U.S. ELECTRICAL MOTORS INSTALLATION AND MAINTENANCE

Storage

III.STORAGE

1.When to put a Motor in Storage.

If a motor is not put into immediate service (one month or less), or if it is taken out of service for a prolonged period, special storage precautions should be taken to prevent damage. The following schedule is recommended as a guide to determine storage needs.

(A)Out of service or in storage less than one month - no special precautions except that space heaters, if supplied, must be energized at any time the motor is not running.

(B)Out of service or in storage for more than one but less than six months - store per Items 2 A through 2F, 2H, 3 and 4.

(C)Out of service or in storage for six months or more - all recommendations.

2.Storage Preparation.

(A)Where possible, motors should be stored indoors in a clean, dry area.

(B)When indoor storage is not possible, the motors must be covered with a tarpaulin. This cover should extend to the ground. Do not tightly wrap the motor as this will restrict air flow and result in surface condensation. Care must also be taken to protect the motor from flood damage or from any harmful chemical vapors.

(C)Whether indoors or out, the area of storage should be free from excessive vibration which can cause bearing damage.

(D)Precautions should be taken to prevent rodents, snakes, birds, or other small animals from nesting inside the motors. In areas where they are prevalent, precautions must also be taken to prevent insects, such as mud dauber wasps, from gaining access to the interior of the motor.

(E)Inspect the rust preventative coating on all external machined surfaces, including shaft extensions. If necessary, recoat the surfaces with a rust preventative material such as Rust Veto No. 342 (manufactured by E. F. Houghton Co.) or an equivalent. The condition of the coating should be checked periodically and surfaces recoated as needed.

(F)To prevent moisture accumulation, some form of heating must be utilized to prevent condensation. This heating should maintain the winding temperature at a minimum of 5°C above ambient. If space heaters are supplied, they should be energized. If none are available, single phase or "trickle" heating may be utilized by energizing one phase of the motor winding with a low voltage. Request the required voltage and transformer capacity from U.S. Electrical Motors. A third option is to use an auxiliary heat source to keep the winding warm by either convection or blowing warm air into the motor.

(G)Bearing cavities must be completely filled with lubricant during long term storage. Remove the drain plug and fill cavity with grease at the grease inlet until it begins to purge from the drain hole then replace the drain plug. Refer to Section XI "Lubrication" for recommended greases. At approximately 2 month intervals, a small quantity of grease should be injected into grease fitting with drain plug removed. Exiting grease should be inspected for moisture and contamination. If moisture or contamination is present, the motor bearings should be inspected and fresh grease installed.

2

Page 6 Page 8
Page 7
Image 7
Emerson 986269, LARGE AC ELECTRIC MOTORS manual III. Storage
Page 6 Page 8

986269, LARGE AC ELECTRIC MOTORS specifications

Emerson Large AC Electric Motors, specifically model 986269, exemplify cutting-edge technology and exceptional design, catering to the diverse needs of industrial applications. These motors are engineered for reliability, efficiency, and performance, making them suitable for various sectors, including manufacturing, mining, and oil and gas.

One of the standout features of the Emerson 986269 motor is its robust construction. Built to withstand harsh operational environments, this motor has a durable housing that protects it from external contaminants such as dust, moisture, and chemicals, thereby prolonging its lifespan. The design promotes efficient heat dissipation, which minimizes overheating risks and enhances both performance and reliability.

Energy efficiency is a critical aspect of the Emerson 986269 AC electric motor. Utilizing advanced design methodologies, the motor offers high efficiency ratings, which translates into lower operational costs and reduced carbon footprints. It meets or exceeds the latest efficiency standards, making it an eco-friendly choice while ensuring optimal performance in various applications.

Another significant feature is its versatility. The Emerson 986269 motor is available in various sizes and configurations, making it suitable for different tasks and load requirements. Its adaptability allows seamless integration into existing systems, making it a valuable asset for businesses looking to upgrade their machinery without extensive modifications.

The motor employs state-of-the-art technologies such as premium-quality bearings and insulation systems, contributing to its quiet operation and minimal maintenance requirements. This means reduced downtime and increased productivity, both vital for maintaining competitive advantages in today's fast-paced industrial landscape.

Moreover, Emerson's commitment to safety is reflected in the design of the 986269 motor. It is equipped with advanced thermal protection features and complies with international safety standards, ensuring secure operation even in challenging conditions.

In conclusion, the Emerson Large AC Electric Motor 986269 sets the benchmark for performance, reliability, and efficiency in industrial applications. With its robust construction, energy-efficient design, and advanced technologies, it is an investment that promises long-term operational benefits and peace of mind for users. Whether for heavy-duty tasks or general industrial use, this motor remains a top choice for companies aiming to enhance their operational efficiency and productivity.
Top Page Image Contents