LK-T80 Aluminum Foil Making Machine Container 50 Strokes/Min Average Production Speed

If you need a machine that can maintain stable output for aluminum foil container production, the LK-T80's average production speed of 50 strokes per minute meets this requirement. This speed represents the actual, sustainable working rhythm during continuous operation, not a peak theoretical value.

In actual production, after the machine starts up and reaches stable operation, the stamping speed can be maintained at around 50 strokes per minute. Combined with a standard 4-cavity mold, this translates to approximately 200 products formed per minute. For a production line that needs to run continuously, this stable output rhythm helps you plan production schedules and estimate daily output more accurately.

Maintaining this average speed requires good equipment stability. The LK-T80 uses an H-frame structure to provide the necessary rigidity for high-speed operation. The closed oil circuit system ensures continuous, stable lubrication for key moving parts, preventing speed fluctuations or downtime due to lubrication issues.

For operation, the Mitsubishi PLC control system allows for precise speed adjustment. You can set the optimal speed within the range of 35-68 strokes per minute based on different product characteristics or raw material conditions. The 50 strokes per minute setting is a commonly used, proven parameter that balances efficiency and stability.

For factories with established production scales that require reliable output during daily operations of over ten hours, this stable average speed holds more practical significance than pursuing maximum peak speed.

• Stable Output Rhythm: An average speed of 50 strokes/minute facilitates daily output calculation and production scheduling.

• Sustainably Maintainable Speed: This is a speed the equipment can maintain long-term under normal working conditions, not a short-term peak.

• Balance of Efficiency and Stability: This speed setting considers the balance between equipment lifespan, mold durability, and product quality.

• Simplifies Production Management: A stable speed makes production scheduling simpler and improves predictability for material preparation and staffing.

• Adapts to Continuous Production: The equipment structure and lubrication system ensure this average speed can be maintained over long periods.

Applications:

It accepts orders of 1 unit minimum, priced $45,000-$75,000. Packed in strong wooden crates and iron casings, it’s shipped safely worldwide without damage.

Off-the-shelf models arrive in 30 days, customized ones as agreed. Flexible payment (T/T, L/C) and 50 units/year production capacity for quick order handling enhance its dependability.

Q1: Is the average speed of 50 strokes/minute based on measured data?
Yes. This average is derived from actual operating data from customer factories under normal production conditions. After proper warm-up and reaching stable operation, the equipment can consistently maintain speeds around this level.

Q2: How does this speed relate to the equipment's rated maximum speed of 68 strokes/minute?
The 68 strokes/minute is the short-term achievable speed under ideal conditions. The 50 strokes/minute is the recommended sustainable working speed, considering factors like long-term operational stability, mold life, and energy consumption. The former is suitable for short-term capacity boosts, while the latter is for long-term stable production.

Q3: Can this speed be maintained if I need to produce more complex products?
For deeper containers or those with complex shapes, it may be necessary to appropriately reduce the speed to ensure forming quality. You can adjust within the 35-50 strokes/minute range to find the optimal speed for specific products.

Q4: How does this average speed help with capacity planning?
Calculating based on 50 strokes/minute and a 4-cavity mold gives a theoretical hourly output of approximately 12,000 pieces. You can use this benchmark to plan daily output, prepare raw materials, and schedule shipments, making production management more orderly.

Q5: How is it ensured that the equipment can maintain this average speed long-term?
In addition to the equipment's stable structure itself, routine maintenance as required is essential, particularly keeping the lubrication system clean and effective. Regular inspections and upkeep help maintain the equipment in good operating condition.