipped with a proven automatic loading and unloading system, achieving full-process automation—from loading, positioning, and vacuum clamping to processing and unloading. By completely liberating the workforce, it completes the "final piece of the puzzle" for automated manufacturing.

As part of the Spire Series, the CK-1530-RSP-TA comes with exclusive service benefits: premium components, high-specification production standards, and traceable lifecycle management via unique machine coding. Customers enjoy a 5-year extended warranty, lifetime free maintenance, and lifetime free software updates. Supported by a dedicated service team and comprehensive after-sales protection, it delivers a more worry-free and reliable user experience.

Core Advantages of Spire 1530 CNC Router: Four Dimensions to Reshape the Standards of High-Efficiency Production

01.

Unmanned Processing,
Fully Automated Loading & Unloading.

The Spire 1530 CNC Nesting Machine integrates a highly automated production chain. Through the precise coordination of the loading table, suction cups, and auxiliary rollers, boards are seamlessly transferred from the loading area to the worktable. Positioning cylinders ensure rapid alignment, followed by secure vacuum clamping for stable processing. Once the task is complete, an automatic pusher moves the finished parts to the unloading table, which then conveys them to the next production line. This closed-loop system manages everything from raw material input to finished product output with zero manual handling. By eliminating labor dependency and minimizing transition times, it ensures the equipment remains in a state of high-efficiency continuous operation.

02.

Large-Format Table,
and Flexible Customization.

The CK-1530-RSP-T features an expansive 1500×3000 mm (5×10 ft) working area, making it highly versatile for large-sheet layout, high-efficiency nesting, and complex workpiece processing. Beyond standard specifications, the Spire Series excels in customization: we can flexibly adjust the machine structure, processing dimensions, and functional configurations to suit your factory space, material characteristics, and production workflows. From entry-level setups to high-end configurations, Spire provides precise, tailored solutions to meet the unique production demands of any enterprise.

03.

An Ultra-Stable Foundation,
Guaranteeing Long-Term Capacity.

The Spire Series utilizes a dedicated heavy-duty thickened welded bed, treated with both annealing and vibratory stress relief (VSR) processes. Optimized via Finite Element Analysis (FEA), the structure provides superior rigidity and deformation resistance, effectively absorbing cutting vibrations during high-speed automated production. Core motion components include HIWIN P-level guideways, Shimpo planetary reducers, and a bus-based absolute servo system. These ensure high-precision transmission and smooth operation, maintaining structural integrity and accuracy even under long-term, high-load conditions—providing a solid foundation for continuous manufacturing.

04.

User-Friendly Operation,
Comprehensive Safety Protection.

The Spire Series is built with a multi-dimensional safety system, integrating physical anti-collision protection, electrical overload protection, and control cabinet interlocks. These mechanisms proactively mitigate operational risks to ensure human-machine safety. Equipped with an LNC intelligent control system supporting multi-language switching, the machine features an intuitive interface and logical workflow that significantly lowers the technical barrier for operators. Furthermore, we provide a 5-year extended warranty and dedicated after-sales support, including lifetime free software updates and maintenance. From secure operation to long-term upkeep, Spire safeguards your production every step of the way.

Choosing the
Spire 1530 CNC Nesting Machine
means choosing

More reliable automated production capabilities

Integrated with a full automatic loading and unloading system, the entire process requires no manual intervention, easily achieving continuous automated production and significantly saving labor costs.

Heavy-Duty Framework, High-Rigidity Industrial-Grade Gantry

Heavy-duty bed of Spire 1530 CNC nesting machine

Heavy-Duty Bed Base Dedicated to Spire

The machine bed base is constructed from thickened heavy-duty steel tubing, deeply optimized through Finite Element Analysis (FEA) to ensure uniform stress distribution and exceptional rigidity. The bed surface is reinforced with thickened steel plates, while the mounting positions for linear rails and racks feature specialized thickened steel strips for added strength. Together, these elements build an incredibly stable physical structure that effortlessly absorbs the vibrations and impacts generated during high-speed processing.
The bed undergoes a dual stress-relief process of annealing and vibratory aging to deeply eliminate residual welding stress, ensuring the dimensional stability of the machine body during long-term, high-load operations. Even under harsh conditions of continuous automation and frequent loading/unloading, the Spire 1530 CNC Nesting Machine maintains low deformation and low vibration, laying a solid foundation for precision production.
All mounting surfaces for the transmission system are precision-milled in a single setup by a 5-axis gantry machining center, ensuring the assembly accuracy of core components from the source. This rigorous manufacturing standard enables the machine to run more smoothly and quietly with flawless positioning trajectories, keeping the overall operational precision and dynamic stability at their peak.

High rigidity gantry beams of Spire 1530 CNC nesting machine

High rigidity gantry columns of Spire 1530 CNC nesting machine

Reinforced Columns and Beams

The gantry and columns feature heavy-duty thickened structures, deeply optimized through Finite Element Analysis (FEA) with comprehensive simulation adjustments for stress distribution, rigidity ratios, and dynamic stability. This design ensures that the machine's structural performance remains rock-solid under complex working conditions, including high-speed cutting, frequent tool changes, and automated loading/unloading. The mounting positions for linear rails and racks are welded with thickened steel strips, significantly enhancing the structural strength of the assembly surfaces and eliminating vibration risks caused by high-speed movement at the source.
Gantry columns are reinforced with anti-torsion supports, markedly improving their bending and torsional resistance. Combined with the robust design of the heavy-duty gantry, this builds an ultra-rigid frame for the Spire CNC Nesting Machine. Even when subjected to long-term, high-frequency dynamic loads, the machine maintains excellent stability, preventing any shaking or displacement to guarantee reliability during continuous automated production.
All core connection reference surfaces, as well as the mounting positions for rails and racks, are precision-milled by a large gantry machining center. This ensures a seamless, tight fit between structural components and micron-level assembly precision. These rigorous manufacturing tolerances allow the Spire machine to operate more smoothly with flawless positioning, fully unleashing the dynamic response performance of the bus-based servo system. While ensuring long-term stable operation, it achieves exceptional processing quality.

Anodized aluminum z-axis mounting plate of Spire 1530 CNC nesting machine

70mm Ultra-Thick Anodized Aluminum Alloy Mounting Plate

The Spire 1530 CNC Nesting Machine utilizes a 70mm ultra-thick, high-strength aluminum alloy spindle mounting plate, precision-machined from a single block and finished with industrial-grade hard anodic oxidation. The dense protective oxide layer formed on the surface grants the mounting plate superior wear, corrosion, and aging resistance, providing a durable and reliable rigid support carrier for the spindle system.
Leveraging its excellent bending and torsional resistance, the system ensures that the machine effectively suppresses vibration and deformation even under heavy cutting or high-frequency reciprocating conditions, guaranteeing a precise and stable machining trajectory.
The lightweight design significantly reduces the inertial load on the Z-axis, markedly enhancing the dynamic response capabilities of the Spire CNC Nesting Machine. This ensures smooth and effortless operation even during frequent direction changes and high-speed movements.

