The new Syntron® Crusher Loading (Mechanical) Feeder is a traditional mechanical style vibratory feeder with built-in feeder and a Rotating Feed Distributor (RFD). The Crusher Loading Feeder retains the high reliability and robust design of FMC Syntron mechanical feeder and the peripheral discharge, which has its origins in the distribution of snack foods and cereals onto radial scales, enabling equal distribution of fine and coarse product. The trough is fully lined to account for wear, and it is suspended by the same method as traditional vibratory feeders. The suspension framework can be mounted on a trolley that can simply be moved out of the way for crusher maintenance. The Crusher Feeder is used extensively as mining equipment to handle materials such as coal and aggregate to supply cone crushers and gyratory crushers.
Benefits of the Syntron Crusher Loading (Mechanical) Feeder include:
- One piece of equipment
- Lower amp draw on crusher
- Longer life for crusher wear components
- Higher crusher productivity
- Easier maintenance for the crusher
- Improved fracture ratio
In side-by-side installations of a feeder plus a rotary feed distributor and a Syntron Crusher Loading Feeder directly feeding the crusher, the Crusher Feeder delivers superior, cone-friendly performance. The specially configured discharge blends fines and coarse materials to provide uniform distribution of material to the cone.
In addition to the savings potential of reduced capital equipment costs, the Syntron Crusher Feeder provides easy installation and maintenance accessibility. Like all Syntron feeders, the Crusher Feeder is subresonant tuned and incorporates linear feed rate control to improve bulk handling productivity. It can be sized to match application requirements.
For Customer Support:
Call: +1 800 356 4899
Email: mhsol.info@fmcti.com
4-inch rock being distributed
through the peripheral discharge
of the Crusher Loading Feeder |
Blended material feeding
directly from the Crusher
Loading Feeder to the crusher |
Uniform distribution of
material to the cone