1. OUVERTURE ENTRAÎNÉE PAR POINT DE DOULEUR

Are your iron ore processing margins being eroded by persistent, temps d'arrêt imprévu? Commercial operators and plant managers face significant financial pressure from equipment that cannot withstand the abrasive reality of highvolume iron ore. Les défis courants incluent:
Usure excessive & Défaillance d'un composant: Standard crushing chambers and liners degrade rapidly under continuous Taconite or Hematite load, leading to frequent shutdowns for maintenance and high parts replacement costs.
Débit incohérent & Classement des produits: Fluctuations in feed size or hardness result in poor control over final product sizing, causing bottlenecks in downstream grinding circuits and reducing pellet or sinter plant efficiency.
Consommation d'énergie élevée par tonne: Older or improperly configured crushing stages consume disproportionate power, directly impacting operational expenditure and carbon footprint.
Configuration d'usine rigide: Fixed crushing circuits struggle to adapt to varying ore body characteristics or market demands for different product specifications, limiter la flexibilité opérationnelle.

Is your primary crushing station a source of cost or a driver of profit? The solution lies in precision engineering applied directly to the unique demands of iron ore.

2. APERÇU DU PRODUIT

This content details a fully customizable, heavyduty stationary crushing plant solution engineered explicitly for hightonnage iron ore processing. The system is designed as a primary or primary/secondary stage unit, built around a core gyratory or jaw crusher configured for maximum abrasion resistance and volumetric throughput.

Flux de travail opérationnel:
1. Managed Feed Intake: Runofmine ore is directed via heavyduty apron feeder to the primary crusher, ensuring a consistent, chokefed load for optimal crushing action.
2. Réduction de la taille primaire: The core crusher utilizes high inertia and optimized kinematics to reduce large lump ore (jusqu'à 1,5 m) to a manageable conveyorable size.
3. Primary Scalping & Suppression des amendes: A downstream heavyduty scalper removes natural fines prior to secondary crushing, increasing circuit efficiency and reducing unnecessary wear.
4. Concassage secondaire & Closed Circuit Control (Facultatif): A cone crusher module in closed circuit with a sizing screen allows precise control of final product gradation, typically to 50mm or 75mm for downstream milling.
5. Manutention intégrée des matériaux: Plant design includes robust conveyor systems, transfer points with impact beds, and dust suppression integration for complete material flow management.

Champ d'application: Designed for greenfield installations or major upgrades in magnetite (taconite) and hematite mining operations with annual capacity requirements from 5 à 25+ millions de tonnes.

Limites: Ne convient pas aux opérations de faible tonnage (< 1 Mtpa) or as a tertiary/quartzite crushing unit without significant specification review.

3. CARACTÉRISTIQUES PRINCIPALES

Géométrie de doublure brevetée | Base technique: Analyse par éléments finis (FEA) & wear modeling | Avantage opérationnel: Permet d'obtenir une gradation de produit plus cohérente tout au long du cycle de vie du revêtement, with reduced risk of bridging | Impact sur le retour sur investissement: Jusqu'à 15% longer liner life reduces direct parts cost and changeout downtime

Charge intelligente & Système de contrôle d'alimentation | Base technique: Realtime motor power & hydraulic pressure monitoring with automated feeder response | Avantage opérationnel: Maintains optimal crusher cavity loading, preventing overload stalls and emptycavity wear | Impact sur le retour sur investissement: Protège les composants d'entraînement des charges de choc; les données de terrain montrent un 712% réduction de la consommation énergétique spécifique (kWh/tonne)

Modular Plant Subframe Design | Base technique: Boulons ensemble, heavygauge steel modules with precisionmachined interfaces | Avantage opérationnel: Enables faster onsite erection and future reconfiguration or relocation with minimal cutting/welding | Impact sur le retour sur investissement: Can reduce civil works and installation time by an estimated 30%, accélérer les délais de production

Graissage centralisé & Fluid Systems | Base technique: Singlepoint lubrication distribution blocks with monitoring points for all critical bearings | Avantage opérationnel: Ensures correct lubrication intervals are met reliably, extending bearing service life in highdust environments | Impact sur le retour sur investissement: Lowers manual maintenance labor hours by ~25% per shift and decreases bearing failure risk