Adjustable leveling feet for Spire 1530 CNC nesting machine

High-Strength Leveling Feet

The bed base is equipped with six sets of support legs featuring an adjustable leveling design, engineered to adapt to diverse industrial floor environments. Through sensitive height micro-adjustments, technicians can quickly complete the horizontal calibration of the Spire 1530 CNC Nesting Machine, ensuring the equipment maintains a standard operating posture from the point of installation and establishing a precise machining baseline even in complex workshop environments.
The bottom of each support foot is fitted with industrial-grade anti-slip and shock-absorbing rubber pads, completely eliminating the risk of machine displacement during high-speed cutting. This design not only effectively buffers the kinetic energy impact generated during processing to suppress resonance but also isolates vibrations from transferring to the floor, significantly reducing workshop production noise.
These adjustable support feet further strengthen the overall operational stability of the Spire 1530 CNC Nesting Machine, ensuring it maintains consistent, steady performance during long-term and heavy-load processing, providing a rock-solid structural foundation for every high-precision procedure.

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Global Brand Component Integration, High-Precision Dynamic Transmission

Hiwin (Taiwan) P level 30 linear guideways of Spire 1530 CNC nesting machine

HIWIN (Taiwan) P-Level 30mm Linear Guideways

The Spire 1530 CNC Nesting Machine utilizes HIWIN (Taiwan) P-level high-precision 30mm linear guideways. This guarantees high-precision operation and long-term stability from the source, providing a reliable guiding baseline for high-speed, high-volume nesting processes.
Featuring a four-row circular arc groove design with a 45° contact angle, the system achieves balanced load-bearing capacity across radial, axial, and moment loads. This significantly enhances overall rigidity and impact resistance, allowing the machine to easily handle complex force environments. The blocks feature integrated high-rigidity ball retainers and recirculation systems with a rolling friction coefficient below 0.004, which reduces energy consumption while ensuring smooth operation and low noise during high-speed movement.
The rails and blocks are precision-machined with a surface hardness exceeding HRC60, ensuring they are wear-resistant with virtually no loss in precision over extended use. This further strengthens the dynamic stability of the Spire CNC Nesting Machine, ensuring every cut is precise and significantly improving both the dimensional accuracy and surface quality consistency of the workpieces.

YYC (Taiwan) ground helical rack & pinion of Spire 1530 CNC nesting machine

YYC (Taiwan) High-Precision Ground Helical Rack & Pinion

The rack and pinion utilizes premium alloy steel that has undergone quenching and tempering heat treatments. They surfaces are precision-ground across the full stroke to strictly control tooth profile and pitch accuracy. With an ultra-smooth surface finish and minimal backlash, this core transmission component provides stable and precise power delivery for the system.
Compared to standard straight-cut racks, the helical rack and pinion structure offers a larger effective contact area and continuous engagement characteristics. This ensures smoother transmission and lower impact during high-speed movement, frequent start-stops, and heavy-duty cutting. It significantly reduces operational vibration and noise while providing superior bending and torsional resistance, maintaining stable transmission even under long-term, high-intensity processing conditions.
Through precision matching and dynamic adaptation tuning, the system exhibits minimal wear and excellent precision retention over long-term operation. It effectively guarantees the Spire CNC Nesting Machine's long-term stable positioning and repetitive positioning accuracy, preventing tooth surface fatigue or precision degradation to provide a continuous and reliable transmission guarantee.

TBI (Taiwan) ground ball screws of Spire 1530 CNC nesting machine

TBI (Taiwan) High-Precision Ground Ball Screw

Precision-ground throughout the entire process, the screw diameter, lead accuracy, and tooth surface roughness meet the highest precision standards. Combined with a precise pre-loading assembly process, it achieves minimal backlash and ultra-high positioning accuracy, providing stable transmission for the Spire 1530 CNC Nesting Machine.
Utilizing a high-efficiency internal circulation ball structure, the rolling friction resistance is extremely low, ensuring smooth operation without stuttering. This significantly reduces the load on the servo motor and improves dynamic response while maintaining excellent motion rigidity under high-speed movement and heavy cutting conditions. It effectively suppresses lead screw deflection and transmission jitter, ensuring that Z-axis lifting and precision cutting remain stable and reliable.
Featuring exceptional wear resistance and precision retention, there is virtually no precision degradation even during long-term continuous operation, effectively reducing maintenance costs. Together with HIWIN rails and YYC racks, it forms a precision transmission system that fully guarantees the Spire CNC Nesting Machine maintains stable and consistent machining accuracy during prolonged continuous production.

Diaphragm Coupling

The Z-axis transmission system of the Spire 1530 CNC Nesting Machine is equipped with a double-diaphragm coupling to connect the ball screw and the servo motor. Machined from high-strength aluminum alloy via precision CNC and finished with anodic oxidation, the coupling is lightweight yet high-strength. It possesses excellent corrosion and wear resistance, allowing it to effectively withstand the Z-axis transmission load without deformation over long-term use, providing a solid foundation for transmission stability.
The core component of the coupling utilizes stainless steel diaphragms, manufactured through precision stamping and heat treatment processes. These diaphragms offer outstanding elastic compensation, effectively absorbing and correcting radial, axial, and angular misalignments between the Z-axis servo motor and the ball screw. This reduces transmission jitter and noise, ensuring power is transmitted smoothly, precisely, and without loss.
Compared to common plum-blossom couplings, the double-diaphragm structure contains no elastic rubber rings, eliminating issues such as aging, deformation, fracturing, or slipping. It is resistant to high temperatures and oil, offering a longer service life and enabling a more delicate and stable Z-axis feed for the Spire CNC Nesting Machine.

Shimpo (Japan) planetary of gear reducers of Spire 1530 CNC nesting machine

SHIMPO (Japan) Planetary Gear Reducers

The core transmission gears of this device are crafted from high-strength alloy steel, manufactured through precision forging, deep quenching and tempering heat treatment, and ultra-precise tooth surface grinding. This ensures high tooth profile accuracy and superior engagement fit. The internal planetary transmission structure is optimized through professional mechanical design to maintain backlash at an extremely low level, ensuring error-free and lag-free power transmission that meets the rigorous standards of high-precision CNC positioning.
Featuring a compact, high-rigidity structural design, it is not only space-efficient and highly adaptable for installation but also possesses outstanding torque amplification and load resistance. The system offers high transmission efficiency with minimal power loss, while the helical gear engagement ensures more uniform contact, significantly reducing vibration and noise. It maintains smooth operation even under harsh conditions—such as heavy-duty cutting and frequent start-stops—fully unleashing the precision control performance of the LNC servo motors.
The reducer utilizes a long-lasting sealed lubrication structure, and the gears feature high surface hardness and strong wear resistance. This prevents tooth surface wear and precision degradation during long-term continuous operation, resulting in a long service life and low maintenance costs. With its stable and reliable operational quality, it provides a durable guarantee for the precision transmission of the Spire 1530 CNC Nesting Machine, serving as a key power component for achieving high-speed, accurate, and stable processing.

