Cornelius 2849959020, 2849959200, 2849949200, 2849949020 Restoring Unit Operation

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5.Place product coils assembly back in position inside the Unit. Make sure ice bank control capillary tube is routed from ice bank control bulb up along right front side (facing front of Unit) of the Unit and on up to the ice bank control as shown in Figure 3.

6.Connect product tubes, connected to the product coils, to backs of the dispensing valves.

7.Place Unit product inlet fittings up through holes in the agitator motor assembly bracket and secure with white plastic washers and hex nuts.

8.Place the agitator motor assembly bracket back into position on the Unit. Secure agitator motor assembly bracket with six screws retained in step 12 of PREPARING DISPENSER FOR KIT INSTALLATION.

9.Connect product source product inlet lines to Unit product inlet lines fittings on the agitator motor assembly bracket.

10.Place the new ICE BANK CONTROL (item 1) in approximate mounting position on the agitator motor as- sembly bracket as shown in Figure 3.

11.Install SNAP BUSHING (item 11) in hole in ICE BANK CONTROL BOX (item 2).

12.Connect BLACK ELECTRICAL WIRE (item 8) and RED ELECTRICAL WIRE (item 9) to terminals on the ice bank control as shown in Figure 2.

13.Install ICE BANK CONTROL (item 1) inside the ICE BANK CONTROL BOX (item 2) and secure with SCREWS (item 5).

14.Place ice bank control capillary tube in hole in the key-hole slot in the ice bank control box.

15.Install GROMMET (item 3) on the ice bank control capillary tube, then slide grommet up on the capillary tube and install in key-hole slot in ice bank control box.

16.Route Unit wiring harness electrical wires in through snap bushing installed in the ice bank control box.

17.Connect Unit wiring harness green ground wire to ground lug inside the control box. Secure ground con- nection with HEX NUT (item 14).

18.Complete remainder of wiring connections inside the ice bank control box by referring to Figure 4 Wiring Diagram.

19.Place ice bank control in position on the agitator motor assembly bracket. Secure ice bank control to the motor assembly bracket with SELF DRILLING SCREWS (item 10).

20.Very carefully, route capillary tube along Unit wiring harness as shown in Figure 3.

21.Using WIRE TIES (item 12), secure capillary tube to the Unit wiring harness as shown in Figure 3.

22.Install LABEL, HAZARD SHOCK (item 4) on ice bank control cover as shown in Figure 3.

23.Install handle on Unit and secure with screws.

RESTORING UNIT OPERATION

1.Fill water tank with water as instructed in manual provided with your Dispenser. USE LOW–MINERAL– CONTENT WATER WHERE A LOCAL WATER PROBLEM EXIST.

2.The Unit product systems should be sanitized at this time. Refer to manual provided with your Dispenser for sanitizing instructions.

3.Connect electrical power to the Unit.

4.Connect Unit product inlet lines to product tanks, then open each dispensing valve to bleed air from the systems and until product is dispensed.

5.Check the Unit for product leaks and repair if evident.

6.Check Unit for proper operation, then close hinged top cover.

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Contents Preparing Dispenser for KIT Installation Installation InstructionsInstalling ICE Bank Control KIT Restoring Unit Operation ICE Bank Control Probe Location Unit TOP View Page Unit Wiring Diagram

2849959020, 2849949020, 2849949200, 2849959200 specifications

Cornelius 2849959200, 2849949200, 2849949020, and 2849959020 represent a series of innovative liquid dispensing solutions designed to meet the diverse needs of various industries, including beverage, healthcare, and foodservice. These models are distinguished by their advanced features, cutting-edge technologies, and user-centered design characteristics that enhance efficiency, reliability, and usability.

One of the main features of the Cornelius dispensing systems is their modular design, which allows for easy customization and adaptation to different requirements. This flexibility means that operations can tailor the dispensing unit to accommodate various beverages, products, or applications. The systems can be configured with multiple output options, enabling simultaneous dispensing of diverse liquids without compromising accuracy or speed.

The technological advancements embedded in the Cornelius models include integrated electronic control systems that automate the dispensing process. These systems consist of user-friendly interfaces, allowing operators to program specific dispensing volumes and adjust settings with ease. Enhanced accuracy is achieved through precise flow control mechanisms, ensuring that every portion dispensed is consistent and reliable.

Another notable characteristic is the high-quality construction of the Cornelius models, which utilizes durable materials to withstand the rigors of commercial and industrial use. Components are designed for easy cleaning and maintenance, reducing downtime and improving operational efficiency. The systems also prioritize hygiene with features that minimize contamination risks, making them suitable for environments where sanitation is paramount.

In terms of connectivity, the Cornelius systems can be equipped with smart technology capabilities, allowing for remote monitoring and diagnostics. This feature enables operators to track performance metrics, perform troubleshooting, and make informed decisions to optimize operations.

Compatibility with various types of beverage containers and adaptability to different locations further enhance the appeal of the Cornelius models. Whether in a bustling restaurant or a high-capacity production facility, these dispensers are engineered to meet the demands of a wide range of users.

Overall, the Cornelius series exemplifies the intersection of innovative technology and practical design, offering solutions that cater not only to operational efficiency but also to the evolving needs of modern industries. As such, they represent a significant advancement in liquid dispensing technology, promising enhanced performance for years to come.