COLD WATER ADJUSTMENT

The dispenser can dispense both hot and cold beverage only when connected to a water line with the water supply valve open. Cold product is available from the left dispenser only, and only when the COLD/HOT, HOT/ HOT selector switch is set in COLD/HOT position.

1. Unplug power cord.

2. Remove right and left side panel. The cold water adjustment is part of the inlet valve assembly. After panel has been removed, plug the power cord back in and turn the power switch ON.

3.RICHER (less water): Decrease the water flow by turning the screw on the flow adjustment valve clockwise (requires 5/32” hex key ). This results in less water in the mixture.

LEANER (more water): Increase the water flow by turning the screw on the flow adjustment valve counter-clockwise.

4.After adjustments are complete, unplug the power cord, reassemble the side panels and plug the power cord back in. Unit is now ready for normal operation.

SERVICING INSTRUCTIONS

CAUTION:

SHOCK HAZARD

Opening access panels may expose uninsulated electrical components.

Disconnect dispenser from electrical power before removing any panel. Do not attempt to repair or replace components without first unplugging the power cord. Use caution when adjusting water flow rates or testing voltages with power applied to the unit. Electrical shock can cause injury or death.

17

Page 19
Image 19
Bloomfield 9456, 9454 owner manual Cold Water Adjustment

9456, 9454 specifications

Bloomfield 9454 and 9456 are two robust technologies that stand out in the realm of modern industrial design and automation, catering to diverse sectors such as manufacturing, logistics, and data management. These systems are distinguished by their innovative features, cutting-edge technologies, and impressive characteristics, making them essential components for industries aiming to enhance efficiency and streamline operations.

The Bloomfield 9454 is primarily characterized by its modular architecture, allowing businesses to adapt the system according to their specific requirements. This flexibility enables quick upgrades and scaling, ensuring that users can easily incorporate new functionalities without extensive downtime. Additionally, the 9454 is equipped with high-performance processors that deliver swift data processing and real-time analytics, facilitating informed decision-making processes.

On the other hand, Bloomfield 9456 takes a more integrated approach. It combines both hardware and software solutions, creating a unified platform that enhances operational coherence. The 9456 features advanced machine learning algorithms that optimize production workflows by predicting maintenance needs and analyzing performance metrics. This proactive approach not only minimizes unexpected disruptions but also enhances overall productivity.

Both systems boast user-friendly interfaces that facilitate ease of operation, ensuring minimal training time for personnel. The intuitive dashboards provide clear visualizations of critical data, enabling operators to monitor performance metrics at a glance. In terms of connectivity, Bloomfield 9454 and 9456 come equipped with robust IoT capabilities, promoting seamless integration with existing machinery and enterprise systems. This interconnectedness is essential for fostering a cohesive operational ecosystem, allowing for efficient communication and data sharing across the enterprise.

Moreover, both Bloomfield technologies prioritize security, incorporating advanced cybersecurity measures to protect sensitive data from potential threats. As industries increasingly pivot towards automated solutions, the demand for secure and reliable systems has never been higher.

Ultimately, Bloomfield 9454 and 9456 represent the pinnacle of technological innovation in industrial automation. Their unique features, combined with a focus on adaptability, performance, and security, make them indispensable tools for companies aiming to remain competitive in an ever-evolving marketplace. Organizations looking to enhance their operational efficiency and embrace the capabilities of advanced technologies would do well to consider the transformative potential of these Bloomfield systems.