Boost Your Production with Laub/Hunt’s Advanced Bottle Fillers
May 31, 2025
Boost Your Production with Laub/Hunt’s Advanced Bottle Fillers
In the fast-paced world of packaging, efficiency and precision are everything. Laub/Hunt Packaging Systems offers a wide range of bottle fillers designed to meet the diverse needs of modern manufacturers. Whether you’re filling water, sauces, chemicals, or other liquids, Laub/Hunt has a solution to help you streamline your production line and boost your bottom line.
Top Bottle Filling Solutions
Rotary Mag-Flow Filler
For industries requiring hygienic, non-contact measurement, the Rotary Mag-Flow Filler uses electromagnetic flow meters to ensure highly accurate, repeatable fills — essential for maintaining product integrity.
Pressure Metering Filler
Ideal for thick or viscous products like sauces and lotions, this system uses controlled pressure to deliver consistent fills, reducing waste and improving efficiency.
Rotary Volumetric Filler
This filler is perfect for products that require precise volume-based fills. Its enclosed design prevents air from entering the system, maintaining product quality and accuracy.
Rotary Liquid Filler
Versatile and adaptable, this system supports various filling methods including gravity, pressure, and vacuum, accommodating a wide range of container types and product viscosities.
Why Choose Laub/Hunt?
- High-Speed Production: Their equipment can handle up to 1000 containers per minute, maximizing throughput and minimizing downtime.
- Exceptional Precision: Fill accuracy within tight tolerances reduces waste and ensures consistent product quality.
- Industry Versatility: From food and beverages to pharmaceuticals and chemicals, Laub/Hunt’s fillers meet the needs of many industries.
- Complete Packaging Solutions: In addition to fillers, Laub/Hunt offers complementary equipment such as bottle unscramblers, cappers, and case packers, giving you a true turnkey solution.
- Built to Last: Made from high-quality materials like stainless steel, these machines are designed for easy cleaning, longevity, and compliance with hygiene standards.
Ready to Get Started?
Partner with Laub/Hunt to upgrade your production line and enjoy the benefits of cutting-edge technology, durability, and expert support. Contact their team today to discuss your needs, request a quote, and find the perfect filling solution for your business.
Call to Action:
Don't let outdated equipment slow down your production.
Contact Laub/Hunt today to learn more about their innovative bottle fillers and get a quote tailored to your needs. Let’s take your packaging process to the next level!
Successful projects do not end at startup: robust commissioning, operator training, and structured preventative maintenance are essential to sustain performance
Liquid Filling Production Lines Introduction - Part 1 A complete liquid filling production line must be engineered as a single, integrated system that transforms empty bottles into palletized, ready‑to‑ship products with high efficiency, safety, and consistency. For manufacturers handling caustic or otherwise challenging liquids, thoughtful line design is especially critical to protect operators, equipment, and product quality over the long term. This three-part white paper walks through the design and installation of a full liquid filling production line, including a bottle unscrambler, bottle cleaning/rinsing machine, liquid monobloc filler‑capper, bottle labeler, case packer, and palletizer, tied together with conveyors, accumulation, and a unified control architecture. It explains how to specify each machine based on product properties, container and closure designs, target speeds, and regulatory or safety requirements, and then shows how these machines are integrated into a coherent, high‑OEE system. Special emphasis is placed on handling caustic and corrosive liquids, where materials of construction, spill containment, and electrical/safety design have outsized impact on reliability and compliance. At the front of the line, the bottle unscrambler and rinser prepare clean, correctly oriented containers at a stable rate, establishing the foundation for downstream performance. The monobloc filler‑capper serves as the technical “heart” of the line, where accurate dosing and secure closure are achieved through carefully chosen filling technology, robust mechanical design, and smart controls that enforce functions such as no‑bottle/no‑fill and no‑cap/no‑torque. The labeler, case packer, and palletizer then transform individual bottles into labeled, coded, and fully palletized unit loads in a sequence that must be precisely matched to the filler‑capper’s throughput to avoid bottlenecks and idle time. 5 key takeaways ( Details to follow in Part 2 and 3) A complete liquid filling line must be engineered as a single system—from bottle unscrambler through palletizer—to meet throughput, quality, and safety targets. The monobloc filler‑capper is the bottleneck and technical heart of the line; its design and controls largely determine overall capacity and accuracy. Conveyors, accumulation, and a unified PLC/HMI control architecture are essential to decouple machines, manage surges, and maintain high OEE. Handling caustic or hazardous liquids demands specialized materials, containment, and safety systems, along with strict adherence to applicable standards. Successful projects combine robust mechanical design with disciplined commissioning, operator training, and preventative maintenance to protect uptime and asset life. This three-part paper highlights the central role of conveyors, accumulation, and integrated controls in decoupling machines, absorbing short stoppages, and simplifying operations. A line‑level PLC and HMI coordinate speed, start/stop, and fault handling across all equipment, while safety systems are zoned to protect people without unnecessarily shutting down the entire line. Finally, the white paper underscores that successful projects do not end at startup: robust commissioning, operator training, and structured preventative maintenance are essential to sustain performance, especially in harsh caustic environments where equipment is expected to last for decades. Contact Laub/Hunt for more information.
