GE AC Motor Model Number Lookup: Find Parts, Specs, and Vintage Machinery Insights

Use our GE AC motor model number lookup tool to find your motor’s specifications, OEM parts, and replacement options. Our easy search covers different motor types. Enjoy quick shipping and great customer service. Make sure to have your appliance model number ready for the best results!

Finding parts through the GE AC Motor Model Number Lookup simplifies repairs and upgrades. This process ensures compatibility and quality, making it easier to maintain vintage machinery. Many older models have distinct specifications that require careful consideration when sourcing parts.

Additionally, the lookup tool offers insights into the history and design of various GE AC motors. These insights can be valuable for collectors and machinery enthusiasts. Understanding the evolution of these motors can enhance appreciation for vintage technologies.

Now that we have established the importance of the GE AC Motor Model Number Lookup, we will explore how to effectively use this lookup tool to find specific components and additional technical details. We will also provide tips for identifying your motor’s model and leveraging resources for further support.

What Is a GE AC Motor Model Number Lookup?

A GE AC Motor Model Number Lookup is a process used to identify specific General Electric alternating current (AC) motor models. This lookup typically involves a unique model number, which encodes vital information about the motor’s specifications and capabilities.

The Electric Motors Division of General Electric provides comprehensive resources on its products, detailing how model numbers can reveal performance characteristics. Their official documentation serves as an authoritative source for understanding how to interpret these model numbers.

Each GE AC motor model number comprises letters and numbers that indicate attributes such as frame size, RPM, voltage, and efficiency rating. By decoding these elements, users can evaluate compatibility and performance in various applications.

According to the National Electrical Manufacturers Association (NEMA), understanding motor model numbers helps users select the right motor for their application. Proper selection minimizes operational costs and enhances machine performance.

Factors affecting motor selection include application type, load characteristics, and environmental conditions, such as temperature and humidity. Additionally, compliance with energy efficiency regulations influences motor choice.

Data from the U.S. Department of Energy indicates that properly sized motors can save up to 30% in energy usage. With increasing energy costs, future projections suggest a growing emphasis on energy-efficient motor technologies.

The broader impact of GE AC motors includes enhanced industrial productivity and reduced energy consumption. This positively affects not just businesses but also contributes to environmental sustainability.

Various dimensions, including economic benefits from operational efficiency and reduced environmental impact from lower emissions, play a role in the broader context of AC motor usage.

For example, industries utilizing energy-efficient AC motors often report lower operational costs, improved reliability, and enhanced performance in production settings.

To address potential issues in motor selection, experts recommend adhering to guidelines from NEMA and the Institute of Electrical and Electronics Engineers (IEEE). These organizations emphasize the importance of proper sizing and maintenance.

Specific strategies include investing in variable frequency drives (VFDs) for motor control and regularly scheduled maintenance to ensure optimal performance and longevity of AC motors.

How Can You Use a GE AC Motor Model Number to Find Replacement Parts?

You can use a GE AC motor model number to find replacement parts by identifying and decoding the specific alphanumeric codes in the model number. This process allows you to understand motor specifications and compatibility with parts.

Understanding the model number involves these key components:

• Model Number Structure: GE AC motor model numbers typically follow a structured format that includes letters and numbers indicating the motor type, size, phase, voltage, and other specifications. For example, the model number might appear as “5KC47AG1004,” where each segment denotes specific characteristics.

• Decoding Model Numbers: You can decode each portion of the model number to identify critical elements. The letters often refer to the motor series, while the numbers provide details on horsepower, frame size, and other physical dimensions. Familiarizing yourself with GE’s specific coding system is essential to effectively interpret the model number.

• Manufacturer Resources: GE provides manuals, datasheets, and online tools on its website to help you locate replacement parts. Their resources often include diagrams, part numbers, and specifications corresponding to each model number, aiding in finding compatible components.

• Part Number Cross-Referencing: Once you identify the model number, use it in conjunction with GE’s parts catalog or an online parts distributor’s interface. This can help you cross-reference the GE part number with available replacement options, including both OEM (Original Equipment Manufacturer) and aftermarket parts.

• Consulting Experts: If you encounter difficulties, consider reaching out to a motor repair shop or GE support. They can provide tailored advice on sourcing the right parts based on your motor’s model number.

Using these methods ensures you select the correct replacement parts for your GE AC motor, thereby enhancing its performance and lifespan.

What Information Can You Extract from a GE AC Motor Model Number?

