Cornelius 10, 000 installation manual Operating Controls, Cooling Unit Refrigeration Power Switch

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OPERATORS INSTRUCTIONS

This section covers operating controls, daily pre-operation check, adjustments, replenishing CO2 and syrup supplies, cleaning and sanitizing, Cooling Unit maintenance, Remote Condenser Coil and Fan Assembly (if applicable) maintenance, lubrication, and servicing CO2 gas check valves.

WARNING: Disconnect electrical power to Cooling Unit to prevent personal injury before attempting any Cooling Unit or Rooftop Condenser Coil and Fan Assembly (if applicable) internal maintenance. Only qualified personnel should service internal components or

electrical wiring.

OPERATING CONTROLS

COOLING UNIT REFRIGERATION POWER SWITCH

(see Figure 5 or 6)

REFRIGERATION POWER switch, located on front of Cooling Unit, placed in ‘OFF’position will interrupt electrical power to refrigeration compressor, agitator motor, condenser fan motor (if applicable), and carbonated water circulating pump. Switch must be in ‘ON’(up) position for operation. REFRIGERATION POWER SWITCH DOES NOT DISRUPT ELECTRICAL POWER TO CARBONATORS PUMPS MOTORS.

COOLING UNIT CARBONATOR MOTOR SWITCH

(see Figure 5 or 6)

CARBONATOR MOTORS power switch, located on front of Cooling Unit, placed in ‘OFF’(down) position will interrupt electrical power to both carbonators pumps motors. Switch must be placed in ‘ON’(up) position before carbonators will operate.

COOLING UNIT CIRCULATING MOTOR SWITCH

(see Figure 5 or 6)

CIRCULATING MOTOR power switch, located on front of Cooling Unit, placed in ‘OFF’(down) position will interrupt electrical power to carbonated water circulating pump. Switch must be placed in ‘ON’(up) position before circulating pump will operate.

REFRIGERATION SYSTEM TEMPERATURE SENSING DEVICE AND HIGH-PRESSURE CUTOUT SWITCH

Cooling Unit with Internal Condenser Coil and Fan Assembly.

(see Figure 5)

The Cooling Unit is equipped with a refrigeration system temperature sensor which will automatically initiate shutdown if the temperature of the liquid return line from the condenser exceeds 155°F. Temperature rise may be caused by a clogged condenser coil air intake filter, or refrigeration components problem. After cool down, the refrigeration system will restart as required.

CAUTION: If the refrigeration system continues to ‘‘short cycle’’following restart, immediate attention is required to avoid compressor failure.

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Contents AURORAR10,000 Cooling Unit This Document Contains Important InformationTable of Contents Table of Contents cont’d Table of Contents cont’d LOOSE-SHIPPED Parts General Description Cooling Unit DescriptionDesign Data Cooling Unit Model NumbersSystem Theory of Operation Remote Condenser Coil and FAN ASS’Y Data P/NFlow Diagram Typical Installation Unpacking and Inspection Identification of LOOSE-SHIPPED PartsSelecting Location Cooling UnitPlacing Cooling Unit in Location Installing Cooling UnitRemote Condenser Coil and FAN ASS’Y if Applicable Connecting Electrical Power Circuit to Cooling Unit 24VAC Power TransformerCooling Unit factory warranty Connecting Plain Water Inlet Supply Line to Cooling Unit Connecting CO2 Inlet Supply Line to Cooling UnitPlacing Cooling Unit in Operating Position Cooling Unit Space RequiredPreparing Cooling Unit for Operation OperationActivating Syrup Systems Starting Cooling Unit Refrigeration SystemStarting Carbonated Water Circulating Pump Dispensing Station Adjustments Installing Line Identification LabelAdjusting Water Flow Rate Leak Check and Insulating Cooling Unit Outlet LinesThis page Left Blank Intentionally Cooling Unit Refrigeration Power Switch Cooling Unit Carbonator Motor SwitchCooling Unit Circulating Motor Switch Operating ControlsAdjustments Cleaning and Sanitizing Cooling Unit MaintenanceCleaning CO2 GAS Check Valves Preparing Cooling Unit for SHIPPING, STORING, or Relocating Periodic InspectionChecking ICE Water Bath Periodic CleaningCleaning Condenser Coil Changing ICE Water Bath FAN Assembly Item 4 300381000 Carbonator Liquid Level Control Switches Carbonated Water Circulating Pump Motor Lubrication Primary CO2 RegulatorSecondary CO2 Regulators Index Part NameWater Flow Rate Adjusting Carbonators Tanks Liquid LevelsDaily Cleaning of Unit Flush Syrup Systems Sanitizing POST-MIX Syrup SystemsWash Syrup Systems Sanitize Syrup Systems Water Flush Syrup SystemsPurge Water OUT of Syrup Systems Restore Operation Cleaning CO2 System GAS Check Valves Connecting External Carbonator to Cooling UnitSyrup Flavor Change Carbonators CO2 Inlet Lines CO2 GAS Check Valve300381000 300381000 Wiring Diagram LOW-VOLTAGE System Model Number Wiring Diagram HIGH-VOLTAGE System This page Left Blank Intentionally LOW or TOO High WATER-TO-SYRUP ‘RATIO’Dispensed Drink TOO Dispensed Product Carbonation TOO LOWComes OUT Dispensing Valve Clear But Foams in CUP Only Carbonated Water aOnly Carbonated Water Dispensed CONT’DOnly Syrup Dispensed Carbonator MotorsOperate Refrigeration Power Erratic CyclingCarbonator Water Pump MotorTemperature Sensing Operate CONT’DRefrigeration System Device and HIGH-PRESSUREBank CONT’D Refrigeration Flow Diagram Commpressor OperatesContinuousls but does Not Form Sufficient ICEWarranty Page One Cornelius Place Anoka, Minnesota 612 800
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000, 10 specifications

Cornelius 10,000 PLUS is a pioneering innovation in the beverage dispensing industry, designed to cater to the evolving needs of commercial establishments. This advanced system combines state-of-the-art technology with user-friendly features, making it a standout choice for restaurants, cafes, and bars aiming to enhance their beverage service.

One of the main features of the Cornelius 10,000 PLUS is its impressive capacity. With the ability to dispense a wide variety of beverages, including soft drinks, cocktails, and craft beers, the system supports a large volume of service, perfect for high-demand environments. The modular design allows for easy expansion, enabling businesses to add additional flavors or beverages as needed without major overhauls.

The technology behind the Cornelius 10,000 PLUS is equally impressive. It utilizes advanced cooling technology to ensure that beverages are served at the optimal temperature, enhancing the customer experience. The integrated touchless dispensing mechanism minimizes waste and ensures a hygienic experience, addressing growing concerns about cleanliness in food service environments. This technology also improves speed, allowing staff to serve customers more efficiently.

Another key characteristic of the Cornelius 10,000 PLUS is its digital integration capabilities. The system can be connected to a central management platform that tracks sales, inventory levels, and maintenance needs in real-time. This allows operators to optimize their beverage offerings based on customer preferences and reduces downtime through proactive maintenance alerts.

In addition to its performance features, the Cornelius 10,000 PLUS is designed with sustainability in mind. The system employs energy-efficient practices, reducing its environmental footprint while lowering operational costs. The materials used in construction are durable yet eco-friendly, ensuring longevity and less waste.

Overall, the Cornelius 10,000 PLUS stands out as an essential tool for any business looking to elevate its beverage service. With its combination of high capacity, cutting-edge technology, and sustainability features, it not only meets the demands of today’s fast-paced service environments but also positions establishments for future growth and success.
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