Hydraulicspneumatics 5156 Promo Eaton Stability Control
Hydraulicspneumatics 5156 Promo Eaton Stability Control
Hydraulicspneumatics 5156 Promo Eaton Stability Control
Hydraulicspneumatics 5156 Promo Eaton Stability Control
Hydraulicspneumatics 5156 Promo Eaton Stability Control

Boom Stability Control Makes Machines Safer, More Productive

Sept. 14, 2018
Eaton Hydraulics' boom stability control technology boosts performance for concrete pump trucks, fire rescue vehicles, and other machinery.

Boom stability control technology consists of hydraulic and electronic components integrated into a system that reduces hydraulic boom oscillation up to 75% and boom settling time up to 90%. Indeed, these are impressive numbers coming from Eaton’s Hydraulics Div., Eden Prairie, Minn. The technology improves the performance, productivity and safety of boom-equipped machinery, such as concrete pump trucks, fire rescue vehicles, aerial work platforms, hydraulically controlled cranes, and agricultural sprayers, and enables active ride control for various construction equipment.

It’s all made possible by a proprietary control algorithm and Eaton’s CMA mobile valves, which feature active damping technology using the valve’s onboard sensing and independent metering capabilities to detect vibration and automatically stabilize the entire boom structure. Benefits include:

  • rapid boom deployment and point-to-point movement
  • enhanced placement accuracy
  • a safe environment for those working from or around the boom
  • high overall productivity for quicker project completion.

“Our boom stability technology delivers a whole new level of control, which we believe will be standard on next-generation boom-equipped platforms,” says Mike Rannow, engineering specialist, hydraulics, at Eaton. “In addition to performance and productivity gains, this technology has the potential to reduce labor costs, decrease component wear and maintenance downtime, and enable the use of lighter, less-costly boom structures.”

Boom stability control from Eaton Hydraulics incorporates a system of controls, sensors, and hydraulic components to provide quicker, yet safer motion by smoothing out “boom bounce” and other irregularities often encountered with mobile equipment.

Eaton’s boom stability control is especially well suited to off-highway equipment. The technology’s active damping algorithm can predict and compensate for road and terrain irregularities. Results are improved operator comfort, increased driving speeds, and less material loss through spillage.

Boom stability control requires minimal hardware and wiring on the boom. It integrates with Eaton or original equipment sensors and controllers, maintains machine safety and manual override features, and is fully configurable and tunable to the desired feel and performance.

Click here for more information on Eaton’s boom stability control technology.

Continue Reading

Motor leakage variations

Oct. 18, 2006
affect low-speed performance

The Impacts of Electrification on Fluid Power Systems

May 15, 2023
Electrification presents challenges as well as opportunities to re-evaluate and improve upon the design of hydraulics and pneumatics.

Sponsored Recommendations

7 Key Considerations for Selecting a Medical Pump

Feb. 6, 2024
Newcomers to medical device design may think pressure and flow rate are sufficient parameters whenselecting a pump. While this may be true in some industrial applications, medical...

How Variable Volume Pumps Work

Feb. 6, 2024
Variable volume pumps, also known as precision dispense pumps, are a positive displacement pump that operates by retracting a piston to aspirate a fluid and then extending the...

What is a Check Valve and How Does it Work?

Feb. 6, 2024
Acheck valve, a non-return or one-way valve, is a mechanical device that allows a gas or liquid to flow freely in one direction while preventing reverse flow in the opposite ...

The Difference Between Calibrated Orifices and Holes

Feb. 6, 2024
Engineers tasked with managing fluid flow talk about both holes and calibrated orifices, but they are two distinct entities. A hole can be any opening, but a calibrated orifice...