The information you can extract from a GE AC Motor model number includes specifications about its design, application, and performance.

1. Frame size
2. Voltage rating
3. Frequency rating
4. Horsepower rating
5. RPM (Revolutions Per Minute)
6. Phase type (single-phase or three-phase)
7. Enclosure type
8. Service factor
9. Insulation class

Understanding these details provides clarity about product capabilities and helps in applications like maintenance and repair.

1. Frame Size: Frame size indicates the physical dimensions and mounting configuration of the motor. It affects the motor’s compatibility with existing equipment. A well-documented frame size allows users to find replacements efficiently.

2. Voltage Rating: The voltage rating specifies the electrical power input required by the motor. It generally ranges from 115V to 460V for GE AC motors. Using the incorrect voltage can damage the motor.

3. Frequency Rating: The frequency rating refers to the electrical frequency (typically 50Hz or 60Hz) at which the motor operates optimally. It’s crucial for ensuring the motor runs at its designed performance level and efficiency.

4. Horsepower Rating: This rating conveys the motor’s mechanical output power. It helps in selecting a motor that meets the required load demands. Common ratings include 1 HP, 5 HP, or larger, depending on the application.

5. RPM (Revolutions Per Minute): RPM indicates how fast the motor’s shaft rotates. Typical RPM ratings include 1,800 or 3,600 RPM. Understanding RPM is essential for applications requiring specific speeds.

6. Phase Type: Phase type notes whether the motor is single-phase or three-phase. Three-phase motors are typically more efficient and powerful, making them preferable in industrial settings.

7. Enclosure Type: Enclosure type describes how the motor is protected from environmental factors. Common enclosures include open drip-proof (ODP) and totally enclosed fan-cooled (TEFC). This classification helps users assess installation suitability.

8. Service Factor: The service factor indicates how much overload the motor can safely handle over a short period. For example, a motor with a service factor of 1.15 can handle 15% more load than its rated capacity.

9. Insulation Class: Insulation class signifies the temperature rating of the motor’s materials. Higher classes provide better heat resistance. Classes include A, B, F, and H, with H being the highest thermal endurance.

Each characteristic offers essential information for selecting the right motor for specific needs. Understanding the implications of each specification helps ensure that users make informed decisions and optimize their motor applications effectively.

Where Can You Find Authentic Replacement Parts for GE AC Motors?

You can find authentic replacement parts for GE AC motors through several reliable sources. Start by visiting the official General Electric (GE) website, where you can access a parts catalog specifically for their products. Next, check authorized distributors such as Grainger, McMaster-Carr, and Motion Industries. These retailers often carry genuine parts for industrial equipment. Additionally, online marketplaces like Amazon and eBay may have listings, but ensure the seller is reputable to avoid counterfeits. Local appliance repair shops also sometimes stock GE parts or can order them for you. For vintage machinery, specialized forums and online groups may provide leads on obtaining rare parts. Always confirm the part number to ensure compatibility with your specific model.

What Types of GE AC Motors Exist?

The types of GE AC motors include several categories based on their design and application.

1. Squirrel Cage Induction Motors
2. Wound Rotor Induction Motors
3. Synchro Motors
4. Permanent Magnet Motors
5. Single-Phase Motors
6. Three-Phase Motors

These types of GE AC motors serve various industrial and commercial purposes. Let’s explore each category in detail.

1. Squirrel Cage Induction Motors: Squirrel cage induction motors consist of a rotor and a stator. The rotor has conductive bars embedded and is shaped like a cage. These motors are popular for their simplicity and durability. They require minimal maintenance and are efficient for various applications, making them a preferred choice in manufacturing.

2. Wound Rotor Induction Motors: Wound rotor induction motors have windings on their rotor, allowing them to manage load changes effectively. They provide better starting torque and can handle variable loads, making them suitable for applications like crushers and mills.

3. Synchro Motors: Synchro motors operate at a constant speed and are used in applications where precise position control is necessary. These motors are commonly utilized in robotics and automation equipment. They rely on AC power supply to maintain synchronous operation with the supply frequency.

4. Permanent Magnet Motors: Permanent magnet motors use magnets permanently embedded in the rotor. These motors offer high efficiency, compact size, and excellent torque performance. They are often found in electric vehicles and energy-efficient appliances.

5. Single-Phase Motors: Single-phase motors are designed for applications that only require a single AC power phase. They are typically used in small machines, residential applications, and small tools, making them versatile for everyday use.