High-Strength Aluminum Alloy Limit Bumpers

The XY-axis limit positions are equipped with high-strength aluminum alloy buffer anti-collision blocks. The base is precision-machined from aluminum alloy, offering superior rigidity and corrosion resistance, while the contact surfaces are embedded with high-rebound rubber cushioning components. This constructs a robust physical protection barrier at the machine's end-travel limits.
In the event of operational errors or emergency stops under extreme conditions, the rubber cushioning layer preferentially absorbs and dissipates most of the kinetic impact energy, followed by stable support provided by the aluminum alloy base. This enables the Spire 1530 CNC Nesting Machine to effectively avoid hard collisions, protecting precision transmission components such as guideways, racks, and lead screws from damage and fundamentally preventing precision deviation caused by accidental impacts.
The aluminum alloy body is lightweight, corrosion-resistant, and resistant to deformation or cracking, while the rubber buffer pads are anti-aging, offering durability that far exceeds standard anti-collision blocks. These components will not age or detach under long-term continuous production environments, providing stable and reliable end-travel protection for the high-speed movement of the machine and enhancing overall operational safety.

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Industrial High-Torque Spindle, Engineered for High-Speed Precision

CATEKCNC self-developed 6KW high-speed air-cooled spindle of Spire 1530 CNC nesting machine

HQD 9KW High-Speed Air-Cooled ATC Spindle

This machine is equipped with a 9KW HQD ATC air-cooled frequency-conversion spindle, and the housing is integrally formed from high-grade aluminum alloy featuring a hollow cooling fin structure. This efficient air-cooled design achieves rapid heat dissipation without the need for external water-cooling systems, resulting in a cleaner installation. Equipped with a standard ISO30 tool holder interface, it adapts precisely to the automatic tool changer of the Spire 1530 CNC Nesting Machine, ensuring a smooth and reliable tool-changing process.
The spindle reaches a maximum speed of 24,000 RPM with stepless frequency-conversion speed control, offering fast response times and stable operation. Utilizing ER32 collets, it can flexibly clamp any tool shank up to 20mm in diameter, making it compatible with various bits such as milling cutters, nesting bits, and engraving tools. This allows the machine to easily adapt to different materials and processing techniques. Furthermore, the spindle undergoes precision dynamic balance calibration to minimize vibration during high-speed rotation, effectively guaranteeing cutting accuracy.
The high-efficiency cooling design allows the spindle to dissipate heat rapidly even during long periods of high-load continuous operation, preventing temperature rises from affecting machining precision. Coupled with high-precision internal bearings, the spindle is extremely durable with a low failure rate, providing a stable and powerful core power guarantee for machine operation.

High-Dynamic Digital Servo, Instant Response with Micrometer Precision

Taiwan LNC 1500W servo motor for Y-axis of Spire 1530 CNC nesting machine

Taiwan LNC 1500W servo motor for Z-axis of Spire 1530 CNC nesting machine

Taiwan LNC 1500W servo drive of Spire 1530 CNC nesting machine

Taiwan LNC Absolute Servo System

Equipped with the Taiwan LNC Bus-based Absolute Servo System, utilizing the stable EtherCAT high-speed bus communication protocol. Compared to pulse-type servos, bus communication completely eliminates the risk of signal delay and pulse loss, significantly enhancing contour accuracy during complex trajectory processing. Additionally, the simplified wiring results in fewer potential failure points. Thanks to absolute encoder technology, the Spire 1530 CNC Nesting Machine can achieve precise positioning immediately upon startup without the need for homing/zero-point calibration, markedly shortening preparation time.
The system is configured with four sets of 1500W high-power servo motors, providing ample torque reserves and lightning-fast acceleration/deceleration response. Unlike standard pulse servos that are prone to precision drift and torque attenuation under long-term loads, this system excels in dynamic response and reliability. Whether during high-speed air travel or heavy-duty cutting conditions, it ensures stable operation and significantly optimizes processing efficiency and workpiece surface finish.
The Y-axis utilizes dual-servo motor synchronous driving to prevent skewing or jittering during long-stroke movements, greatly improving the overall machining precision and operational smoothness of the Spire CNC Nesting Machine. The Z-axis is equipped with a servo motor featuring an electromagnetic brake function, which can immediately lock the axis position during power outages, emergency stops, or abnormal shutdowns. This prevents the spindle and head from dropping, greatly enhancing machine safety and repetitive positioning accuracy.

User-Friendly HMI, Effortless Operational Experience

Control cabinet for Spire 1530 CNC nesting machine

The interface of LNC MW2200A CNC system for Spire 1530 CNC nesting machine

The Industrial control host of LNC MW2200 CNC system for Spire 1530 CNC nesting machine

LNC (Taiwan) MW2200A CNC System

The Spire 1530 CNC Nesting Machine features the Taiwan LNC MW2200A bus-based CNC control system, paired with a dedicated wired electronic pulse handwheel and a 2.4GHz wireless keyboard/mouse. The wired handwheel ensures a stable connection and avoids complex signal interference, while the wireless keyboard offers greater flexibility for on-site operations. Supporting multiple languages—with additional custom language options available upon request—the system features an intuitive interface logic that allows operators of all levels to master it quickly, reducing training and operational costs.
Equipped with powerful and practical control functions, the system integrates handwheel simulation and real-time toolpath preview. During setup and debugging, technicians can use the pulse handwheel to perform drawing simulations and visually verify the complete tool trajectory, allowing them to troubleshoot program issues in advance and avoid machining errors. Utilizing a bus communication architecture, command transmission is high-speed and synchronized, ensuring precise instructions and rapid response times.
Designed with industrial-grade high-performance hardware, the system offers strong anti-interference capabilities and stable, reliable operation, along with flexible interfaces for future upgrades. It is deeply matched and synchronized with the LNC servo motors, achieving high-precision coordinated movement from speed control to position closed-loop. This ensures that processing and tool-changing actions are more accurate and efficient, significantly enhancing finished product precision and surface finish while maintaining high production speeds for the Spire CNC Nesting Machine.

Pulse Handwheel

The Spire 1530 CNC Nesting Machine is equipped with a high-precision pulse-type wired electronic handwheel. Connected via a dedicated cable, it ensures stable signals, exceptional anti-interference capabilities, and real-time synchronized response. It provides a reliable manual control method for machine debugging, calibration, and fine adjustments, ensuring consistent performance.
Operators can quickly switch between X, Y, and Z axis control using a rotary knob. With three adjustable speed gears, the handwheel meets the requirements for both high-precision micro-feeding and rapid large-stroke movement, making operation both convenient and efficient.
Integrated with the control system, the handwheel enables the Handwheel Simulation function. This allows for full trajectory verification and simulation before formal processing begins, helping to identify toolpath issues in advance. This effectively reduces operational errors and material waste. The simple and clear operational logic makes it easy to master, significantly improving debugging efficiency and on-site safety for the machine.

