Today’s manufacturing system OEMs and automation end users are constantly seeking technology advancements to help make their lives easier. Industry 4.0 innovations have spurred a new class of smart technologies that combine digital electronics and communication interfaces for more sophistication, functionality, and ease of use. By Richard Hansen • Senior automation engineer | Bosch Rexroth […]
Linear Actuators Archive
Get the latest product news, technical info, and FAQs about linear actuators.
New direct-drive linear modules from PI
PI’s two new series of direct-drive linear modules are geared for machine builders and system integrators. The V-855 and V-857 product families were designed for high-load and high duty cycle industrial precision motion applications where traditional actuators or linear slides with lead-screw or timing-belt drives are not precise, robust or reliable enough. The maintenance-free and […]
What is ball screw whip and why does it happen?
Ball screws are often the drive mechanism of choice in applications that require high thrust forces with excellent positioning accuracy and repeatability. But one of the drawbacks of ball screw technology is that speed is inversely related to length — the longer the ball screw shaft, the more likely it is to whip, like a […]
What is a 7th axis (also known as an RTU) and when is it used?
Linear Cartesian and gantry robots are used extensively in automation, particularly for tasks such as pick and place and assembly. But for applications that require movements such as changing the orientation of a part or navigating around complex obstacles, the robot of choice is often the 6-axis articulated robot. Despite their dexterity, the reach of a […]
Linear slide with maintenance-free voice coil motor features nanometer precision
PI extends its large offering of nanometer precise, fast focusing stages with the addition of its new V-308 nanopositioning slide for vertical applications providing 7 mm of Z-travel and 10 nm incremental motion, making it suitable for OEM and research applications in the life science, semiconductor, and material science fields. The novel design combines long […]
LINAK calculator takes the guesswork out of actuator lifetime prediction
LINAK is launching a B10 lifetime calculator, providing their customers with a valuable glimpse into the future when it comes to actuator service life. Predicting the lifespan of integrated actuators can be challenging, as different applications and conditions place varying demands on components. However, because the B10 life is based on a combination of real-life […]
Trends: More integration in linear motion designs
There are many intertwining trends driving developments in the broad field of linear motion systems – from the push for more integrated systems to new applications incorporating linear motion components to better performance and efficiency. Not to mention the coronavirus pandemic, which has touched every facet of life including manufacturing. We surveyed some leading linear […]
Integrated motion designs see more electric actuators
Technology trends in electric actuator design continue from years past, influencing manufacturers offerings to designers. For instance, electric actuators are easier to specify and install, with more application-specific models on offer. This tracks with other trends including the move to more integrated motion designs, opening up more and varied applications for electric actuators. Here’s what […]
The benefits – and drawbacks – of linear motors for dynamic applications
Linear motors can achieve high acceleration rates and long travel lengths with good thrust forces and extremely high positioning accuracies, while other drive mechanisms, such as belts, screws, or rack and pinions, must sacrifice at least one of these requirements in order to achieve the others. This is why linear motors are the preferred choice for […]
What’s the difference between a vertical lift stage and a Z axis actuator?
In many applications that require vertical motion, a Z axis actuator is combined with one or two horizontal axes in a Cartesian or gantry-style arrangement. In these multi-axis configurations, the moved load is mounted to the Z axis via a bracket, creating a moment load that affects not only the Z axis, but also the horizontal […]