The Servo Straight Press is a high-performance closed-type stamping press designed for demanding metal forming applications. Equipped with a servo motor drive system, this press offers exceptional control, accuracy, and flexibility during high-speed production. It is ideal for industries that require precision and efficiency, such as automotive parts, electronics, electrical components, and metal housings.
Product Characteristics
The Servo Straight Press is a high-rigidity, high-precision press designed for demanding stamping, drawing, and forming applications. Featuring a closed-frame structure and advanced servo-driven control system, this press delivers exceptional stability, accuracy, and energy efficiency for modern manufacturing environments.
With precise control over pressure, speed, and position, the servo straight press ensures consistent processing quality, reduced material waste, and improved production efficiency, making it an ideal solution for industries requiring high accuracy and automation-ready equipment.
The robust closed-frame design provides superior rigidity and load-bearing capability, making the press suitable for high-load and high-precision processing. This structure minimizes deformation, extends machine lifespan, and reduces long-term maintenance costs.
Driven by a servo motor system, the press offers precise and programmable control of stroke, speed, and forming pressure, ensuring stable and repeatable results even in complex and demanding applications.
Compared with traditional mechanical presses, the servo straight press delivers significantly lower energy consumption. Its high efficiency helps manufacturers reduce operating costs while supporting green and sustainable manufacturing standards.
This machine supports a wide range of processes, including precision stamping, deep drawing, and metal forming, making it a flexible solution for complex and multi-step production requirements.
The closed-frame structure effectively reduces vibration and deformation during operation, resulting in smooth processing, improved surface quality, and reduced defect rates.
Designed for smart manufacturing, the servo straight press can be easily integrated into automated stamping lines, robotic systems, and coil feeding equipment, enhancing production flexibility and overall factory productivity.
Equipped with comprehensive safety features such as emergency stop systems, safety guards, and overload protection, the press ensures safe operation and protects both operators and equipment.
Applications
Automotive stamping parts
Electrical enclosures
Electronic components
Heat sink forming
Home appliance hardware
New energy and battery metal components
The Servo Straight Press can be seamlessly integrated with various coil processing equipment—including servo feeders, uncoilers, straighteners, and complete 3-in-1 Coil Feed Lines—to create a fully automated stamping solution.
This flexible integration significantly enhances production efficiency, ensures stable coil feeding, and minimizes manual intervention, making it ideal for high-volume and precision stamping applications.

Servo motor with closed-loop control
Programmable slide motion profile
Accuracy within ±0.01 mm per stroke
Ideal for multi-cavity progressive die stamping where precision matters most.
Servo Straight Press seamlessly integrates with 3-in-1 servo feeders and Press Transfer System to form a fully automated stamping line. Especially suitable for high-volume production of EV battery aluminum shells, caps, and terminals.
Compared to traditional mechanical and hydraulic presses, our servo straight press offers significantly lower noise, cleaner energy use, and smoother operation—meeting factory standards for new energy workshops.
Technical Parameters
| Paramater/Model | ZXSM1-1100 | ZXSM1-1600 | ZXSM1-2000 | ZXSM1-3000 | ZXSM2-2000 | ZXSM2-3000 | ZXSM2-4000 | ZXSM2-5000 |
| Nominal force(KN) | 1100 | 1600 | 2000 | 3000 | 2000 | 3000 | 4000 | 5000 |
| Nominal force stroke(MM) | 5 | 5 | 5 | 5 | 6 | 6 | 6 | 6 |
| Slide stroke length(MM) | 180 | 200 | 250 | 300 | 250 | 300 | 350 | 350 |
Unloaded continuous stroke number(SPM) | 1~70 | 1~60 | 1~50 | 1~40 | 1~50 | 1~40 | 1~35 | 1~30 |
| Die height(MM) | 350 | 400 | 450 | 550 | 500 | 550 | 650 | 650 |
| Slide adjustment(MM) | 90 | 100 | 110 | 120 | 120 | 120 | 120 | 120 |
| Slide area(LRXFB)(MM) | 800×520 | 900×580 | 1000×650 | 1200×850 | 1850×750 | 2400×900 | 2500×1000 | 2600×1100 |
| Bolster area(LRXFB)(MM) | 1000×680 | 1100×760 | 1200×840 | 1400×1000 | 2200×940 | 2500×1000 | 2700×1100 | 2800×1200 |
| Throat depth | 680×350 | 760×450 | 800×450 | 1000×550 | 900×600 | 900×600 | 1100×550 | 1200×550 |
| Servo main motor power(KW) | 63 | 63 | 84 | 111 | 84 | 111 | 157 | 209 |
Application
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Thick-Sheet 3-in-1 Decoiler, Leveler & Feeder System for Automotive Stamping Applications
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Ready to streamline your production with reliable stamping automation solutions that boost efficiency, reduce downtime!