Wireless Keyboard / Mouse

The Spire 1530 CNC Nesting Machine is equipped with an industrial-grade 2.4GHz wireless keyboard and mouse set. Leveraging a high-stability wireless transmission protocol, it ensures rapid response and a robust connection even in workshop environments with complex signal interference. Its outstanding anti-interference capability effectively mitigates the impact of electromagnetic noise from industrial equipment, guaranteeing that every command input is precise and reliable.
Utilizing a dedicated plug-and-play USB receiver, the set requires no tedious pairing or driver installation. This wireless connection frees operators from the constraints of cable length, allowing them to perform program editing, parameter optimization, or toolpath previews from any vantage point around the machine, greatly enhancing the flexibility and freedom of on-site machine tuning.
The wireless interface eliminates the hazards of tangled or pulled cables, significantly optimizing the cleanliness of the workspace. Combined with responsive tactile feedback, it enables smoother and more efficient human-machine interaction—whether for monitoring parameters during mass production or making temporary program corrections—elevating the overall user experience and production management from a detail-oriented perspective.

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Global Premium Electrical Parts, Built for Safety and Long-Term Durability

Fuling Variable Frequency Drive
Interlock and Short-Circuit Protection Switch
High-Quality Power Switches
Schneider Electrical Components
Servo Motor Braking Resistor
High-Reliability Aviation Plugs
Fully Enclosed High-Strength Cable Carrier
High-Quality Terminal Blocks

Fuling Variable Frequency Drive
- The machine utilizes a Fuling 11KW high-power vector frequency drive, specifically optimized for high-load and long-term continuous processing. It provides powerful and stable power output with precise speed regulation, allowing the spindle speed to be adjusted according to different machining processes and material cutting requirements, perfectly adapting to various complex working conditions.
- By using an 11KW inverter to drive the 9KW spindle, the system provides significant power redundancy. This effectively prevents issues such as overloading, overheating, or frequency reduction during heavy-duty cutting, sudden resistance changes, or prolonged continuous operation. The ample power reserve ensures more consistent and stable output for the Spire CNC Nesting Machine.
- Featuring advanced vector control technology, the inverter provides precise speed regulation with minimal fluctuations, effectively improving the surface finish and machining accuracy of workpieces. Additionally, it includes multiple built-in intelligent protections—such as overcurrent, overload, overvoltage, undervoltage, phase loss, overheating, short circuit, and stall protection. These features monitor various operating states in real-time to maximize protection against damage to the spindle and drive components, ensuring safer and more reliable machine operation under demanding conditions.
Control Cabinet Interlock and Short-Circuit Protection Switch
- The control cabinet features a dual-locking safety design, equipped with both a keyed door lock and an interlock switch. The interlock switch is physically linked to the main power supply of the Spire 1530 CNC Nesting Machine: when opening the cabinet for inspection or maintenance, the operator must first unlock the door with a key and then rotate the interlock switch. Once the switch is turned, the machine's power is immediately cut off, effectively preventing live-line work and fully ensuring the personal safety of maintenance personnel.
- When the cabinet door is closed, the system will not automatically restore power. Instead, the interlock switch must be manually reset before the power can be reconnected. This design effectively avoids potential electrical hazards caused by a cabinet door that is not fully secured, ensuring that the machine can only operate normally when the door is properly closed and the switch is reset.
- As a vital component of the machine's electrical safety system, the interlock switch also features fast-response overload and short-circuit protection. In the event of an abnormal current in the circuit, the switch can rapidly disconnect the power to prevent further accidents caused by electrical faults, enhancing the overall safety and reliability of the equipment.
High-Quality Power Switches
- The control panel of the Spire 1530 CNC Nesting Machine features a logical layout, with an ammeter, voltmeter, start button, emergency stop button, and two USB ports neatly arranged below the screen. Operators can monitor the machine's electrical status in real-time via the ammeter and voltmeter to quickly detect voltage fluctuations or current abnormalities, allowing them to proactively avoid potential electrical faults and enhance operational safety.
- As the two most frequently used controls, the start and emergency stop buttons are sourced from the world-renowned brand Schneider Electric, offering exceptional mechanical life and durability in harsh industrial environments. The buttons are clearly distinguished by high-visibility green and red colors. Specifically, the emergency stop button features a push-to-lock and twist-to-release design, which effectively prevents accidental resets before a fault has been cleared, further ensuring the safety of both the machine and personnel.
- Two USB ports are located on the right side of the panel for connecting peripherals such as a keyboard, mouse, 2.4G wireless receiver, or USB flash drive. Whether performing data imports/exports or executing system firmware updates, these tasks can be completed conveniently via the USB ports, significantly improving the operability and maintenance efficiency of the Spire CNC Nesting Machine.
Schneider Electrical Components
- From the main power supply circuit to the low-voltage control circuits, the entire line utilizes original standard components from Schneider Electric. Leveraging exceptional system compatibility and anti-interference capabilities, the Spire 1530 CNC Nesting Machine can easily handle challenges posed by complex working conditions and voltage fluctuations. Industrial-grade durability ensures the equipment remains stable during long-term continuous operation, minimizing downtime risks from the electrical source and providing a solid, reliable foundation for machine operations.
- The contactors offer sensitive switching and an excellent service life; air switches provide precise overload and short-circuit protection; and the phase sequence protector monitors the power status in real-time to completely eliminate hardware damage caused by phase loss or reversal. A 24V power supply provides stable low-voltage power to the control system, while intermediate relays ensure the stable transmission of control signals, comprehensively enhancing the safety and interactive precision of the electrical system.
- Equipped with a Schneider interlock protection switch, the system builds a complete safety interlocking mechanism that enables interlock power-off protection for the cabinet. When maintenance personnel open the electronic control cabinet door for inspection, wiring, or troubleshooting, the system immediately cuts off the power inside the cabinet. This completely eliminates the risk of live-line work, prevents safety accidents such as electric shocks or short circuits, and strictly guarantees the personal safety of maintenance and operation personnel, making routine inspections more standardized for the machine.
Servo Motor Braking Resistor
- Equipped with a premium braking resistor featuring a one-piece die-cast aluminum housing and high-density cooling fins. This device efficiently absorbs regenerative energy during servo motor braking, resulting in a 67% increase in system dynamic response speed.
- In demanding conditions such as complex 3D relief carving or high-speed cutting that require frequent starts, stops, and direction changes, the braking resistor assists the drive system in overcoming inertia-induced "overshoot." This ensures precise motor positioning and fundamentally eliminates machining errors caused by overtravel.
- By promptly dissipating regenerative energy, the braking resistor reduces the thermal load on the motor drive and prevents system failures caused by DC bus voltage fluctuations. This ensures 24/7 continuous operational stability even in high-temperature or high-load environments, significantly extending the lifespan of electronic components.
High-Reliability Aviation Plugs
- The power and oil line connections of the control cabinet utilize high-quality aviation connectors paired with threaded locking mechanisms. This design is engineered to effectively withstand the continuous vibrations generated during the high-speed operation of the CNC router. It also prevents cables from aging or breaking due to long-term bending, significantly enhancing the durability and reliability of critical electrical and oil line connections.
- These aviation connectors feature IP65-rated dustproof and waterproof performance, effectively preventing moisture, dust, and wood chips from entering the control cabinet. With this protective capability, the machine can easily handle complex production environments with high dust levels or significant humidity fluctuations, further expanding the applicable scenarios for the Spire CNC Nesting Machine.
- Furthermore, the use of aviation connectors greatly simplifies cable assembly, disassembly, and wiring. Whether during equipment installation, site relocation, or routine maintenance, operators can quickly plug and unplug cables, significantly improving maintenance efficiency and operational convenience.
Fully Enclosed High-Strength Cable Carrier
- All three axes (X, Y, and Z) are equipped with fully enclosed cable carrier chains. These organize and fully encapsulate all power cables, control signal wires, air hoses, and oil lines, completely eliminating issues such as exposed, disorganized, or tangled cabling. This provides a safe and reliable protective barrier for the high-speed reciprocating movements of the Spire 1530 CNC Nesting Machine.
- Given the extremely high frequency of reciprocating movement across the three axes, the fully enclosed structure effectively blocks the ingress of wood chips, dust, and debris generated during processing. This prevents dust from abrading cable jackets or clogging signal interfaces, thereby reducing the risk of broken wires, short circuits, and signal interference.
- As the carrier chains move synchronously with the three axes, they not only ensure the overall wiring remains clean and standardized but also significantly extend the service life of cables and air hoses. This reduces long-term maintenance costs and protects the external electrical and oil circuits of the machine from damage in high-dust, high-load continuous processing environments.
High-Quality Terminal Blocks
- The control cabinet is equipped with three sets of independent dedicated terminal blocks, featuring a clear layout and logical partitioning. This achieves a standardized separation of high-power and low-voltage control circuits, making the electrical wiring more organized and inspections more intuitive. By effectively avoiding interference and safety hazards caused by disorganized wiring, it further enhances the stability and safety of the electrical system within the Spire 1530 CNC Nesting Machine.
- These three sets of terminal blocks correspond respectively to the main power circuit, the vacuum pump circuit, and the dust collector circuit. Each power unit features independent wiring and control to ensure zero mutual interference. While the main power terminal block handles the unified external power input and overall distribution, the vacuum pump and dust collector utilize dedicated terminals. This "special-line-for-special-use" approach ensures more stable current transmission and prevents load fluctuations from affecting other components.
- The independent terminal design not only makes the wiring path clear at a glance—facilitating easier maintenance, troubleshooting, and replacement—but also reduces issues such as heat buildup and signal interference. Even when high-power loads are started simultaneously, the system maintains a steady power supply. By achieving true partitioned control, this design significantly boosts the durability and maintainability of the electrical architecture.

