Reversing the Door.

ge.com

Safety

Screw

Hinge cover

Plug Button

Top Hinge

Bottom Hinge

Bottom

Hinge

Leveling Leg

Unplug the beverage center/wine chiller.

Tape the door shut with masking tape to secure alignment.

Remove the top hinge cover by removing the screw.

Remove the 2 screws securing the top hinge to the frame.

Lean the beverage center backward to access the bottom hinge.

Remove the 2 screws securing the bottom hinge assembly to the frame.

NOTE: If you lay the unit on its back, be sure to let it stand upright for at least 2 hours before connecting to the power source; this will reduce the possibility of a malfunction in the cooling system.

Remove the Plug Button from the top left side of the door.

Install the Plug Button into the hinge hole on the right side. Press firmly to secure.

If the handle has been installed, remove it and install it

on the opposite side. Refer to Door Handle section for instructions.

Hold the door securely in place and install the bottom hinge on the opposite side.

Install the top hinge and cover on the opposite side. Make sure the door is aligned with the cabinet before tightening the screws.

Remove the tape. Open and close the door to check alignment with the cabinet. If necessary, loosen the screws on the bottom hinge, realign the door, and retighten the screws.

Plug in the beverage center/wine chiller.

NOTE: If you had to lay the unit on its back, be sure to let it stand upright for at least 2 hours before connecting it to the power source; this will reduce the possibility of a malfunction in the cooling system.

Set the temperature controls to the desired setting.

Instructions

 

 

Instructions

Installation

 

 

Operating

Care and Cleaning

Instructions

Tips

Troubleshooting

9

Consumer Support

Page 9
Image 9
GE 197D4613P004 installation instructions Reversing the Door, Operating

197D4613P004 specifications

The GE 197D4613P004 is a highly advanced component designed for specific industrial applications, particularly in the realm of power generation and distribution systems. This electronic device is recognized for its robustness, reliability, and exceptional performance under demanding conditions.

One of the main features of the GE 197D4613P004 is its versatility, as it can be integrated into various systems, including those used in turbines, generators, and other key components in the energy sector. The device is engineered to provide accurate monitoring, control, and protection for these systems, ensuring optimal performance and safety.

The technology behind the GE 197D4613P004 includes state-of-the-art microprocessor-based control systems. This allows for real-time data processing and analysis, enhancing the capability to respond to dynamic operational conditions. The microprocessor also enables advanced communication protocols, ensuring seamless interaction with other devices and systems within the network.

In terms of characteristics, the GE 197D4613P004 is built to withstand harsh environments. It features a rugged housing that protects against dust, moisture, and vibration, making it suitable for installation in challenging locations. Furthermore, the device is designed with fail-safe mechanisms, which contribute to its reliability and longevity, critical factors in industrial applications where downtime can result in significant financial losses.

Additionally, the GE 197D4613P004 supports various input and output configurations, accommodating a wide range of sensors and actuators. This flexibility enables it to tailor its functionality to specific operational requirements. With built-in diagnostics and troubleshooting capabilities, the device simplifies maintenance procedures, allowing for quicker identification of issues and reducing the risk of unexpected failures.

In conclusion, the GE 197D4613P004 stands out for its combination of advanced technology and rugged design, making it a preferred choice for professionals in the power generation and distribution sectors. Its ability to provide precise control and monitoring, along with its adaptability to various systems, makes it a vital component in enhancing operational efficiency and reliability in challenging industrial environments.