Sterling 060, 100, 600, 015, SLC 5/04 specifications Set-up, Load Cell Adjustment

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3-6 Set-up

This section will discuss the mechanical setup and control system setup of the continuous loss-in-weight blending system. After reading this section, you should be familiar with the mechanical setup and the electronic control setup of the blending system.

Load Cell Adjustment

The mechanical setup of the continuous loss-in-weight blending system involves the adjustment of the weigh hopper load cells (Please refer to the figure below). This figure illustrates the proper adjustment of the load cell mechanical stop bolt. The setting for the positive stop is necessary to prevent the load cell from being “over-ranged” by excessive loading on the weigh hopper. The setting for the load cell stop is forty thousandths of an inch maximum (.040”). This should be set by a feeler thickness gauge with the weigh hopper empty.

If a feeler gauge is not available, the weigh hopper should be filled with the material that is to be blended, and the stop adjusted so there is just a very small gap (a couple of sheets of notebook paper) between the load cell, and the blender base stop. This will allow the load cell to operate without mechanical restrictions and provide an overload safety. To adjust the stop, adjust the screw located on the bottom of the load cell. Adjust the screw up to increase the gap and down to decrease the gap.

Note: THE WEIGH HOPPER ASSEMBLY MUST BE FREE FROM FRICTION, WITH NO MECHANICAL OBSTRUCTIONS OTHER THAN THE LOAD CELL ITSELF.

Figure 10: Load Cell Mechanical Stop Adjustment

Continuous Loss-in-Weight Blenders

Chapter 3: Installation

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Contents Continuous Loss-in-Weight Blenders Shipping Information Credit Returns Warranty ReturnsTable of Contents Maintenance Safety Symbols Used in this Manual SafetyHow to Use This Manual Continuous Loss-in-Weight Blender Safety Tags Description Wear Safety Glasses and Work Gloves Follow all Safety CodesGeneral Responsibility ResponsibilityRemember Operator ResponsibilityReporting a Safety Defect Maintenance ResponsibilityCustomer Service AccessoriesFunctional Description Models Covered in This ManualMechanical Features Typical Features & ComponentsController Features Electrical FeaturesBlender System Component Description Ingredient Weigh Hoppers Metering Auger Components Cascade Material Chute Ingredient Metering/Transport Auger AssembliesWeigh Hopper Assembly Fixed Rate mode Lower Mass Flow Weigh Hopper AssemblyTouch Screen Interface PLC Control PanelMotor Drive Panel Optional Quick Color Change KitRemote Display OptionsMezzanine stand with slide gate and 4 tube stub Fail Safe Operation Safety Devices and InterlocksSafety Circuit Standards Amphenol quick connect Plug Connected to Each Auger Motor Safety Device Lock-OutsPluggable Line Cord Rigging and Placing the Unit InstallationUncrating the Equipment Machine Mount Mounting ConfigurationSite Requirements Offset Mezzanine Mount Position Mezzanine MountFloor Mount Typical Layout for a floor mounted blender Electrical InstallationPneumatic Air System Pneumatic InstallationOverall Installation Summary Set-up Load Cell AdjustmentFinal Connections Scale Calibration Controller SetupBlender Calibration Weight Scale Calibration Page Feeder Calibration Touch the Calibration button Setting Hopper Size @35 lbs. / cu. ft CapacityService Touch Hopper SetupSetting Passwords Touch User Password Alarm Setup Touch Alarm Setup Page Setting Blender for English or Metric How to use Fifo Diagnostics Continuous Loss-in-Weight Blenders Installation Page General Operation OperationStart-up Manual Backup Control System Display Description Controller Description & OperationContinuous Loss-in-Weight Blenders Operation Clean Out Setting a RecipePreventative Maintenance Schedule MaintenanceContinuous Loss-in-Weight Blenders Chapter Maintenance Typical Weigh Hopper Assembly Parts List Typical Blender Parts ListChapter Appendix Spare PartsAnnex B Information Programmable Settings Addendum Service Supervisor InformationPasswords Advanced Hopper Options Steady Feed Factor Feed Factor FilterMax WTP/RPM Re-fill PercentageSteady System Limit PID TimerSteady System Time Test PID GainExtruder RPM Options PID Integral ConstantFeeder Speed Limits Allowed Extruder RPM Change for Steady Flag Update Time for Prox Method in secondsExtrusion Control Options Feeder Setup No Flow Bits Advanced Alarm OptionsNo Flow Timer Technical Assistance Service DepartmentParts Department Sales Department

060, SLC 5/04, 015, 600, 100 specifications

Sterling 100,600,015 SLC 5/04,060 is a robust and versatile industrial automation controller designed to meet the demands of various industrial applications. As part of the Sterling lineup, this model is particularly known for its reliability and advanced features that enhance operational efficiency.

One of the main features of the Sterling 100,600,015 SLC 5/04,060 is its modular architecture, which allows users to customize the system based on their specific needs. The controller supports a wide range of I/O modules, providing flexibility in expanding or modifying the system as production requirements change. This modularity ensures scalability, making it suitable for both small-scale and large-scale applications.

The controller operates on the well-established Allen-Bradley SLC 500 platform, which is known for its stability and ease of use. With a processing speed of 100 kHz, the SLC 5/04,060 can handle multiple tasks simultaneously, ensuring precise control over processes. This speed is complemented by a large memory capacity, allowing for complex programming and data storage without compromising performance.

In terms of communication, the Sterling 100,600,015 SLC 5/04,060 features multiple communication ports, including RS-232 and RS-485 interfaces, making it compatible with various devices and systems. This capability enables seamless integration with existing networks, as well as the implementation of modern network protocols like Ethernet for greater connectivity and data transfer efficiency.

The controller is also equipped with advanced diagnostics capabilities, enabling users to monitor system performance in real-time. This feature not only helps in quick troubleshooting but also aids in predictive maintenance strategies, reducing downtime and optimizing productivity.

In addition to its hardware features, the Sterling 100,600,015 SLC 5/04,060 supports a range of programming languages, including ladder logic, structured text, and function block diagrams. This versatility allows engineers and technicians to choose the most suitable approach for their specific projects, making the development process more intuitive and efficient.

Overall, the Sterling 100,600,015 SLC 5/04,060 is a powerful and adaptable solution for industrial automation, combining advanced technology with ease of use, making it an ideal choice for businesses seeking to enhance their operational capabilities and efficiency.
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