Posted by Anonym on Thu, Mar 08 2018 @ 8:30 AM
Robots are well-suited to high-volume processes like welding auto bodies because they can work quickly and consistently. Using electric servo actuators makes faster speeds and consistent weld quality possible while reducing costs.
Posted by Anonym on Tue, Feb 20 2018 @ 8:30 AM
Linear actuators are familiar components in many factory automation systems. They’re one of the usual suspects in any line-up of linear motion components.
There’s a lot riding on specifying the right linear actuator for the task. Choose well and it’s smooth sailing. The actuator performs without a glitch for a long time. Choose the wrong one, and it’s a bumpy ride. You can wind up with break-downs and poor product quality.
Posted by Anonym on Tue, Jan 23 2018 @ 8:30 AM
As oil and gas drilling environments grow more challenging, the need for the enhanced control provided by managed pressure drilling (MPD) grows too. The drilling choke valve is an essential component in an MPD system, and the drilling choke valve operator (choke valve actuator) provides the vital element of control. It’s the valve operator that communicates the control software’s commands and provides position feedback to the control system. It stands to reason that selecting the best valve operator is critical to the success of an MPD system.
Posted by Anonym on Tue, Jan 09 2018 @ 8:30 AM
When you specify a linear actuator, some basic decisions come first. Like electric or fluid-powered?Like do you need the push/pull of an electric rod actuator or the load-carrying action of a rodless electromechanical actuator?
We’ve compiled tips for selecting these actuator types. Here’s an opportunity to increase your knowledge of electric linear motion.
Posted by Anonym on Tue, Dec 12 2017 @ 8:30 AM
There’s a new debate in motion among machine designers. What’s best? Pneumatic or electric linear actuators? The truth is it depends on the application. What follows is an honest comparison of linear actuator choices – an assessment of strengths and weaknesses – so you can choose what’s best for your project.
Posted by Anonym on Tue, Nov 28 2017 @ 8:30 AM
The lumber processing industry demands rugged, strong, reliable and accurate equipment in all its operations. Machine designers who serve this industry need extreme force linear actuators to move heavy loads. Hydraulic cylinders have been the go-to, but they have limitations, such as poor control, leaks, temperature sensitivity, maintenance requirements and lack of feedback. Now there are electric rod actuators powered by roller screws that can meet the requirements of these high force applications.
Posted by Anonym on Tue, Nov 14 2017 @ 8:30 AM
For high force linear actuator applications, machine designers often first look to hydraulic cylinders. For good reason, too – hydraulic cylinders can be a bargain to purchase, delivering high force at a low cost per unit of force. Plus, they’re rugged and well understood. But there’s another technology to consider. Electric linear actuators are available with high force capacities. These actuators are more flexible, precise and reliable than their hydraulic counterparts.
Posted by Anonym on Tue, Oct 31 2017 @ 8:30 AM
Higher production speeds usually translate into higher output volumes – a good thing in manufacturing. At least it’s good if product quality stays high and operating costs remain in line. Machine designers are on the look-out for high speed linear actuators and other devices that can streamline processes. But those high-speed solutions need to be reasonably priced and efficient to use.
Posted by Anonym on Tue, Oct 17 2017 @ 8:30 AM
Linear actuators are common and critical elements in many industrial machines and automation systems. With so many choices on the market, it’s important to know how to select the best one for your application.
You probably know a lot about linear actuators. But do you know everything? Our electric linear actuator quiz will test your engineering smarts.
Posted by Anonym on Tue, Oct 03 2017 @ 8:30 AM
Some manufacturing processes require high precision -- printed circuit boards (PCB) production, for example. In these instances, the capabilities of each component in a production system are critical. Although machine designers know pneumatic cylinders well, these cylinders struggle to deliver the accuracy and repeatability demanded by high precision processes. Many design engineers now turn to electric rod actuators for accuracy and repeatability and for better operating efficiency.