Types of Full Automatic Bottle Labeling Machines
A full automatic bottle labeling machine is an essential piece of equipment for businesses involved in packaging, bottling, and manufacturing. These advanced systems streamline the labeling process, ensuring high-speed, consistent, and professional results across thousands of containers per hour. Designed for efficiency and precision, automatic labeling machines reduce labor costs, minimize errors, and enhance overall production throughput.
Manufacturers and suppliers offer various types of full automatic bottle labeling machines tailored to different product shapes, label types, and production volumes. Below is a detailed breakdown of the most common types available for business buyers in bulk operations.
Wrap-Around Labeling Machines
Designed for cylindrical containers like bottles, jars, and tubes, these machines apply labels that completely wrap around the circumference of the product. The label is precisely rolled and adhered using pressure and tension control systems.
Advantages
- Perfect for full-wrap or 360° labeling
- Ideal for cylindrical and symmetrical containers
- High-speed operation (up to 300+ bottles per minute)
- Consistent label placement and alignment
- Reduces manual labor and human error
Limitations
- Limited to round or uniformly shaped products
- Higher initial investment for advanced models
- Requires precise calibration for optimal results
Best for: Beverage, cosmetic, and pharmaceutical industries using cylindrical packaging
Self-Adhesive (Pressure-Sensitive) Labeling Machines
These machines use pre-coated adhesive labels that are dispensed from a roll, peeled from their backing, and applied to bottles using mechanical pressure. Also known as "pressure-sensitive" labeling systems, they are among the most versatile and widely used in modern packaging.
Advantages
- Compatible with various label materials (paper, film, foil)
- Accurate label placement with minimal waste
- Works with round, square, rectangular, and irregularly shaped bottles
- Low maintenance and easy setup
- Suitable for medium to high-volume production
Limitations
- Adhesive quality affects long-term durability
- Label roll changes require brief downtime
- Environmental factors (humidity, temperature) may impact adhesion
Best for: Food & beverage, health & beauty, and chemical industries requiring flexible labeling solutions
Round Bottle Labeling Machines
Specially engineered for round containers, these machines rotate the bottle or use a rotating applicator head to apply labels evenly around the circumference. They are optimized for consistent labeling on symmetrical, cylindrical bottles of various sizes.
Advantages
- High precision and repeatability
- Handles a wide range of diameters (200ml to 5L+)
- Fast changeover between bottle sizes
- User-friendly interface and quick setup
- Minimizes label wrinkling and misalignment
Limitations
- Not suitable for non-circular containers
- Limited flexibility compared to multi-purpose systems
- May require additional tooling for extreme sizes
Best for: Water, juice, oil, and spirits bottling plants with standardized round packaging
| Machine Type | Labeling Speed | Container Compatibility | Production Suitability | Key Benefit |
|---|---|---|---|---|
| Wrap-Around | 200–400 bpm | Cylindrical only | Medium to High Volume | Full 360° label coverage |
| Self-Adhesive | 150–350 bpm | Round, Square, Rectangular | Small to High Volume | Versatility across shapes |
| Round Bottle | 250–500 bpm | Round containers only | Medium to High Volume | High-speed precision |
Expert Tip: When selecting a full automatic bottle labeling machine, consider future production needs. Opt for models with modular designs that allow upgrades or integration into larger packaging lines as your business scales.
Investing in a full automatic bottle labeling machine transforms your packaging process into a seamless, efficient operation. Whether you're labeling beverages, cosmetics, or household products, these systems ensure every bottle receives a clean, professional label—boosting brand image and operational productivity.
Industrial Applications of Full Automatic Bottle Labeling Machines
Full automatic bottle labeling machines have revolutionized packaging processes across multiple industries by delivering unmatched speed, accuracy, and consistency. These advanced systems eliminate human error, enhance production throughput, and ensure compliance with regulatory standards. From pharmaceuticals to chemicals, businesses rely on automated labeling to maintain product integrity, improve traceability, and meet growing consumer demands efficiently.
Pharmaceutical Industry: Precision and Compliance in Medicine Labeling
Regulatory Demands
The pharmaceutical industry operates under strict regulatory frameworks such as FDA, EMA, and WHO guidelines. Accurate labeling is not optional—it's a legal requirement. Each label must include critical information like drug name, dosage, batch number, expiration date, usage instructions, and barcodes for tracking.
Role of Automation
Automatic bottle labeling machines ensure 100% accuracy in label placement and content verification through integrated vision systems and barcode scanners. This minimizes the risk of mislabeling, which could lead to medication errors, product recalls, or legal liabilities.
These machines can handle various container types—including vials, syringes, and prescription bottles—at high speeds while maintaining sterility and traceability. Their integration into GMP (Good Manufacturing Practice) environments supports audit readiness and quality assurance protocols.
Manual labeling in this sector poses significant risks, including inconsistent alignment, missing data, or incorrect labeling. Automated systems eliminate these issues, ensuring every medicine is correctly identified and traceable throughout its lifecycle.
Food and Beverage Industry: Efficiency and Safety in Mass Production
High-Volume Output
Beverage and food manufacturers often process thousands of bottles per hour. Products like bottled water, juices, soft drinks, sauces, and condiments require consistent, high-speed labeling to keep up with demand.
Accuracy and Brand Consistency
Automatic labeling machines apply labels with precise alignment and tension control, ensuring a professional appearance across all packaging. This enhances brand image and consumer trust.
Integrated sensors detect missing or misaligned labels, triggering rejection mechanisms to prevent defective products from reaching the market. This level of control helps avoid costly recalls due to incorrect allergen information or nutritional facts.
By replacing manual labor, these machines significantly reduce operational costs and increase throughput. They are also designed to withstand washdown environments, making them suitable for hygienic food processing facilities that follow HACCP and ISO 22000 standards.
Cosmetic Industry: Aesthetic Appeal and Consumer Confidence
Label Quality and Design
In the cosmetics industry, packaging is a key factor in consumer decision-making. Labels must be flawlessly applied—wrinkle-free, centered, and visually appealing—to reflect the premium nature of skincare, perfumes, and makeup products.
Information Transparency
Modern consumers demand transparency about ingredients, usage instructions, expiration dates, and sustainability claims. Automatic labeling ensures that all required information is clearly printed and correctly placed on each container.
These machines support diverse label formats—including shrink sleeves, pressure-sensitive, and wrap-around labels—allowing brands to maintain design flexibility without sacrificing efficiency.
Automation enables cosmetic companies to scale production rapidly during peak seasons while maintaining consistent quality. Faster labeling times translate into shorter time-to-market and improved responsiveness to retail demands.
Chemical Industry: Safety, Traceability, and Hazard Communication
Safety-Critical Labeling
The chemical industry deals with hazardous substances that require precise labeling for safe handling, storage, and transportation. Labels must comply with global standards such as GHS (Globally Harmonized System), OSHA, and REACH, featuring hazard pictograms, signal words, precautionary statements, and chemical composition.
Error Prevention and Compliance
Mislabeled chemical containers can lead to dangerous accidents, environmental spills, or regulatory penalties. Full automatic labeling machines prevent human error by using database-driven label printing and real-time verification systems.
These machines are built to operate in harsh industrial environments and can handle corrosive materials, extreme temperatures, and non-standard container shapes. Integration with ERP and MES systems allows for batch-specific labeling and full traceability.
By automating the labeling process, chemical manufacturers improve workplace safety, reduce liability risks, and streamline compliance reporting. The ability to quickly adapt labels for different markets or formulations adds further value in global supply chains.
| Industry | Labeling Requirements | Benefits of Automation |
|---|---|---|
| Pharmaceuticals | Dosage, batch ID, expiry, barcodes, regulatory text | Zero errors, full traceability, GMP compliance |
| Food & Beverage | Nutrition facts, ingredients, allergens, brand graphics | High speed, consistent branding, recall prevention |
| Cosmetics | Ingredients, usage instructions, branding, sustainability info | Premium finish, fast changeovers, design flexibility |
| Chemicals | Hazard symbols, safety data, handling instructions, GHS compliance | Risk reduction, regulatory adherence, error-free operation |
Important: Investing in a full automatic bottle labeling machine is not just about increasing speed—it's a strategic move toward quality assurance, regulatory compliance, and brand protection. Businesses should evaluate their specific production needs, container types, and labeling standards before selecting a system. Regular maintenance and staff training are essential to maximize uptime and ensure consistent performance.