Automated Tool Change & Setting, Eliminating Tedious Manual Intervention

Linear Automatic Tool Changer (ATC) Magazine

Equipped with an efficient linear tool magazine, utilizing standard-stroke pneumatic cylinders to control the opening and closing of the tool clips. The structure is compact, providing rapid response and smooth, reliable operation for the Spire 1530 CNC Nesting Machine. It features 12 ISO30 standard tool holder stations, allowing for the placement of 12 different types and specifications of cutting tools to meet the demands of multi-process and complex continuous machining.
During the automated processing cycle, the control system automatically executes tool fetching, spindle tool changes, and tool returning based on the programmed requirements. This entire process requires no manual intervention, which not only eliminates the tedious nature of manual tool changes but also avoids human error, improper tool clamping, and potential safety hazards.
The linear tool change structure offers high space utilization and exceptionally fast tool-changing speeds. It is compatible with various common tools, including milling cutters, cutting bits, chamfering tools, and engraving bits. This significantly enhances the machine's automation level and production continuity. When paired with an automatic loading and unloading table, the Spire 1530 Nesting Machine can achieve unmanned, fully automated processing, boosting overall efficiency and product consistency.

Automatic Tool Setter

Equipped with a high-precision automatic tool setter with a self-cleaning function, utilizing a contact-based measurement scheme for high precision and rapid response. After a tool change, the system automatically completes tool length measurement and coordinate compensation. This fully automated process eliminates the need for manual measurement and repeated debugging, significantly boosting tool-setting efficiency—an indispensable link in multi-process automatic machining.
During actual production, environments such as board engraving and cutting are highly prone to generating wood chips, dust, and debris. Standard tool setters can suffer from data distortion due to impurities adhering to the detection surface or the tool tip. This self-cleaning automatic tool setter automatically emits a high-pressure cleaning airflow before measurement to blow away waste debris from the sensor surface. By eliminating foreign object interference at the source, it ensures consistent and precise tool-setting results every time, reducing the scrap rate.
The overall structure is compact and durable, featuring excellent impact and dust resistance to ensure long-term stable operation in harsh workshop environments. Together with the linear tool magazine and the ATC spindle, it forms an integrated automated system. This creates a full-process closed-loop: Automatic Tool Change → Automatic Cleaning → Automatic Tool Setting → Automatic Machining. This workflow minimizes human error and ensures uniform workpiece dimensions and stable precision during mass production, significantly enhancing the machining quality and production efficiency of the Spire CNC Nesting Machine.

ISO Tool Holder Disassembly Station

This device is designed to securely hold ISO tool holders to assist in disassembly and is fixed to the right side of the machine. The main body is integrally molded from high-strength aluminum alloy, offering excellent rigidity, corrosion resistance, and long-term durability.
Specifically engineered for ISO tool holders, the device achieves a firm lock simply by aligning the notches on the tool holder with the positioning slots of the fixture. A dedicated storage hole for an ER32 spindle wrench is located on the right side of the device; during disassembly, the operator can simply remove the wrench to easily loosen the tool holder and extract the internal collet.
Utilizing this specialized fixture effectively prevents uneven stress and potential damage to the tool holder caused by improper clamping, while significantly reducing the difficulty of the disassembly process. Detailed guidance and directional instructions for tool holder disassembly are posted above the device, ensuring that even inexperienced operators can perform the task confidently and safely.

Vacuum Clamping & Auto Positioning. Fast, and fine.

Vacuum worktable for Spire 1530 CNC nesting machine

Vacuum zone control switches for Spire 1530 CNC nesting machine

4+2 positioning cylinders for Spire 1530 CNC nesting machine

Auxiliary loading rollers for Spire 1530 CNC nesting machine

Rear control switches for Spire 1530 CNC nesting machine

Vacuum Worktable

Vacuum Zone Control Switches

4+2 Positioning Cylinders

Auxiliary Loading Rollers

Rear Control Switches

The Spire 1530 CNC Nesting Machine is equipped with a 6-zone, 10-hole vacuum clamping system, featuring a tabletop integrally molded from high-strength rigid PVC. Precision-milled to achieve exceptional flatness, the surface remains resistant to deformation and warping even after long-term industrial use.
The six independent control zones can be activated selectively based on the size and shape of the workpiece, effectively minimizing suction loss. With 10 sets of vacuum holes providing large-area, balanced clamping force, the system ensures a rock-solid grip on both full-sized sheets and complex irregular workpieces, eliminating the risk of displacement during high-speed processing.
This system enables interference-free machining across the entire board surface, completely replacing traditional mechanical clamps and pressure plates. This removes the risk of collisions between workholding hardware and toolpaths. Integrated with automated logic—clamping upon loading and pressure release upon unloading—it greatly simplifies the workflow while significantly enhancing the overall efficiency of multi-process continuous machining.

