Hello, I'm an HVAC guy with a ho
Hello, I'm an HVAC guy with a ho
(OP)
Hello,
I'm an HVAC guy with a hobby of flight simulators. I'm working on some projects for force cueing hardware.
I use pneumatic cylinders pressurized by an I/P to apply a proportional force. This works great, but others don't have the option of compressed air. And, there are the hazards of working with pneumatics.
Question: Is there a electric actuator that can be driven to provide a proportional force?
Thanks
I'm an HVAC guy with a hobby of flight simulators. I'm working on some projects for force cueing hardware.
I use pneumatic cylinders pressurized by an I/P to apply a proportional force. This works great, but others don't have the option of compressed air. And, there are the hazards of working with pneumatics.
Question: Is there a electric actuator that can be driven to provide a proportional force?
Thanks





RE: Hello, I'm an HVAC guy with a ho
RE: Hello, I'm an HVAC guy with a ho
RE: Hello, I'm an HVAC guy with a ho
http://www.thomasregister.com
and type Actuators: Electrical under Product or Service, which returns 171 companies to approach to.
It appears to be feasible: Visit
http://www.bray.com/docs/Brochures/cd-act-NR090.pdf
for a sample
RE: Hello, I'm an HVAC guy with a ho
Sorry, I wasn't clear in my first post. I use a pneumatic actuator as a force transducer. Votage to Force. I use an E/P(electronic pressure regulator) to supply a proprtional air pressure to the pneumatic cylinder. I drive the E/P with 0-10VDC. The rig applies a constant force regardless of position(within cylinder stroke.
I use this to apply force feedback to things like rudder pedals and joystick. I'm looking to apply forces in the 200-300lb. ballpark.
Thanks,
Craig
RE: Hello, I'm an HVAC guy with a ho
The problem you are going to have in directly replacing a hydraulic or pneumatic cylinder is that for the time being, electric acuators convert rotary motion to linear for the purpose of movement. You are not really wanting a linear actuator as much as a force actuator. A linear motor would possibly do it, but I'm not sure if they are marketed yet for that purpose. Do a google search on that term and see what you find.
A different approach however would be to change from your cylinder method to a rotary motor type of system where your pedal connects to a rotaing shaft. Then you can use a servo motor to apply a precise force to the shaft and maintain it at whatever level you want.
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RE: Hello, I'm an HVAC guy with a ho
Thanks for the feedback. I'll search "linear motor".
You wrote:
"A different approach however would be to change from your cylinder method to a rotary motor type of system where your pedal connects to a rotaing shaft."
I don't know what a "rotary motor" is. Can you drive this to a torque value???
RE: Hello, I'm an HVAC guy with a ho
http://www.manufacturing.net/ctl/article/CA194009
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RE: Hello, I'm an HVAC guy with a ho
Thread237-76060
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RE: Hello, I'm an HVAC guy with a ho
Thanks a bunch. I've been very intrigued by the suggestion in you're first post. If I understand it correctly, you apply enough power to a motor to output a desired torque.
You can stall a motor like this continuously? If so, does it take a certain type(i.e. 3 ph, DC, etc.)
It'd be great if I could take a single phase motor and drive it w/ a VFD. Refresh my memory please, can you reverse a single phase motor?
Thanks,
RE: Hello, I'm an HVAC guy with a ho
True Vector AC drives capable of torque control as you need are for 3 phase motors. However, most VFDs will accept 1 phase input, some even 120V, and give you a 230V 3 phase output anyway. So if you do not already have the motors it should be a moot point. Assuming that you do not need much power, the trick will be to find a smallish VFD with vector control. Several are available that are "Open Loop" vector, meaning that they calulate the required output based on current feedback signals, but those are not accurate at zero speed. You will need Closed Loop, where you have an encoder on the rotor or load shaft feeding rotor position into the drive. If your load is small, it might actually be more cost effective to go with a servo drive and motor. The position fedback is built-in.
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RE: Hello, I'm an HVAC guy with a ho
"I use this to apply force feedback to things like rudder pedals and joystick. I'm looking to apply forces in the 200-300lb. ballpark."