Product Design of Full Automatic Bottle Labeling Machine
The design and engineering of full automatic bottle labeling machines play a crucial role in determining their efficiency, versatility, and suitability for different production environments. Understanding the core performance factors helps businesses select the right machine to meet their labeling demands while optimizing cost, accuracy, and throughput.
Labeling Speed
Labeling speed is one of the most critical performance metrics in automated labeling systems. High-speed machines can apply labels at rates up to 600 bottles per minute, making them ideal for large-scale beverage, pharmaceutical, or cosmetic manufacturers with high-volume production lines. These advanced systems are typically integrated with conveyor synchronization, rapid dispensing mechanisms, and real-time monitoring to maintain consistent output.
- Entry-level models operate at around 100 bottles per minute, suitable for small to mid-sized operations
- Mid-range machines offer speeds between 200–400 bpm with balanced performance and affordability
- Top-tier models feature servo-driven motors and precision sensors for ultra-fast, stable labeling
Key insight: Bottlenecking occurs when labeling speed doesn't match upstream or downstream processes—matching machine speed to overall line capacity ensures smooth workflow and prevents production delays.
Labeling Accuracy
Precision in label placement directly impacts product quality and brand image. Advanced automatic labeling machines achieve exceptional accuracy, with error rates as low as 1 mislabeled bottle per 10,000 units. This level of consistency is achieved through integrated vision systems, photoelectric sensors, and closed-loop feedback controls that detect label position, orientation, and presence.
- Common causes of mislabeling include improper bottle spacing, sensor calibration drift, or label roll tension issues
- Machines with automatic correction systems adjust in real time to prevent crooked, double, or missing labels
- Digital touchscreens allow operators to set precise label positioning (e.g., ±0.5mm tolerance)
Pro tip: For high-value products, invest in machines with built-in inspection cameras to reduce waste and ensure compliance with quality standards.
Production Capacity
Daily production capacity varies significantly across machine models and directly correlates with business scale and growth potential. Industrial-grade automatic labeling systems can handle up to 18,000 bottles per day (assuming 8-hour shifts), supporting continuous operation in fast-paced environments. In contrast, compact or semi-automated units may process around 10,000 bottles daily, fitting the needs of startups or niche producers.
- High-capacity machines often include dual-lane configurations or rotary indexing for parallel processing
- Durable components (e.g., stainless steel frames, hardened gears) support extended uptime and reduced maintenance
- Modular designs allow future upgrades to increase capacity without replacing the entire system
Strategic consideration: Choosing a machine with slightly higher capacity than current needs allows room for business expansion without immediate reinvestment.
Types of Bottles Applicable
Versatility in bottle compatibility is essential for companies producing multiple product lines or packaging formats. Modern automatic labeling machines are engineered to accommodate various shapes, sizes, and materials—including glass, PET, HDPE, and composite containers.
- Round bottle labeling machines use rotating spindles or turntables to apply wrap-around labels evenly on cylindrical containers
- Straight-side (flat surface) labelers are optimized for square, rectangular, or oval bottles commonly used in cleaning products or premium beverages
- Adjustable guides, changeable star wheels, and programmable settings enable quick changeovers between bottle sizes (e.g., 200ml vials to 5L jugs)
- Compact all-in-one models integrate the hopper, conveyor, and dispenser into a space-saving unit—ideal for facilities with limited floor space
Design advantage: Machines with tool-free adjustment systems reduce setup time and operator training requirements during product changeovers.
Expert Recommendation: When selecting a full automatic bottle labeling machine, prioritize a balance between speed, accuracy, and adaptability. For growing businesses, choose a model with scalable features—such as optional vision inspection, IoT connectivity, or modular extensions—that support future automation integration. Always conduct a trial run with your actual bottle types and label stock to verify performance before full deployment.