6. Three-Phase Motors: Three-phase motors utilize three alternating currents to create a rotating magnetic field. These motors are efficient and powerful, commonly employed in heavy-duty industrial applications like pumps, fans, and conveyors.

Understanding the different types of GE AC motors can guide businesses in making informed choices when selecting the right motor for their specific applications.

How Do Specifications of GE AC Motors Differ Between Models?

Specifications of GE AC motors differ between models in terms of power output, efficiency ratings, frame sizes, and application suitability. Each key point can be elaborated as follows:

1. Power Output: Different GE AC motor models deliver varying wattages. For example, standard models may range from 0.5 HP to over 500 HP. Higher power outputs suit heavier industrial applications.

2. Efficiency Ratings: GE AC motors come with different efficiency classes, such as IE1, IE2, and IE3. Higher efficiency ratings indicate better energy use and cost savings over time. For instance, IE3 motors can achieve up to 95% efficiency, which is substantial for large systems.

3. Frame Sizes: The frame size of GE AC motors varies by model. Common frame dimensions include NEMA standards, which define size, mounting, and shaft dimensions. A larger frame size can sometimes indicate a motor designed for higher torque applications.

4. Application Suitability: Different models are designed for specific uses. Some motors are tailored for continuous-duty applications, while others are made for intermittent duty. For example, a motor designated for high-starting torque may be ideal for compressors but unsuitable for fans or pumps.

In summary, the specifications of GE AC motors change based on power, efficiency, frame, and application needs, which are critical considerations for optimal motor selection.

What Historical Value Do Vintage GE AC Motors Hold?

Vintage General Electric (GE) AC motors hold significant historical value due to their impact on industrial advancement, technological innovation, and material culture.

1. Technological Innovations
2. Industrial Heritage
3. Craftsmanship and Design
4. Collectability and Nostalgia
5. Market Influence

These points highlight the multifaceted historical value of vintage GE AC motors and how they connect to broader themes in industry and culture.

1. Technological Innovations:
   Vintage GE AC motors represent a pivotal era in electrical engineering. They were influential in the development of alternating current technology. This transition marked a shift from direct current systems, which faced limitations in long-distance power distribution. A study by the IEEE in 2014 credits GE’s early innovations for enabling widespread electrification. These motors allowed for the efficient operation of various equipment, from factories to household appliances.

2. Industrial Heritage:
   Vintage GE AC motors embody the industrial evolution of the early 20th century. The motors played a central role in transforming production processes across numerous sectors. Their design and operational standards contributed to the mass production methods that define modern manufacturing. Historical accounts, such as those detailed by historian David Hounshell in “From the American System to Mass Production,” emphasize the integral role these motors played in industries ranging from textiles to automotive.

3. Craftsmanship and Design:
   The craftsmanship of vintage GE AC motors offers insights into manufacturing practices of the past. These motors were often built with durable materials and feature intricate designs that reflect the technological standards of their time. Many collectors value these motors not only for their functionality but also for their aesthetic appeal. The design aspects draw interest from both engineers and art enthusiasts, showcasing a blend of engineering and artistry.

4. Collectability and Nostalgia:
   The collectability of vintage GE AC motors is fueled by nostalgia for a bygone era of innovation. Enthusiasts and collectors seek these motors for restoration projects or as memorabilia representing mechanical ingenuity. Platforms such as eBay and niche collector forums regularly feature these motors, highlighting their significance among vintage machinery fans. The emotional and cultural connections enhance their appeal and value.

5. Market Influence:
   Vintage GE AC motors have influenced the market for industrial equipment, shaping standards in design and functionality. Their proliferation established benchmarks for quality and performance in the motor industry. This legacy continues to affect current manufacturing practices and standards. Market research from IBISWorld in 2020 suggests that vintage equipment, including these motors, maintains a niche segment, valued for both operational capability and historical significance.

Why Are Vintage GE AC Motors Important to Collectors and Enthusiasts?

Vintage GE AC motors are important to collectors and enthusiasts due to their historical significance, craftsmanship, and reliability. These motors represent a key period in industrial development and are often sought after for restoration projects or as parts for vintage machinery.

The definition of AC (Alternating Current) motors comes from the National Electrical Manufacturers Association (NEMA). They describe AC motors as devices that convert electrical energy into mechanical energy using alternating current, which periodically reverses direction.

