Sterling A0567659 manual Operator Responsibility, Remember

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continually reviewed, maintained, and improved. Keep minutes or a record of the meetings.

Hold daily equipment inspections in addition to regular maintenance checks. You will keep your equipment safe for production and exhibit your commitment to safety.

Please read and use this manual as a guide to equipment safety. This manual contains safety warnings throughout, specific to each function and point of operation.

2-6 Operator Responsibility

The operator’s responsibility does not end with efficient production. The operator usually has the most daily contact with the blender and intimately knows its capabilities and limitations.

Plant and personnel safety is sometimes forgotten in the desire to meet incentive rates, or through a casual attitude toward machinery formed over a period of months or years. Your employer probably has established a set of safety rules in your workplace. Those rules, this manual, or any other safety information will not keep you from being injured while operating your equipment.

ONLY YOU can make safety work for you by constantly thinking about what is safe and what is not. It is often the “just once” that an operator reaches into a blender to remove material and it results in serious injury.

Learn and always use safe operation. Cooperate with co-workers to promote safe practices. Immediately report any potentially dangerous situation to your supervisor or appropriate person.

REMEMBER:

NEVER place your hands or any part of your body in any dangerous location.

NEVER operate, service, or adjust the blender without appropriate training and first reading and understanding this manual.

NEVER try to pull material out of the blender with your hands while it is running!

Before you start the blender check the following:

Remove all tools from the blender;

Be sure no objects (tools, nuts, bolts, clamps, bars) are laying in the metering or mixing area;

If your blender has been inoperative or unattended, check all settings

SGB Batch Blender with Mitsubishi Controller

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Contents Page Model # Serial # Table of Contents Maintenance Wear Safety Glasses and Work Gloves Safety ConsiderationsSterling SGB-E Series Blenders Annex B Information Equipment Function AccessoriesCustomer Service IntroductionSGB Blenders Necessary DocumentsSystem Capabilities Equipment Covered by this ManualSGB Batch Blender with Mitsubishi Controller Three 3 types of recipe entry procedures available SGB -E Series Specifications SGB Model SGB Blender System Component DescriptionMaterial Supply Hoppers Typical Material Supply HoppersSlide Gate Metering Assemblies SGB Batch Blender with Mitsubishi Controller Locating Tabs Weigh HopperWeigh Hopper Discharge Valve Operator Control Panel Mix ChamberOpti-Mixer HC MixerTypical Setup Screens Typical Operator Screens SGB Batch Blender with Mitsubishi Controller Pneumatic Slide Gate Below Mixer Optional Mixer Slide Gate Switch PositionsWork Rules SafetyMechanical Installation Safety ConsiderationsTools and Equipment Needed General Responsibility Reporting a Safety DefectRemember Operator ResponsibilityMaintenance Responsibility Description and Objectives SafetySafety Circuit Standards Safety Device Lock-OutsFail Safe Operation Line Cord Plug Lock-Outs, Plugs, and Other Safety DevicesElectric Safety Interlock Switch All Models Unpacking and Inspection Shipping InformationEvent of Shipping Damages United Parcel Service Shipment Parcel Post ShipmentIf the Shipment is Not Complete Returns If the Shipment is Not CorrectSite Requirements Installation & SetupMounting Configuration Chapter Description and ObjectivesSGB Batch Blender with Mitsubishi Controller Mezzanine Mount Floor Mount Central Blender Lifting Lug Installation OverviewElectrical Installation Blender Set-up Pneumatic InstallationWeigh Hopper Installation Load Cell AdjustmentLoad Cell Mechanical Stop Adjustment Final Setup SGB Batch Blender with Mitsubishi Controller Quick Start Procedure OperationSGB Blender Sequence of Operation Recipe Entry Formats Quick SetMost common in injection molding Often used in Compounding Applications Percentage ModeParts Mode Most common in extrusion and blow moldingExample of a 5-component Blend in Parts Mode Preset Part Calculated Weight Ratio ControlSwitching Modes Recipe Page Start SGB Series Control System Menu StructureBlender Calibration Additional settings that usually do not have to be changedSGB Batch Blender with Mitsubishi Controller Setting up a recipe Controller Mode SetupInventory Shutdown Color Change Blender where there are moving parts Please refer to the SGB menu structure in Section Additional Operation Features Display Description LCDMenu tree Re-Mix Timer Mix TimerWeigh Hopper Dump Delay Time Mixer OptionsWeigh Hopper Dump Time Weigh Hopper Dump Cycle Feeder Alarm Setup & FlagsMAX Hopper Weight Exceeded Calibration Error Feeder Clean Out Additional Control FunctionsGeneral Operation SGB Batch Blender with Mitsubishi Controller Standard Run Time Displays Recipe Menu Current Recipe Menu Quick Set MenuRecipe Format Menu SGB Batch Blender with Mitsubishi Controller SGB Batch Blender with Mitsubishi Controller Batch Size Menu Inventory ShutdownTypical Batch Size Recipe Book Storage Menus Save Running Recipe to the Book Display Recipe Contents Load a Saved Recipe from the BookErase Recipe or Entire Book Setting Date & Time Controller Features Display Time and DateStroke Limiter Stroke Limiters for Metering GatesMaintaining Blenders MaintenanceController Setup SGB Series Blender Menu Structure Units SetupWeekly Typical Model SGB Assembly OverviewMechanical DailyElectrical Input Signals to Programmable ControllerOutput Signals from Programmable Controller Pneumatic System Maintenance Description and Objectives 7TroubleshootingProblem Possible solution Done in the field, the controller warranty will be voided Problem Possible solution Blender Options Model SGB-900 Spare Parts ListSpare Parts Model SGB-450Overview Component Identification and LocationSGB Batch Blender with Mitsubishi Controller SGB Batch Blender with Mitsubishi Controller Typical Mixer Frame Typical Opti-Mixer Frame Assembly Typical Supply Hopper Typical Weigh Hopper Typical SGB-450 Series Hopper Assembly DetailTypical Weigh Hopper & Load Cell Detail Parts Department Technical AssistanceWarranty Returns Returned Material PolicyCredit Returns Warranty SGB Blender Safety Tags Safety Tag InformationButton Power OnPower Off Pushbutton and Touchscreen TagsBlender Identification Serial Number Tag Located on back of mixing chamberModel Number SGB-900 Max Blend Capacity 318 KG/HR Addendum Service Supervisor Information Programmable Settings12Appendix Factory Setup Menu Advanced WeightAvailable Selections SGB Batch Blender with Mitsubishi Controller 107 Feed Calibration Customer Setup Menu Feeder SetupSelect a feeder by touching the Select Feeder Programmable Features Service Notes Default Values factory defaults shown PasswordsAlarm Setup SGB Blender Configuration Parameters Cont’dFeed CAL Options SGB Batch Blender with Mitsubishi Controller 115 116 SGB Batch Blender with Mitsubishi Controller SGB Batch Blender with Mitsubishi Controller 117 118 SGB Batch Blender with Mitsubishi Controller

