Hi proelect8717,
I just used the search function at the top of the eng-tips page [NOT the one that says "Google Custom Search" but the one to the right of that] looking for the search string 'motor operated valve' - at least the first half-dozen or so of the results looked promising, at least to me.
proelect8717 said:
Can i get some good technical literature, books on them how they work, types, troubleshooting etc etc.
There's kind of a wide answer to this one, and what follows will barely begin to scratch the surface of the topic...
The smallest MOV I ever saw was in someone's apartment as part of the hot-water-type heating system; a centre-contact thermostat fed 24 VAC to a pair of wires which led to the ball valve. The valve body was at the bottom; next was a geared-down drive motor, and on top two notched wheels were mounted on the valve spindle. One wheel had notches at 90° and 270°, and the other had notches @ 0° & 180°. Each wheel had a limit switch attached to it; the wires from the thermostat attached one each to the limit switches, while the common side of the limit switches led to the valve drive motor.
With the valve shut, on a call for heat, thermostat would toggle power down one wire; motor would run until valve had rotated 90°, at which point the limit switch in that wire would open the circuit and the motor would stop, leaving valve in open position. When thermostat was satisfied it would toggle power supply to the other wire and the motor would run until it had rotated another 90°, at which poin the other limit switch would open and the motor would again stop, leaving the valve closed.
Simplicity itself.
From this point on, motor-operated valves just get bigger and/or more complicated.
Based on my admittedly limited operating background, the parameters to be considered when it comes to motor operated valves include but are not limited to:
Medium controlled: almost exclusively fluids, meaning either liquids or gases.
Flow volume: low, medium, high
Flow regimes: [a] valve normally either fully closed or wide open, meaning not designed for throttling purposes, or
designed to be capable of continuous operation at any position between fully shut and fully open without the valve sustaining damage. These criteria have more to do with the valve and less with its actuator...but valve and actuator characteristics often reflect on each other, so don't make the mistake of concentrating exclusively on the actuator while ignoring the valve.
Temperature of controlled medium: low, moderate, high
Operating Pressure: low, medium, high
Normal pressure differential expected across the valve - - you guessed it: low, moderate, high
Size: all the way from tiny to huge
Actuator and valve spindle rotation: unidrectional and reversing
Duty cycle / expected frequency of operation and duration of each operation: [a] hardly ever operated, but often including the proviso that when called upon, must operate reliably; operated once to several times per week, or [c] per day or [d] per hour
Power supply: DC, fixed frequency AC and, in specialized applications, variable frequency AC
Control schemes: manual, meaning by an operator's hand on a pistol-grip switch or finger on a pushbutton; automatic with optional manual control; fully automatic
Means of limiting travel of valve: straightforward limit switches or the more elegant torque-limiting controllers, which often do a better job of fully closing valves in severe duty applications, such as high-pressure steam line drain valves
And finally, one of our contributors uses the tag line: "Quality, qunatity, and price: pick two."
Hope this helps.
CR
"As iron sharpens iron, so one person sharpens another." [Proverbs 27:17, NIV]
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