| Machine Tier | Labeling Speed (bpm) | Accuracy Rate | Daily Capacity | Ideal For |
|---|---|---|---|---|
| Economy / Entry-Level | 80–120 | 98.5% (150 errors/10k) | ~10,000 bottles | Small startups, local bottlers |
| Mid-Range / Standard | 200–400 | 99.7% (30 errors/10k) | 12,000–15,000 bottles | Regional brands, contract packagers |
| Premium / High-Speed | 500–600+ | 99.99% (1 error/10k) | 16,000–18,000+ bottles | National brands, pharmaceuticals |
| Custom / Multi-Format | 150–350 (adjustable) | 99.8% (20 errors/10k) | 10,000–14,000 bottles | Multi-product lines, specialty packaging |
Additional Design Considerations
- Material Handling: Machines should support smooth bottle transfer using low-friction guides and anti-jam mechanisms to prevent downtime
- User Interface: Touchscreen HMI (Human-Machine Interface) simplifies operation, stores presets, and provides diagnostic alerts
- Maintenance Access: Open-frame designs and removable panels allow easy cleaning and servicing, reducing maintenance time
- Noise & Safety: Enclosed moving parts, emergency stops, and noise-dampening materials improve workplace safety and comfort
- Label Roll Compatibility: Support for various core sizes (e.g., 3", 6") and maximum roll diameters enhances flexibility and reduces changeover frequency
Maintenance and Repair of Full Automatic Bottle Labeling Machine
Proper maintenance of a full automatic bottle labeling machine is essential for ensuring consistent performance, minimizing downtime, and extending the lifespan of critical components. For business owners and production managers, implementing a structured care routine can significantly improve labeling accuracy, reduce material waste, and maintain high throughput. This comprehensive guide outlines best practices for cleaning, lubrication, inspection, and repair protocols to keep your labeling system operating at peak efficiency.
Safety Warning: Always disconnect power before performing maintenance. Follow lockout/tagout (LOTO) procedures when accessing internal components. Wear appropriate personal protective equipment (PPE), including safety glasses and gloves, to prevent injury from moving parts or chemical exposure during cleaning.
Keep It Clean: Prevent Buildup and Ensure Smooth Operation
One of the most effective ways to maintain optimal performance is through consistent and thorough cleaning. Accumulated dust, adhesive residue, label fragments, and product debris can interfere with sensor operation, jam conveyors, and impair label application accuracy.
Contaminants on rollers, belts, and guiding mechanisms create friction and misalignment, leading to skewed labels or machine stoppages. Over time, this increases wear on moving parts and may require premature replacement of expensive components.
- Daily Cleaning: At the end of each shift, wipe down external surfaces, conveyor belts, and labeling heads using a lint-free cloth and manufacturer-approved cleaning solution.
- Weekly Deep Cleaning: Perform a detailed cleaning of internal components, including sensors, rollers, and tension arms. Remove any dried adhesive or paper buildup that could affect precision.
- Sensor Maintenance: Gently clean optical and proximity sensors with isopropyl alcohol to ensure accurate detection of bottles and labels.
- Air Filters: If your machine uses pneumatic systems, inspect and clean air filters weekly to prevent pressure drops and valve malfunctions.
Pro Tip: Develop a cleaning checklist and assign responsibility to specific team members. Document each cleaning session to track consistency and identify recurring issues.
Lubricate Regularly: Protect Moving Components
Like any precision machinery, automatic labeling machines rely on smooth mechanical movement. Without proper lubrication, metal components such as gears, bearings, slides, and chains can experience excessive friction, leading to overheating, accelerated wear, and eventual failure.
Improper or inconsistent lubrication not only damages individual parts but can also place additional strain on motors and drive systems, increasing energy consumption and the risk of system-wide breakdowns.
- Use Manufacturer-Specified Lubricants: Only apply lubricants approved by the machine’s manufacturer. Using incorrect oils or greases can degrade seals, attract dust, or react with adhesives.
- Weekly Lubrication Schedule: Apply lubricant to all designated points—including linear rails, chain drives, and pivot joints—according to the maintenance manual.
- Avoid Over-Lubrication: Excess oil can drip onto labels or bottles, causing contamination or misapplication. Wipe away any surplus after application.
- Monitor Performance: Listen for unusual noises (e.g., squeaking or grinding), which may indicate insufficient lubrication or component wear.
Check for Damage: Conduct Routine Inspections
Preventive inspection is key to avoiding unexpected downtime. Even minor damage—such as a cracked guide, worn belt, or misaligned roller—can compromise labeling quality and lead to cascading failures if left unaddressed.
Early detection allows for timely repairs and prevents small issues from escalating into costly repairs or production halts.
- Pre-Shift Visual Inspection: At the start of every shift, operators should inspect the machine for visible signs of wear, loose fasteners, leaks, or damaged parts.