Several reasons contribute to the importance of vintage GE AC motors among collectors. First, these motors are a representation of the technological advancements of their time. They showcase reliable engineering and design, which many hobbyists and industrial historians appreciate. Second, they often possess unique aesthetic qualities that reflect the vintage style, appealing to enthusiasts of retro design.

In technical terms, vintage GE AC motors replaced less efficient direct current motors. The transition to AC motors was due to their capability to run at higher voltages and longer distances without significant power loss. The efficiency of these motors often stems from their robust construction and simple design, which also makes them durable and long-lasting.

Detailed mechanisms of these motors involve electromagnetism. When electrical current flows through coils built into the motor, it creates a magnetic field. This magnetic field interacts with permanent magnets or coils in the rotor. As a result, it causes the rotor to spin and generate mechanical energy.

Specific conditions enhance the appeal of vintage GE AC motors for collectors. Many collectors look for models that still function correctly and display minimal wear. For example, a fully operational vintage GE motor used in a classic drill press may hold higher value due to its historical significance and continued usability. Collectors also seek documentation, such as original manuals or packaging, to increase the motor’s provenance.

In summary, vintage GE AC motors are valued for their engineering heritage, reliable performance, and aesthetic qualities. Collectors are drawn to their historical significance, operational capacity, and the joy of restoring vintage machinery.

How Can You Decode and Interpret GE AC Motor Model Numbers?

GE AC motor model numbers provide crucial information about the motor’s specifications, including its power rating, frame size, and features. Understanding how to decode these model numbers allows users to ascertain vital details for maintenance, replacement, or installation of the motors.

The structure of GE AC motor model numbers typically includes several key segments that convey different attributes:

1. Power Rating: The first set of digits usually indicates the motor’s horsepower or kilowatts. For example, a model number starting with “5” often means a 5-horsepower motor.

2. Frame Size: The next section of the model number specifies the frame size. Frame sizes can be represented by numbers, such as “143T,” where “143” suggests a certain dimensional size for mounting.

3. Voltage: The subsequent characters often describe the voltage rating. For instance, “230/460” means the motor can operate at both 230 volts and 460 volts.

4. Phase: The model may include letters such as “S” or “T” denoting whether it is a single-phase or three-phase motor. For example, “T” typically indicates a three-phase motor.

5. Speed: Certain models feature speed ratings, often found in revolutions per minute (RPM), which can be included in the model number or specified in accompanying documentation.

6. Service Factor: A numeric value may represent the service factor, typically showing how much overload the motor can handle. A service factor of “1.15” means the motor can safely operate at 115% of its rated load.

7. Special Features: Some models have additional letters or numbers that indicate special features, such as “DR” for drip-proof or “TEFC” for totally enclosed fan-cooled.

By examining these attributes, users can accurately identify the specifications of GE AC motors, aiding in proper application and maintenance. This understanding can greatly enhance efficiency and functionality in industrial and commercial settings.

Why Is It Essential to Understand GE AC Motor Specifications?

Understanding GE AC motor specifications is essential for several reasons. These specifications guide users in selecting the right motor for their applications. They influence performance, energy efficiency, and compatibility with existing systems.

According to the National Electrical Manufacturers Association (NEMA), GE AC motor specifications include crucial data such as voltage, horsepower, efficiency ratings, and encasement type. These attributes directly affect how the motor operates within specific environments and applications.

The underlying reasons for needing to understand these specifications include performance demands and application requirements. Each motor has unique capabilities based on its design and materials. For instance, knowing the voltage can help prevent damage from power surges. Understanding efficiency ratings can reduce energy costs over time.

In technical terms, “efficiency” refers to the ratio of mechanical power output to electrical power input. This measure indicates how effectively a motor converts electricity into motion. Therefore, more efficient motors consume less energy for the same output, making them cost-effective.

Detailed explanations of AC motors reveal that they operate through electromagnetic induction. Electricity flowing through coils generates a magnetic field that interacts with the rotor, causing it to spin. The design of the rotor and stator influences performance characteristics, such as torque and speed regulation.

Specific conditions that impact the selection of a motor include load requirements and environmental factors. For example, a motor used in a high-temperature environment might need additional insulation. If a precise speed is needed, a variable frequency drive may be necessary for controlling speed. Choosing the wrong specifications could lead to motor failure or inadequate performance in an application, such as a conveyor system.

Related Post:

• Ge ac motor stock no
• Ge ac motor technical support phone number
• Ge age ac motor
• Ge b20 ac motor
• Ge c140267p01 ac fan motor