Project Description

C-1540DP Cone Crusher

STANDARD FEATURES

Engine:
Tier 2 Equivalent: Scania DC9 257kW (350hp) & IE2 Electrical Motors. Alternator: 330kVA / 264kW
Stage IIIA (Tier 3) Constant Speed: Scania DC9 273kW (365hp) & IE3 Crusher Drive Electrical Motor. Alternator: 330kVA / 264kW
Tier 4F / Stage IV: Scania DC9 257kW (350hp) & IE3 Crusher Drive Electrical Motor. Alternator: 330kVA / 264kW

Cone:
Terex 1000 Cone chamber, 1000mm (40”) head diameter
Long throw eccentric, medium coarse concave (max feed size 160mm)
Direct cone drive via electric motor

Hopper / Feeder:
Hopper capacity: 5m3 (6.5yd3)
Belt width: 1.05m (42”)
Metal detector
Metal contaminants purge system
Wear resistant liner plates

Main Conveyor:
Belt width: 900mm (36”)
High spec scraper at head drum
Wear resistant liners at crusher discharge point
Dust Covers

General:
Galvanised catwalk c/w handrail, kick board and access ladders
Heavy duty track unit, sprocket centres 3.8m, pad width 500mm
Hand held track control set with connection lead
Safety guards in compliance to machinery directive
One auxiliary drive
Emergency stops
Piped for dust suppression c/w spray bars
Standard Oils – Recommended for ambient temperatures between -5ºC to +30ºC

 

The dual powered Terex Finlay C-1540DP cone crusher offers operators the flexibility to power the plant either by mains electric connection or the onboard genset powerpack configuration. Either power option presents operators with significant power, servicing and maintenance cost savings.

This energy efficient and productive machine incorporates the proven Terex® 1000 cone crusher with direct electric drive, automatic tramp relief and hydraulic closed side setting (CSS) adjustment. The dual powered Terex Finlay C-1540 can be fitted with an optional patented pre-screen module which allows fines materials to bypass prior to being fed to the crushing chamber offering better wear rates in the crushing chamber.

The large hopper/feeder has an automated metal detection and a purge system to protect the cone and reduce downtime by removing metal contaminants via the purge chute. Additional benefits include, rapid set up time, ease of maintenance, high reduction ratio, high output capacity and advanced electronic control system.