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Parallel Shaft Gearboxes & Speed Reducers

Our parallel-shaft gearmotors and reducers feature precision-helical gearing in a wide range of mounting configurations and accessories to fit your specific application.

What is a Parallel Shaft Gearbox?

Parallel shaft gearmotors, also known as parallel shaft gearboxes, feature a design in which the input and output shafts are parallel to each other but offset. This design allows for higher torque capacity and a wider range of gear ratios than concentric gearboxes, making them suitable for applications that require higher torque and speed capabilities.

Definition and Design of Parallel Shaft Gearboxes

Parallel shaft gearmotors typically consist of two or more sets of gears, with each set mounted on a separate parallel shaft. The gears in the gearbox transmit power and torque from the input shaft to the output shaft through meshing teeth. The input and output shafts are mounted on opposite ends of the gearbox casing and are supported by bearings.

Advantages of Parallel Shaft Gearmotors

Parallel shaft gearmotors offer several advantages, including:

• High torque capacity: Parallel shaft gearmotors have a higher torque capacity than concentric gearboxes, making them suitable for high-torque applications.
• Wider gear ratio range: Parallel shaft gearmotors have a wider gear ratio range than concentric gearboxes, making them suitable for a wider range of applications.
• Versatility: Parallel shaft gearmotors can be used in a variety of applications, including conveyors, mixers, and pumps.
• Reliability: Parallel shaft gearmotors are known for their durability and reliability, making them a popular choice in industrial applications.

Disadvantages of Parallel Shaft Gearboxes

Parallel shaft gearmotors do have some disadvantages, including:

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• Increased noise and vibration: The offset design of parallel shaft gearmotors can result in increased noise and vibration compared to concentric gearboxes.
• Higher maintenance requirements: The more complex design of parallel shaft gearmotors may require more maintenance than concentric gearboxes.
• Larger size: Parallel shaft gearmotors are typically larger and take up more space than concentric gearboxes.

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Parallel Shaft Gearbox Options

Why Choose

Sumitomo

Parallel Shaft Gearmotors?

Sumitomo offers a range of high-quality, reliable parallel shaft gearmotors suitable for a wide range of industrial applications. With features such as high torque capacity, a wide gear ratio range, and versatility, Sumitomo parallel shaft gearmotors offer a reliable and efficient solution for your power transmission needs. 

Parallel Shaft Gearmotors

Helical Gearmotors

Parallel Shaft Speed Reducers

Helical Reducers

Understanding Parallel Shaft Reducers: Essential Components for Electrical and Power Transmission

Parallel shaft reducers are crucial mechanical devices used in various applications within the electrical and power transmission sectors. These reducers play a significant role in enhancing the efficiency and performance of machinery by reducing the speed of motors while increasing torque. This is achieved through a system of gears that operate on parallel shafts, allowing for compact design and effective power transmission.
At the core of a parallel shaft reducer is its unique gearing arrangement. The parallel shafts allow for a straightforward design, which minimizes the complexity often found in other types of reducers. This simplicity not only enhances reliability but also makes maintenance easier. The key benefit of using a parallel shaft reducer is the ability to achieve a desired output speed and torque, making it essential in applications where precision and control are paramount.
Parallel shaft reducers find widespread use in various industries, including manufacturing, conveyor systems, and materials handling. In manufacturing, for instance, they are often integrated into production lines to optimize the speed and efficiency of machinery. Similarly, in conveyor systems, these reducers help in controlling the speed of the conveyor belts, ensuring a smooth and consistent flow of materials.
One of the standout features of parallel shaft reducers is their ability to handle high loads while maintaining compactness. This is particularly beneficial in applications with space constraints, as these reducers can fit into tighter spaces without compromising on performance. Additionally, they are designed to operate quietly, reducing noise pollution in industrial environments&#;an essential factor for workplaces focused on employee safety and comfort.
When selecting a parallel shaft reducer, several factors should be considered. These include the required output speed, torque, and the specific application it will be used for. Understanding these parameters will aid in choosing the right reducer that meets the operational needs effectively. Moreover, it's essential to consider the material and construction quality, as these factors contribute significantly to the reducer&#;s durability and overall performance.
In conclusion, parallel shaft reducers are integral components in the electrical and power transmission industry, offering numerous advantages in terms of efficiency, compactness, and reliability. By understanding their functionality and applications, professionals can make informed decisions that enhance operational efficiency and productivity in various mechanical systems. As technologies evolve, the role of these reducers will likely expand, further emphasizing their importance in modern engineering solutions.

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