Jaw Crusher EJC 160
Power | 3.7 Kw/ 5HP, 430 V ,3 phase,50 hz AC |
Applications | coarse and pre-crushing |
Field of application | chemistry / plastics, construction materials, engineering / electronics, environment / recycling, geology / metallurgy, glass / ceramics |
Feed material | medium-hard, hard, brittle, tough |
Size reduction principle | pressure |
First fineness* | < 5 to 60 mm |
Final fineness* | < < 5 mm |
Description
The Jaw Crusher EJC 160 is used for the rapid, effective crushing and pre-crushing of medium-hard, hard, brittle and tough materials. Its variety of materials offered, including heavy-metal free steel and its efficiency and safety makes theEJC 160 ideal for sample preparation in laboratories and industrial plants.
For small amounts of sample the Jaw Crusher EJC 160 can be used batch-wise; for larger amounts it can be operated continuously. Control of the gap width and zero point adjustment allow for reproducible results. The Belleville spring washer protects the unit from overloads and in conjunction with the central lubrication guarantees a long service life.
APPLICATION EXAMPLES
Minerals,quartz, rocks, silicon, slag,Alloys, Cement clinker, ceramics, chamotte, coal, coke, construction materials, feldspar, glass, granite, ores, oxide ceramics,
PRODUCT ADVANTAGES
- excellent crushing performance
- infinitely gap width setting
- overload protection
- wide range of materials for contamination free grinding
- no-rebound feed hopper with quick-release clamp
- easy-to-clean crushing chamber
- connector for dust extraction
- suitable for integration in automatic installations
FEATURES
- Safe Dust free and minimal Dust and noise
- Fast and effective Primary Crushing
- Feed Size up to 160 mm
- Final fineness upto ≤ 5 mm
- Adaptable jaw set position to regulate final fineness
- Safety-Overload protction
FUNCTION PRINCIPLE
The Jaw Crusher EJC 160 is a robust and powerful forced-feed crusher. The feed material passes through the no-rebound hopper and enters the crushing chamber. Size reduction takes place in the wedgeshaped area between the fixed crushing arm and one moved by an eccentric drive shaft. The elliptical motion crushes the sample which then falls under gravity.
As soon as the sample is smaller than the discharge gap width, it falls into a removable collector. The continuous gap width setting with scale ensures optimum size reduction in accordance with the set gap width.