- Focus Areas: Pay special attention to rubber rollers (check for cracking or flattening), belts (look for fraying or stretching), and sensors (ensure they are aligned and unobstructed).
- Wear Indicators: Monitor label applicator pads and tamp pads for thinning or hardening, which reduces labeling accuracy.
- Keep Spare Parts On Hand: Maintain an inventory of common wear items such as belts, rollers, fuses, and nozzles to minimize downtime during replacements.
- Log Observations: Record any anomalies in a maintenance log for trend analysis and future planning.
| Maintenance Task | Frequency | Key Components Involved | Potential Consequences of Neglect |
|---|---|---|---|
| Surface Cleaning | Daily | Conveyor, frame, labeling head | Label jams, inaccurate placement |
| Deep Internal Cleaning | Weekly | Sensors, rollers, air jets | Sensor failure, misfeeds |
| Lubrication | Weekly | Gears, chains, linear guides | Component wear, motor strain |
| Inspection & Adjustment | Pre-shift | Belts, guides, tensioners | Skewed labels, machine stoppage |
| Preventive Replacement | Monthly/As Needed | Rubber rollers, tamp pads, belts | Reduced efficiency, poor label adhesion |
Seek Professional Help: Know When to Call the Experts
While routine maintenance can be handled in-house, major repairs or complex diagnostics should only be performed by trained technicians or the original equipment manufacturer (OEM). Attempting advanced repairs without proper knowledge can result in further damage, void warranties, or create safety hazards.
Manufacturers possess specialized tools, firmware updates, and technical documentation that enable them to diagnose and resolve issues efficiently and safely.
- OEM Support: Contact the manufacturer for troubleshooting electrical faults, software errors, or servo motor issues.
- Follow the Manual: Always refer to the user and service manuals before attempting any disassembly or calibration.
- Prepare for Service: When scheduling professional maintenance or repair, clean the machine thoroughly and provide a detailed description of the issue to expedite diagnosis.
- Software Updates: Some labeling machines require periodic firmware updates to improve performance or fix bugs—these should be applied by qualified personnel.
Expert Advice: Establish a service contract with your equipment supplier for scheduled maintenance visits. Regular professional checkups can catch hidden issues early and keep your machine running like new for years.
Additional Maintenance Recommendations
- Train all operators on basic maintenance tasks and safety procedures.
- Keep a complete set of manuals, schematics, and maintenance logs accessible on-site.
- Calibrate sensors and timing mechanisms quarterly to ensure labeling accuracy.
- Monitor label roll tension regularly to prevent wrinkles or misfeeds.
- Use high-quality labels and materials compatible with your machine to reduce jams and adhesive buildup.
- Schedule a comprehensive annual inspection to assess overall machine health.
By following these maintenance and repair guidelines, businesses can maximize uptime, reduce operating costs, and ensure consistent labeling quality. A proactive approach to machine care not only protects your investment but also supports smooth, efficient production. Remember: a well-maintained labeling machine is a reliable partner in delivering professional, high-quality packaging.
Frequently Asked Questions About Automatic Bottle Labeling Machines
Labels used in automatic bottle labeling machines are commonly made from three primary materials—paper, vinyl, and polyester—each suited to different applications based on durability, environmental exposure, and cost:
- Paper Labels: The most economical option, ideal for short-term or indoor use where moisture resistance isn’t required. These are often used for beverages, cosmetics, or food products with dry packaging environments. However, they can tear or degrade when exposed to water, oil, or high humidity.
- Vinyl Labels: Known for their flexibility and durability, vinyl labels are waterproof, oil-resistant, and capable of adhering well to curved or uneven surfaces. They are commonly used for products like cleaning supplies, oils, and outdoor containers where longevity and resistance to environmental factors are essential.
- Polyester (Plastic) Labels: The most robust option, offering excellent resistance to chemicals, UV light, and extreme temperatures. These are frequently used in industrial, pharmaceutical, or chemical manufacturing settings where labels must remain legible and intact under harsh conditions.
Choosing the right label material depends on your product’s storage conditions, shelf life, and regulatory requirements. Many modern labeling machines are designed to handle all three types with minimal adjustments.
