"Easy to use. Multiple quotes by most brands on the list. Effective platform indeed - Thank you"
How IndustrySearch works
1. Tell us what you need
in a few quick steps
2. Get personalised quotes
from expert suppliers
3. Compare and make the
best choice
Looking to buy the best Moog Linear Actuator & Motor for sale? Get Quotes sends your requirements to expert suppliers in Australia so you get personalised quotes to compare Linear Actuator & Motor prices, specifications, features and terms then choose the one that’s right for you. Also compare servicing, consumables and reviews, so you can buy with confidence.
Moog Australia | Precision Motion Control Products Moog Inc. is a worldwide designer, manufacturer, and integrator of precision motion control products and systems. Moog’s high-performance systems control military and commercial aircraft, satellites and space vehicles, launch vehicles, missiles, industrial machinery, wind energy, marine applications, and medical equipment.
Over fifty years ago, we started as designer and ...
A linear actuator is a device that converts rotational motion into linear motion. It is used in a variety of applications, including robotics, automation, and machinery. Linear actuators can be operated manually or electrically, and they are available in a range of sizes and load capacities. They are commonly used in applications where precise linear motion is required, such as in medical equipment, aerospace technology, and industrial machinery. Overall, linear actuators are essential components for many different types of equipment and machinery, providing precise and reliable linear motion.
What are the different types of linear actuators available in Australia?
Is a type of device that converts rotational motion into linear motion. There are several types of linear actuators available in Australia, including:
Belt-driven actuators - use a belt and pulley system to move the actuator rod.
Screw-driven actuators - use a threaded rod to move the actuator rod.
Hydraulic actuators - use hydraulic fluid to move the actuator rod.
Pneumatic actuators - use compressed air to move the actuator rod.
Electromechanical actuators - use an electric motor to move the actuator rod.
Piezoelectric actuators - use a piezoelectric material to move the actuator rod.
Voice coil actuators - use a magnetic field to move the actuator rod.
Each type of linear actuator has its own advantages and disadvantages, and is suitable for different applications depending on the required force, speed, and precision.
What factors should I consider when choosing a linear actuator?
When choosing a linear actuator, several factors need to be considered, including the load capacity, stroke length, speed, control options, mounting options, and the environment in which it will be used. The load capacity should be sufficient to handle the weight of the load and any additional forces that may be applied. The stroke length should be long enough to allow for the required movement. The speed should be appropriate for the application, and the control options should allow for precise control over the actuator's movement. Mounting options should be considered to ensure the actuator can be installed in the desired location, and the environment in which it will be used, such as temperature and moisture levels, should be taken into account to ensure the actuator can perform reliably.
What is the maximum load capacity of a linear actuator?
The maximum load capacity of a linear actuator varies depending on the specific model and manufacturer. Generally, linear actuators can handle loads ranging from a few pounds to several thousand pounds. It is important to check the manufacturer's specifications for each specific actuator to determine its maximum load capacity. Factors that can affect the load capacity of a linear actuator include the stroke length, speed, and type of actuator (electric or hydraulic). It is also important to consider the application and ensure that the actuator is appropriately sized for the load it will be handling.
How do I determine the stroke length I need for my application?
To determine the stroke length you need for your linear actuator, there are a few factors that you need to consider:
Required travel distance: Determine how far the actuator needs to travel to accomplish its intended function.
Mounting limitations: Consider the available space for the actuator to fit and how it will be mounted.
Load requirements: Determine the weight and size of the load that the actuator needs to move.
Speed requirements: Determine how fast the actuator needs to move to accomplish its intended function.
Safety factors: Consider factors such as safety margins and load capacity to ensure that the actuator is able to perform its function safely and reliably.
Once you have considered these factors, you can determine the appropriate stroke length for your application. The stroke length should be long enough to accommodate the required travel distance and any mounting limitations, but not so long that it exceeds the load and speed requirements or compromises safety.
What is the speed of a linear actuator and how is it measured?
A linear actuator is a device that converts rotational motion into linear motion. The speed of a linear actuator is typically measured in inches per minute (IPM) or millimeters per minute (MM/min). The speed of a linear actuator depends on several factors, including the motor speed, gear ratio, and load. The speed can be adjusted by changing the voltage or current supplied to the motor. The maximum speed of a linear actuator is determined by the motor's maximum speed and the load capacity of the actuator. Some linear actuators have built-in speed controllers that allow the user to adjust the speed without changing the voltage or current.
Can I control the speed and position of a linear actuator?
Yes, you can control the speed and position of a linear actuator. There are various methods to do this, including using a motor controller or a microcontroller. Additionally, some linear actuators come with built-in feedback sensors that allow for precise positioning and control.
What is the IP rating of a linear actuator and why is it important?
An IP rating, or Ingress Protection rating, is a measure of how well an electronic device is protected against solid and liquid particles entering it. The IP rating of a linear actuator is important because it determines the level of protection it provides against environmental factors such as dust, dirt, water, and other liquids. A higher IP rating means better protection, which is particularly important for linear actuators that are used in harsh environments such as industrial settings, outdoor applications, and marine environments. The IP rating system is standardized and consists of two digits, with the first digit representing the level of protection against solids and the second digit representing the level of protection against liquids. The higher the number, the better the protection. For example, an IP67-rated linear actuator is completely protected against dust and can withstand immersion in water up to a depth of one meter for up to 30 minutes.
How do I install and maintain a linear actuator?
A linear actuator is a device that converts rotational motion into linear motion. It is commonly used in various applications such as robotics, automation, and industrial equipment. Here are the steps to install and maintain a linear actuator:
Installation:
Choose the appropriate mounting location for the linear actuator.
Attach the mounting brackets to the linear actuator.
Mount the actuator to the desired location using bolts and screws.
Connect the actuator to the power source and control system.
Maintenance:
Keep the actuator clean and free from debris.
Check the actuator for any signs of wear or damage.
Lubricate the actuator regularly to ensure smooth operation.
Check the wiring and connections to ensure they are secure.
Monitor the actuator's performance regularly and address any issues promptly.
By following these steps, you can ensure that your linear actuator functions properly and lasts for a long time.
Get 3+ Quotes Now - Compare prices, availability and quality. It’s free, quick and secure.
Back to top
Linear Actuator & Motor Costs and Supplier Insights
The listed price of a Linear Actuator & Motor for sale ranges from $50 to $1,000, averaging $525.
Use Get Quotes to receive personalised prices and proposals from trusted suppliers with top reviews and excellent service.
Buy a Linear Actuator & Motor Near Me
Save time and delivery costs while getting fast support, by contacting Linear Actuator & Motor suppliers near you.