HeavyDuty Dust Containment Skirting | Base technique: Multistage rubber skirting with adjustable tensioning on all conveyor transfers | Avantage opérationnel: Dramatically reduces airborne dust at emission points, améliorer la sécurité des sites et le respect de l'environnement | Impact sur le retour sur investissement: Lowers water consumption for suppression and reduces cleanup costs; minimizes risk of regulatory noncompliance penalties

Crusher Backing Material Integration | Base technique: Automated dispensing system for epoxy resin backing during liner installation | Avantage opérationnel: Ensures complete cavity fill without air pockets, maximizing liner stability and energy transfer | Impact sur le retour sur investissement: Eliminates premature liner failure due to improper backing, protecting major crusher body components

Plateformes de maintenance sans rendez-vous | Base technique: Integrated, OSHAcompliant platforms with handrails around all major service points (crusher top shell, moteur, gerbes) | Operational Benefit Provides safe, direct access for inspection and component handling during planned maintenance| ROI Impact Reduces servicerelated safety incidents; improves maintenance efficiency by providing stable work areas

4. AVANTAGES CONCURRENTIELS

| Mesure de performances | Norme de l'industrie (Moyenne) | Solution personnalisée d'usine de concassage de minerai de fer | Avantage (% Amélioration) |
| : | : | : | : |
| Durée de vie du revêtement (Primary Mantle/Bowl) | ~1.2 Million Tonnes
Varie selon l'abrasivité du minerai| ~1.5 Million Tonnes
Based on magnetite feed| +25% |
| Total Plant Availability (Exécution planifiée) | 9294%
Includes minor stops| >96%
Design target| +34 Points de pourcentage |
| Consommation d'énergie spécifique
(kWh par tonne concassée) Baseline Dependent
Varie selon la conception du circuit| Field data indicates reduction of
712% contre. nonoptimized equivalent systems.| Jusqu'à 12% |
| Temps moyen entre les pannes (MTBF)
for Major Components
~2，000 heures
Drive/motor/bearing assemblies| >2，500 heures
Design target based on load management| +25% |
| Temps d'arrêt pour maintenance planifié
(per major liner change event)
4872 heures
Crew dependent|<36 hours target
Via modular liners & plates-formes| 33% |

5. SPÉCIFICATIONS TECHNIQUES

Plage de capacité: Configurable à partir de 2，500 à plus 8，000 tonnes par heure (tph)， en fonction de la taille de l'aliment， ore work index，and product size requirement.
Options du concasseur primaire: Concasseurs giratoires (54Ouverture d'alimentation "75") ou concasseurs à mâchoires (60”x80”+). Selection based on required throughput， feed topology，and fragmentation analysis.
Puissance motrice: Entraînements par moteur électrique allant de 450 kW à 1，200 kW，with Vbelt or direct drive configurations available。 Softstart systems standard。
Spécifications matérielles：
Revêtements de concasseur： Manganese steel alloy（14%18%）with optional chrome carbide overlay for extreme abrasion zones。
Acier de construction： Primary support structures use S355JR grade steel； highwear areas utilize AR400 abrasionresistant plate。
Conveyor Idlers： CEMA class E/F sealed bearings； impact idlers at loading zones。
Physical Dimensions （Modular）： Modules designed for standard shipping container dimensions。 Typical primary station footprint： ~30m L x 15m W x 20m H （variable）。
Plage de fonctionnement environnementale：
Température ambiante： 30°C to +50°C （with appropriate lube oil/heater packages）。
Émissions de poussière： Designed to achieve <10 mg/Nm³ at containment points with integrated suppression。
Niveau de bruit： Compliant with <85 dB(UN) at operator stations via acoustic enclosures。

6. SCÉNARIOS D'APPLICATION

Greenfield Magnetite Concentrator｜Challenge： A new mine required a primary crushing plant capable of processing highly abrasive taconite at 6，000 tph，with strict product sizing (250mm) for SAG mill feed。 The remote location demanded high reliability due to limited local maintenance support。｜Solution： A customized gyratory crusherbased plant featuring our intelligent load control system， extendedlife liner package，and fully walkin maintenance modules was installed。 All lubrication and electrical cabinets were housed in heated enclosures。｜Résultats： L'usine a atteint sa capacité nominale dans les deux semaines suivant sa mise en service.。 La durée de vie du revêtement a dépassé les prévisions de 8%， achieving over 1。6 million tonnes per set。 Availability has averaged 96。7% over the first three years of operation。

Hematite Processing Plant Upgrade｜Challenge An existing hematite operation experienced chronic bottlenecks due to an aging jaw crusher plant suffering from frequent bearing failures and poor throughput consistency (<2，200 tph)，limiting downstream beneficiation output。｜Solution We replaced the existing unit with a customized modular jaw plant featuring the centralized greasing system，heavyduty skirting，and an optimized feeder/crusher interface geometry tailored to the specific ore characteristics。｜Results Throughput increased consistently above design rate of 2，800 tph。 Bearingrelated unscheduled downtime was eliminated in the first year postinstallation。 Product size distribution became markedly more uniform (+/10%) improving downstream screening efficiency。

7． CONSIDÉRATIONS COMMERCIALES

Our approach is based on providing transparent value aligned with your production targets。

Niveaux de tarification
• Base Plant Configuration Includes core crusher motor feeders basic discharge conveyor structural supports walkways ladders
• Enhanced Configuration Adds intelligent control system dust suppression package premium liner options automated lubrication
• Turnkey Project Package Full engineering procurement construction management EPC/M including foundations electrical reticulation commissioning spares package

Fonctionnalités facultatives
• OnBoard Hydraulic Power Unit For setting adjustment/clearing
• Rock Breaker Boom System For oversize breaking at grizzly
• Advanced Predictive Monitoring Vibration temperature sensors linked to SCADA
• Modular Secondary/Tertiary Crushing Stage For future expansion

Forfaits de services
• Planned Maintenance Agreements Scheduled inspections parts supply labor rates defined upfront
• Performance Guarantee Contracts Uptime availability或throughput guarantees supported by remote monitoring
• Liner Service Programs Fixedcostpertonne agreements covering all wear parts

Options de financement
We work with accredited partners to offer equipment leasing capital loans以及operational expenditure OpEx models where payment is tied directlyto verified production tonnage。

8． FAQ

Q What level of site preparation is required prior delivery？
A Our modular plants require prepared concrete foundations designed specificallyfor your soil conditions We provide full foundation drawings anchor bolt locations as partof basic engineering Minimal field welding should be required。

Q How does this solution integrate into my existing control room SCADA system？
A The plant control panel can be supplied asa standalone PLCbased systemor configuredto communicate via industrystandard protocols Modbus TCP/IP Profibus etc allowing full visibilityand control fromyour central facility。

Q Are performance guarantees offered？
A Yes subjectto mutually agreedupon feed material specifications we can contractually guarantee rated throughput capacity final product P80 sizing以及specific energy consumption targets。

Q What isthe typical lead timefrom order placementto commissioning？
A For standard configurations lead times range between914 months dependingon current manufacturingload Complex customizations may extendthis timeframe Detailed project schedules are provided upon initial technical review。

Q How do you address ongoing technical supportfor remote sites？
A We offer tiered support including24/7 remote diagnostics access trained regional service technicians以及comprehensive documentation Parts are strategically warehousedin key mining regions globallyto expedite delivery。

Q Can this plant be relocatedin future？
A Yes themodular bolted subframe designis specifically engineeredfor disassembly relocation andreassembly Minimally destructive techniquesare used preserving structural integrity Relocation feasibility studiesare availableas separate consultancy service。

Q What trainingis providedfor our operationsand maintenance teams？
A Comprehensive trainingis included covering normal operation shutdown procedures routine maintenance tasks troubleshooting We provide both classroom sessionsat our facility handson training during commissioningat yours alongwith detailed operational manuals