Laboratory Rotor Spinning Machine Used to Convert Fiber Into Yarn

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Laboratory Rotor Spinning Machine Used to Convert Fiber Into Yarn

Name: Laboratory Rotor Spinning Machine Used to Convert Fiber Into Yarn
Brand: Anytester (hefei) Co., Ltd.
SKU: 62179447575_1
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Rotor Spinning Technology: Converts raw fibers into high-quality yarn through rotor spinning, enabling precise control over yarn structure and consistency.
Laboratory Precision: Designed for research and development environments to test fiber properties, optimize spinning parameters, and ensure consistent yarn performance.

Key features

1. Corrosion-Resistant Metal Construction

Material Technology

2. Programmable Digital Interface

Interactive Design

3. High-Speed Rotor Technology

Performance Parameters

4. Modular Design for Versatile Use

Scenario Solutions

5. ISO-Certified Precision Engineering

Certification Standards

Product details

The ANYTESTER Laboratory Rotor Spinning Machine is a precision-engineered textile machinery designed to convert fibers into high-quality yarn through advanced rotor spinning technology. Built with industrial-grade steel for durability, it features a digital control panel for programmable settings and modular components to adapt to diverse production needs. Ideal for research labs and small-scale manufacturing, it combines compact design with cutting-edge automation for consistent yarn output.

Technical specifications

Feature	Specification	Benefit
Spinning Method	Rotor Spinning	High-speed, low-twist yarn production
Material	Industrial-grade steel frame	Enhanced durability and resistance
Control System	Digital display with programmable UI	Precise parameter adjustments
Yarn Diameter Range	10-50 denier	Versatile for cotton, polyester, and blends
Automation Level	Semi-automatic with manual override	Flexible operation for R&D and production

Customization guide

Adjustable parameters include rotor speed (10,000–40,000 RPM), fiber feed rate (5–30 g/min), and yarn tension settings. Customize these to optimize yarn fineness, strength, or texture for specific applications like technical textiles, apparel, or industrial fabrics.

Get inspired

With the ANYTESTER’s rotor spinning technology, you can produce ultra-fine yarns for delicate lace fabrics or high-tensile yarns for industrial ropes. Its programmable controls let researchers test novel fiber blends, while its modular design allows easy integration into existing production lines.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Max Spinning Speed	30,000 RPM	+15% (34,500 RPM)	+30% (39,000 RPM)*
Yarn Strength	2.5 cN/tex	3.0 cN/tex	3.5 cN/tex
Automation	Semi-automatic	Fully automated	AI-driven optimization

Supplier's note

Technical Breakthroughs:
- Rotor Speed Efficiency: The Pro Model’s 39,000 RPM outperforms industry standards by 20%, enabling faster prototyping.
- Yarn Consistency: Advanced tension sensors reduce defects by 25% compared to traditional systems.
- Modular Design: Quick-swappable components cut downtime by 40% during maintenance.
Version Selection Guidance:
- Base Model: Ideal for academic labs prioritizing budget-friendly R&D.
- Advanced Model: Best for SMEs needing automation for mid-volume production.
- Pro Model: Suitable for industrial partners requiring ultra-high-speed testing and AI-driven quality analytics. For instance, its 3.5 cN/tex yarn strength ensures durability in automotive textiles, paired with steel construction for 24/7 operation.

*Performance gains vs. industry benchmarks (ISO 20610:2023).

Frequently asked questions

Which rotor spinning machine model is best for small-scale laboratory use?
How do I clean the rotor chamber to maintain yarn quality?
How does rotor spinning compare to ring spinning for lab experiments?
Can this machine be customized for specialty fibers like carbon or synthetic blends?
Is the ANYTESTER rotor spinning machine ISO-certified for lab standards?
What types of fibers can this rotor spinning machine process?
How precise is the yarn thickness control in this machine?
Does this machine require special installation or ventilation?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Spinning Speed	Mass Production, High-Volume Factories	Industry Standard: 80,000 rpm (ISO 230-2) Our Base: 100,000 rpm (▲12.5%) Our Advanced: 120,000 rpm (▲▲▲25% from Base)	▲▲▲ Advanced: 50% faster than industry standard for rapid yarn production	Higher energy consumption; requires specialized operator training (▲▲▲ tier)
Yarn Uniformity	Premium Textile Manufacturing	Industry Standard: CV% ≤ 2.5% (ASTM D1237) Our Base: CV% ≤ 1.8% (▲28% improvement) Our Advanced: CV% ≤ 1.2% (▲▲▲40% from Base)	▲▲▲ Advanced: Consistent yarn quality for luxury fabrics like silk blends	Higher maintenance costs due to precision components (▲▲▲ tier)
Noise Level	Noise-Sensitive Environments	Industry Standard: 85 dB (OSHA compliance) Our Base: 78 dB (▲7 dB reduction) Our Advanced: 72 dB (▲▲▲6 dB further reduction)	▲▲▲ Advanced: Quieter than a library (72 dB) for office-adjacent factories	Increased cost of sound-dampening materials (▲▲▲ tier)
Energy Efficiency	Sustainable Manufacturing	Industry Standard: 2.5 kW/kg (ISO 14040) Our Base: 1.8 kW/kg (▲28% savings) Our Advanced: 1.2 kW/kg (▲▲▲40% from Base)	▲▲▲ Advanced: 52% lower energy use than industry standard	Requires premium-grade components for efficiency (▲▲▲ tier)
Maintenance Frequency	High-Throughput Operations	Industry Standard: Weekly calibration (ISO 10360) Our Base: Bi-weekly (▲50% reduction) Our Advanced: Monthly (▲▲▲67% from Base)	▲▲▲ Advanced: 70% fewer downtime hours annually	Initial setup costs for self-calibrating systems (▲▲▲ tier)
Material Compatibility	Diverse Fiber Processing	Industry Standard: 10+ fibers (ASTM D1234) Our Base: 18 fibers (▲80% expansion) Our Advanced: 25+ fibers (▲▲▲39% from Base)	▲▲▲ Advanced: Processes exotic fibers like carbon nanotubes	Requires advanced training for multi-material setups (▲▲▲ tier)

Laboratory Rotor Spinning Machine Used to Convert Fiber Into Yarn

Laboratory Rotor Spinning Machine Used to Convert Fiber Into Yarn

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Corrosion-Resistant Metal Construction

2. Programmable Digital Interface

3. High-Speed Rotor Technology

4. Modular Design for Versatile Use

5. ISO-Certified Precision Engineering

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which rotor spinning machine model is best for small-scale laboratory use?

How do I clean the rotor chamber to maintain yarn quality?

How does rotor spinning compare to ring spinning for lab experiments?

Can this machine be customized for specialty fibers like carbon or synthetic blends?

Is the ANYTESTER rotor spinning machine ISO-certified for lab standards?

What types of fibers can this rotor spinning machine process?

How precise is the yarn thickness control in this machine?

Does this machine require special installation or ventilation?

Product comparison

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