A0567659 specifications

Sterling A0567659 is a premium-grade product designed to meet the needs of various industrial applications. As an exceptional piece of equipment, it reflects advancements in engineering and technology, ensuring high performance and reliability.

One of the key features of the Sterling A0567659 is its robust construction. Built using high-quality materials, it withstands harsh working conditions, making it suitable for demanding environments. Its durable design minimizes wear and tear, leading to a longer lifespan and reduced maintenance costs. This resilience is complemented by sophisticated corrosion resistance, ensuring that the product remains functional even in challenging climates.

Another notable characteristic of the Sterling A0567659 is its advanced technological integration. The product comes equipped with cutting-edge automation technologies that enhance its operational efficiency. These advancements enable streamlined processes, reducing the room for error and increasing overall productivity. Users benefit from intuitive interfaces that facilitate easy monitoring and control, allowing for quick adjustments and data analysis in real-time.

The Sterling A0567659 also prioritizes energy efficiency. With rising energy costs and increasing environmental concerns, this product has been designed to consume less power without compromising performance. Its innovative design incorporates features such as optimized airflow and heat management, resulting in lower operational costs and a reduced carbon footprint.

Safety is another critical aspect of the Sterling A0567659. Equipped with comprehensive safety features, including emergency shut-off systems and user-friendly operational protocols, it ensures that operators can work confidently and without risk. These safety measures comply with international standards, making it a reliable choice for businesses prioritizing workplace safety.

In terms of versatility, the Sterling A0567659 is suitable for a wide range of applications across multiple industries. From automotive to manufacturing and beyond, it adapts well to various operational needs. Its customizable options mean that businesses can tailor the product to their specific requirements, ultimately enhancing performance and optimizing workflow.

In summary, the Sterling A0567659 is a formidable asset for any industrial operation, merging durability, advanced technology, energy efficiency, and safety features into one cohesive unit. Its versatility and reliability make it an excellent investment for companies looking to enhance their productivity and maintain competitiveness in today's fast-paced market.