NEMA 6P Submersible Electric Actuator
Featured Product from Indelac Controls, Inc.
NEMA 6P Electric Actuator Submerged in a 6-foot Column of Water
This test started at the end of the summer 2013 at Indelac facility, in Northern Kentucky, behind the 15,000 square foot factory. One of Indelac electric actuator meeting NEMA 6P specifications was immersed in a column of water made of 2 barrels welded together.
The actuator was equipped with a timer to automatically actuate the device every 90 seconds.
After several months in the water, the column of water even froze into ice over the winter but the actuator was still functioning, reaching an outstanding 101,000 cycles in December 2013.
Breaking (Bad) Ice and Inspection of the Actuator
So we decided it was time to break off the ice and get the actuator out.
The actuator was taken inside the shop and its cover was remove to make sure that in fact there was no water inside. Then we plugged the unit back on and ran it and even after several month immerged under water, it was still working perfectly, rust free, especially considering that the heater inside the actuator was not even wired for the experiment.
Pretty impressive wouldn’t you say?
The Evolution of Actuator Design
Based on the power source used, actuators can be divided into two main categories:
- Electric actuators: using either one-phase or three-phase power (depending on the size of the application and the availability in site) to energized a set of gears, operating any type of valve.
- Pneumatic or hydraulic actuators: using either a rack & pinion or a scotch yoke device for moving a rotary valve.
They are other types of valve and damper actuators that use a combination of existing motors and gears, but most applications are included into those two categories.
PNEUMATIC AND HYDRAULIC ACTUATORS IN A NUT SHELL
These actuators have a relatively simple mechanism. Small to medium size devices are built with a rack and pinion mechanism and larger devices use a scotch yoke. There are so many rack and pinion actuators manufacturers in the world that these actuators are actually considered more like a commodity product rather than an engineered product. There are considerably less manufacturers of actuators using scotch yoke mechanism but the core mechanical design is close to identical, though some variations do exist.
On smaller pneumatic actuators, some standardization of the controls and position feedback exists with international standards like NAMUR. But generally, most pneumatic actuators have added control components like solenoids, position transmitters… manufactured by third party manufacturers.
FOCUSING ON ELECTRIC ACTUATORS
The development of electric actuators followed a different path. At first, the electric actuator was just a motor with a set of gears and some mechanical torque limit switches inside an enclosure. The controls were separate. Position feedback switches (auxiliary switches) and motor controls were later incorporated into the electric actuator enclosure. This marked an important milestone in the electric actuator industry, turning the actuator into an integrated control package. Later on, bigger, explosion-proof enclosures rated NEMA 7 and 9 were used, allowing electric valve actuator to be installed in various hazardous locations such as oil fields, chemical plants or gas pipelines. See blog about NEMA RATINGS The development of high quality, long lasting sealing solutions like O-rings and gaskets in combination with the use of temperature and condensation control equipment such as heater, thermostat, breather and/or desiccant pack allowed electric actuator manufacturers to safely add more electronic inside the actuator enclosure. This improvement allowed the use of greater monitoring and control options to improve overall controllability and safety of processes and automated systems. The next step was the development of non-intrusive configurations using newer and better electronic controls with communication protocols such as HART or MODBUS, improving the overall commissioning capabilities of control packages. Nowadays, wireless actuators are simple to use, easy to implement, easy to commission. They provide communication as well as diagnostics, while eliminating expensive wiring and install costs. Wireless technology is all around us, permeating every aspect of modern communication. See blog about WIRELESS ACTUATOR for more info. Technological trend of the latest years are the smart objects. We use them every day and everywhere. Smart actuators are next! And as technology continues to evolve always faster and faster, actuator manufacturers will keep innovating as well.
Indelac Controls, Inc. (ICI)
Indelac Controls, Inc. (ICI) manufacturers a full line of quarter turn rotary electric actuators used for valve and damper automation. Founded in 1986, Indelac was incorporated as an “S” corporation on November 30, 1987. ICI takes pride in being a family owned and operated electric actuator manufacturer for over 32 years. All of ICI’s production is based in Northern Kentucky, though you can find our products in all 50 U.S. states and on 6 continents around the world. At Indelac, we are one big motivated family, and our family is dedicated to advancing the technology we use, along with our employees'expertise in a constant effort to better serve our customers'automation requirements. Our upgraded facility continues to utilize state-of-the-art machinery throughout the manufacturing process assuring the highest possible quality using American made products. Indelac's main goal as an electric actuator manufacturer is to design, develop, and manufacture a high quality electric actuator at a competitive price, while maintaining on-time delivery. ICI’s product line consists of electric actuators with torques ranging from 100 lb-in output torque through 27,300 lb-in output torque, as well as offering an array of controls for ordinary on/off controls, to sophisticated process control applications.