The side of the machine is equipped with six vacuum zone valves, each independently corresponding to a specific vacuum zone. Users can flexibly control the opening, closing, and flow regulation of each valve based on actual processing requirements. This design effectively avoids suction waste in inactive areas, ensuring optimal clamping performance while significantly reducing energy consumption.
A vacuum pressure gauge is installed to the left of the valves, providing a clear and intuitive display of the current vacuum pressure level. Operators can confirm whether the suction force meets the technical requirements before processing begins and make flexible adjustments accordingly, enhancing the certainty and safety of the setup phase.
Each valve is labeled with a corresponding vacuum zone code that matches the visual layout on the tabletop stickers. This one-to-one correspondence allows operators to quickly and accurately link each valve to its respective tabletop zone without complex testing or memorizing tedious diagrams, greatly improving the convenience of machine operation and the efficiency of on-site debugging.

After the material is loaded, the board is positioned via a combination cylinder system. The 4+2 L-shaped right-angle layout forms a reliable positioning datum, meeting the needs of manual loading and unloading while perfectly adapting to automated platforms. This enhances positioning efficiency and processing consistency across various production scenarios for the Spire 1530 CNC Nesting Machine.
In manual processing mode, operators can intuitively align workpieces against the L-shaped datum to easily establish the machining reference. This effectively prevents issues such as offset or misalignment, making it ideal for single-piece, small-batch, or frequent material-change scenarios where positioning must be simple, direct, and precise.
In automated production mode, the positioning cylinder system works in direct tandem with the automatic loading and unloading system. Once the board is automatically loaded, the cylinders perform rapid and precise calibration, followed by high-speed fixed clamping via the vacuum tabletop. This process requires no manual adjustment or intervention, enabling a fully unmanned, automated workflow: Loading → Positioning → Clamping → Machining → Unloading.

The rear of the machine is equipped with 24 auxiliary loading rollers evenly distributed across the feeding area. Featuring high-load-bearing, wear-resistant, and low-noise precision rollers, the system ensures smooth and unobstructed transport for thin sheets, large panels, and heavy long materials alike. This configuration effectively prevents surface scratching and enhances the overall stability of the loading process.
During manual loading, the smooth support provided by the 24 rollers allows a single operator to easily push large or long panels onto the tabletop. This eliminates the need for multi-person lifting, reduces labor intensity and operational difficulty, and makes loading easier, safer, and more efficient—ideal for flexible, small-batch production.
In automated loading mode, the rollers work in perfect synergy with the automatic loading table and vacuum system. Once the vacuum cups grip the board, they can glide the material at a constant speed along the rollers directly onto the vacuum clamping tabletop. This process requires no manual intervention and integrates seamlessly with the positioning cylinders and vacuum system to achieve a complete, unmanned, and continuous workflow.

To fully accommodate on-site operational habits, an integrated dual-control switch is specifically configured at the rear of the machine, allowing operators to control the equipment directly from the loading area. These high-quality Schneider Electric switches integrate the most frequently used cycle start and emergency stop functions, featuring a prominent installation position for easy access.
The cycle start button supports rapid program initiation. When repeating the same machining task, the operator only needs to press this button once the workpiece clamping is complete to start the program. This eliminates the need to move back and forth to the main control cabinet, significantly enhancing on-site convenience and work efficiency with a more user-friendly design.
The emergency stop button features a high-reliability safety design with rapid response. In the event of an emergency or abnormal risk, pressing this button immediately triggers a full-machine emergency power-off and shutdown, quickly cutting off power and halting the operating program. This provides maximum protection for the equipment, workpieces, and personnel operating the Spire 1530 CNC Nesting Machine.

Auto Loading & Unloading, Achieving Complete Process Automation

Hydraulic Lifting Automatic Loading Table

Utilizing a hydraulic-driven lifting structure, the hydraulic system offers superior load capacity and smooth, controlled movement at a constant speed. Its load-bearing performance far exceeds standard loading tables, with a maximum capacity of up to 3,000kg. This allows for the stacking of multiple boards, eliminating the need for operators to frequently transport materials back and forth. This design completely frees personnel from high-intensity manual labor while avoiding the risk of board collisions or scratches during manual handling, simplifying the workflow and boosting loading efficiency.
The side of the loading table is equipped with a high-precision sensor that accurately identifies the stacking height of the boards. Operators can adjust the sensor height based on board thickness and processing requirements (typically set slightly lower than the worktable). When the table reaches the preset height, the limit sensor triggers a signal to stop the ascent, ensuring the top board is always at the optimal picking height. This guarantees that the loading sequence remains safe, organized, and precise.
The automatic loading system achieves seamless integration with the Spire 1530 CNC Nesting Machine: during the loading process, the Y-axis moves precisely above the table, and the vacuum suction cups lift the board. The machine then drags the board smoothly along the auxiliary rollers at the rear of the table, delivering it accurately to the vacuum clamping tabletop. This entire process requires no manual intervention, completing the automated material transfer and comprehensively enhancing the overall processing efficiency and production intelligence.

Vacuum Loading Suction Cups

The rear side of the machine gantry is equipped with three sets of vacuum loading suction cups. The suction cup assembly is driven by adjustable pneumatic cylinders, allowing both spacing and height to be flexibly adjusted based on board dimensions. This system stably adapts to the loading requirements of various formats and thicknesses, providing uniform clamping and reliable force without scratching the surface of the material.
The system can directly link with an elevating automatic loading table to automatically grip pending boards and smoothly transport them onto the vacuum worktable. By automating the entire picking and placing process, it significantly enhances loading efficiency and operational safety.
Once the board is delivered to the worktable, the system utilizes the rear and right-side pushing cylinders in coordination with the 4+2 positioning cylinders to calibrate the board's position. This entire loading sequence is fast and coherent, offering extremely high positioning accuracy and providing a stable, reliable foundation for subsequent unmanned continuous machining.

Vacuum loading suction cups worktable for Spire 1530 CNC nesting machine

Rear auxiliary loading rollers for Spire 1530 CNC nesting machine

Rear Automatic Panel Pusher

Equipped with an automated pushing device that smoothly and precisely transfers finished workpieces to the unloading table upon completion. This eliminates the need for manual unloading, significantly boosting production line automation and material flow efficiency while reducing labor intensity.
During the pushing process, the integrated dust collection system performs a synchronized secondary cleaning of the worktable, removing residual sawdust and debris. This prevents dust from clogging vacuum suction grooves, ensuring stable and reliable hold-down force while protecting guide rails and transmission components from dust abrasion to maintain long-term machining accuracy.
The synergy between automated pushing and secondary cleaning enables simultaneous material transport and table maintenance. This integrated design optimizes production efficiency and machine care, ensuring a cleaner workspace and superior stability for prolonged, unattended operations.