Most automatic bottle labeling machines are designed with user-friendliness in mind, minimizing the need for highly specialized training. However, the level of expertise required can vary depending on the machine’s complexity:
- Entry-Level Models: Often feature intuitive interfaces, pre-set configurations, and quick-change tooling that allow operators with minimal experience to set up and run the machine efficiently after brief onboarding.
- Mid-Range to Industrial Systems: May include programmable logic controls (PLCs), touchscreen HMI panels, and integration with production lines. These benefit from operators who have basic mechanical or technical knowledge, particularly for troubleshooting and fine-tuning performance.
- Adjustability: Modern machines are typically adjustable for various bottle shapes, sizes, and label dimensions. This adaptability is usually managed through simple mechanical adjustments or digital presets, making changeovers fast and repeatable.
- Training Resources: Manufacturers typically provide comprehensive user manuals, video tutorials, and customer support to guide setup, operation, and maintenance.
While formal certification isn’t usually required, investing in operator training enhances efficiency, reduces downtime, and extends equipment lifespan.
Reputable automatic bottle labeling machines often come with internationally recognized certifications that assure quality, safety, and compliance with industry standards. Key certifications include:
| Certification | What It Ensures | Relevance to Labeling Machines |
|---|---|---|
| ISO 9001 | Quality management systems that ensure consistent design, manufacturing, and service delivery. | Indicates the manufacturer follows rigorous processes for reliability and continuous improvement. |
| CE Marking | Compliance with European health, safety, and environmental protection standards. | Essential for machines sold in the EU; covers electrical safety, mechanical integrity, and user protection. |
| UL/CSA | Safety certification for electrical components in North America. | Important for facilities in the U.S. and Canada to meet local regulatory requirements. |
| IP Rating (e.g., IP54, IP65) | Dust and moisture resistance levels for electrical enclosures. | Crucial for machines used in wet or dusty environments, indicating protection against ingress. |
These certifications not only validate the machine’s build quality and safety but also support compliance with GMP (Good Manufacturing Practices) in regulated industries like food, beverage, and pharmaceuticals. Always verify certifications before purchasing, especially for global operations.
Proper maintenance and operational practices are key to maximizing the lifespan and performance of an automatic bottle labeling machine. Consider the following best practices:
- Follow the Manufacturer’s Manual: This includes recommended cleaning schedules, lubrication points, and torque specifications for critical components.
- Regular Cleaning: Residue from adhesives, dust, or product spillage can accumulate and impair sensor accuracy or mechanical movement. Clean rollers, belts, and labeling heads routinely using approved methods.
- Lubrication: Apply appropriate lubricants to moving parts such as gears, bearings, and slides as specified—over-lubrication can attract debris and cause issues.
- Wear Part Replacement: Monitor consumable components like rubber rollers, belts, and sensors. Replace them proactively before failure disrupts production.
- Preventive Maintenance Schedule: Implement a scheduled maintenance plan (weekly, monthly, quarterly) to inspect alignment, tension, and electrical connections.
- Operator Training: Ensure staff understand proper startup, shutdown, and basic troubleshooting procedures to prevent misuse.
By adhering to these practices, companies can significantly reduce unplanned downtime, maintain consistent labeling accuracy, and extend the service life of their equipment—often beyond 10 years with proper care.
Standard automatic bottle labeling machines are generally not fully waterproof, especially in their internal electrical and mechanical components. Exposure to moisture can lead to corrosion, electrical shorts, or sensor malfunctions. However, there are important distinctions based on design and application:
- Standard Models: Designed for indoor, climate-controlled environments. These should be kept dry and away from direct water contact, such as washdown areas or outdoor exposure.
- Water-Resistant or Washdown-Grade Machines: Specifically engineered for wet environments (e.g., beverage plants, dairies). These feature sealed electrical enclosures (IP65 or higher), stainless steel frames, and protective coatings to resist moisture, humidity, and frequent cleaning.
- Moisture-Prone Applications: If labeling wet bottles (e.g., after rinsing or chilling), machines with drip trays, air-knife drying systems, or protective shrouds help prevent water ingress.
- Cost Consideration: Water-resistant models are more expensive due to enhanced materials and engineering, but they offer long-term value in demanding environments by reducing breakdowns and maintenance costs.
When selecting a machine, assess your production environment carefully. For facilities with high humidity or frequent cleaning cycles, investing in a water-resistant model ensures durability, safety, and uninterrupted operation.
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