Installation Instructions

2

LOCATING THE ANTI-TIP

 

FLOOR BRACKET (cont.)

 

Figure 2 – Acceptable Screw

 

Placement Locations

 

Preferred Installation –

Preferred Installation –

 

Wood

Concrete

 

Minimum Acceptable #1 –

Minimum Acceptable #2 –

 

Wall Plate Stud

Wood Floor

 

Minimum Acceptable #3 –

 

Concrete Floor

3ANTI-TIP BRACKET INSTALLATION

AWOOD Wall and Floor Construction:

Drill the appropriate number of 1/8” pilot holes in the center of each floor bracket hole being used (a nail or awl may be used if a drill is not available) AND remove the locator template from the floor.

Mount the anti-tip floor bracket by fastening the 2, or preferably 4, #10-16 hex-head screws tightly into place as illustrated in Figure 3.

Figure 3 – Attachment to

Wall and Floor

BCONCRETE Wall and Floor Construction:

Anchors required (not provided):

4 each 1/4” x 1 1/2” lag bolts

4 each 1/2” O.D. sleeve anchors

Drill the recommended size holes for the anchors into the concrete at the center of the holes marked in Step 2.

Install the sleeve anchors into the drilled holes. Place the anti-tip floor bracket as indicated in Step 2. Remove the locator template from the floor.

Install the lag bolts through the anti-tip floor bracket and tighten appropriately.

CWOOD Wall and TILE Floor Construction:

For this special case, locate the 2 wall holes identified in Fig. 1. Drill an angled 1/8” pilot hole (approx. as shown in Fig. 3) in the center of each hole.

Mount the anti-tip floor bracket using the Minimum Acceptable Installation #1, as illustrated in Fig. 2.

4POSITIONING THE REFRIGERATOR TO ENGAGE THE ANTI-TIP FLOOR AND BASE BRACKETS

ABefore pushing the refrigerator into the opening, plug the power cord into the receptacle and connect waterline (if equipped). Check for leaks.

BLocate the refrigerator’s RH side and move back approximately in line with the RH side of the cabinet opening, W. This should position the anti-tip floor bracket to engage the anti-tip base bracket on the refrigerator.

CGently roll the refrigerator back into the cabinet opening until it comes to a complete stop. Check to see if the refrigerator front lines up with the cabinet front face. If not, carefully rock the refrigerator forward and backward until engagement occurs and you notice that the refrigerator is fully pushed up against the rear wall.

D OPTIONAL: Adjust the rear (and front) wheel

height settings to fully engage the rear anti-tip

Rear RH Corner

of the

Refrigerator

2 Screws

Floor

Must Enter

Bracket

Wood or

 

Metal Stud

 

 

 

Wall

Wall

Plate

Stud

brackets, while also aligning the refrigerator

front with the cabinet front face.

NOTE:

If you pull the refrigerator out and away from the

Floor

wall for any reason, make sure the anti-tip floor bracket is engaged when the refrigerator is pushed back against the rear wall.

17

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Image 17
GE 225D1804P001 Locating the ANTI-TIP, ANTI-TIP Bracket Installation, Front with the cabinet front face

225D1804P001 specifications

The GE 225D1804P001 is a cutting-edge electric motor that stands out in its class due to its innovative design and advanced technologies. This particular motor exemplifies General Electric's commitment to excellence, blending efficiency, reliability, and performance in one compact device.

One of the main features of the GE 225D1804P001 is its robust construction, designed to withstand demanding industrial environments. The motor is built with high-quality materials that enhance its durability, making it suitable for continuous operation under heavy loads. Its weather-resistant exterior allows it to perform seamlessly in adverse conditions, further extending its lifespan.

In terms of technology, this motor incorporates state-of-the-art variable frequency drive (VFD) compatibility, which enables precise speed control and energy efficiency. The VFD technology allows users to adjust the motor’s speed according to the specific needs of their applications, resulting in energy savings and reduced wear and tear on machinery.

The GE 225D1804P001 also features high starting torque, which is essential for applications requiring a strong initial force to overcome inertia. This characteristic makes it ideal for heavy machinery and equipment within manufacturing, automotive, and industrial sectors. Additionally, the motor's optimized rotor design contributes to improved performance, ensuring effective torque delivery and lower operational costs.

Another significant characteristic of this model is its low noise operation. Unlike many electric motors, the GE 225D1804P001 is engineered to minimize vibrations and sound levels, creating a more comfortable working environment. This feature is particularly beneficial for facilities that operate in close proximity to populated areas or sensitive environments.

Moreover, the ease of maintenance is a noteworthy aspect of this electric motor. It is designed with accessible components, allowing technicians to perform routine checks and repairs without extensive downtime. This user-friendly design not only enhances operational efficiency but also contributes to the overall cost-effectiveness of ownership.

In summary, the GE 225D1804P001 electric motor combines innovation, efficiency, and reliability, making it an exceptional choice for a wide range of industrial applications. With features like VFD compatibility, high starting torque, robust construction, and low noise operation, it continues to set new standards in the electric motor industry, satisfying the needs of modern manufacturing and industrial processes.