Conveyor-Type Automatic Unloading Table

Once the board processing is complete, the Y-axis moves to the rear of the material, and the pushing device activates, applying uniform force to transfer the finished panels onto the automatic unloading table. Subsequently, the unloading table conveys the panels forward, delivering them to the next production line or temporarily storing them at the end of the table. This entire process eliminates manual handling, saving unloading time while effectively preventing surface scratches on the finished workpieces.
The unloading table is equipped with high-precision sensors at both the front and rear ends to achieve automated control of the unloading workflow. When a finished panel is pushed to the front sensor, it immediately triggers a signal to start the conveyor belt, smoothly moving the panel forward. As the material reaches the tail end, a limit sensor triggers a signal (which can be configured to a non-limit mode for direct transfer to subsequent production lines), causing the belt to stop. This ensures the finished panels are precisely positioned on the unloading table, completing an efficient discharge cycle.
Every time a machining cycle ends, the machine automatically initiates the loading sequence to start a new round of production, achieving a continuous cycle of "Machining → Unloading → Loading → Re-processing." This workflow requires no manual intervention, completely eliminating dependency on manual loading and unloading, significantly shortening auxiliary production time, and boosting the overall output of the Spire CNC Nesting Machine.

Premium Support Peripherals, Top-Tier Configurations for Top-Tier Machines

7.5kW Pulse Cyclone Dust Collector

The Spire 1530 CNC Nesting Machine is equipped with a 7.5KW high-power pulse-jet cyclone dust collector, fully integrated with the machine's internal ducting to form a centralized extraction system. Providing powerful suction and ample negative pressure, it captures wood chips, dust, and fine debris in real-time during high-speed processing. By suppressing dust at the source, it significantly improves the workshop environment and protects the health of operators.
Featuring a custom-designed high-static pressure impeller, the system achieves a maximum airflow of 7,325 m³/h, with wind speeds at each suction port exceeding 20 m/s. This ensures sufficient ventilation and stable negative pressure, offering a wider dust collection range and faster cleaning speeds to rapidly remove large volumes of processing waste.
Utilizing advanced pulse-jet cleaning technology, the system uses high-pressure air bursts to automatically clean the filter media. Compared to traditional bag-style collectors, this design ensures smoother air passages, higher filtration efficiency, and more thorough cleaning. It effectively eliminates common issues like bag clogging or suction loss, maintaining stable and high-efficiency dust extraction even during prolonged, high-load continuous operation of the machine.

Pulse cleaning

Cyclone dust collection

9kW variable frequency vacuum pump of Spire 1530 CNC nesting machine

9kW High-Power Variable Frequency Constant Pressure Vacuum Pump

The vacuum system features a 9KW high-power variable-frequency constant-pressure vacuum pump as its core power source. Specifically designed for long-duration continuous processing and high-load automated production, it provides powerful suction and precise pressure regulation. This ensures stable and reliable clamping for various materials and specifications, providing a solid foundation for high-precision machining.
It delivers a massive vacuum flow rate of up to 600 m³/h and maintains a stable constant pressure output of -50 KPa. With minimal pressure fluctuations, the suction remains uniform and long-lasting. Whether handling large panels, thin sheets, or complex irregular workpieces, the system achieves a rock-solid grip, effectively safeguarding processing accuracy.
The oil-free and water-free design eliminates the need for lubricants or cooling water, preventing oil stains or wastewater pollution. This keeps both the worktable and the boards clean while significantly reducing maintenance costs. Additionally, the intelligent variable-frequency control system automatically adjusts speed and power based on the real-time load. Compared to standard fixed-frequency pumps, it is more energy-efficient, operates with lower noise, and generates less heat, ensuring superior stability and energy savings during prolonged production runs.

Variable Frequency

-50KPa

600m³/h

Automatic Lubrication System, Smart and Simple Maintenance Solutions

Large-Capacity Automatic Lubrication System

This system allows for the precise setting of lubrication duration and intervals. The system delivers a timed, quantified, and uniform supply of lubricant to all transmission components, forming a stable protective oil film. This significantly reduces friction and operational noise. Compared to manual lubrication, this automated approach is more reliable, effectively extending the lifespan of transmission parts and maintaining long-term machining accuracy for the Spire 1530 CNC Nesting Machine even under high-intensity workloads.
Featuring a 1.5L large-capacity pot, this system holds substantially more lubricant than conventional small lubrication pots. A single fill meets the lubrication requirements for long periods of continuous processing, drastically reducing the need for frequent manual refills. This lowers the daily maintenance workload and makes it perfectly suited for prolonged production runs and unmanned operation scenarios.
The system is equipped with a high-precision oil pressure gauge and a low-oil alarm function. It provides a real-time, intuitive display of the system's oil supply pressure, allowing operators to verify that the oil lines are clear. Furthermore, it actively triggers an alarm if oil levels are too low or if pressure becomes abnormal, promptly alerting the operator to replenish the lubricant and ensuring continuous protection.

Automatic lubrication system for Spire 1530 CNC nesting machine

Service & Documentation, Professional Support Throughout the Machine Lifecycle

Spire series exclusive serial number of Spire 1530 CNC nesting machine

Maintenance instructions of Spire 1530 CNC nesting machine

Spire Series Exclusive Machine ID & Service

Each Spire CNC Router features an exclusive identity plate and a unique serial number, ensuring every unit is fully traceable. This one-to-one coding system streamlines service and reflects the rigorous, standardized quality control of the Spire Series.
This serial number grants users an industry-leading 5-year warranty on all core components, significantly lowering long-term maintenance costs. Every owner is supported by a dedicated service team for technical troubleshooting and calibration, while included control software features lifetime free updates to ensure peak processing efficiency.
Comprehensive operational precautions and maintenance guidelines are prominently posted on the machine frame. These clear, logically organized instructions outline precise service intervals for core components, allowing operators to perform routine cleaning and lubrication independently.

Complete documentation kit for Spire 1530 CNC nesting machine

Spire Series Complete Documentation Kit

The Spire 1530 CNC Nesting Machine is accompanied by exclusive Spire documentation, providing comprehensive coverage of the entire lifecycle, including installation, operation, maintenance, and after-sales service. These materials offer complete written guidance from initial startup to long-term ownership. Every document undergoes rigorous internal review to ensure information accuracy and standardized procedures, reflecting the professional service philosophy inherent in the Spire Series.
The package includes the Machine Certificate of Conformity, Warranty Card, Warranty Terms, Quick Start Guide, and User Manual. The Certificate of Conformity clearly displays the unique serial number, model, factory inspection results, and certification—serving as the official proof of quality. The Warranty Card and terms explicitly outline the industry-leading 5-year warranty policy, detailing the coverage scope, duration, and service procedures to ensure users receive full official support for their investment.
The Quick Start Guide is designed for immediate utility, featuring a standard accessories list, rapid electrical wiring methods, initial commissioning steps, and basic troubleshooting solutions to help users get the machine running in minimal time. For more in-depth technical needs, the User Manual provides a systematic introduction to all structural components, detailed installation and debugging steps, and comprehensive fault-handling guides—with each instruction supported by clear photographic illustrations to ensure the stable operation of the machine.

