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We&#;re taking everything we&#;ve discussed and applying it in three scenarios. Any gear motor will work for most applications, but there&#;s usually only one or two types that are best.
In this video we discuss how to select a gear motor in four simple steps by choosing an integrated gear motor.
This video continues our discussion of selecting a gear motor by pairing the separate components. Now we look at how to select a motor based on the reducer selected for the application.
In this video we begin our deep dive into gear motor selection. There are two methods for pairing motors and reducers to create the optimal gear motor. Here we begin with the first method by taking a look at gear box selection.
This video covers the important application criteria that need to be considered when selecting a gear motor.
Right Angle reducers are great for applications where size and space are at a premium. With the ability of the the output to turn a 90 degree corner.
Planetary reducers are ideal for applications requiring high torque in a small package and an output shaft with coaxial alignment. We'll discuss the construction, characteristics, advantages and disadvantages of Planetary gearboxes.
Parallel shaft gearboxes are an ideal solution for continuous duty applications; applications requiring low torque; applications with higher ambient temperatures; or applications that are cost conscious.
In this video we give a quick overview of motors and explain the rationale for using gear motors - why using a reducer (gearbox) with a motor enables the use of a smaller motor and increased torque and/or speed.
Even when the motor matches the application on paper, you can still run into new variables while testing. Here are six common checks to help determine why your motor may be overheating.
In this video we discuss planetary gearboxes. Learn the ins and outs of how these reducers work as well as their advantages and disadvantages.
As we round out this video series, we will share several motor calculation formulas and other tools to help you with the selection process.
We&#;re taking everything we&#;ve discussed and applying it in three scenarios with varying levels of customized motors. Any motor will work for most applications, but there&#;s usually only one or two types that are best.
In this video we hope to ease any concerns you may have about what&#;s involved in customizing a motor to fit your application. You don&#;t have to take a standard motor and try to make it &#;fit&#; your application.
In this video we discuss the construction, characteristics, advantages and disadvantages of BLDC Motors. We'll also look at the BLDC motor performance curves for speed, torque and efficiency.
In this video we discuss the construction, characteristics, advantages and disadvantages of AC Motors. We'll also look at the AC motor performance curves for speed, torque and efficiency.
In this video we discuss the construction, characteristics, advantages and disadvantages of DC Motors. We'll also look at the DC motor performance curves for speed, torque and efficiency.
In this video we discuss the construction, characteristics, advantages and disadvantages of Universal Motors. We'll also look at the Universal Motor performance curves for speed, torque and efficiency.
This is part two of our discussion on application criteria. It seems obvious, but we like to remind our customers to always consider the maximum size and weight of motor their application will allow, and to know what kind of life expectancy the motor will need to have.
This video (and the next) cover important application criteria, first we'll focus on application constraints that need to be taken into consideration during the design process.
Selecting the right motor can be a complicated process. In this first video we introduce the basic concepts of electric motors.
This video shows a short step by step tutorial on how to switch the output voltage on a Groschopp brushless control.
This short video shows how to set your current limit on a Groschopp brushless control.
Watch this video to learn about gain and how to set it on a Groschopp brushless control.
This tutorial video shows you how to use Groschopp's motor search tool to find your ideal motor.
For more Flexible Coupling Typesinformation, please contact us. We will provide professional answers.
By watching this video, you will learn the basics of all of Groschopp's brushless controls, their enclosure types, and low volt and high volt options.
In this video, we will explain 7 factors to consider when deciding between oil and grease to determine which type of lubricant is best for your gear motor.
Groschopp offers a line of Planetary Right Angle DC Gear Motors that provide the advantages of standard right angle gearmotors without giving up efficiency.
Groschopp makes it easy for to choose the right motor or gearmotor by incorporating 3D models into each product page as well as on the customization pages.
This Tech Tips video explains the basics of Brushless DC Motors: how they are designed and how they operate.
This Tech Tips discusses the advantages of back-drive and brakes and the types of applications for which they are best suited.
In this video we give you a quick guide to importance of duty cycle for the optimal operation of fractional horsepower motors and gearmotors.
How fractional horsepower motors are rated for harsh motor environments. Understanding IP ratings and harsh duty requirements is important to accurately communicate an application&#;s requirements.
Understanding the characteristics of AC motors allows engineers select the motor best suited to their application.
What makes Groschopp a special company to work with for our customers? It all comes down to the people that make up the company. Find out how they're at the core of the Groschopp Advantage.
The rich history of Groschopp, Inc. begins in with a company called Wincharger. How did we get from Wincharger to Groschopp? Watch and find out.
Here are three quick checks you can perform with a volt/ohm meter to test a DC motor armature winding to determine if a motor armature is functioning properly.
Introducing a robust DC Brushless Motor and gearbox combinations. The new Brushless motor is maintenance-free, highly reliable and has a life of 20,000+ hours.
This “how to” video guide covers the basics of gearmotor selection in four simple steps: including speed, torque and application requirements.
View Groschopp's manufacturing, quality assurance and engineering capabilities and get an inside look at Groschopp's manufacturing facility and engineering lab located in Sioux Center, Iowa.
What are Parallel Shaft Gear Reducers
Parallel shaft gear reducers are a type of gear reducer that features parallel input and output shafts. They are typically used in applications where space is limited, and the need for torque multiplication is high. Parallel shaft gear reducers consist of two or more gears that mesh with each other to reduce the speed of the input shaft.
Parallel shaft gear reducers are known for their compact design and efficiency as they can handle high loads and are suitable for heavy-duty applications. They are commonly used in industries such as mining, construction, and manufacturing.
How do Parallel Shaft Gear Reducers Work?
Parallel shaft gear reducers work by transmitting power from an input shaft to an output shaft through a series of gears. The gears are arranged in parallel, with the input and output shafts positioned on opposite sides of the gear unit.
When the input shaft rotates, the gears mesh and transmit power to the output shaft. The number of teeth on the gears determines the gear ratio, which determines the speed reduction and torque increase.
Advantages of Parallel Shaft Gear Reducers
High Torque Capacity: Parallel shaft gear reducers can handle high torque loads, making them ideal for heavy-duty applications.
Compact Design: Parallel shaft gear reducers have a compact design, making them suitable for applications with limited space.
Efficient: Parallel shaft gear reducers have high efficiency, with minimal power loss during transmission.
Versatile: Parallel shaft gear reducers can be used in various applications, including conveyor systems, mixers, and packaging machinery.
Durable: Parallel shaft gear reducers are designed to withstand harsh operating conditions and can provide long service life.
While there are many advantages to using parallel shaft gear reducers, there are also some disadvantages that should be considered. One of the primary disadvantages is their limited speed ratio range. Another potential disadvantage of parallel shaft gear reducers is their higher cost compared to other types of gear reducers. This is due to the precision engineering required to produce the high-quality components used in parallel shaft gear reducers. However, the long service life and high efficiency of parallel shaft gear reducers can offset the higher initial cost over time.
In conclusion, parallel shaft gear reducers are a versatile and efficient choice for many industrial applications. They are well-suited for use in applications where space is limited, and high torque output is required. While there are some disadvantages to using parallel shaft gear reducers, their many advantages make them a popular choice in many different types of machinery.