Demystifying the Capacity of the Lippmann 3650 Cursor de mandíbula: A Deep Dive into Performance Factors

En el exigente mundo de la producción de áridos y la minería, selecting the right primary crushing equipment is paramount to operational success and profitability. Amongst the heavyweights in large-scale jaw crushing stands the Lippmann 3650. Renowned for its robust construction and high throughput potential, one question consistently arises: What is the capacity of a Lippmann 3650 Cursor de mandíbula?

la respuesta, crucial for planning and investment decisions, is inherently complex: no hay un solo, definitive capacity figure. En cambio, understanding the Lippmann 3650's potential output requires delving into its specifications and appreciating the multitude of variables that influence its real-world performance.

Understanding the Lippmann 3650: A Primary Crushing Powerhouse

Before dissecting capacity, it's essential to grasp what defines this machine:

Massive Size: As one of Lippmann's largest jaw crushers (alongside models like the 3862), it features a substantial feed opening measuring 50" incógnita 65" (1270 mm x 1651 milímetros).
Construcción robusta: Built with heavy-duty components – massive cast steel pitman assembly, large spherical roller bearings, heavy ribbed frame – designed for longevity under extreme conditions.
Cámara de trituración profunda: The deep chamber profile allows for effective nip angle control and enhanced material flow.
High Inertia Flywheels: Large flywheels store kinetic energy crucial for consistent crushing force throughout each stroke cycle.
Ajuste hidráulico: Allows operators to quickly and safely change the Closed Side Setting (CSS) while under load or at rest.
Hydraulic Toggle Relief System: Provides automatic overload protection against tramp iron or uncrushable objects.

Specifications Influencing Capacity Potential:

1. Tamaño de apertura de alimentación: el vasto 50" incógnita 65" opening dictates the maximum lump size it can accept – theoretically up to ~48"-50" minus (~1220 mm - ~1270 mm), though practical feeding often targets smaller top sizes.
2. Crushing Chamber Geometry: The deep chamber profile impacts nip angle efficiency and material flow characteristics through different CSS settings.
3. Potencia motriz: Typically powered by a high-horsepower electric motor (comúnmente en el rango de 300 caballos de fuerza / ~225 kW), providing significant crushing force.
4. Características del accidente cerebrovascular: