Sterling SMS 850, 1200, 2000 Initial Start-up, Checking the Rotational Direction, General Advice

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Checking the Rotational Direction

Rotational direction of the motors must be checked before initial start-up. The following steps must be completed.

1.Switch the machine ON and then immediately OFF again.

2.Observe whether the discharge air fan in the drive motor is rotating in the direction of the direction arrow.

NOTE: If running in the wrong direction, reconnect the motor connection immediately. Damage to the machine will result from operation in the wrong direction.

3-3 Initial Start-up

General Advice

All work related to start-up may only be carried out by trained and specialized personnel.

Check the machine for possible transportation damage or other damage. If any damage exists, confirm it with the freight company and report it to the manufacturer.

After setting up for service and before starting up for the first time, necessary checks must be completed.

Check the oil level of the gear box before operating the machine.

Fill oil into the hydraulic tank.

Please observe the operation manual from the manufacturer!

Machine Check Prior to Start-up

9Use a torque wrench to check the cutter mounting screws when lower housing flap is open.

9Search the grinding chamber for foreign matter.

9Open the lower housing flap and make sure the screen has been inserted in accordance with the regulations.

9Close upper housing flap and fasten screws tightly.

9Check oil level of the gear box.

9Fill oil into the hydraulic unit.

9Examine in-feed device (accessories) for foreign matter.

9Check that the Emergency Stop buttons are unlocked.

9Check all safety devices for proper functioning.

BJ5-615

Chapter 3: Installation

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Contents SMS Medium Duty Single Shaft Shredder Shipping Info Disposal Storage, Disposal, TransportationStorage TransportationTable of Contents Safety Symbols Used in this Manual SafetyHow to Use This Manual General Safety Regulations ResponsibilityPage Remaining Risks EJ5-615 Safety Page General Description Functional DescriptionModels Covered in This Manual Mechanical SectionMaterial In-feed Typical Features and ComponentsMachine Standard Execution In-feed Hopper Additional In-feed DeviceRotor, cutters, bed cutters DriveRotor, Cutters, Bed Cutters Rotor cutter Screen support hydraulic Bed cutter Screen and screen support Discharge of Shredding Material Hydraulic Ram Pulse Push Function Protective Devices Safety FeaturesSafety Device for Housing Flap Personal Protective Gear Safety MarkingsBelts and Ram Guards Emergency Stop Button Re-operationUncrating the Equipment InstallationUnloading and Installing the Machine Requirements at Application SiteElectrical Connections Connection of Emergency Stop Button Checking the Rotational Direction General AdviceInitial Start-up Machine Check Prior to Start-upPage Start-up Operation ProceduresOperation Emptying the Screen standard screen Emptying the Screen hydraulic screen Switch OFF Machine Shut-downMaintenance Plan MaintenancePreventative Maintenance Schedule Checking the Protective Devices Preventative and Corrective MaintenanceCleaning the Machine Dismounting the Rotor Replacing the Gear BoxReplacing the Rotor Mounting the RotorMounting the Main Bearings Replacing the Main BearingsDismounting the Main Bearings Shift Operation Replace Lubricant Check Lubricating the Main BearingsLubrication Intervals Check lubricant qualityReplacing Lubricant Replacing or Refilling LubricantRefilling lubricant BJ5-615 Maintenance Mounting and Dismounting TAPER-LOCK Tensioning Element Standard Screen and Hydraulic Screen Tightening Torque of the ScrewsReplacing the Screen BeltsProfile section Efficiency of x Newton Lbs Checking the tension force of the V-beltRoller centres and 16mm sag Re-tensioning and relaxing the V-beltReplacing and Checking the Cutting Cutter Mountings Checking V-belt condition, replacing V-beltWorking on the Cutting Cutters Dismounting the Cutters see drawing below Torque Grade Screw typeChecking the Condition of the Cutters Dismounting the Cutter Holders Dismounting the Bed Cutters Mounting the Cutter Holders Make sure that the cutter holder fits properlyMake sure the cutter fits planar in the seat Adjust the gap between cutter and bed knife to 0.8-1.0 mmMounting the Cutters Mounting the Bed CuttersSharpening Cutters and Bed Knives Setting the Cutting Knives Hydraulic Maintenance Transporting and Storing the Cutting CuttersFigure Checking and adjusting the hydraulic system Hydraulic liquid recommendation Troubleshooting IntroductionProblem Possible Cause Possible Remedy DepartmentMaterial Unsuitable screen Perforation Reduce feed quantity Returned Material Policy Warranty ReturnsAppendix Credit ReturnsTechnical Specifications Drawings and Diagrams Cutter MountingBed Knife Mounting Rotor Assembly Drive Ram Ram scraper SMS 850 Hydraulic Diagram SMS 850 Hydraulic Unit SMS 850 Hydraulic Screen Diagram SMS 850 Hydraulic Unit-Screen SMS 1200-2000 Standard Hydraulic Diagram SMS 1200-2000 Hydraulic Unit SMS 1200-2000 Hydraulic Screen Diagram SMS 1200-2000 Hydraulic Unit Spare Parts List SMSKnife rotor ø387x850 Hydraulic Knife rotor ø457x1130 Ram complete 107 Safety grid back 108 109 Ram residual chute 200 Knife rotor ø457x1410 SMS Knife rotor ø457x1950 SMS 850 Hydraulic Unit Spare Parts Pos Description Standard SupplierSMS 1200-2000 Hydraulic Screen Spare Parts SMS 850 Hydraulic Screen Spare PartsSMS 1200-2000 Hydraulic Unit Spare Parts Parts Department Service DepartmentTechnical Assistance Sales DepartmentSterling, Inc Th Street New Berlin, WI

1500, SMS 850, 2000, 1200 specifications

The Sterling 1200 and 2000, along with the SMS 850 and 1500, represent a leap forward in the technology and features available in modern industrial equipment.

The Sterling 1200 is designed with efficiency in mind. It boasts an advanced control system that allows for precise monitoring and adjustments, ensuring optimal performance. With a powerful engine and robust construction, the Sterling 1200 is built to withstand demanding conditions, making it suitable for various applications ranging from manufacturing to construction.

The Sterling 2000 takes things a step further, offering enhanced capacity and capabilities. It incorporates state-of-the-art technology, including automated diagnostics and predictive maintenance features. This not only minimizes downtime but also extends the lifespan of the equipment. The user-friendly interface allows operators to easily navigate and control various functions, ensuring smooth operations.

On the other hand, the SMS 850 is engineered for versatility. Its modular design allows for seamless integration with existing systems, providing flexibility in how it is used. The SMS 850 is equipped with the latest energy-efficient technologies, helping businesses reduce operational costs while maintaining high productivity levels. The compact size of the SMS 850 makes it ideal for facilities where space is at a premium, without compromising on power or performance.

The SMS 1500, a larger counterpart to the SMS 850, is designed for high-demand environments. It features advanced safety protocols, ensuring that operators can work with peace of mind. The SMS 1500 is capable of handling larger workloads, making it a preferred choice for larger industrial operations. Its real-time monitoring system provides valuable insights into performance metrics, enabling better decision-making and operational strategies.

Both the Sterling and SMS series prioritize advanced connectivity, allowing for integration with IoT platforms. This capability facilitates remote monitoring and control, enhancing operational efficiency. Overall, the Sterling 1200, 2000, SMS 850, and 1500 epitomize innovation in design and technology, helping businesses streamline their processes and stay competitive in the fast-paced industrial landscape. As industries continue to evolve, these models will play a crucial role in meeting the demands of tomorrow.
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