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FAQ
Q: How do I determine the right feeder size for my production line?
A: The feeder size depends on the material width, thickness, and feeding step distance required by your stamping press. Choosing the correct specifications ensures smooth operation and prevents feeding errors or misalignment.
Q: What factors should I consider when choosing a servo feeder machine?
A: When selecting a servo feeder, key factors include feeding accuracy (±0.05mm or better), maximum feeding speed (e.g., 20m/min), material compatibility (stainless steel, aluminum, etc.), load capacity, and control system (PLC or touchscreen). Ensure the machine matches your stamping process requirements.
Q: How do I choose the right decoiler, straightener and feeder?
A: Select based on material type, width, thickness, coil weight, and required speed. Match decoiler capacity to coil size, choose a straightener for material strength, and a feeder that meets feed length and precision. Ensure compatibility with your press and automation level.
Q: Coil feeder vs servo feeder: what’s the difference?
A: A coil feeder is a broader system for continuous coil feeding, often integrated with decoiler and straightener. A servo feeder uses servo motors for precise, programmable feeding, ideal for short pitches and high accuracy applications.
Q: How to choose decoiler capacity?
A: Select a decoiler rated 10–20% above your maximum coil weight. Confirm inner diameter (I.D.) compatibility and outer diameter limits. Adjustable mandrels are recommended if you run multiple coil sizes.
Q: What feed precision can I expect?
A: Servo feeders typically achieve ±0.01–0.05 mm, with high-end models reaching ±0.005 mm. Mechanical feeders usually provide ±0.02–0.1 mm. Actual accuracy depends on material properties and straightening quality.
Q: How does material affect machine selection?
A: High-strength materials need stronger straightening and drive systems. Thin materials require low-pressure handling. Soft materials like aluminum need anti-scratch solutions.
Q: What affects feeding accuracy most?
A: Key factors include feeder precision, servo tuning, straightener setup, material quality, and press stability. Poor setup or worn dies can reduce accuracy.
Q: What spare parts should be prepared?
A: Common spares include bearings, belts, sensors, seals, guide blocks, and lubrication parts. Keeping key components reduces downtime and improves maintenance efficiency.
Q: Can feeders be retrofitted to existing presses?
A: Yes, most systems support retrofitting. Check press dimensions, feed height, control compatibility, and safety requirements before installation.
Q: How long does it take to receive the feeder machine after placing an order?
A: Lead time for delivery typically ranges from 4 to 8 weeks depending on customization, production schedules, and shipping location. Once your order is confirmed, we will provide a more precise delivery estimate.
Q: What are your payment terms?
A: We accepts T/T payment, 30% deposit and 70% balance before shipping
Q: How often should I perform maintenance on my servo feeder machine?
A: Routine maintenance should be conducted weekly for basic cleaning and lubrication, while a more thorough inspection should be done monthly to check for wear on rollers, belts, and electrical components. A full servicing is recommended every 6-12 months depending on usage intensity.
Q: What are the most common issues with feeder machines, and how can I troubleshoot them?
A: Common issues include misalignment, inconsistent feeding accuracy, or motor failure. Check for loose bolts, dirt buildup, or software calibration errors. If problems persist, refer to the user manual or contact technical support.
Q: Do you provide on-site repair services if my machine breaks down?
A: Yes, we offer on-site repair services for major issues, along with remote troubleshooting support for minor problems. For urgent cases, we can dispatch a technician within 24-48 hours, depending on your location.
Q: What is the maintenance cycle?
A: Daily cleaning and inspection; weekly check belts, air lines; monthly inspect bearings and guides; yearly replace worn parts. Adjust frequency based on operating hours and workload.
Q: What's the package of your coil feeding machines?
A: For the coil feeding equipment that go LCL shipping, We will use plastic films wrap on the equiment, and then fix it into a wooden box.
For the large coil lines that go FCL shipment, We will fix each part with ropes on the shipping container and then wrapped them with plastic films.
Q: What is the typical lead time?
A: Standard machines usually take 4–8 weeks. Customized systems or full production lines may require 10–20+ weeks depending on complexity and production schedule.
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