Did you mean inch-pounds or foot-pounds?
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RE: Hello, I'm an HVAC guy with a ho
Thanks so much for your time, really appreciate the help.
What do you think of this hair-brained idea?
http://mysite.verizon.net/vze323mw/sitebuildercontent/s...
Calc the force from the compression/extension of the spring and control the rod position with closed loop.
RE: Hello, I'm an HVAC guy with a ho
I suppose I don't really grasp what you are trying to accomplish. Are you trying to simulate the force required to push a pedal against a control cable going to a rudder or flap in an aircraft?
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RE: Hello, I'm an HVAC guy with a ho
1. Less friction
2. Less lubrication
3. Could be magnetically levitated
4. Less wear
5. Higher accuracy
6. Etc.
RE: Hello, I'm an HVAC guy with a ho
Sorry not to get back sooner, been real busy.
I'll try to explain better the concept. I have several places in my simulator where I'll need these "force transducers". I need to apply a force over a range of motion. Here's a sketch of the pedals:
http://mysite.verizon.net/vze323mw/sitebuildercontent/s...
This is my interpretation of your motor idea. The pedals need to rotate +/- 45 deg. The application of the force need to held constant while the pedals rotate.(NOT like pushing against a spring).
RE: Hello, I'm an HVAC guy with a ho
I feel like you EE's are ganging up on my mech. design.
One of my main design criteria is price. I'm looking to do this with cheap consumer products or components bought on eBay. I've been watching 1 phase to 3 phase speed controllers on eBay and it seems they can be had for a reasonable amount (~$100US).
I need to pull out my text books and size the motor for the torque I need. I'll post this for you to critique.
Thanks,
RE: Hello, I'm an HVAC guy with a ho
I just noticed I didn't answer this:
"I use this to apply force feedback to things like rudder pedals and joystick. I'm looking to apply forces in the 200-300lb. ballpark."
Did you mean inch-pounds or foot-pounds?
Yes, 200 -300 lbs force. WWII fighter plane develope tremendous forces on the rudder pedals and stick. When I'm done I'll have a fun way to get some aerobic excersize.
RE: Hello, I'm an HVAC guy with a ho
The "force transducer" is called "control loading". Seems they also like the EE approach.
RE: Hello, I'm an HVAC guy with a ho
I feel like you EE's are ganging up on my mech. design.
///Not really, I just provided options, which is normal in this Forum.\\\
One of my main design criteria is price. I'm looking to do this with cheap consumer products or components bought on eBay. I've been watching 1 phase to 3 phase speed controllers on eBay and it seems they can be had for a reasonable amount (~$100US).
///The linear electromechanical actuators are probably less expensive and will have lower operational and maintenance cost than various gears, and special mechanical and structural constructions.\\\
I need to pull out my text books and size the motor for the torque I need. I'll post this for you to critique.
///This is just a matter of aligning couple of curves, motor Torque-speed and Load-torque speed. I noticed that even some secretary girls can do that.\\\
RE: Hello, I'm an HVAC guy with a ho
...got the cylinder/spool-valve mounted with the spring. Below is a schematic of the basic components. It's not an exact component representation, just basic concept.
Here's the rig:
Here's a movie of the thing running:
http://simhardware.org//img/steering_rack02.WMV
RE: Hello, I'm an HVAC guy with a ho
"Venditori de oleum-vipera non vigere excordis populi"
RE: Hello, I'm an HVAC guy with a ho
It's been a while, but I'm still plugging away at finding an affordable electric force actuator design. Thanks again jraef and jbartos for the ideas.
I've gotten the electric actuator test rig assembled and running. This is a 1/2 HP(0.4 KW) motor driven by a TBWoods "Variable Frequency Drive" (VFD)http:
I'm experimenting with a "viscous coupling" to allow the motor to run at full load speed while providing a stalled torque output. I modified a automobile "fan clutch" on my test rig.
Initial performance is promising. The dynamic response is very good and the output torque is smooth and even. Now I need to gear-up the 2 ft-lbs torque to about 100 ft-lbs,