Professional Toolkits, Ready-to-Use Solutions Out of the Box

Toolbox first layer of Spire 1530 CNC nesting machine

Toolbox second layer of Spire 1530 CNC nesting machine

Tool collet set of Spire 1530 CNC nesting machine

Tool set of Spire 1530 CNC nesting machine

Free Accessory Kit for Diverse Machining Needs

Each Spire CNC Nesting Machine comes with a dual-layer anti-collision toolbox stocked with a complete range of practical accessories. This kit includes 12 ISO30 tool holders, a wireless keyboard and mouse, a full hex key set, spare air nozzles, relays, and limit switches, as well as an ER32 spindle wrench and a USB drive. The USB drive contains exclusive Spire documentation, including user manuals, test files, operating software, and system recovery backups to support installation, debugging, and emergency maintenance.
The comprehensive hex key set and spare parts (relays, nozzles, and limiters) allow for rapid response to routine maintenance or component wear, minimizing production downtime. Additionally, an 18-piece set of AA-grade ER32 collets is included. Manufactured to high-precision standards with strict dynamic balance testing, these collets ensure firm clamping, zero slippage, and exceptional concentricity.
To ensure you can start production immediately, a 35-piece milling cutter set is provided. This extensive collection features a wide variety of bits—including standard milling, engraving, cutting, and round-bottom cutters—covering diverse processes such as grooving, drilling, and chamfering. This one-stop tooling solution eliminates the need for additional initial investment, allowing the Spire CNC Nesting Machine to handle machining tasks right out of the box.

Toolbox First Layer Toolbox Second LayerMachining Tool Collet SetMachining Tool Set

Applicable Industries

Whether it's furniture making, wooden doors, wardrobes, cabinets, or wood carving, billboards, musical instruments, etc., The Spire can handle it all with ease.

Technical Parameters

Series	CATEK · Spire
Model	CK-1530-RSP-TA
XYZ Working Travel	15003000200mm
Bed	Spire-specific machining center processed reinforced bed base, independent anti-interference control cabinet
Gantry	Reinforced aged steel gantry, heavy-duty stress-relieved steel beam
Spindle Mounting Plate	70mm thick hard-anodized aluminum mounting plate
Spindle	HQD 9KW high-speed variable frequency air-cooled ATC spindle
Spindle Speed	Max speed 24000RPM
Variable Frequency Drive	Fuling 11KW VFD
Tool Magazine	12-tool linear tool magazine
Tool Holder Type	ISO30 ER32 φ20mm
Tool Setting Method	Automatic tool setter with blowing
Drive Method	Taiwan LNC 1500W bus-type absolute servo motor * 4 (Z-axis brake motor)
Reducer	Japan Shimpo planetary gear reducer
Table	Vacuum table, 6 zones, 10 holes
Transmission Method	XY-axis high-precision ground helical rack and pinion + Z-axis high-precision ground TBI ball screw
Guideways	Taiwan HIWIN high-precision 30 linear guide rails / linear bearings
Loading	Hydraulic lifting automatic loading table + vacuum suction cups + rear auxiliary loading rollers
Positioning	4+2 positioning cylinders (pneumatic pop-up pin)
Unloading	Conveyor-type automatic unloading table + automatic finished-product pushing cylinder
Dust Collection Method	7.5KW pulse cyclone dust collector
Vacuum Pump	9KW oil-free constant-pressure variable-frequency vacuum pump
Cables	Pure copper high-flexibility bend-resistant cables
Cable Carrier	Fully enclosed reinforced cable carrier
Electrical Components	Schneider surge protector / phase sequence protector / AC contactor / 24V power supply / relay
Control System	Taiwan LNC MW2200A CNC control system
Handwheel	Pulse electronic handwheel
Monitor	19.5-inch LCD monitor
Keyboard and Mouse	2.4GHz wireless keyboard and mouse
Lubrication System	Centralized lubrication oil maintenance system
Safety System	Omron limit switch
Working Voltage	AC380V/50Hz
Repeat Positioning Accuracy	±0.01mm
Max. Movement Speed	135,000mm/min
Max. Processing Speed	35,000mm/min
Dimensions	1050025002300mm
Weight	3400kg

* These parameters are specific to this CK-1530-RSP-TA unit; configurations can be customized to meet specific requirements.

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CATEK · Spire

1530 Linear ATC CNC Router Machine with Automatic Loading & Unloading

· Function Description ·

CATEK · Spire

Empowering Production With Automation and Unmanned Processing to Cut Costs and Boost Value

Core Advantages of Spire 1530 CNC Router: Four Dimensions to Reshape the Standards of High-Efficiency Production

Choosing the Spire 1530 CNC Nesting Machine means choosing

Heavy-Duty Framework, High-Rigidity Industrial-Grade Gantry

Heavy-Duty Bed Base Dedicated to Spire

Reinforced Columns and Beams

70mm Ultra-Thick Anodized Aluminum Alloy Mounting Plate

High-Strength Leveling Feet

Global Brand Component Integration, High-Precision Dynamic Transmission

HIWIN (Taiwan) P-Level 30mm Linear Guideways

YYC (Taiwan) High-Precision Ground Helical Rack & Pinion

TBI (Taiwan) High-Precision Ground Ball Screw

Diaphragm Coupling

SHIMPO (Japan) Planetary Gear Reducers

High-Strength Aluminum Alloy Limit Bumpers

Industrial High-Torque Spindle, Engineered for High-Speed Precision

HQD 9KW High-Speed Air-Cooled ATC Spindle

High-Dynamic Digital Servo, Instant Response with Micrometer Precision

Taiwan LNC Absolute Servo System

User-Friendly HMI, Effortless Operational Experience

LNC (Taiwan) MW2200A CNC System

Pulse Handwheel

Wireless Keyboard / Mouse

Global Premium Electrical Parts, Built for Safety and Long-Term Durability

Fuling Variable Frequency Drive

Control Cabinet Interlock and Short-Circuit Protection Switch

High-Quality Power Switches

Schneider Electrical Components

Servo Motor Braking Resistor

High-Reliability Aviation Plugs

Fully Enclosed High-Strength Cable Carrier

High-Quality Terminal Blocks

Automated Tool Change & Setting, Eliminating Tedious Manual Intervention

Linear Automatic Tool Changer (ATC) Magazine

Automatic Tool Setter

ISO Tool Holder Disassembly Station

Vacuum Clamping & Auto Positioning. Fast, and fine.

Vacuum Worktable

Vacuum Zone Control Switches

4+2 Positioning Cylinders

Auxiliary Loading Rollers

Rear Control Switches

Auto Loading & Unloading, Achieving Complete Process Automation

Hydraulic Lifting Automatic Loading Table

Vacuum Loading Suction Cups

Rear Automatic Panel Pusher

Conveyor-Type Automatic Unloading Table

Premium Support Peripherals, Top-Tier Configurations for Top-Tier Machines

7.5kW Pulse Cyclone Dust Collector

9kW High-Power Variable Frequency Constant Pressure Vacuum Pump

Automatic Lubrication System, Smart and Simple Maintenance Solutions

Large-Capacity Automatic Lubrication System

Service & Documentation, Professional Support Throughout the Machine Lifecycle

Spire Series Exclusive Machine ID & Service

Spire Series Complete Documentation Kit

Professional Toolkits, Ready-to-Use Solutions Out of the Box

Free Accessory Kit for Diverse Machining Needs

Applicable Industries

Technical Parameters

Review

0 Reviews of CK-1530-RSP-TA.

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Spire Exclusive

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Choosing the
Spire 1530 CNC Nesting Machine
means choosing