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  • Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching
  • Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching
  • Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching
  • Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching
  • Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching
  • Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching
Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching

Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching

  • 2 - 9 Sets
    $29,000
  • >= 10 Sets
    $20,000
View product details

Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • TPT Backsheet Cutting: Precision cutting of TPT (Tedlar-PET-Tedlar) backsheet material for solar panels, ensuring uniformity and quality in solar cell manufacturing.
  • Edge Trimming: Automated edge trimming to remove excess material, enhancing efficiency and reducing waste during solar panel production.

Key features

  • 1. Material Technology

    • With a corrosion-resistant stainless steel body, ensure durability in harsh manufacturing environments. 30% more durable than aluminum alternatives

  • 2. Interactive Design

    • With a programmable touchscreen interface, customize cutting patterns and presets for diverse solar panel designs. 30% faster setup compared to manual models

  • 3. Performance Parameters

    • With a high-speed roller system, achieve processing speeds of up to 60 meters per minute. 30% faster throughput than standard models

  • 4. Scenario Solutions

    • Designed for continuous commercial operation, ensuring consistent output for large-scale solar panel production. Handles up to 200 panels per hour, outperforming compact models

  • 5. Certification Standards

    • Certified to CE and UL safety standards, ensuring operator safety and global market compliance. Exceeds basic safety requirements of non-certified models

Product details

Solar Panel Manufacturing Machines Backsheet EVA TPT Roll to Sheet Cutting Machine with Hole Punching

The Solar Panel Manufacturing Machine for Backsheet TPT Cutting with Edge Trimming is designed to streamline high-volume production of solar panel backsheets. Built with industrial-grade durability and precision, this machine automates material handling, cutting, and trimming processes, ensuring consistency in solar panel manufacturing.

Technical specifications

FeatureSpecificationBenefit
Material ConstructionStainless steel frame with corrosion-resistant surfaceWithstands harsh industrial environments and reduces maintenance needs.
Modular DesignInterchangeable rollers and adjustable cutting parametersCustomizable for varying TPT material thicknesses and processing needs.
Automation LevelProgrammable control panel with digital interfaceEnables precise, repeatable cuts and reduces manual intervention.
Safety FeaturesGuardrails, emergency stop buttons, and ISO 13849-1 compliant safety protocolsEnsures operator safety and compliance with global industrial standards.
Processing CapacityHandles rolls up to 2m width and 500kg weightEfficiently processes large volumes of TPT material for high-throughput lines.

Customization guide

Adjustable roller diameters (150mm–300mm) and cutting blade spacing (0.1mm increments) allow optimization for specific TPT material thicknesses (e.g., 120–300μm). The modular design supports retrofitting with additional sensors or conveyors for specialized solar panel configurations.

Get inspired

With this machine’s precision cutting and edge-trimming capabilities, solar manufacturers can achieve uniform backsheets with minimal waste. Its automation reduces labor costs while maintaining strict quality standards required for photovoltaic applications.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Processing Speed15m/min20m/min (+33%)25m/min (+67%)
Cutting Precision±0.5mm±0.3mm±0.1mm
Automation ControlBasic manual setupSemi-automatedFully automated (IoT-enabled)
Safety ComplianceISO 13849-1ISO 13849-1 + CEISO 13849-1 + CE + UL

Supplier's note

  1. Technical Breakthroughs:

    • Material Resistance: The Pro model’s stainless steel construction (316L grade) offers 20% higher corrosion resistance than standard models, ideal for humid manufacturing environments.
    • Precision Automation: The Advanced model’s ±0.3mm accuracy reduces material waste by 15% compared to manual systems.
    • Modular Scalability: All versions support quick tooling changes, enabling rapid reconfiguration for different TPT material types (e.g., polyimide vs.Tedlar).

  2. Optimal Version Selection:

    • Base Model: Suitable for small-to-medium solar panel manufacturers prioritizing cost efficiency and basic automation.
    • Advanced Model: Ideal for mid-scale production lines requiring semi-automated precision and compliance with EU safety standards (CE).
    • Pro Model: Best for large-scale manufacturers needing IoT integration and ultra-precise cuts for high-efficiency solar panels (e.g., bifacial modules). With its UL certification, it meets stringent export requirements for North American markets.

Example: The Pro version’s ±0.1mm cutting precision ensures flawless alignment of TPT layers, directly boosting solar panel durability. Paired with its IoT-enabled monitoring, operators can remotely adjust parameters to optimize energy yield in real time.

Frequently asked questions

  • Which Solar Panel Manufacturing Machine model is best for small-scale production?

  • How to clean the cutting blades of a TPT backsheet cutting machine?

  • TPT vs PET backsheets: Which is better for solar panels?

  • Can the Backsheet TPT Cutting Machine be customized for different materials?

  • Is the machine IEC-certified for solar panel manufacturing?

  • How does automation in the TPT cutting machine reduce labor costs?

  • What precision does the edge trimming feature offer for solar backsheets?

  • What safety features does the Backsheet TPT Cutting Machine have?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Material Handling CapacityHigh-volume solar panel production linesIndustry Standard: 500 kg/h roll capacity
Our Base: 700 kg/h (▲)
Our Advanced: 1,000 kg/h (▲▲)		▲▲ Our Advanced: 100% faster throughput (ISO 9283 certified)
Reduces downtime in mass production		Higher upfront cost for advanced models
Cutting PrecisionQuality control in solar backsheet productionIndustry Standard: ±0.5mm tolerance
Our Base: ±0.3mm (▲)
Our Advanced: ±0.1mm (▲▲)		▲▲ Our Advanced: 99.9% defect-free edges (IEC 61215 compliant)
Ensures seamless solar panel assembly		Requires specialized calibration for precision models
Automation LevelAutomated solar panel factoriesIndustry Standard: Semi-automated (manual setup)
Our Base: Fully automated (▲)
Our Advanced: AI-driven adaptive cutting (▲▲)		▲▲ Our Advanced: 40% lower labor costs (ISO 10218 robotics integration)
Self-optimizes for material thickness variations		Higher software maintenance requirements
Safety FeaturesIndustrial environments with multiple operatorsIndustry Standard: Basic emergency stops
Our Base: Dual-layer safety guards + emergency stops (▲)
Our Advanced: Real-time motion detection (▲▲)		▲▲ Our Advanced: 0% reported accidents in 20k+ hours (OSHA compliance)
Prevents accidental contact during operation		Adds complexity to initial setup
ModularityCustom solar panel designsIndustry Standard: Fixed configuration
Our Base: Swappable cutting heads (▲)
Our Advanced: Full modular assembly (▲▲)		▲▲ Our Advanced: 50% faster reconfiguration (ISO 13399 standards)
Suits R&D and prototype testing		Requires training for modular adjustments
Energy EfficiencyEnergy-sensitive manufacturing facilitiesIndustry Standard: 85% energy efficiency
Our Base: 92% (▲)
Our Advanced: 95% (▲▲)		▲▲ Our Advanced: $15k annual savings (IEC 60038 compliance)
Reduces carbon footprint		Advanced models have heavier power requirements

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