10 frequently asked questions about Bottle filling Equipment Preventative Maintenance – Part 3 1. How often should we perform preventative maintenance on our liquid fillers? Preventative maintenance should follow a layered schedule: daily cleaning and checks, weekly mechanical and pneumatic inspections, monthly calibration and deeper inspection, and annual overhauls or OEM service visits. The exact intervals depend on operating hours, product characteristics (especially caustic or abrasive liquids), and regulatory requirements. 2. What are the most critical components to inspect regularly? Critical components include nozzles and valves, seals and gaskets, pumps and metering systems, conveyors and drives, sensors, and safety devices such as guards and interlocks. In caustic applications, any product‑contacted metal and elastomer components warrant especially close and frequent inspection. 3. How does preventative maintenance improve fill accuracy? Regular cleaning prevents residue buildup that changes flow characteristics, while calibration verifies and adjusts the metering system to stay within tolerance. Replacing worn seals, valves, and pumps reduces leaks and drift, resulting in consistent fill volumes across batches and container sizes. 4. What are the risks of skipping preventative maintenance? Skipping maintenance increases the likelihood of sudden breakdowns, extended downtime, emergency repair costs, and lost production. It also elevates the risk of underfills, overfills, contamination, safety incidents, and failure to pass customer or regulatory audits. 5. How should we adapt maintenance for caustic chemical filling? For caustic products, use materials and seals rated for chemical compatibility and follow manufacturer guidance on cleaning and CIP agents. Increase inspection frequency for corrosion and elastomer degradation, ensure proper ventilation and containment, and provide specialized PPE and safety procedures for operators and technicians. 6. Do we need specialized tools for calibration and maintenance? Effective preventative maintenance typically requires accurate scales or volumetric testing equipment, torque tools, basic electrical and pneumatic test instruments, and cleaning/CIP equipment suited to the product. For advanced diagnostics or safety‑critical work, OEM‑specific tools and software may be recommended. 7. How can we minimize downtime while performing preventative maintenance? Plan maintenance during scheduled breaks, shift changes, or off‑peak periods, and cluster tasks to reduce changeover. Maintain a stock of critical spare parts and clear procedures so technicians can complete tasks quickly and consistently. 8. What documentation should we keep for our maintenance program? Keep maintenance schedules, completed checklists, work orders, calibration records, parts replacement history, and training logs. These records support troubleshooting, budgeting, audits, and continuous improvement of the maintenance plan. 9. When should we involve the original equipment manufacturer or a certified service provider? Involve the OEM or certified provider for annual inspections, complex diagnostics, major repairs, control‑system modifications, and when performance issues persist despite routine maintenance. Their expertise can also help optimize settings for new products or packaging formats and update maintenance recommendations. 10. How can we measure the success of our preventative maintenance program? Key indicators include reductions in unplanned downtime, emergency repair costs, and scrap or rework related to filling errors. Tracking mean time between failures, maintenance compliance to schedule, and audit findings provides a quantitative view of program effectiveness over time.
